Section 90

EurekaMag Full Text Articles Chapter 89,504


Cariatore, N.; Otranto, S.; Wolff, W.; Luna, H.; Turco, F.; Fregenal, D.; Bernardi, G.; Suárez, S.; Schuch, R. 2017: Water fragmentation induced by ion impact: Fragment-ion-energy determination at different Z P /v regimes. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 408: 198-202
Sugawara, M.; Tago, M.; Komatsu, Y.; Beer, H. 2017: Water freezing at outdoor temperatures higher than 0 °C by the effect of radiative cooling. Heat and Mass Transfer 54(1): 1-6
Ayliffe, H.J. 1923: Water from Lourdes: Alleged Miracle at Llanthony. Notes and Queries s 13-I(21): 409-410
Jiang, Q.; Singamaneni, S. 2017: Water from Wood: Pouring through Pores. Joule 1(3): 429-430
Banks, D.; Athresh, A.; Al-Habaibeh, A.; Burnside, N. 2017: Water from abandoned mines as a heat source: practical experiences of open- and closed-loop strategies, United Kingdom. Sustainable Water Resources Management 5(1): 29-50
Mandal, C.S.; Agarwal, M.; Reddy, V.; Krishna Kudapa, V. 2021: Water from air – a sustainable source of water. Materials Today: Proceedings 46: 3352-3357
Issar, A.; Oron, G. 1982: Water from fossil aquifers as a potential supply source for solar desalination plants on a regional scale. Desalination 40(1-2): 25-32
Makukatin, S. 1994: Water from the African sun. IEEE Spectrum 31(10): 40-43
Groves, P. 2000: Water from the Well: the Reception of Chaucer's Metric. Parergon 17(2): 51-73
Hong, S.; Shen, T.; Song, J. 2016: Water front recession and the formation of various types of wrinkles in dried graphene oxide droplets. Carbon 105: 297-304
Clark, R.N. 1981: Water frost and ice: the near-infrared spectral reflectance 0.65-2.5 μm. Journal of Geophysical Research: Solid Earth 86(B 4): 3087-3096
Davies, M.; Matthews, N. 2021: Water futures along China's Belt and Road Initiative in Central Asia. International Journal of Water Resources Development 37(6): 955-975
Pinaeva, L.; Sadovskaya, E.; Ivanova, Y.; Kuznetsova, T.; Prosvirin, I.; Sadykov, V.; Schuurman, Y.; van Veen, A.; Mirodatos, C. 2014: Water gas shift and partial oxidation of CH4 over Ce O2–Zr O2(–La2O3) and Pt/Ce O2–Zr O2(–La2O3): Performance under transient conditions. Chemical Engineering Journal 257: 281-291
Bracht, M.; Alderliesten, P.; Kloster, R.; Pruschek, R.; Haupt, G.; Xue, E.; Ross, J.; Koukou, M.; Papayannakos, N. 1997: Water gas shift membrane reactor for CO2 control in IGCC systems: techno-economic feasibility study. Energy Conversion and Management 38: S159-S164
Ganzerla, R.; Pinna, F.; Lenarda, M.; Graziani, M. 1983: Water gas shift reaction catalyzed by iridium complexes supported on zeolites. Journal of Organometallic Chemistry 244(2): 183-189
Iwamoto, M. 1983: Water gas shift reaction catalyzed by metal ion-exchanged zeolites. Journal of Catalysis 79(2): 291-297
Ganzerla, R.; Lenarda, M.; Pinna, F.; Graziani, M. 1981: Water gas shift reaction catalyzed by osmium carbonyls supported on acid zeolite. Journal of Organometallic Chemistry 208(2): C43-C45
Kaspar, J.; Spogliarich, R.; Mestroni, G.; Graziani, M. 1981: Water gas shift reaction homogeneously catalyzed by [Ir(diene)L2]+ complexes. Journal of Organometallic Chemistry 208(1): C15-C17
Lee, S.H.; Park, S.T.; Lee, R.; Hwang, J.H.; Sohn, J.M. 2016: Water gas shift reaction in a catalytic bubbling fluidized bed reactor. Korean Journal of Chemical Engineering 33(12): 3523-3528
Buitrago, R.; Ruiz-Martínez, J.; Silvestre-Albero, J.; Sepúlveda-Escribano, A.; Rodríguez-Reinoso, F. 2012: Water gas shift reaction on carbon-supported Pt catalysts promoted by Ce O2. Catalysis Today 180(1): 19-24
Ahn, C.; Jeong, D.; Cho, J.M.; Na, H.; Jang, W.; Roh, H.; Choi, J.; Um, S.H.; Bae, J.W. 2016: Water gas shift reaction on the Mn-modified ordered mesoporous Co 3 O 4. Microporous and Mesoporous Materials 221: 204-211
Rad, A.R.S.; khoshgouei, M.b.; Rezvani, A.R. 2011: Water gas shift reaction over Zn–Ni/Si O2 catalyst prepared from [Zn(H2O)6]2[Ni(NCS)6]·H2O/Si O2 precursor. Journal of Molecular Catalysis A: Chemical 344(1-2): 11-17
Tepamatr, P.; Laosiripojana, N.; Charojrochkul, S. 2016: Water gas shift reaction over monometallic and bimetallic catalysts supported by mixed oxide materials. Applied Catalysis A: General 523: 255-262
Koponen, M.J.; Venäläinen, T.; Suvanto, M.; Kallinen, K.; Kinnunen, T.; Härkönen, M.; Pakkanen, T.A. 2006: Water gas shift reaction studies on 2% Pd/AMn1−x Fex O3 (A=Ba, La, Pr; x=0.4, 0.6) perovskites. Applied Catalysis A: General 311: 79-85
Tosti, S.; Borgognoni, F.; Rizzello, C.; Violante, V. 2009: Water gas shift reaction via Pd-based membranes. Asia-Pacific Journal of Chemical Engineering 4(3): 369-379
Kalousová, K.; Souček, O.; Tobie, G.; Choblet, G.; Čadek, O. 2016: Water generation and transport below Europa's strike-slip faults. Journal of Geophysical Research: Planets 121(12): 2444-2462
Srivastava, S.; Yadav, A. 2018: Water generation from atmospheric air by using composite desiccant material through fixed focus concentrating solar thermal power. Solar Energy 169: 302-315
Wang, L.; Zeng, C.; Meng, H.; Chang, W. 2016: Water geochemistry and dissolution rates of the karst-dominated Houzhai River basin, China. Toxicological-Environmental Chemistry 98(5-6): 648-657
Unnikrishnan, H.; B., M.; Nagendra, H.; Castán Broto, V. 2020: Water governance and the colonial urban project: the Dharmambudhi lake in Bengaluru, India. Urban Geography 42(3): 263-288
van Leeuwen, C.J. 2015: Water governance and the quality of water services in the city of Melbourne. Urban Water Journal 14(3): 247-254
Dirwai, T.L.; Senzanje, A.; Mudhara, M. 2018: Water governance impacts on water adequacy in smallholder irrigation schemes in Kwa Zulu-Natal province, South Africa. Water Policy 21(1): 127-146
Neto, S. 2016: Water governance in an urban age. Utilities Policy 43: 32-41
Rahayu, P.; Woltjer, J.; Firman, T. 2019: Water governance in decentralising urban Indonesia. Urban Studies 56(14): 2917-2934
Delgado, L.; De Ríos, R.; Perevochtchikova, M.; Marín, I.; Fuster, R.; Marín, V. 2021: Water governance in rural communities of Chiloé Island, southern Chile: a multi-level analysis. Journal of Rural Studies 83: 236-245
Nishiyama, H. 2005: Water gradient profiles at bean plant roots determined by neutron beam analysis. Journal of Radioanalytical and Nuclear Chemistry 264(2): 313-317
Rivera, J.M.; Glover, D.C.; Kocovsky, P.M.; Garvey, J.E.; Gaikowski, M.P.; Jensen, N.R.; Adams, R.F. 2017: Water guns affect abundance and behavior of bigheaded carp and native fish differently. Biological Invasions 20(5): 1243-1255
Dudlik, A.; Prasser, H. 2009: Water hammer and condensation hammer scenarios in power plants using new measurement system. Forschung im Ingenieurwesen 73(2): 67-76
Bouaziz, M.; Guidara, M.; Schmitt, C.; Hadj-Taïeb, E.; Azari, Z. 2014: Water hammer effects on a gray cast iron water network after adding pumps. Engineering Failure Analysis 44: 1-16
Prickett, R.P.; Mayer, E.; Hermel, J. 1992: Water hammer in a spacecraft propellant feed system. Journal of Propulsion and Power 8(3): 592-597
Kim, S.; Lee, K.; Kim, K. 2014: Water hammer in the pump-rising pipeline system with an air chamber. Journal of Hydrodynamics 26(6): 960-964
Chen, T.; Xu, C.; Lin, Q.; Loxton, R.; Teo, K.L. 2015: Water hammer mitigation via PDE-constrained optimization. Control Engineering Practice 45: 54-63
Xuan, L.; Mao, F.; Wu, J. 2012: Water hammer prediction and control: the Green's function method. Acta Mechanica Sinica 28(2): 266-273
Chen, G.; Cai, D. 2012: Water harvested from the air combined with solar power, shade and light providing system: Conception of water-saving irrigation. Procedia Environmental Sciences 13: 1003-1009
Caldas, L.; Andaloro, A.; Calafiore, G.; Munechika, K.; Taube, B.; Oliveira, M.; Cabrini, S. 2018: Water harvesting from fog using building envelopes: part Ii. Water and Environment Journal 32(3): 466-475
Ciuff, C. 1989: Water harvesting in arid lands. Desalination 72(1-2): 149-159
Hermanie, P.; van der Waarden, M. 1966: Water hazes in hydrocarbon liquids. Journal of Colloid and Interface Science 21(5): 513-521
McCrae, P.; Bradley, M.; Rolian, C.; Léguillette, R. 2021: Water height modifies forelimb kinematics of horses during water treadmill exercise. Comparative Exercise Physiology 17(1): 91-98
Luo, G.; Wu, S.; Zhao, Q.; Li, D.; Xiao, Z.; Dai, J. 2012: Water helicate (H2O)5 hosted by a novel 2D Co II-coordination framework with left- and right-handed helical units. Inorganic Chemistry Communications 20: 290-294
Lee, H.M.; Bum Suh, S.; Kim, K.S. 2003: Water heptamer with an excess electron: Ab initio study. The Journal of Chemical Physics 118(22): 9981-9986
Losada, M.; Leutwyler, S. 2002: Water hexamer clusters: Structures, energies, and predicted mid-infrared spectra. The Journal of Chemical Physics 117(5): 2003-2016
Tempelhoff, J.; Hoag, H.; Ertsen, M. 2009: Water history and the modern. Water History 1(2): 81-82
Park, S.; McFarlane, S.; Sundberg, A.; Mager, T.; van Schaik, H.; Boer, A.D.; Sheth, P.; Sheth, A. 2020: Water history in the time of COVID-19: cancelled conversations. Water History 12(3): 229-249
Ahmed, A.M.A.; Khan, S.J.; Mojumder, N.; Sharmin, F.; Rahman, A.; Bakar, M.A.; Chowdhury, J.K.H.; Azadi, M.A. 2016: Water hyacinth (Eichhornia crassipes fractions potentially normalize the lead (Pb) poisoning and enhance in vitro thrombolysis. Oriental Pharmacy and Experimental Medicine 16(4): 321-331
Adebayo, A.; Briski, E.; Kalaci, O.; Hernandez, M.; Ghabooli, S.; Beric, B.; Chan, F.; Zhan, A.; Fifield, E.; Leadley, T.; MacIsaac, H. 2011: Water hyacinth (Eichhornia crassipes) and water lettuce (Pistia stratiotes) in the Great Lakes: playing with fire?. Aquatic Invasions 6(1): 91-96
Allam, F.; Elnouby, M.; El-Khatib, K.; El-Badan, D.E.; Sabry, S.A. 2020: Water hyacinth (Eichhornia crassipes) biochar as an alternative cathode electrocatalyst in an air-cathode single chamber microbial fuel cell. International Journal of Hydrogen Energy 45(10): 5911-5927
VonBank, J.A.; Casper, A.F.; Pendleton, J.E.; Hagy, H.M. 2018: Water hyacinth (Eichhornia crassipes) invasion and establishment in a temperate river system. River Research and Applications 34(10): 1237-1243
Ajithram, A.; Winowlin Jappes, J.; Brintha, N. 2021: Water hyacinth (Eichhornia crassipes) natural composite extraction methods and properties – a review. Materials Today: Proceedings 45: 1626-1632
Carlini, M.; Castellucci, S.; Mennuni, A. 2018: Water hyacinth biomass: chemical and thermal pre-treatment for energetic utilization in anaerobic digestion process. Energy Procedia 148: 431-438
Güereña, D.; Neufeldt, H.; Berazneva, J.; Duby, S. 2015: Water hyacinth control in Lake Victoria: Transforming an ecological catastrophe into economic, social, and environmental benefits. Sustainable Production and Consumption 3: 59-69
Jackfama, T.; Moyo, M.; Nharingo, T.; Shumba, M.; Okonkwo, J. 2019: Water hyacinth modified carbon paste electrode for simultaneous electrochemical stripping analysis of Cd (II) and Pb (II). International Journal of Environmental Analytical Chemistry 99(1): 47-60
Merry M. Mitan, N. 2019: Water hyacinth: Potential and Threat. Materials Today: Proceedings 19: 1408-1412
Qiu, Z.; Huang, T.; Zhao, C.; Luo, J.; Hu, Z. 2017: Water hyacinth‐derived activated carbon/Ni O nanocomposite as a facile electrode material for high performance supercapacitor. Micro-Nano Letters 12(4): 231-235
Yaron, D.; Peterson, K.I.; Zolandz, D.; Klemperer, W.; Lovas, F.J.; Suenram, R.D. 1990: Water hydrogen bonding: the structure of the water–carbon monoxide complex. The Journal of Chemical Physics 92(12): 7095-7109
Rodrigo, K.; Schou, J.; Toftmann, B.; Pedrys, R. 2007: Water ice as a matrix for film production by matrix-assisted pulsed laser evaporation (MAPLE). Journal of Physics: Conference Series 59: 501-504
Rawlings, J. M C.; Williams, D A. 2020: Water ice deposition and growth in molecular clouds. Monthly Notices of the Royal Astronomical Society 500(4): 5117-5128
Duley, W.W.; Williams, D.A. 1995: Water ice formation on interstellar carbon dust: wet HAC (WHAC). Monthly Notices of the Royal Astronomical Society 272(2): 442-446
Dijkstra, C.; Dominik, C.; Hoogzaad, S.N.; de Koter, A.; Min, M. 2003: Water ice growth around evolved stars. Astronomy-Astrophysics 401(2): 599-611
Dijkstra, C.; Dominik, C.; Bouwman, J.; de Koter, A. 2006: Water ice growth around evolved stars. Astronomy-Astrophysics 449(3): 1101-1116
Barucci, M.; Fulchignoni, M.; Lazzarin, M. 1996: Water ice in primitive asteroids?. Planetary and Space Science 44(9): 1047-1049
Kereszturi, A.; Vincendon, M.; Schmidt, F. 2011: Water ice in the dark dune spots of Richardson crater on Mars. Planetary and Space Science 59(1): 26-42
Baragiola, R.A. 2003: Water ice on outer solar system surfaces: Basic properties and radiation effects. Planetary and Space Science 51(14-15): 953-961
Fornasier, S.; Dotto, E.; Barucci, M.A.; Barbieri, C. 2004: Water ice on the surface of the large TNO 2004 DW. Astronomy-Astrophysics 422(2): L43-L46
Brown, S. 2015: Water imagery and the power and presence of God in the Gospel of John. Theology Today 72(3): 289-298
Ramazani, F.; Ebrahimi, F. 2016: Water imbibition into nonpolar nanotubes with extended topological defects. Chemical Physics 476: 23-28
Goodwin, P.; Hartley, S.; Leyden, D. 2020: Water immersion Therapy in English premiership football and rugby union: a repeated survey of the 2007/8 and 2018/19 seasons. Physiotherapy 107: E141-E142
Hu, Y.; Li, X.; Lang, A.W.; Zhang, Y.; Nutt, S.R. 2016: Water immersion aging of polydicyclopentadiene resin and glass fiber composites. Polymer Degradation and Stability 124: 35-42
Mills, M.S.; Stirrat, G.M. 1996: Water immersion and water birth. Current Obstetrics-Gynaecology 6(1): 35-39
Trout Jr., O.F. 1967: Water immersion simulation of extravehicular activities by astronauts. Journal of Spacecraft and Rockets 4(6): 806-808
Hirano, Y.; Miura, K. 1970: Water impact accelerations of axially symmetric bodies. Journal of Spacecraft and Rockets 7(6): 762-764
Laguna-Martinez, M.G.; Garibay-Rodriguez, J.; Rico-Ramirez, V.; Castrejon-Gonzalez, E.O.; Ponce-Ortega, J.M. 2020: Water impact of an optimal natural gas production and distribution system: An MILP model and the case-study of Mexico. Chemical Engineering Research and Design 153: 887-906
Benson, H.E. 1966: Water impact of the Apollo spacecraft. Journal of Spacecraft and Rockets 3(8): 1282-1284
Ainslie, B.; France, P.; Newns, G. 1977: Water impurity in low-loss silica fibre. Materials Research Bulletin 12(5): 481-487
Schmädicke, E.; Gose, J.; Stalder, R. 2018: Water in Abyssal Peridotite: Why Are Melt-Depleted Rocks so Water Rich?. Geochemistry, Geophysics, Geosystems 19(6): 1824-1843
Trudu, F.; Tabacchi, G.; Gamba, A.; Fois, E. 2008: Water in Acid Boralites: Hydration Effects on Framework B Sites. The Journal of Physical Chemistry C 112(39): 15394-15401
Henry, W.B.; Krutz, L.J. 2016: Water in Agriculture: Improving Corn Production Practices to Minimize Climate Risk and Optimize Profitability. Current Climate Change Reports 2(2): 49-54
Erbil, Y.; Mouton, A. 2012: Water in Ancient Anatolian Religions: An Archaeological and Philological Inquiry on the Hittite Evidence. Journal of Near Eastern Studies 71(1): 53-74
D'Souza, R. 2006: Water in British India: the Making of a 'Colonial Hydrology'. History Compass 4(4): 621-628
Johnston, K.P.; Cho, D.; DaRocha, S.R.P.; Psathas, P.A.; Ryoo, W.; Webber, S.E.; Eastoe, J.; Dupont, A.; Steytler, D.C. 2001: Water in Carbon Dioxide Macroemulsions and Miniemulsions with a Hydrocarbon Surfactant. Langmuir 17(23): 7191-7193
Liu, Z.; Erkey, C. 2000: Water in Carbon Dioxide Microemulsions with Fluorinated Analogues of AOT. Langmuir 17(2): 274-277
Kayal, A.; Chandra, A. 2019: Water in Confinement between Nanowalls: Results for Hexagonal Boron Nitride versus Graphene Sheets from Ab Initio Molecular Dynamics. The Journal of Physical Chemistry C 123(10): 6130-6140
Havill, D. 1982: Water in Desert Ecosystems. Journal of Arid Environments 5(2): 195-196
Tsuji, T. 2000: Water in Emission in the Infrared Space Observatory Spectrum of the Early M Supergiant Star μ Cephei. The Astrophysical Journal 540(2): L99-L102
Dabney, M Y.; Dabney, E.B.; Loranz, C P. 1933: Water in Epilepsy and Edema. Southern Medical Journal 26(1): 78-79
Noack, L.; Snellen, I.; Rauer, H. 2017: Water in Extrasolar Planets and Implications for Habitability. Space Science Reviews 212(1-2): 877-898
Kilburn, D.; Claude, J.; Mezzenga, R.; Dlubek, G.; Alam, A.; Ubbink, J. 2004: Water in Glassy Carbohydrates:  Opening it up at the Nanolevel. The Journal of Physical Chemistry B 108(33): 12436-12441
Hanley, C.; Freeman, R.L.; Fryar, A.E.; Sherman, A.R.; Edwards, E. 2019: Water in India and Kentucky: Developing an Online Curriculum with Field Experiences for High School Classes in Diverse Settings. Journal of Contemporary Water Research-Education 168(1): 78-92
Jobic, H.; Tuel, A.; Krossner, M.; Sauer, J. 1996: Water in Interaction with Acid Sites in H-ZSM-5 Zeolite Does not Form Hydroxonium Ions. a Comparison between Neutron Scattering Results and ab Initio Calculations. The Journal of Physical Chemistry 100(50): 19545-19550
Sansom, M.S.P.; Bond, P.; Beckstein, O.; Biggin, P.C.; Faraldo-Gómez, J.; Law, R.J.; Patargias, G.; Tieleman, D.P. 2008: Water in Ion Channels and Pores-Simulation Studies. Ion Channels: From Atomic Resolution Physiology to Functional Genomics: 66-83
Mizuno, F.; Arthur, T.S.; Takechi, K. 2016: Water in Ionic Liquid for Electrochemical Li Cycling. ACS Energy Letters 1(3): 542-547
Tsuji, T. 2001: Water in K and M giant stars unveiled by ISO. Astronomy-Astrophysics 376(1): L1-L4
Zhupankhan, A.; Tussupova, K.; Berndtsson, R. 2018: Water in Kazakhstan, a key in Central Asian water management. Hydrological Sciences Journal 63(5): 752-762
Rodríguez-Tapia, L.; Revollo-Fernández, D.A.; Morales-Novelo, J.A.; Medina-Rivas, C.M. 2021: Water in Mexican industry: an economic value study. Applied Economics 53(41): 4799-4809
Romero Lankao, P. 2010: Water in Mexico City: what will climate change bring to its history of water-related hazards and vulnerabilities?. Environment and Urbanization 22(1): 157-178
Kuyucak, N. 2021: Water in Mining and Environment for Sustainability. Mine Water and the Environment 40(4): 815-817
Brovchenko, I.; Oleinikova, A. 2007: Water in Nanopores:  III. Surface Phase Transitions of Water on Hydrophilic Surfaces. The Journal of Physical Chemistry C 111(43): 15716-15725
Cao, W.; Huang, L.; Ma, M.; Lu, L.; Lu, X. 2018: Water in Narrow Carbon Nanotubes: Roughness Promoted Diffusion Transition. The Journal of Physical Chemistry C 122(33): 19124-19132
Kumar, A.; Sahu, M.; Maitra, U. 2021: Water in Organic Solvents: Rapid Detection by a Terbium‐based turn‐off Luminescent Sensor. Asian Journal of Organic Chemistry 10(7): 1695-1699
Knight Lozano, H. 2015: Water in Paradise: California, Florida, and Environmental Rivalry in the Gilded Age. Environmental History 20(4): 619-644
Iwamoto, R.; Oguro, K.; Sato, M.; Iseki, Y. 2002: Water in Perfluorinated Sulfonic Acid Nafion Membranes. The Journal of Physical Chemistry B 106(28): 6973-6979
Nomura, H.; Walsh, C.; Heinzeller, D.; Millar, T.J. 2012: Water in Protoplanetary Disks. Proceedings of the International Astronomical Union 8(S 293): 235-237
Goodner, K.; Shattuck, G.C. 1930: Water in Relation to the Endemic Diarrheas in Yucatan 1. The American Journal of Tropical Medicine and Hygiene s 1-10(6): 427-433
Maekawa, H.; Saito, T.; Yokokawa, T. 1998: Water in Silicate Glass:  17O NMR of Hydrous Silica, Albite, and Na2Si4O9 Glasses. The Journal of Physical Chemistry B 102(39): 7523-7529
Konduri, S.; Tong, H.M.; Chempath, S.; Nair, S. 2008: Water in Single-Walled Aluminosilicate Nanotubes: Diffusion and Adsorption Properties. The Journal of Physical Chemistry C 112(39): 15367-15374
Berton, P.; Kelley, S.P.; Bridges, N.J.; Klingshirn, M.A.; Huddleston, J.G.; Willauer, H.D.; Baldwin, J.W.; Moody, M.L.; Rogers, R.D. 2019: Water in Solutions of Chaotropic and Kosmotropic Salts: a Differential Scanning Calorimetry Investigation. Journal of Chemical-Engineering Data 64(11): 4781-4792
Fornés, J.M.; López-Gunn, E.; Villarroya, F. 2021: Water in Spain: paradigm changes in water policy. Hydrological Sciences Journal: 1-11
Clarke, M.J.; Harrison, K.L.; Johnston, K.P.; Howdle, S.M. 1997: Water in Supercritical Carbon Dioxide Microemulsions:  Spectroscopic Investigation of a new Environment for Aqueous Inorganic Chemistry. Journal of the American Chemical Society 119(27): 6399-6406
Lemaire, P.; Waiveris, C. 2005: Water in a Coiled Hose. The Physics Teacher 43(4): 239-242
Baer, A.; Miličević, Z.; Smith, D.M.; Smith, A. 2019: Water in an electric field does not dance alone: the relation between equilibrium structure, time dependent viscosity and molecular motions. Journal of Molecular Liquids 282: 303-315
Rotenberg, B. 2014: Water in clay nanopores. MRS Bulletin 39(12): 1074-1081
Wiggins, P. M. 2002: Water in complex environments such as living systems. Physica A: Statistical Mechanics and its Applications 314(1-4): 485-491
Teixeira, J.; Zanotti, J.; Bellissent-Funel, M.; Chen, S. 1997: Water in confined geometries. Physica B: Condensed Matter 234-236: 370-374
Ricci, M A.; Bruni, F.; Gallo, P.; Rovere, M.; Soper, A K. 2000: Water in confined geometries: experiments and simulations. Journal of Physics: Condensed Matter 12(8A): A345-A350
Schmädicke, E.; Gose, J. 2020: Water in garnet of garnetite (metarodingite) and eclogite from the Erzgebirge and the Lepontine Alps. Journal of Metamorphic Geology 38(9): 905-933
Li, H.; Chen, R.; Zheng, Y.; Hu, Z. 2018: Water in garnet pyroxenite from the Sulu orogen: Implications for crust-mantle interaction in continental subduction zone. Chemical Geology 478: 18-38
Xiaozhi, Y.; Qunke, X.; Deloule, E.; Qicheng, F.; Yaritao, H. 2007: Water in granulites: implications for the nature and evolution of the lower continental crust. Progress in Natural Science 17(2): 117-130
Englert, G.; Wittmann, F. 1968: Water in hardened cement paste. Matériaux et Constructions 1(6): 535-546
Huizinga, R.P.; Enserink, B. 2020: Water in military stabilisation operations: comprehensive water intervention framework for conflict management and peacekeeping. Water Policy 22(1): 85-101
Dušek, R.; Popelková, R. 2019: Water in most important towns of the Czech Republic. Journal of Maps 15(2): 425-435
Stanley, H.; Buldyrev, S.; Kumar, P.; Mallamace, F.; Mazza, M.; Stokely, K.; Xu, L.; Franzese, G. 2011: Water in nanoconfined and biological environments. Journal of Non-Crystalline Solids 357(2): 629-640
Brovchenko, I.; Geiger, A. 2002: Water in nanopores in equilibrium with a bulk reservoir - Gibbs ensemble Monte Carlo simulations. Journal of Molecular Liquids 96-97: 195-206
Brovchenko, I.; Geiger, A.; Oleinikova, A. 2004: Water in nanopores: II. the liquid–vapour phase transition near hydrophobic surfaces. Journal of Physics: Condensed Matter 16(45): S5345-S5370
Luck, W.A.P. 1987: Water in nonaqueous solvents. Pure and Applied Chemistry 59(9): 1215-1228
Silva, P.S.; Morelli, S.; Dragosavac, M.M.; Starov, V.M.; Holdich, R.G. 2017: Water in oil emulsions from hydrophobized metal membranes and characterization of dynamic interfacial tension in membrane emulsification. Colloids and Surfaces A: Physicochemical and Engineering Aspects 532: 77-86
Cazabat, A. 1983: Water in oil microemulsions : criteria for dilution at constant droplet size. Journal de Physique Lettres 44(14): 593-599
Tignino, M.; Irmakkesen, . 2020: Water in peace operations: the case of Haiti. Review of European, Comparative-International Environmental Law 29(1): 33-43
Eikerling, M.; Kornyshev, A.A.; Kucernak, A.R. 2006: Water in polymer electrolyte fuel cells: Friend or foe?. Physics Today 59(10): 38-44
Scherer, J.R.; Bailey, G.F.; Kint, S.; Young, R.; Malladi, D.P.; Bolton, B. 1985: Water in polymer membranes. 4. Raman scattering from cellulose acetate films. The Journal of Physical Chemistry 89(2): 312-319
Scherer, J.R.; Bolton, B.A. 1985: Water in polymer membranes. 5. on the existence of pores and voids. The Journal of Physical Chemistry 89(16): 3535-3540
Scherer, J.R.; Bailey, G. 1983: Water in polymer membranes. Part i. Journal of Membrane Science 13(1): 29-41
Spohr, E.; Hartnig, C.; Gallo, P.; Rovere, M. 1999: Water in porous glasses. a computer simulation study. Journal of Molecular Liquids 80(2-3): 165-178
Eckert, H.; Yesinowski, J.P.; Silver, L.A.; Stolper, E.M. 1988: Water in silicate glasses: quantitation and structural studies by proton solid echo and magic angle spinning NMR methods. The Journal of Physical Chemistry 92(7): 2055-2064
Mendonça, C.R.B.; Bica, C.I.D.; Piatnicki, C.M.S. 2003: Water in soybean oil microemulsions as medium for electrochemical measurements. Journal of the Brazilian Chemical Society 14(4): 628-636
Ozeki, S.; Masuda, Y.; Nishimoto, Y.; Henmi, T. 1994: Water in spherical, cylindrical and slitlike pores. Characterization of Porous Solids III: 179-186
Beran, A.; Koeberl, C. 1997: Water in tektites and impact glasses by fourier-transformed infrared spectrometry. Meteoritics-Planetary Science 32(2): 211-216
Ansell, F.G. 1906: Water in the Brewery. Journal of the Institute of Brewing 12(6): 570-571
Cressey, G.B. 1957: Water in the Desert1. Annals of the Association of American Geographers 47(2): 105-124
Peslier, A.H.; Schönbächler, M.; Busemann, H.; Karato, S. 2017: Water in the Earth's Interior: Distribution and Origin. Space Science Reviews 212(1-2): 743-810
Breuer, D.; Plesa, A.; Tosi, N.; Grott, M. 2016: Water in the Martian interior-The geodynamical perspective. Meteoritics-Planetary Science 51(11): 1959-1992
Audouard, J.; Poulet, F.; Vincendon, M.; Milliken, R.E.; Jouglet, D.; Bibring, J.; Gondet, B.; Langevin, Y. 2014: Water in the Martian regolith from OMEGA/Mars Express. Journal of Geophysical Research: Planets 119(8): 1969-1989
Li, H.; Wang, W.; Zhan, H.; Qiu, F.; Guo, Q.; Zhang, G. 2014: Water in the Mogao Grottoes, China: where it comes from and how it is driven. Journal of Arid Land 7(1): 37-45
Hauri, E.H.; Saal, A.E.; Rutherford, M.J.; Van Orman, J.A. 2015: Water in the Moon's interior: Truth and consequences. Earth and Planetary Science Letters 409: 252-264
Chief, K. 2020: Water in the Native World. Journal of Contemporary Water Research-Education 169(1): 1-7
Omer, A.M. 2007: Water in the Sudan. Water International 32(Suppl 1): 894-903
Fahlund, A.; Choy, M.L.J.; Szeptycki, L. 2014: Water in the West. California Journal of Politics and Policy 6(1): 1-42
Gapp, I. 2021: Water in the Wilderness: the Group of Seven and the Coastal Identity of Lake Superior. Journal of Canadian Studies 55(3): 590-620
Vörösmarty, C.J.; Pahl-Wostl, C.; Bhaduri, A. 2013: Water in the anthropocene: new perspectives for global sustainability. Current Opinion in Environmental Sustainability 5(6): 535-538
Stevens, B.; Bony, S. 2013: Water in the atmosphere. Physics Today 66(6): 29-34
Davis, T.A. 2017: Water in the desert. MRS Bulletin 42(03): 185-187
Rickman, H.; Błęcka, M.; Gurgurewicz, J.; Jørgensen, U.; Słaby, E.; Szutowicz, S.; Zalewska, N. 2019: Water in the history of Mars: An assessment. Planetary and Space Science 166: 70-89
Ghosh, N.; Roy, S.; Ahmed, M.; Mondal, J.A. 2018: Water in the hydration shell of cryoprotectants and their non-cryoprotecting structural analogues as observed by Raman-MCR spectroscopy. Journal of Molecular Liquids 266: 118-121
van der Tak, F.F.S. 2015: Water in the interstellar media of galaxies. Proceedings of the International Astronomical Union 11(A 29B): 395-399
Ipšić, I.; Lazarević, I. 2019: Water in the urban space of Dubrovnik. Povijesni prilozi 38(56): 181-198
Stephant, A.; Remusat, L.; Robert, F. 2017: Water in type i chondrules of Paris CM chondrite. Geochimica et Cosmochimica Acta 199: 75-90
Seligman, A.N.; Bindeman, I.N.; Watkins, J.M.; Ross, A.M. 2016: Water in volcanic glass: from volcanic degassing to secondary hydration. Geochimica et Cosmochimica Acta 191: 216-238
Line, C.; Kearley, G.; Suard, E.; Fitch, A.; Swainson, I. 1997: Water in wairakite: a water-zeolite model system. Physica B: Condensed Matter 234-236: 79-81
Fois, E.; Tabacchi, G. 2019: Water in zeolite L and its MOF mimic. Zeitschrift für Kristallographie - Crystalline Materials 234(7-8): 495-511
Sugino, M.; Hatanaka, K.; Miyano, T.; Hisaki, I.; Miyata, M.; Sakon, A.; Uekusa, H.; Tohnai, N. 2014: Water inclusion as a trigger for modulation of anthracene arrangement and fluorescence emission of organic salt. Tetrahedron Letters 55(3): 732-736
Yu, J.; Lee, J.; Maier, J. 2010: Water incorporation in oxides: a moving boundary problem. Solid State Ionics 181(3-4): 154-162
Marcus, M.A.; Finn, P.L. 1988: Water incorporation into a micellar-lamellar phase (dodecyl maltoside-water). Liquid Crystals 3(3): 381-384
Noirault, S.; Celerier, S.; Joubert, O.; Caldes, M.; Piffard, Y. 2007: Water incorporation into the (Ba1−x Lax)2In2O5+x□1−x (0≤x<0.6) system. Solid State Ionics 178(23-24): 1353-1359
Noirault, S.; Quarez, E.; Piffard, Y.; Joubert, O. 2009: Water incorporation into the Ba2(In1− x Mx)2O5‪ (M=Sc3+ 0≤x<0.5 and M=Y3+ 0≤x<0.35) system and protonic conduction. Solid State Ionics 180(20-22): 1157-1163
Orera, A.; Slater, P. 2010: Water incorporation studies in apatite-type rare earth silicates/germanates. Solid State Ionics 181(3-4): 110-114
Kruth, A. 2003: Water incorporation studies on doped barium cerate perovskites. Solid State Ionics 162-163: 83-91
Li, X.; Xi, Y.; Hu, C.; Wang, X. 2013: Water induced size and structure phase transition of Cd S crystals and their photocatalytic property. Materials Research Bulletin 48(2): 295-299
Chang, J.; Chang, K.L.; Chi, C.; Zhang, J.; Wu, J. 2014: Water induced zinc oxide thin film formation and its transistor performance. J. Mater. Chem. C 2(27): 5397-5403
Cheng, P.; Zhao, L.; Zhang, S.; Li, L.; Shen, Z.; Ning, P.; Zhang, Z. 2017: Water inflow forecasting for tunnel considering nonlinear variation of permeability coefficient. Journal of Central South University 24(7): 1612-1618
Apaydin, A.; Korkmaz, N.; Ciftci, D. 2018: Water inflow into tunnels: assessment of the Gerede water transmission tunnel (Turkey) with complex hydrogeology. Quarterly Journal of Engineering Geology and Hydrogeology 52(3): 346-359
Jarvis, M.G.; Closs, G.P. 2019: Water infrastructure and the migrations of amphidromous species: impacts and research requirements. Journal of Ecohydraulics 4(1): 4-13
Molden, D.J.; Vaidya, R.A.; Shrestha, A.B.; Rasul, G.; Shrestha, M.S. 2014: Water infrastructure for the Hindu Kush Himalayas. International Journal of Water Resources Development 30(1): 60-77
Luo, M.; Fu, Y.; Hu, B.; Wang, D.; Wang, B.; Mao, G. 2019: Water inhibits the conversion and coking of olefins on SAPO-34. Applied Catalysis A: General 570: 209-217
Habiyaremye, A. 2020: Water innovation in South Africa: Mapping innovation successes and diffusion constraints. Environmental Science-Policy 114: 217-229
Shi, L.; Qiu, M.; Wei, W.; Xu, D.; Han, J. 2014: Water inrush evaluation of coal seam floor by integrating the water inrush coefficient and the information of water abundance. International Journal of Mining Science and Technology 24(5): 677-681
Nounkeu, C.D.; Dharod, J.M. 2018: Water insecurity among rural households of West Cameroon: lessons learned from the field. Journal of Water, Sanitation and Hygiene for Development 8(3): 585-594
Tallman, P.S. 2019: Water insecurity and mental health in the Amazon: Economic and ecological drivers of distress. Economic Anthropology 6(2): 304-316
Drew, G.; M. G., D.; Jyotishi, A.; Suripeddi, S. 2021: Water insecurity and patchwork adaptability in Bangalore's low-income neighbourhoods. Water International 46(6): 900-918
Jepson, W.; Wutich, A.; Empinotti, V.L.; Jacobi, P.R. 2021: Water insecurity and the state: failure, disconnection and autonomy. Water International 46(6): 779-782
Staddon, C.; Everard, M.; Mytton, J.; Octavianti, T.; Powell, W.; Quinn, N.; Uddin, S.M.N.; Young, S.L.; Miller, J.D.; Budds, J.; Geere, J.; Meehan, K.; Charles, K.; Stevenson, E.G.J.; Vonk, J.; Mizniak, J. 2020: Water insecurity compounds the global coronavirus crisis. Water International 45(5): 416-422
Desai, T.; Shah, P.; Suthar, B. 1988: Water insoluble polyacrylamide part VI: Dilute solution properties of poly(N-acryloyl-m-aminobenzoic acid). Journal of Polymer Science Part B: Polymer Physics 26(3): 491-499
Vance, W.B. 1967: Water intake of hyposalemic anosmic rats. Psychonomic Science 9(5): 297-298
Thomsen, C.E.; Clewe, T.H. 1969: Water intake, spontaneous learning for food, activity, and manipulation for talapoin and squirrel monkeys. Psychonomic Science 17(1): 19-21
Rana, M.A. 2018: Water intakes of radiation damaged CR-39 radiation detector. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 437: 32-35
Ramos, M.A.; Boix, M.; Aussel, D.; Montastruc, L.; Domenech, S. 2016: Water integration in eco-industrial parks using a multi-leader-follower approach. Computers-Chemical Engineering 87: 190-207
Pincelli Chaves, L.; Mezzaroba Ortenzi Graciano, F.; Bim Júnior, O.; Ribeiro do Vale Pedreira, A.P.; Pigozzo Manso, A.; Wang, L. 2013: Water interaction with dental luting cements by means of sorption and solubility. Brazilian Dental Science 15(4): 29-35
Stehlik, S.; Glatzel, T.; Pichot, V.; Pawlak, R.; Meyer, E.; Spitzer, D.; Rezek, B. 2016: Water interaction with hydrogenated and oxidized detonation nanodiamonds - Microscopic and spectroscopic analyses. Diamond and Related Materials 63: 97-102
Fong-Padrón, C.; Cabaleiro-Lago, E.M.; Rodríguez-Otero, J. 2014: Water interaction with ion pairs from ionic liquids. Computational study and performance assessment of several common functionals. Chemical Physics Letters 593: 181-188
Richartz, T.; Galle, J.; Klose, G. 1997: Water interaction with oligo-(ethoxy) ethylene glycols. Chemical Physics Letters 271(1-3): 79-83
Kaptagay, G.; Inerbaev, T.; Mastrikov, Y.; Kotomin, E.; Akilbekov, A. 2015: Water interaction with perfect and fluorine-doped Co3O4 (100) surface. Solid State Ionics 277: 77-82
Tan, K.; Nijem, N.; Gao, Y.; Zuluaga, S.; Li, J.; Thonhauser, T.; Chabal, Y. J. 2015: Water interactions in metal organic frameworks. CrystEngComm 17(2): 247-260
Basinger, D. 1990: Water into Wine?. Faith and Philosophy 7(3): 369-371
Guo, C.; Li, H.; Tao, Y.; Lang, L.; Niu, Z. 2020: Water invasion and remaining gas distribution in carbonate gas reservoirs using core displacement and NMR. Journal of Central South University 27(2): 531-541
Marov, M.Y.; Ipatov, S.I. 2018: Water inventory from beyond the Jupiter's orbit to the terrestrial planets and the Moon. Proceedings of the International Astronomical Union 14(S 345): 164-167
Makgoba, T. 2018: Water is Life, Sanitation is Dignity. Anglican Theological Review 100(1): 113-118
Dambacher, J.; Zhao, W.; El-Batta, A.; Anness, R.; Jiang, C.; Bergdahl, M. 2005: Water is an efficient medium for Wittig reactions employing stabilized ylides and aldehydes. Tetrahedron Letters 46(26): 4473-4477
Tobia, K.P.; Newman, G.E.; Knobe, J. 2020: Water is and is not H 2 O. Mind-Language 35(2): 183-208
Schmidt, J.J. 2018: Water is for fighting over, and other myths about water in the west. Water International 43(3): 480-481
Velzeboer, L.; Hordijk, M.; Schwartz, K. 2018: Water is life in a life without water: Power and everyday water practices in Lilongwe, Malawi. Habitat International 73: 119-128
Jewett, C.; Garavan, M. 2018: Water is life – an indigenous perspective from a Standing Rock Water Protector. Community Development Journal 54(1): 42-58
Smith, K.T. 2015: Water isomers hide their origin. Science 351(6268): 37-39
Loughlin, K.F. 2009: Water isotherm models for 4A (Na A) zeolite. Adsorption 15(4): 337-353
Jones, T.R.; Cuffey, K.M.; White, J.W.C.; Steig, E.J.; Buizert, C.; Markle, B.R.; McConnell, J.R.; Sigl, M. 2017: Water isotope diffusion in the WAIS Divide ice core during the Holocene and last glacial. Journal of Geophysical Research: Earth Surface 122(1): 290-309
Gkinis, V.; Simonsen, S.; Buchardt, S.; White, J.; Vinther, B. 2014: Water isotope diffusion rates from the North GRIP ice core for the last 16,000 years – Glaciological and paleoclimatic implications. Earth and Planetary Science Letters 405: 132-141
Xu, X.; Werner, M.; Butzin, M.; Lohmann, G. 2012: Water isotope variations in the global ocean model MPI-OM. Geoscientific Model Development 5(3): 809-818
Pu, T.; Qin, D.; Kang, S.; Niu, H.; He, Y.; Wang, S. 2017: Water isotopes and hydrograph separation in different glacial catchments in the southeast margin of the Tibetan Plateau. Hydrological Processes 31(22): 3810-3826
Gkinis, V.; Popp, T.J.; Blunier, T.; Bigler, M.; Schüpbach, S.; Kettner, E.; Johnsen, S.J. 2011: Water isotopic ratios from a continuously melted ice core sample. Atmospheric Measurement Techniques 4(11): 2531-2542
Dumitru, O.A.; Forray, F.L.; Fornós, J.J.; Ersek, V.; Onac, B.P. 2016: Water isotopic variability in Mallorca: a path to understanding past changes in hydroclimate. Hydrological Processes 31(1): 104-116
Penchev, R.D.; Losanoff, J.E.; Kjossev, K.T.; Pojarliev, T.P. 1995: Water jet cholecystectomy and common bile duct lavage under videolaparoscopic guidance. Journal of Hepato-Biliary-Pancreatic Surgery 2(3): 284-287
Berman, L.E.; Hart, M. 1991: Water jet cooled silicon monochromators. Synchrotron Radiation News 4(1): 22-28
Rashed, C.; Romoli, L.; Tantussi, F.; Fuso, F.; Burgener, M.; Cusanelli, G.; Allegrini, M.; Dini, G. 2013: Water jet guided laser as an alternative to EDM for micro-drilling of fuel injector nozzles: a comparison of machined surfaces. Journal of Manufacturing Processes 15(4): 524-532
Zhao, Z.; Peles, Y.; Jensen, M.K. 2013: Water jet impingement boiling from structured-porous surfaces. International Journal of Heat and Mass Transfer 63: 445-453
Taylor, J.J.; Hoyt, J.W. 1983: Water jet photography - techniques and methods. Experiments in Fluids 1(3): 113-120
Bayer, I.S.; Davis, A.J.; Loth, E.; Steele, A. 2015: Water jet resistant superhydrophobic carbonaceous films by flame synthesis and tribocharging. Materials Today Communications 3: 57-68
Safelab Systems Ltd, 1989: Water jet vacuum runs minimum 15,000 h. Vacuum 39(6): 599-600
Annoni, M. 2012: Water jet velocity uncertainty in laser Doppler velocimetry measurements. Measurement 45(6): 1639-1650
Jurisevic, B.; Kuzman, K.; Junkar, M. 2005: Water jetting technology: an alternative in incremental sheet metal forming. International Journal of Advanced Manufacturing Technology 31(1-2): 18-23
van den Berge, J.; Vos, J.; Boelens, R. 2021: Water justice and Europe's Right2Water movement. International Journal of Water Resources Development: 1-19
Clark, C. 2018: Water justice struggles as a process of commoning. Community Development Journal 54(1): 80-99
Gangnat, I.D.M.; Kreuzer, M. 2021: Water kefir for weaned piglets: a pilot study on its farm‐scale production, its palatability and its effects on growth performance. JSFA reports 1(1): 11-16
Bruch, C.; Weinthal, E.; Troell, J. 2020: Water law and governance in post-conflict settings. Review of European, Comparative-International Environmental Law 29(1): 7-20
Larson, R. 2020: Water law and the response to COVID-19. Water International 45(7-8): 716-721
Schorr, D. 2014: Water law in British-ruled Palestine. Water History 6(3): 247-263
Roa-García, M.C.; Urteaga-Crovetto, P.; Bustamante-Zenteno, R. 2015: Water laws in the Andes: a promising precedent for challenging neoliberalism. Geoforum 64: 270-280
Monkenbusch, M. 1989: Water layers adsorbed on imidazole adlayers on graphite. Physica B: Condensed Matter 156-157: 137-139
Bruckard, W.; Davey, K.; Rodopoulos, T.; Woodcock, J.; Italiano, J. 2005: Water leaching and magnetic separation for decreasing the chloride level and upgrading the zinc content of EAF steelmaking baghouse dusts. International Journal of Mineral Processing 75(1-2): 1-20
Yang, K.; Liu, W.; Zhang, T.; Yao, L.; Qin, W. 2019: Water leaching of arsenic trioxide from metallurgical dust with emphasis on its kinetics. Journal of Central South University 26(9): 2328-2339
Nam, Y.W.; Arai, Y.; Kunizane, T.; Koizumi, A. 2021: Water leak detection based on convolutional neural network using actual leak sounds and the hold-out method. Water Supply 21(7): 3477-3485
Blázquez-García, A.; Conde, A.; Mori, U.; Lozano, J.A. 2021: Water leak detection using self-supervised time series classification. Information Sciences 574: 528-541
Agapiou, A.; Alexakis, D.D.; Themistocleous, K.; Hadjimitsis, D.G. 2014: Water leakage detection using remote sensing, field spectroscopy and GIS in semiarid areas of Cyprus. Urban Water Journal 13(3): 221-231
Kogawa, H.; Wakui, T.; Naoe, T.; Haga, K.; Takada, H.; Futakawa, M. 2020: Water leakage due to the welding defect and improvement to reach 1-MW beam operation in the mercury target of J-PARC. Journal of Nuclear Science and Technology 57(5): 487-494
Birek, L.; Petrovic, D.; Boylan, J. 2014: Water leakage forecasting: the application of a modified fuzzy evolving algorithm. Applied Soft Computing 14: 305-315
Miláčková, I.; Meščanová, M.; Ševčíková, V.; Mučaji, P. 2017: Water leaves extracts of Cornus mas and Cornus kousa as aldose reductase inhibitors: the potential therapeutic agents. Chemical Papers 71(12): 2335-2341
Demir, V.; Keskin, A.. 2020: Water level change of lakes and sinkholes in Central Turkey under anthropogenic effects. Theoretical and Applied Climatology 142(3-4): 929-943
Li, S.; Chen, J.; Xiang, J.; Pan, Y.; Huang, Z.; Wu, Y. 2019: Water level changes of Hulun Lake in Inner Mongolia derived from Jason satellite data. Journal of Visual Communication and Image Representation 58: 565-575
Becker, J.M.; Merrifield, M.A.; Ford, M. 2014: Water level effects on breaking wave setup for Pacific Island fringing reefs. Journal of Geophysical Research: Oceans 119(2): 914-932
Gownaris, N.; Rountos, K.; Kaufman, L.; Kolding, J.; Lwiza, K.; Pikitch, E. 2018: Water level fluctuations and the ecosystem functioning of lakes. Journal of Great Lakes Research 44(6): 1154-1163
Nguyen, P.K.; Chua, L.H.; Talei, A.; Chai, Q.H. 2016: Water level forecasting using neuro-fuzzy models with local learning. Neural Computing and Applications 30(6): 1877-1887
Jonsson, B.; Jonsson, N.; Jonsson, M. 2018: Water level influences migratory patterns of anadromous brown trout in small streams. Ecology of Freshwater Fish 27(4): 1066-1075
Kodeli, I.; Bignan, G. 1997: Water level monitoring after shutdown using neutron and gamma flux measurements in PWR. Annals of Nuclear Energy 24(7): 563-570
Mishra, V.K.; Pant, T. 2020: Water level monitoring using classification techniques on Landsat‐8 data at Sangam region, Prayagraj, India. IET Image Processing 14(15): 3733-3741
Munyaneza, O.; Wali, U.G.; Uhlenbrook, S.; Maskey, S.; Mlotha, M.J. 2009: Water level monitoring using radar remote sensing data: Application to Lake Kivu, central Africa. Physics and Chemistry of the Earth, Parts A/B/C 34(13-16): 722-728
Bandini, F.; Butts, M.; Jacobsen, T.V.; Bauer-Gottwein, P. 2017: Water level observations from unmanned aerial vehicles for improving estimates of surface water-groundwater interaction. Hydrological Processes 31(24): 4371-4383
Chaudhary, P.; D'Aronco, S.; Leitão, J.; Schindler, K.; Wegner, J. 2020: Water level prediction from social media images with a multi-task ranking approach. ISPRS Journal of Photogrammetry and Remote Sensing 167: 252-262
Aretxabaleta, A.L.; Butman, B.; Ganju, N.K. 2014: Water level response in back‐barrier bays unchanged following Hurricane Sandy. Geophysical Research Letters 41(9): 3163-3171
Shen, J.; Gong, W.; Wang, H.V. 2006: Water level response to 1999 Hurricane Floyd in the Chesapeake Bay. Continental Shelf Research 26(19): 2484-2502
Loizou, K.; Koutroulis, E. 2016: Water level sensing: State of the art review and performance evaluation of a low-cost measurement system. Measurement 89: 204-214
Hess, K. 2003: Water level simulation in bays by spatial interpolation of tidal constituents, residual water levels, and datums. Continental Shelf Research 23(5): 395-414
Thakur, P.K.; Garg, V.; Kalura, P.; Agrawal, B.; Sharma, V.; Mohapatra, M.; Kalia, M.; Aggarwal, S.P.; Calmant, S.; Ghosh, S.; Dhote, P.R.; Sharma, R.; Chauhan, P. 2021: Water level status of Indian reservoirs: a synoptic view from altimeter observations. Advances in Space Research 68(2): 619-640
Chai, Y.; Li, Y.; Yang, Y.; Li, S.; Zhang, W.; Ren, J.; Xiong, H. 2018: Water level variation characteristics under the impacts of extreme drought and the operation of the Three Gorges Dam. Frontiers of Earth Science 13(3): 510-522
Minke, M.; Augustin, J.; Burlo, A.; Yarmashuk, T.; Chuvashova, H.; Thiele, A.; Freibauer, A.; Tikhonov, V.; Hoffmann, M. 2016: Water level, vegetation composition, and plant productivity explain greenhouse gas fluxes in temperate cutover fens after inundation. Biogeosciences 13(13): 3945-3970
Marecos, J. 1981: Water levelling method in observation of structures. Matériaux et Constructions 14(1): 69-73
Hardie, S.A.; Chilcott, M.A. 2016: Water levels in a highland lake control the quantity and quality of spawning habitat for a littoral-spawning galaxiid fish. Aquatic Conservation: Marine and Freshwater Ecosystems 27(1): 24-38
Belyazid, S.; Giuliana, Z. 2019: Water limitation can negate the effect of higher temperatures on forest carbon sequestration. European Journal of Forest Research 138(2): 287-297
Tolchenov, R.N.; Tennyson, J. 2005: Water line parameters for weak lines in the range 7400–9600cm−1. Journal of Molecular Spectroscopy 231(1): 23-27
Tolchenov, R.N.; Tennyson, J.; Shirin, S.V.; Zobov, N.F.; Polyansky, O.L.; Maurellis, A.N. 2003: Water line parameters for weak lines in the range 9000–12700cm−1. Journal of Molecular Spectroscopy 221(1): 99-105
Singh, S.; Bhim, A. 2016: Water linked 3D coordination polymers: Syntheses, structures and applications. Journal of Solid State Chemistry 244: 151-159
Hawke, S.M. 2012: Water literacy: An 'other wise', active and cross-cultural approach to pedagogy, sustainability and human rights. Continuum 26(2): 235-247
Lehmann, C.; Beckert, S.; Nonnen, T.; Gläser, R.; Kolditz, O.; Nagel, T. 2017: Water loading lift and heat storage density prediction of adsorption heat storage systems using Dubinin-Polanyi theory- Comparison with experimental results. Applied Energy 207: 274-282
Campbell, B.E.; Miller, D.M.; Devries, Z.C.; Appel, A.G. 2017: Water loss and metabolic activity in bed bug eggs (Cimex lectularius). Physiological Entomology 42(4): 355-361
Finch, M.A.; Weinberg, R.F.; Hunter, N.J. 2016: Water loss and the origin of thick ultramylonites. Geology 44(8): 599-602
Peto, R.H.K.; Greene, H. 1929: Water loss at Wad Medani. Part i. The Journal of Agricultural Science 19(4): 715-726
de Santi, A.D.; Cetrulo, T.B.; Malheiros, T.F. 2020: Water loss control practices in developing countries: a case study of a Brazilian region. Water Supply 21(2): 848-858
Kronenberg, A.K.; Ashley, K.T.; Francsis, M.K.; Holyoke Iii, C.W.; Jezek, L.; Kronenberg, J.A.; Law, R.D.; Thomas, J.B. 2020: Water loss during dynamic recrystallization of Moine thrust quartzites, northwest Scotland. Geology 48(6): 557-561
Holmes, J.L.; Dakubu, M.; Rye, R.T.B. 1981: Water loss from [C5H10O]+˙ isomers: a reassessment. Organic Mass Spectrometry 16(1): 1-4
Folk, T.L.; Wideman, L.G.; Cottman, K.S. 1979: Water loss from ester molecular ions upon electron impact. Organic Mass Spectrometry 14(5): 286-288
Bolmont, E.; Selsis, F.; Owen, J.E.; Ribas, I.; Raymond, S.N.; Leconte, J.; Gillon, M. 2016: Water loss from terrestrial planets orbiting ultracool dwarfs: implications for the planets of TRAPPIST-1. Monthly Notices of the Royal Astronomical Society 464(3): 3728-3741
Al-Ansari, N.; Al-Oun, S.; Hadad, W.; Knutsson, S. 2013: Water loss in Mafraq Governorate, Jordan. Natural Science 05(03): 333-340
Doménech-Sánchez, A.; Laso, E.; Berrocal, C.I. 2021: Water loss in swimming pool filter backwashing processes in the Balearic Islands (Spain). Water Policy 23(5): 1314-1328
Renaud, E.; Pillot, J.; Aubrun, C.; Bréjoux, E.; Augeard, B. 2017: Water loss reduction: a new approach to achieve real water savings and environmental benefits. Water Supply 18(1): 251-258
Martins, R.; Coelho, F.; Fortunato, A. 2011: Water losses and hydrographical regions influence on the cost structure of the Portuguese water industry. Journal of Productivity Analysis 38(1): 81-94
Cavaliere, A.; Maggi, M.; Stroffolini, F. 2017: Water losses and optimal network investments: Price regulation effects with municipalization and privatization. Water Resources and Economics 18: 1-19
Gumbo, B.; van der Zaag, P. 2002: Water losses and the political constraints to demand management: the case of the City of Mutare, Zimbabwe. Physics and Chemistry of the Earth, Parts A/B/C 27(11-22): 805-813
Francisque, A.; Tesfamariam, S.; Kabir, G.; Haider, H.; Reeder, A.; Sadiq, R. 2016: Water mains renewal planning framework for small to medium sized water utilities: a life cycle cost analysis approach. Urban Water Journal 14(5): 493-501
Jenkins, S. 1973: Water management (Gestion de l'eau). Water Research 7(11): 1739-1740
Díaz-Caravantes, R.E.; Scott, C.A. 2010: Water management and biodiversity conservation interface in Mexico: a geographical analysis. Applied Geography 30(3): 343-354
Tlili, I.; Alkanhal, T.A.; Othman, M.; Dara, R.N.; Shafee, A. 2019: Water management and desalination in KSA view 2030. Journal of Thermal Analysis and Calorimetry 139(6): 3745-3756
Cruz, J.V.; Melo, C.; Medeiros, D.; Costa, S.; Cymbron, R.; Rocha, S.; Medeiros, C.; Valente, A.; Mendes, S.; Silva, D.; Martins, F. 2017: Water management and planning in a small island archipelago: the Azores case study (Portugal) in the context of the Water Framework Directive. Water Policy 19(6): 1097-1118
Stevović, S.; Nestorović, .; Lutovac, M. 2017: Water management and sustainability of water resources. Water Supply 18(3): 976-983
Sun, Y.; Zong, X.; Qu, D.; Chen, G.; An, L.; Wang, X.; Sun, Z. 2021: Water management by hierarchical structures for highly efficient solar water evaporation. Journal of Materials Chemistry A 9(11): 7122-7128
Coletti, J.Z.; Vogwill, R.; Hipsey, M.R. 2017: Water management can reinforce plant competition in salt-affected semi-arid wetlands. Journal of Hydrology 552: 121-140
Li, C.; Si, D.; Liu, Y.; Zhang, J.; Liu, Y. 2021: Water management characteristics of electrospun micro-porous layer in PEMFC under normal temperature and cold start conditions. International Journal of Hydrogen Energy 46(19): 11150-11159
Rodriguez, A.F.; Daroub, S.H.; Gerber, S.; Jennewein, S.P.; Singh, M.P. 2021: Water management effect on soil oxidation, greenhouse gas emissions, and nitrogen leaching in drained peat soils. Soil Science Society of America Journal 85(3): 814-828
Agyenim, J.B.; Gupta, J. 2013: Water management in Ghana: between the idea and the implementation. Journal of Natural Resources Policy Research 5(1): 35-48
Kumar, M.D. 2017: Water management in India: the multiplicity of views and solutions. International Journal of Water Resources Development 34(1): 1-15
Madani, K. 2014: Water management in Iran: what is causing the looming crisis?. Journal of Environmental Studies and Sciences 4(4): 315-328
Janjua, S.; Hassan, I.; Muhammad, S.; Ahmed, S.; Ahmed, A. 2021: Water management in Pakistan's Indus Basin: challenges and opportunities. Water Policy 23(6): 1329-1343
Aldrees, A. 2021: Water management in Saudi Arabia: a case study of Makkah Al Mukarramah region. Environment, Development and Sustainability 23(9): 13650-13666
Coz, E.; Théry, J.; Boillat, P.; Faucheux, V.; Alincant, D.; Capron, P.; Gébel, G. 2016: Water management in a planar air-breathing fuel cell array using operando neutron imaging. Journal of Power Sources 331: 535-543
Spanoudi, S.; Golfinopoulos, A.; Kalavrouziotis, I. 2021: Water management in ancient Alexandria, Egypt. Comparison with Constantinople hydraulic system. Water Supply 21(7): 3427-3436
Gambi, G.; Maglionico, M.; Tondelli, S. 2011: Water management in local development plans: the case of the old Fruit and Vegetable Market in Bologna. Procedia Engineering 21: 1110-1117
Müller, M.; Carmo, M.; Glüsen, A.; Hehemann, M.; Saba, S.; Zwaygardt, W.; Stolten, D. 2019: Water management in membrane electrolysis and options for advanced plants. International Journal of Hydrogen Energy 44(21): 10147-10155
Tortajada, C.; Biswas, A.K. 2020: Water management in post-2020 world. International Journal of Water Resources Development 36(6): 874-878
Morin, A.; Peng, Z.; Jestin, J.; Detrez, M.; Gebel, G. 2013: Water management in proton exchange membrane fuel cell at sub-zero temperatures: An in operando SANS-EIS coupled study. Solid State Ionics 252: 56-61
Arístide, P. 2016: Water management in the Argentine semiarid Chaco: a historical perspective on social-ecological systems. Water History 9(2): 215-230
Styles, D.; Schoenberger, H.; Galvez-Martos, J.L. 2015: Water management in the European hospitality sector: Best practice, performance benchmarks and improvement potential. Tourism Management 46: 187-202
Quynh, L.X.; Hens, L.; Stoyanov, S. 2011: Water management in the framework of environmental management systems in Bulgarian seaports. Physics and Chemistry of the Earth, Parts A/B/C 36(5-6): 141-149
Bassett, M. R.; Overton, G.; McNeil, S. 2014: Water management in walls with direct-fixed claddings. Journal of Building Physics 38(6): 560-576
Bavar, M.; Sarrafzadeh, M.; Asgharnejad, H.; Norouzi-Firouz, H. 2018: Water management methods in food industry: Corn refinery as a case study. Journal of Food Engineering 238: 78-84
Hjorth, P.; Dan, N.T. 1994: Water management options for urban areas in Asia. Cities 11(2): 125-130
Akhmadiyeva, Z.; Abdullaev, I. 2019: Water management paradigm shifts in the Caspian Sea region: Review and outlook. Journal of Hydrology 568: 997-1006
Rusca, M.; Heun, J.; Schwartz, K. 2012: Water management simulation games and the construction of knowledge. Hydrology and Earth System Sciences 16(8): 2749-2757
Sharma, G.; Namchu, C.; Nyima, K.; Luitel, M.; Singh, S.; Goodrich, C.G. 2019: Water management systems of two towns in the Eastern Himalaya: case studies of Singtam in Sikkim and Kalimpong in West Bengal states of India. Water Policy 22(S 1): 107-129
Zulfiqar, F.; Abid, M.; Ullah, R.; Shahzad, S. 2021: Water management under climate change: the role of water commons and policy options. Water and Environment Journal 35(4): 1217-1225
Gino Sophia, S.G.; Ceronmani Sharmila, V.; Suchitra, S.; Sudalai Muthu, T.; Pavithra, B. 2020: Water management using genetic algorithm-based machine learning. Soft Computing 24(22): 17153-17165
Maganda, C.; Koff, H. 2012: Water management, migration and governance. Regions and Cohesion 2(2): 1-5
Urquiza, A.; Billi, M. 2018: Water markets and social–ecological resilience to water stress in the context of climate change: an analysis of the Limarí Basin, Chile. Environment, Development and Sustainability 22(3): 1929-1951
Svensson, J.; Garrick, D.E.; Jia, S. 2019: Water markets as coupled infrastructure systems: comparing the development of water rights and water markets in Heihe, Shiyang and Yellow Rivers. Water International 44(8): 834-853
O'Gorman, R. 2019: Water marks and water moves: community arts and thinking with water. Community Development Journal 54(1): 119-144
Trinidad, M.A.; Curiel, S.; Torrelles, J.M.; Rodríguez, L.F.; Migenes, V.; Patel, N. 2007: Water maser and radio continuum emission towards IRAS 23139+5939. Proceedings of the International Astronomical Union 3(S 242): 180-181
Cosmovici, C.B.; Pogrebenko, S. 2017: Water maser emission from exoplanetary systems. International Journal of Astrobiology 17(1): 70-76
Tarchi, A.; Henkel, C.; Peck, A.B.; Menten, K.M. 2002: Water maser emission in IC 342. Astronomy-Astrophysics 385(3): 1049-1055
Panessa, F.; Castangia, P.; Tarchi, A.; Bassani, L.; Malizia, A.; Bazzano, A.; Ubertini, P. 2017: Water maser emission in hard X-ray selected AGN. Proceedings of the International Astronomical Union 13(S 336): 96-98
Pérez-Sánchez, A.F.; Vlemmings, W.H.T.; Chapman, J.M. 2011: Water maser polarization of the water fountains IRAS 15445−5449 and IRAS 18043−2116. Monthly Notices of the Royal Astronomical Society 418(2): 1402-1407
Felli, M.; Brand, J.; Cesaroni, R.; Codella, C.; Comoretto, G.; Di Franco, S.; Massi, F.; Moscadelli, L.; Nesti, R.; Olmi, L.; Palagi, F.; Panella, D.; Valdettaro, R. 2007: Water maser variability over 20 years in a large sample of star-forming regions: the complete database. Astronomy-Astrophysics 476(1): 373-664
Breen, S.L.; Green, C.; Cunningham, M.R.; Voronkov, M.A.; Horiuchi, S.; Green, J.A. 2017: Water masers and ammonia (1, 1) and (2, 2) towards six regions in the Carina Nebula. Monthly Notices of the Royal Astronomical Society 473(1): 2-13
Gómez, J.F.; Miranda, L.F.; Uscanga, L.; Suárez, O. 2017: Water masers as signposts of extremely young planetary nebulae. Proceedings of the International Astronomical Union 13(S 336): 377-380
Pogrebenko, S.V.; Gurvits, L.I.; Elitzur, M.; Cosmovici, C.B.; Avruch, I.M.; Pluchino, S.; Montebugnoli, S.; Salerno, E.; Maccaferri, G.; Mujunen, A.; Ritakari, J.; Molera, G.; Wagner, J.; Uunila, M.; Cimo, G.; Schilliro, F.; Bartolini, M. 2009: Water masers in the Kronian system. Proceedings of the International Astronomical Union 5(S 263): 147-150
Pogrebenko, S.V.; Gurvits, L.I.; Elitzur, M.; Cosmovici, C.B.; Avruch, I.M.; Montebugnoli, S.; Salerno, E.; Pluchino, S.; Maccaferri, G.; Mujunen, A.; Ritakari, J.; Wagner, J.; Molera, G.; Uunila, M. 2009: Water masers in the Saturnian system. Astronomy-Astrophysics 494(2): L1-L4
Breen, S.L.; Ellingsen, S.P.; Johnston-Hollitt, M.; Wotherspoon, S.; Bains, I.; Burton, M.G.; Cunningham, M.; Lo, N.; Senkbeil, C.E.; Wong, T. 2007: Water masers within the G 333.2–0.6 giant molecular cloud. Proceedings of the International Astronomical Union 3(S 242): 144-145
Zhang, J.; Liu, Q.; Bai, L.; Matsuno, T. 2018: Water mass analysis and contribution estimation using heavy rare earth elements: Significance of Kuroshio intermediate water to Central East China Sea shelf water. Marine Chemistry 204: 172-180
Peters, B.D.; Jenkins, W.J.; Swift, J.H.; German, C.R.; Moffett, J.W.; Cutter, G.A.; Brzezinski, M.A.; Casciotti, K.L. 2018: Water mass analysis of the 2013 US GEOTRACES eastern Pacific zonal transect (GP16). Marine Chemistry 201: 6-19
Gasparin, F.; Maes, C.; Sudre, J.; Garcon, V.; Ganachaud, A. 2014: Water mass analysis of the Coral Sea through an Optimum Multiparameter method. Journal of Geophysical Research: Oceans 119(10): 7229-7244
Nishino, S.; Kikuchi, T.; Fujiwara, A.; Hirawake, T.; Aoyama, M. 2016: Water mass characteristics and their temporal changes in a biological hotspot in the southern Chukchi Sea. Biogeosciences 13(8): 2563-2578
Ma, X.; Sun, C. 2015: Water mass characteristics in the western North Pacific based on a streamfunction projection. Science China Earth Sciences 58(11): 2067-2077
Filippova, A.; Frank, M.; Kienast, M.; Rickli, J.; Hathorne, E.; Yashayaev, I.M.; Pahnke, K. 2017: Water mass circulation and weathering inputs in the Labrador Sea based on coupled Hf–Nd isotope compositions and rare earth element distributions. Geochimica et Cosmochimica Acta 199: 164-184
García-Ibáñez, M.I.; Pérez, F.F.; Lherminier, P.; Zunino, P.; Mercier, H.; Tréguer, P. 2018: Water mass distributions and transports for the 2014 GEOVIDE cruise in the North Atlantic. Biogeosciences 15(7): 2075-2090
Zoccarato, L.; Pallavicini, A.; Cerino, F.; Fonda Umani, S.; Celussi, M. 2016: Water mass dynamics shape Ross Sea protist communities in mesopelagic and bathypelagic layers. Progress in Oceanography 149: 16-26
Abbasi, H.; Karimian, S. 2016: Water mass flow rate in a finite SWCNT under electric charge: a molecular dynamic simulation. Journal of Molecular Liquids 224: 165-170
Min, H.S.; Kim, C.-. 2006: Water mass formation variability in the intermediate layer of the east sea. Ocean Science Journal 41(4): 255-260
Hughes, K.G.; Klymak, J.M.; Hu, X.; Myers, P.G. 2017: Water mass modification and mixing rates in a 1/12° simulation of the Canadian Arctic Archipelago. Journal of Geophysical Research: Oceans 122(2): 803-820
Peña-Izquierdo, J.; van Sebille, E.; Pelegrí, J.L.; Sprintall, J.; Mason, E.; Llanillo, P.J.; Machín, F. 2015: Water mass pathways to the North Atlantic oxygen minimum zone. Journal of Geophysical Research: Oceans 120(5): 3350-3372
Bauch, D.; Erlenkeuser, H.; Andersen, N. 2005: Water mass processes on Arctic shelves as revealed from O of HO. Global and Planetary Change 48(1-3): 165-174
Penny Holliday, N.; Pollard, R. T.; Read, J. F.; Leach, H. 2000: Water mass properties and fluxes in the Rockall Trough, 1975–1998. Deep Sea Research Part I: Oceanographic Research Papers 47(7): 1303-1332
Falco, P.; Trani, M.; Zambianchi, E. 2016: Water mass structure and deep mixing processes in the Tyrrhenian Sea: Results from the VECTOR project. Deep Sea Research Part I: Oceanographic Research Papers 113: 7-21
Davies, K.; Taggart, C.; Smedbol, R. 2014: Water mass structure defines the diapausing copepod distribution in a right whale habitat on the Scotian Shelf. Marine Ecology Progress Series 497: 69-85
Laukert, G.; Makhotin, M.; Petrova, M.V.; Frank, M.; Hathorne, E.C.; Bauch, D.; Böning, P.; Kassens, H. 2019: Water mass transformation in the Barents Sea inferred from radiogenic neodymium isotopes, rare earth elements and stable oxygen isotopes. Chemical Geology 511: 416-430
Latarius, K.; Quadfasel, D. 2016: Water mass transformation in the deep basins of the Nordic Seas: Analyses of heat and freshwater budgets. Deep Sea Research Part I: Oceanographic Research Papers 114: 23-42
Fenoglio-Marc, L.; Rietbroek, R.; Grayek, S.; Becker, M.; Kusche, J.; Stanev, E. 2012: Water mass variation in the Mediterranean and Black Seas. Journal of Geodynamics 59-60: 168-182
Alfimov, V.; Aldahan, A.; Possnert, G. 2013: Water masses and 129i distribution in the Nordic Seas. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 294: 542-546
Olivar, M.P.; Sabatés, A.; Pastor, M.V.; Pelegrí, J.L. 2016: Water masses and mesoscale control on latitudinal and cross-shelf variations in larval fish assemblages off NW Africa. Deep Sea Research Part I: Oceanographic Research Papers 117: 120-137
Tiedemann, M.; Fock, H.O.; Döring, J.; Badji, L.B.; Möllmann, C. 2018: Water masses and oceanic eddy regulation of larval fish assemblages along the Cape Verde Frontal Zone. Journal of Marine Systems 183: 42-55
Richardson, L.E.; Middleton, J.F.; James, N.P.; Kyser, T.K.; Opdyke, B.N. 2018: Water masses and their seasonal variation on the Lincoln Shelf, South Australia. Limnology and Oceanography 63(5): 1944-1963
Iudicone, D.; Rodgers, K.B.; Stendardo, I.; Aumont, O.; Madec, G.; Bopp, L.; Mangoni, O.; Ribera d'Alcala', M. 2011: Water masses as a unifying framework for understanding the Southern Ocean Carbon Cycle. Biogeosciences 8(5): 1031-1052
Roberts, E.; Bowers, D.; Meyer, H.; Samuelsen, A.; Rapp, H.; Cárdenas, P. 2021: Water masses constrain the distribution of deep-sea sponges in the North Atlantic Ocean and Nordic Seas. Marine Ecology Progress Series 659: 75-96
Robles, F.; Collins, M.; Ferentinos, G. 1983: Water masses in Thermaicos Gulf, north-western Aegean Sea. Estuarine, Coastal and Shelf Science 16(4): 363-378
Warn-Varnas, A.; Gangopadhyay, A.; Hawkins, J. 2007: Water masses in the Monterey Bay during the summer of 2000. Continental Shelf Research 27(10-11): 1379-1398
Li, B.; Yuan, D.; Zhou, H. 2018: Water masses in the far western equatorial Pacific during the winters of 2010 and 2012. Journal of Oceanology and Limnology 36(5): 1459-1474
Corrò, E.; Mozzi, P. 2017: Water matters. Geoarchaeology of the city of Adria and palaeohydrographic variations (Po Delta, Northern Italy). Journal of Archaeological Science: Reports 15: 482-491
Akpabio, E.M. 2012: Water meanings, sanitation practices and hygiene behaviours in the cultural mirror: a perspective from Nigeria. Journal of Water, Sanitation and Hygiene for Development 2(3): 168-181
Chavan, A.S.; Kharat, A.S.; Bhosle, M.R.; Dhumal, S.T.; Mane, R.A. 2021: Water mediated and Baker's yeast accelerated novel synthetic protocols for tetrahydrobenzo xanthene-11-ones and pyrazolo[3,4-b]quinolines. Synthetic Communications: 1-11
Krishnakumar, V.; Mandal, B.K.; Nawaz Khan, F.; Jeong, E.D. 2014: Water mediated catalyst-free efficient domino synthesis of 9-(quinolin-2(1H)-one)-xanthene-1,8(5H,9H)-diones using parallel synthesizer. Tetrahedron Letters 55(27): 3717-3720
Chandra Mohan, D.; Sarang, N.B.; Adimurthy, S. 2013: Water mediated deprotective intramolecular hydroamination of N-propargylaminopyridines: synthesis of imidazo[1,2-a]pyridines. Tetrahedron Letters 54(45): 6077-6080
Mandha, S.R.; Alla, M.; Bommena, V.R. 2014: Water mediated eco-friendly green protocol for one-pot synthesis of α-aminophosphonates at ambient conditions. Journal of Chemical Sciences 126(3): 793-799
Sangshetti, J.N.; Kokare, N.D.; Shinde, D.B. 2009: Water mediated efficient one-pot synthesis of bis-(4-hydroxycoumarin)methanes. Green Chemistry Letters and Reviews 2(4): 233-235
Shi, L.; Zhang, J.; Shen, G.; Fan, D.; Wen, Y.; Zhao, Y.; Chen, R.; Shen, M.; Shan, B. 2019: Water mediated oxygen activation in NH3 SCR reaction over a Cu-SAPO-34 catalyst: a first principles study. Catalysis Science-Technology 9(5): 1309-1316
Tayade, S.B.; Bhat, S.S.; Illathvalappil, R.; Dhavale, V.M.; Kawade, V.A.; Kumbhar, A.S.; Kurungot, S.; Näther, C. 2018: Water mediated proton conductance in a hydrogen-bonded Ni(ii)-bipyridine-glycoluril chloride self-assembled framework. CrystEngComm 20(8): 1094-1100
Porter, D.; Vollrath, F. 2013: Water mediated proton hopping empowers proteins. Soft Matter 9(3): 643-646
Xu, Z.; He, M.; Zhang, S.; Li, J.; Lv, Y.; Zhao, S.; Wei, G. 2021: Water mediated synthesis of phase-stable red-emitting Cs Pb I3 nanocrystals. Journal of Materials Research 36(9): 1824-1834
Selvam, N.P.; Saravanan, C.; Muralidharan, D.; Perumal, P.T. 2006: Water mediated synthesis of substituted quinolines - a new green approach to the friedländer annulation. Journal of Heterocyclic Chemistry 43(5): 1379-1382
Sadaphal, S.A.; Sonar, S.S.; Shingate, B.B.; Shingare, M.S. 2010: Water mediated synthesis of various [1,3]oxazine compounds using alum as a catalyst. Green Chemistry Letters and Reviews 3(3): 213-216
Reddy, Y.D.; Ramana Reddy, C.V.; Dubey, P.K. 2014: Water mediated, environmentally friendly, step-wise, tandem and one-pot syntheses of 2-(1H-benzo imidazole-2-yl)-N-arylbenzamides. RSC Adv. 4(6): 2974-2979
Zheng, H.; Lei, Y.; Song, P. 2017: Water medium retarders for heavy-duty vehicles: Computational fluid dynamics and experimental analysis of filling ratio control method. Journal of Hydrodynamics 29(6): 1067-1075
Payne, W.J.A.; Hutchison, H.G. 1963: Water metabolism of cattle in East Africa I. the problem and the experimental procedure. The Journal of Agricultural Science 61(2): 255-266
Tantoh, H.B. 2021: Water metering in piped community-based water supply systems: the challenge of balancing social and economic benefits. Development in Practice 31(6): 781-793
Martínez‐Porchas, M.; Lafarga‐De la Cruz, F.; Aguilera, F.; Cicala, F.; Lago‐Lestón, A. 2020: Water microbiota is not affected by stocking density of the yellowtail kingfish ( Seriola lalandi ) in a recirculating aquaculture system. Aquaculture Research 52(1): 410-414
Jiang, M.; Wu, P.; Xing, H.; Li, L.; Jia, C.; Chen, S.; Zhang, S.; Wang, L. 2020: Water migration and diffusion mechanism in the wheat drying. Drying Technology 39(6): 738-751
da Silva, W.P.; da Silva, L.D.; de Oliveira Farias, V.S.; da Silva e Silva, C.M.D.P. 2013: Water migration in clay slabs during drying: a three-dimensional numerical approach. Ceramics International 39(4): 4017-4030
Li, X.; Gao, Y.; Zhang, M.; Wang, X.; Wei, X. 2017: Water migration in poplar wood during microwave drying studied by time domain nuclear magnetic resonance (TD-NMR). Holzforschung 71(11): 881-887
Ivanov, A.N.; Avessalomova, I.A. 2012: Water migration of elements in Ornithogenic ecosystems of the North Pacific islands. Russian Journal of General Chemistry 82(13): 2171-2179
Bogatin, Y.; Robinson, M.; Ormerod, J. 1991: Water milling and gas passivation method for production of corrosion resistant Nd‐Fe‐B‐N/C powder and magnets. Journal of Applied Physics 70(10): 6594-6596
White, J.P.; Verma, S.; Keller, E.; Hao, A.; Trouvé, A.; Marshall, A.W. 2017: Water mist suppression of a turbulent line fire. Fire Safety Journal 91: 705-713
Goldschmidt, T. 2016: Water mites (Acari, Hydrachnidia): powerful but widely neglected bioindicators – a review. Neotropical Biodiversity 2(1): 12-25
Zawal, A.; Pešić, V.; Stępień, E. 2020: Water mites (Acari: Hydrachnidia) of the „Golczewskie Uroczysko" nature reserve. Ecologica Montenegrina 34: 34-42
Smit, H. 2021: Water mites from West Africa (Acari: Hydrachnidia). Acarologia 61(3): 700-746
Pešić, V.; Smit, H. 2021: Water mites of the genus Atractides Koch, 1837 from Kyrgyzstan (Acari: Hydrachnidia: Hygrobatidae) with the description of six new species. Acarologia 61(2): 332-355
Pešić, V.; Smit, H. 2020: Water mites of the genus Sperchon Kramer, 1877 of Kyrgyzstan (Acari: Hydrachnidia: Sperchontidae) with the description of seven new species. International Journal of Acarology 46(8): 611-633
Voogt, B.; Huinink, H.; Erich, B.; Scheerder, J.; Venema, P.; Adan, O. 2018: Water mobility during drying of hard and soft type latex: Systematic GARField 1H NMR relaxometry studies. Progress in Organic Coatings 123: 111-119
Xue, M.; Guo, W. 2019: Water models for interfacial water simulations. Science China Technological Sciences 62(5): 729-735
Teschke, O.; de Souza, E. 2005: Water molecular arrangement at air/water interfaces probed by atomic force microscopy. Chemical Physics Letters 403(1-3): 95-101
Douiri, H.; Kaddoussi, I.; Baklouti, S.; Arous, M.; Fakhfakh, Z. 2016: Water molecular dynamics of metakaolin and phosphoric acid-based geopolymers investigated by impedance spectroscopy and DSC/TGA. Journal of Non-Crystalline Solids 445-446: 95-101
Ba, Y.; Ripmeester, J.A.; Ratcliffe, C.I. 2011: Water molecular reorientation in ice and tetrahydrofuran clathrate hydrate from lineshape analysis of 17O spin-echo NMR spectra. Canadian Journal of Chemistry 89(9): 1055-1064
Zhou, Y.; Huang, Y.; Ma, Z.; Gong, Y.; Zhang, X.; Sun, Y.; Sun, C.Q. 2016: Water molecular structure-order in the Na X hydration shells(X=F, Cl, Br, I). Journal of Molecular Liquids 221: 788-797
Oshikiri, M.; Boero, M.; Matsushita, A.; Ye, J. 2007: Water molecule adsorption properties on surfaces of MVO4 (M = In, Y, Bi) photo-catalysts. Journal of Electroceramics 22(1-3): 114-119
Sinnige, C.; de Koning, L.; Nibbering, N. 2000: Water molecule assisted proton mobility in gaseous protonated Gly Pro and Pro Gly. International Journal of Mass Spectrometry 195-196: 115-119
Yang, J.; Wang, Y.; Yin, R.; Pang, J.; Cong, Y.; Yang, S. 2020: Water molecule attachment mode on the dried polysaccharide influences its free radical scavenging ability. Process Biochemistry 91: 15-22
Flores, F.; Gabbay, I.; March, N. 1981: Water molecule conformation outside a metal surface. Surface Science 107(1): 127-138
Smets, J.; McCarthy, W.J.; Adamowicz, L. 1996: Water molecule enhances dipole-bound electron affinity of 1-methyl-cytosine. Chemical Physics Letters 256(4-5): 360-369
Lentz, B.R.; Scheraga, H.A. 1973: Water molecule interactions. Stability of cyclic polymers. The Journal of Chemical Physics 58(12): 5296-5308
Maraver, J.; Marcos, E.; Bertran, J. 1985: Water molecule migration in walden inversion reaction. Journal of Molecular Structure: THEOCHEM 120: 321-326
Li, J.; Tao, T.; Luo, C.; Liu, X.; Zhu, X.; Huang, L.; Ouyang, X.; Ni, Y.; Chen, L. 2020: Water molecule "spinning cutter" controllably improving the performance of cellulosic fibers. Cellulose 27(13): 7297-7306
Han, X.; Wang, Z.; Ding, L.; Chen, L.; Wang, F.; Pu, J.; Jiang, S. 2021: Water molecule-induced hydrogen bonding between cellulose nanofibers toward highly strong and tough materials from wood aerogel. Chinese Chemical Letters 32(10): 3105-3108
Weremczuk, J. 2002: Water molecules and heat transfer modeling in silicon dew point hygrometer. IEEE Transactions on Instrumentation and Measurement 51(6): 1223-1227
Petretti, S.; Saenz, A.; Castro, A.; Decleva, P. 2013: Water molecules in ultrashort intense laser fields. Chemical Physics 414: 45-52
Hudedagaddi, C.B.; Raghav, A.G.; Tortora, A.M.; Veeregowda, D.H. 2017: Water molecules influence the lubricity of greases and fuel. Wear 376-377: 831-835
Masin, F.; Leo, V. 1982: Water molecules motion in KCP: a 1H NMR relaxation study. Solid State Communications 43(1): 61-63
Gao, Y.; Ma, L.; Liang, Y.; Li, B.; Luo, J. 2018: Water molecules on the liquid superlubricity interfaces achieved by phosphoric acid solution. Biosurface and Biotribology 4(3): 94-98
De Ninno, A.; De Francesco, M. 2018: Water molecules ordering in strong electrolytes solutions. Chemical Physics Letters 705: 7-11
Kuswandi, B.; Nitti, F.; Almeida, M.I.G.S.; Kolev, S.D. 2019: Water monitoring using polymer inclusion membranes: a review. Environmental Chemistry Letters 18(1): 129-150
James, R.K.; Katwijk, M.M.; Tussenbroek, B.I.; Heide, T.; Dijkstra, H.A.; Westen, R.M.; Pietrzak, J.D.; Candy, A.S.; Klees, R.; Riva, R.E.M.; Slobbe, C.D.; Katsman, C.A.; Herman, P.M.J.; Bouma, T.J. 2019: Water motion and vegetation control the p H dynamics in seagrass‐dominated bays. Limnology and Oceanography 65(2): 349-362
Han, X.; Xiao, J. 2016: Water motion-controlled reversible phase transition and de/absorption-controlled reversible phase transformation in the hydrate crystal (BEDABCO)Cl O4·H2O and its analogs. CrystEngComm 18(33): 6195-6199
Ghirardi, R.; Cazenave, J.; López, J.; Antoniazzi, C.; Perotti, M. 2020: Water mould exposure induces enzymatic antioxidant defences in embryos of the Two-colored Oval Frog (Elachistocleis bicolor) (Anura: Microhylidae). Canadian Journal of Zoology 98(6): 411-416
Delgado, J.M.P.Q.; de Freitas, V.P.; Guimarães, A.S. 2016: Water movement in building walls: interfaces influence on the moisture flux. Heat and Mass Transfer 52(11): 2415-2422
Biermans, M.; Dijkema, K.; De Vries, D. 1978: Water movement in porous media towards an ice front. Journal of Hydrology 37(1-2): 137-148
Nagura, R.; Watanabe, Y.; Sato, N.; Komiya, S.; Suzuki, S.; Katano, K.; Minami, H.; Noborio, K. 2019: Water movement on the convex surfaces of porous media under microgravity. Advances in Space Research 63(1): 589-597
Chen, G.; Cheng, X.; Zhang, J.; Wan, Q.; Duan, R.; Han, B.; Cui, J.; Xiang, J.; Guan, B.; Xing, X.; Mo, G.; Wu, Z. 2021: Water nanodomains for efficient photocatalytic CO2 reduction to CO. Green Chemistry 23(22): 9078-9083
Delcorte, A.; Garrison, B. 2013: Water nanodroplet impacts on surfaces: Effect of the substrate nature. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 303: 179-183
Booth, M.J.; Duh, D.; Haymet, A.D.J. 1994: Water near a planar interface: Atom‐based integral equation theory. The Journal of Chemical Physics 101(9): 7925-7933
Bellissent-Funel, M. 2002: Water near hydrophilic surfaces. Journal of Molecular Liquids 96-97: 287-304
Ulpiani, G.; di Perna, C.; Zinzi, M. 2019: Water nebulization to counteract urban overheating: Development and experimental test of a smart logic to maximize energy efficiency and outdoor environmental quality. Applied Energy 239: 1091-1113
Di Nardo, A.; Di Natale, M.; Santonastaso, G.F.; Tzatchkov, V.G.; Alcocer-Yamanaka, V.H. 2013: Water network sectorization based on a genetic algorithm and minimum dissipated power paths. Water Supply 13(4): 951-957
Hwang, S.; Moore, I. 2011: Water network synthesis in refinery. Korean Journal of Chemical Engineering 28(10): 1975-1985
Ruiz del Árbol Moro, M.; Sánchez-Palencia Ramos, F.J.; Sastre Prats, I.; Orejas Saco del Valle, A. 2014: Water networks of Roman gold mines of Northwestern Iberian Peninsula. Water History 6(1): 95-113
Coblentz, W.W. 1905: Water of Constitution and of Crystallization. Physical Review (Series I) 20(4): 252-258
Coblentz, W.W. 1906: Water of Crystallization and Water of Constitution. Physical Review (Series I) 22(6): 368-370
Gortner, W.A. 1952: Water of Crystallization in the Plant-Growth Regulator α-Naphthaleneacetic Acid and its Salts. Science 115(2979): 122-123
Berg, T.G.O. 1961: Water of Hydration in the System Fe-O. Journal of the American Ceramic Society 44(3): 131-135
Tlusty, B.A. 1998: Water of Life, Water of Death: the Controversy over Brandy and Gin in Early Modern Augsburg. Central European History 31(1-2): 1-30
Barras, C. 2014: Water of death: Why the first life was anything but wet. New Scientist 222(2965): 36-39
Carr, M.H. 2007: Water on Early Mars. Novartis Foundation Symposia: 249-272
Joseph, Y.; Ranke, W.; Weiss, W. 2000: Water on Fe O(111) and Fe3O4(111):  Adsorption Behavior on Different Surface Terminations. The Journal of Physical Chemistry B 104(14): 3224-3236
Von Der Fehr, N.M.; Sandsbråten, L. 1997: Water on Fire: Gains from Electricity Trade. The Scandinavian Journal of Economics 99(2): 281-297
Sori, M.M.; Bramson, A.M. 2019: Water on Mars, with a Grain of Salt: Local Heat Anomalies Are Required for Basal Melting of Ice at the South Pole Today. Geophysical Research Letters 46(3): 1222-1231
Yang, Y.; Wang, E.G. 2008: Water on Na Cl Surface: Adsorption, Diffusion, Dissolution, and Nucleation. Journal of Computational and Theoretical Nanoscience 5(3): 247-268
Wu, T.; Kaden, W.E.; Anderson, S.L. 2008: Water on Rutile Ti O2(110) and Au/Ti O2(110): Effects on au Mobility and the Isotope Exchange Reaction. The Journal of Physical Chemistry C 112(24): 9006-9015
Peters, S.J.; Ewing, G.E. 1997: Water on Salt:  An Infrared Study of Adsorbed H2O on Na Cl(100) under Ambient Conditions. The Journal of Physical Chemistry B 101(50): 10880-10886
Natkaniec, I.; Fricke, J.; Khavryutchenko, V.; Markichev, I.; Muzychka, A.; Ogenko, V.; Reichenauer, G.; Sheka, E. 1992: Water on amorphous silicas: INS study. Physica B: Condensed Matter 180-181: 522-524
Slotfeldt-Ellingsen, D.; Torgersen, L. 1983: Water on ice; influence on friction. Journal of Physics D: Applied Physics 16(9): 1715-1719
Zettlemoyer, A.; Hsing, H. 1977: Water on organosilane-treated silica surfaces. Journal of Colloid and Interface Science 58(2): 263-274
Shen, J.H.; Zettlemoyer, A.C.; Klier, K. 1980: Water on silica and silicate surfaces. 6. Sodium form of type-Y synthetic zeolite. The Journal of Physical Chemistry 84(12): 1453-1459
Zettlemoyer, A.; Hsing, H. 1976: Water on silica and silicate surfaces. III. Hexamethyldisilazane-treated silica surfaces. Journal of Colloid and Interface Science 55(3): 637-644
Shen, J.; Klier, K. 1980: Water on silica and silicate surfaces. V. Amorphous, porous, hydrophilic, phosphorus-doped silicas. Journal of Colloid and Interface Science 75(1): 56-67
Hu, W.; Li, Z.; Yang, J. 2017: Water on silicene: a hydrogen bond-autocatalyzed physisorption–chemisorption–dissociation transition. Nano Research 10(7): 2223-2233
Tsuji, T. 2000: Water on the Early M Supergiant Stars α Orionis and μ Cephei. The Astrophysical Journal 538(2): 801-807
Elkins-Tanton, L.T. 2011: Water on the Moon. Physics Today 64(3): 74-75
Pendleton, Y.J. 2015: Water on the Moon. Proceedings of the International Astronomical Union 11(A 29B): 402-406
Fripiat, J.J.; Stone, W.E.E. 1978: Water on the Surfaces of Clay Minerals: Orientation, Diffusion and Proton Exchange. Physics and Chemistry of Liquids 7(3-4): 349-373
Wright-Contreras, L.; Perkins, J.; Pascual, M.; Soppe, G. 2019: Water operators' partnerships and their supporting role in the improvement of urban water supply in da Nang. International Journal of Water Resources Development 36(1): 1-26
De Rosa, M.; Soriente, A. 2011: Water opportunities: catalyst and solvent in Mukaiyama aldol addition of Rawal's diene to carbonyl derivatives. Tetrahedron 67(33): 5949-5955
Koh, C.A.; Wisbey, R.P.; Wu, X.; Westacott, R.E.; Soper, A.K. 2000: Water ordering around methane during hydrate formation. The Journal of Chemical Physics 113(15): 6390-6397
Arabia, G.; Chidichimo, G.; Golemme, A.; Ukleja, P. 1991: Water ordering in a MTAB/decanol/water lyotropic system. Liquid Crystals 10(3): 311-323
Chapovsky, P. L. 2020: Water ortho–para conversion by microwave background radiation in space. Monthly Notices of the Royal Astronomical Society 503(2): 1773-1779
de Almeida, A.A.; Boice, D.C.; Picazzio, E.; Huebner, W.F. 2016: Water outburst activity in Comet 17P/Holmes. Advances in Space Research 58(3): 444-452
Mousazade, Y.; Mohammadi, M.R.; Chernev, P.; Bikas, R.; Bagheri, R.; Song, Z.; Lis, T.; Dau, H.; Najafpour, M.M. 2018: Water oxidation by a manganese–potassium cluster: Mn oxide as a kinetically dominant "true" catalyst for water oxidation. Catalysis Science-Technology 8(17): 4390-4398
Kalantarifard, S.; Allakhverdiev, S.I.; Najafpour, M.M. 2020: Water oxidation by a nickel complex: new challenges and an alternative mechanism. International Journal of Hydrogen Energy 45(58): 33563-33573
Risch, M.; Ringleb, F.; Kohlhoff, M.; Bogdanoff, P.; Chernev, P.; Zaharieva, I.; Dau, H. 2015: Water oxidation by amorphous cobalt-based oxides: in situ tracking of redox transitions and mode of catalysis. Energy-Environmental Science 8(2): 661-674
Tavakolian, M.; Salimi, P.; Zand, Z.; Najafpour, M.M. 2019: Water oxidation by manganese oxides. Water Oxidation Catalysts: 115-150
Olmo, L.d.; Dommett, M.; Oevreeide, I.H.; Walsh, A.; Di Tommaso, D.; Crespo-Otero, R. 2018: Water oxidation catalysed by quantum-sized Bi VO4. Journal of Materials Chemistry A 6(48): 24965-24970
Elmacı, G.; Frey, C.E.; Kurz, P.; Zümreoğlu-Karan, B. 2016: Water oxidation catalysis by using nano-manganese ferrite supported 1D-(tunnelled), 2D-(layered) and 3D-(spinel) manganese oxides. Journal of Materials Chemistry A 4(22): 8812-8821
Ouhbi, H.; Aschauer, U. 2019: Water oxidation catalysis on reconstructed Na Ta O3 (001) surfaces. Journal of Materials Chemistry A 7(28): 16770-16776
Roeser, S.; Bozoglian, F.; Richmond, C.J.; League, A.B.; Ertem, M.Z.; Francàs, L.; Miró, P.; Benet-Buchholz, J.; Cramer, C.J.; Llobet, A. 2016: Water oxidation catalysis with ligand substituted Ru–bpp type complexes. Catalysis Science-Technology 6(13): 5088-5101
Casadevall, C.; Bucci, A.; Costas, M.; Lloret-Fillol, J. 2019: Water oxidation catalysis with well-defined molecular iron complexes. Water Oxidation Catalysts: 151-196
Zaharieva, I.; González-Flores, D.; Asfari, B.; Pasquini, C.; Mohammadi, M.R.; Klingan, K.; Zizak, I.; Loos, S.; Chernev, P.; Dau, H. 2016: Water oxidation catalysis – role of redox and structural dynamics in biological photosynthesis and inorganic manganese oxides. Energy-Environmental Science 9(7): 2433-2443
Singh, A.; Spiccia, L. 2013: Water oxidation catalysts based on abundant 1st row transition metals. Coordination Chemistry Reviews 257(17-18): 2607-2622
Hurst, J.K. 2005: Water oxidation catalyzed by dimeric μ-oxo bridged ruthenium diimine complexes. Coordination Chemistry Reviews 249(3-4): 313-328
Ouhbi, H.; Aschauer, U. 2018: Water oxidation chemistry of oxynitrides and oxides: Comparing Na Ta O3 and Sr Ta O2N. Surface Science 677: 258-263
Arens, J.; Blasco-Ahicart, M.; Azmani, K.; Soriano-López, J.; García-Eguizábal, A.; Poblet, J.; Galan-Mascaros, J. 2020: Water oxidation electrocatalysis in acidic media with Co-containing polyoxometalates. Journal of Catalysis 389: 345-351
Frei, H. 2016: Water oxidation investigated by rapid-scan FT-IR spectroscopy. Current Opinion in Chemical Engineering 12: 91-97
Xie, Q.; Meng, Q.; Zhuang, G.; Wang, J.; Li, X. 2011: Water oxidation on N-Doped Ti O2 nanotube arrays. International Journal of Quantum Chemistry 112(13): 2585-2590
Loget, G. 2019: Water oxidation with inhomogeneous metal-silicon interfaces. Current Opinion in Colloid-Interface Science 39: 40-50
Nam, D.H.; Ryu, G.M.; Kuk, S.K.; Choi, D.S.; Son, E.J.; Park, C.B. 2016: Water oxidation-coupled, photoelectrochemical redox biocatalysis toward mimicking natural photosynthesis. Applied Catalysis B: Environmental 198: 311-317
Busch, M. 2018: Water oxidation: from mechanisms to limitations. Current Opinion in Electrochemistry 9: 278-284
Bozonnet-Frenot, M.P.; Marchal, J.P.; Canet, D. 1987: Water oxygen-17 and deuterium longitudinal nuclear magnetic relaxation in aqueous surfactant solutions. The Journal of Physical Chemistry 91(1): 89-94
Piculell, L. 1985: Water oxygen-17 and deuterium spin relaxation in alkylammonium chloride micellar solutions. The Journal of Physical Chemistry 89(17): 3590-3591
Mas, E.M.; Bukowski, R.; Szalewicz, K.; Groenenboom, G.C.; Wormer, P.E.S.; van der Avoird, A. 2000: Water pair potential of near spectroscopic accuracy. I. Analysis of potential surface and virial coefficients. The Journal of Chemical Physics 113(16): 6687-6701
Groenenboom, G.C.; Wormer, P.E.S.; van der Avoird, A.; Mas, E.M.; Bukowski, R.; Szalewicz, K. 2000: Water pair potential of near spectroscopic accuracy. II. Vibration–rotation–tunneling levels of the water dimer. The Journal of Chemical Physics 113(16): 6702-6715
Chang, K.C.; Grunwald, E. 1976: Water participation in proton-transfer reactions of glycine and glycine methyl ester. The Journal of Physical Chemistry 80(13): 1422-1425
Townsend, J.P.; Tsuchiya, J.; Bina, C.R.; Jacobsen, S.D. 2016: Water partitioning between bridgmanite and postperovskite in the lowermost mantle. Earth and Planetary Science Letters 454: 20-27
Kolek, Z. 1998: Water penetration inside organic coatings. Polimery 43(03): 185-187
Menger, F.M.; Boyer, B.J. 1980: Water penetration into micelles as determined by optical rotary dispersion. Journal of the American Chemical Society 102(18): 5936-5938
Wennerstroem, H.; Lindman, B. 1979: Water penetration into surfactant micelles. The Journal of Physical Chemistry 83(22): 2931-2932
Tateda, M.; Horiguchi, T. 1990: Water penetration sensing using wavelength tunable OTDR. IEEE Photonics Technology Letters 2(11): 844-846
Snoeck, D.; Van den Heede, P.; Van Mullem, T.; De Belie, N. 2018: Water penetration through cracks in self-healing cementitious materials with superabsorbent polymers studied by neutron radiography. Cement and Concrete Research 113: 86-98
Rossiyskiy, D.M. 1934: Water pepper (polygonum hydropiper) as a styptic. Kazan medical journal 30(5): 448-449
Benard, P.; Kroener, E.; Vontobel, P.; Kaestner, A.; Carminati, A. 2016: Water percolation through the root-soil interface. Advances in Water Resources 95: 190-198
Zhou, H.; Wang, Y.; Wang, F.; Deng, H.; Song, Y.; Li, C.; Ling, Z. 2020: Water permeability in MXene membranes: Process matters. Chinese Chemical Letters 31(6): 1665-1669
Dai, S.; Seol, Y. 2014: Water permeability in hydrate-bearing sediments: a pore-scale study. Geophysical Research Letters 41(12): 4176-4184
Vorob'ev, V.N.; Anisimov, A.V.; Golyandina, L.V.; Dautova, N.R. 2002: Water permeability of Elodeacells and cytoplasm motion. Journal of Plant Physiology 159(9): 959-965
Jellinek, H.H.G.; Nadolski, P. 1976: Water permeability of bilipid membranes in presence of nitric acid and nitrogen dioxide. Colloid and Polymer Science 254(10): 856-858
Wagner, C.; Villmann, B.; Slowik, V.; Mechtcherine, V. 2017: Water permeability of cracked strain-hardening cement-based composites. Cement and Concrete Composites 82: 234-241
Lepech, M.D.; Li, V.C. 2009: Water permeability of engineered cementitious composites. Cement and Concrete Composites 31(10): 744-753
Hedegaard, S.E.; Hansen, T.C. 1992: Water permeability of fly ash concretes. Materials and Structures 25(7): 381-387
Donkers, P.; Huinink, H.; Erich, S.; Reuvers, N.; Adan, O. 2013: Water permeability of pigmented waterborne coatings. Progress in Organic Coatings 76(1): 60-69
Kravets, L.; Dmitriev, S.; Gilman, A.; Drachev, A.; Dinescu, G. 2005: Water permeability of poly(ethylene terephthalate) track membranes modified by DC discharge plasma polymerization of dimethylaniline. Journal of Membrane Science 263(1-2): 127-136
Farci, A.; Floris, D.; Meloni, P. 2005: Water permeability vs. porosity in samples of Roman mortars. Journal of Cultural Heritage 6(1): 55-59
Groot, C.J.; Gunneweg, J. 2004: Water permeance problems in single wythe masonry walls: the case of wind mills. Construction and Building Materials 18(5): 325-329
Sun, X.; Turnage, S.; Iezzi, E.B.; Yang, Y.; Chang, B.; Muthegowda, N.C.; Balijepalli, S.K.; Dhuyvetter, N.; Wang, L.P.; Solanki, K.N.; Rykaczewski, K. 2017: Water permeation and corrosion resistance of single- and two-component hydrophobic polysiloxane barrier coatings. Journal of Coatings Technology and Research 14(6): 1247-1258
Mattia, D.; Lee, K.P.; Calabrò, F. 2014: Water permeation in carbon nanotube membranes. Current Opinion in Chemical Engineering 4: 32-37
Jalilian, E.; Terryn, H.; Van Assche, G. 2020: Water permeation in coatings. Journal of Coatings Technology and Research 17(6): 1437-1445
Araki, Y.; Kobayashi, Y.; Kawaguchi, T.; Kaneko, T.; Arai, N. 2018: Water permeation in polymeric membranes: Mechanism and synthetic strategy for water-inhibiting functional polymers. Journal of Membrane Science 564: 184-192
Vanderveen, R.J.; Barnes, G.T. 1985: Water permeation through Langmuir-Blodgett monolayers. Thin Solid Films 134(1-3): 227-236
Luo, X.; Wright, A.; Weissbach, T.; Holdcroft, S. 2018: Water permeation through anion exchange membranes. Journal of Power Sources 375: 442-451
Leson, A.; Filiz, V.; Förster, S.; Mayer, C. 2007: Water permeation through block-copolymer vesicle membranes. Chemical Physics Letters 444(4-6): 268-272
Cassidy, P.E.; Aminabhavi, T.M. 1986: Water permeation through elastomer laminates: 3. Neoprene/styrene-butadiene rubber. Polymer 27(9): 1396-1399
Finney, J.L.; Soper, A.K.; Turner, J.Z. 1993: Water perturbation close to non-polar groups in aqueous solutions. Pure and Applied Chemistry 65(12): 2521-2526
Elia, V.; Napoli, E.; Germano, R.; Roviello, V.; Oliva, R.; Niccoli, M.; Amoresano, A.; Toscanesi, M.; Trifuoggi, M.; Fabozzi, A.; Yinnon, T.A. 2020: Water perturbed by cellophane: comparison of its physicochemical properties with those of water perturbed with cotton wool or Nafion. Journal of Thermal Analysis and Calorimetry 146(5): 2073-2088
de Korte, P.; Blasse, G. 1982: Water photoelectrolysis using nickel titanate and niobate as photoanodes. Journal of Solid State Chemistry 44(2): 150-155
Kang, H.W.; Park, S.B. 2010: Water photolysis by Na Ta O3-C composite prepared by spray pyrolysis. Advanced Powder Technology 21(2): 106-110
Dante, R.C. 2019: Water photolysis by carbon nitride. International Journal of Hydrogen Energy 44(38): 21030-21036
Liu, M.; de Leon Snapp, N.; Park, H. 2011: Water photolysis with a cross-linked titanium dioxidenanowire anode. CHEM. Sci. 2(1): 80-87
O'Sullivan, D. 1981: Water photolysis: new catalysts boost efficiency. Chemical-Engineering News Archive 59(3): 64-69
Canning, J. 2018: Water photonics, non-linearity, and anomalously large electro-optic coefficients in poled silica fibers. MRS Communications 8(1): 29-34
Manan, Z.A.; Alwi, S.R.W. 2007: Water pinch analysis evolution towards a holistic approach for water minimization. Asia-Pacific Journal of Chemical Engineering 2(6): 544-553
Renaud, E.; Bremond, B.; Le Gat, Y. 2014: Water pipes: why 'lifetime' is not an adequate concept on which to base pipe renewal strategies. Water Practice and Technology 9(3): 307-315
Marinoni, O.; Adkins, P.; Hajkowicz, S. 2011: Water planning in a changing climate: Joint application of cost utility analysis and modern portfolio theory. Environmental Modelling-Software 26(1): 18-29
Wells, T. 1976: Water plants of the world. Biological Conservation 10(2): 152-153
Tian, X.; Wei, C.; Yang, S.; Fu, R.K.; Chu, P.K. 2006: Water plasma implantation/oxidation of magnesium alloys for corrosion resistance. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 242(1-2): 300-302
Snyder, J. 1976: Water policies for the future. Journal of Hydrology 31(3-4): 395-398
Bai, H.; Tang, K.; Zhao, X.; Yu, Z. 2021: Water policy and regional economic development: evidence from Henan province, China. Water Policy 23(2): 397-416
Katyaini, S.; Barua, A. 2015: Water policy at science–policy interface – challenges and opportunities for India. Water Policy 18(2): 288-303
Bradford, A. 2008: Water policy for ecosystem integrity: Oak Ridges Moraine Conservation Plan, Ontario, Canada. Water International 33(3): 320-332
Kuwayama, Y. 2013: Water policy reform: lessons in sustainability from the Murray-Darling Basin. Journal of Natural Resources Policy Research 5(4): 273-274
Head, B.W. 2010: Water policy- Evidence, learning and the governance of uncertainty. Policy and Society 29(2): 171-180
Gecheva, G.; Yurukova, L. 2013: Water pollutant monitoring with aquatic bryophytes: a review. Environmental Chemistry Letters 12(1): 49-61
Pandit, M.; Paudel, K.P. 2016: Water pollution and income relationships: a seemingly unrelated partially linear analysis. Water Resources Research 52(10): 7668-7689
Molson, 1972: Water pollution as a world problem. Biological Conservation 4(5): 398-399
Rajaram, T.; Das, A. 2008: Water pollution by industrial effluents in India: Discharge scenarios and case for participatory ecosystem specific local regulation. Futures 40(1): 56-69
Liu, W.; Wang, S.; Zhang, L.; Ni, Z. 2015: Water pollution characteristics of Dianchi Lake and the course of protection and pollution management. Environmental Earth Sciences 74(5): 3767-3780
Murdock, H.R. 1951: Water pollution control act Industrial Wastes. Industrial-Engineering Chemistry 43(6): 99A-104A
Noda, K. 2015: Water pollution control history in Japan, effluent standards, and central–local government relations. Water History 7(3): 337-356
Foufou, A.; Djorfi, S.; Haied, N.; Kechiched, R.; Azlaoui, M.; Hani, A. 2017: Water pollution diagnosis and risk assessment of Wadi Zied plain aquifer caused by the leachates of Annaba landfill (N-E Algeria). Energy Procedia 119: 393-406
Li, A.; Kroeze, C.; Kahil, T.; Ma, L.; Strokal, M. 2019: Water pollution from food production: lessons for optimistic and optimal solutions. Current Opinion in Environmental Sustainability 40: 88-94
Mei, Y.; Feng, S. 1993: Water pollution in China: Current status, future trends and countermeasures. Chinese Geographical Science 3(1): 22-33
El-Kowrany, S.I.; El- Zamarany, E.A.; El-Nouby, K.A.; El-Mehy, D.A.; Abo Ali, E.A.; Othman, A.A.; Salah, W.; El-Ebiary, A.A. 2016: Water pollution in the Middle Nile Delta, Egypt: An environmental study. Journal of Advanced Research 7(5): 781-794
D'Inverno, G.; Carosi, L.; Romano, G.; Guerrini, A. 2018: Water pollution in wastewater treatment plants: An efficiency analysis with undesirable output. European Journal of Operational Research 269(1): 24-34
Kapelewska, J.; Kotowska, U.; Karpińska, J.; Astel, A.; Zieliński, P.; Suchta, J.; Algrzym, K. 2019: Water pollution indicators and chemometric expertise for the assessment of the impact of municipal solid waste landfills on groundwater located in their area. Chemical Engineering Journal 359: 790-800
Wu, G.; Cao, W.; Liu, L.; Wang, F. 2017: Water pollution management in China: recent incidents and proposed improvements. Water Supply 18(2): 603-611
Ghimire, G.P.S. 1985: Water pollution - a major crisis in Nepal. The Environmentalist 5(3): 193-195
McDonnell, R. 1993: Water pollution: Modelling, measuring and prediction. Ecological Modelling 65(3-4): 302-303
Özkol, M.Z.; Turunç, S.; Dopsaj, M. 2013: Water polo shots notational analysis according to player positions. International Journal of Performance Analysis in Sport 13(3): 734-749
García-Marín, P.; Argudo Iturriaga, F.M. 2017: Water polo: technical and tactical shot indicators between winners and losers according to the final score of the game. International Journal of Performance Analysis in Sport 17(3): 334-349
Branca, C.; Magazù, S.; Migliardo, F.; Romeo, G. 2003: Water poly(ethylene glycol) coordination by rheological and acoustic data. Journal of Molecular Liquids 103-104: 181-185
Gao, X.; Wang, K.; Lo, K.; Wen, R.; Huang, X.; Dang, Q. 2021: Water poverty assessment based on the random forest algorithm: application to Gansu, Northwest China. Water Policy 23(6): 1388-1399
Bradshaw, J.; Huby, M. 2013: Water poverty in england and Wales. Journal of Poverty and Social Justice 21(2): 137-148
Horn, W. 1975: Water power and the plan of St Gall. Journal of Medieval History 1(3): 219-258
Krause, F. 2018: Water power, anthropologically speaking. Social Anthropology 26(3): 414-420
Cohn, J.; Evenden, M.; Landry, M. 2020: Water powers: the Second World War and the mobilization of hydroelectricity in Canada, the United States, and Germany. Journal of Global History 15(1): 123-147
Kong, Q.; Feng, Q.; Song, G. 2015: Water presence detection in a concrete crack using smart aggregates. International Journal of Smart and Nano Materials 6(3): 149-161
Monge, M.; Gil-Alana, L.A. 2020: Water prices: persistence, mean reversion and trends. Water Policy 22(6): 1200-1216
Favre, M.; Montginoul, M. 2018: Water pricing in Tunisia: can an original rate structure achieve multiple objectives?. Utilities Policy 55: 209-223
Joshua Madida Nyoni, M. 1999: Water pricing issues in a developing country. International Journal of Social Economics 26(1-2/3): 441-454
Meredith, S. 1992: Water privatization: the dangers and the benefits. Long Range Planning 25(4): 72-81
Fernandez-Rubio, R. 1986: Water problems in Spanish coal mining. International Journal of Mine Water 5(2): 13-28
Greaves, M.J. 1967: Water problems in ironmaking. JOM 19(3): 41-47
Anderson, E.W. 1986: Water problems in the Sultanate of Oman. GeoJournal 13(3): 269-273
Hu, C.; Kawamoto, T.; Tanaka, H.; Takahashi, A.; Lee, K.; Kao, S.; Liao, Y.; Ho, K. 2016: Water processable Prussian blue–polyaniline:polystyrene sulfonate nanocomposite (PB–PANI:PSS) for multi-color electrochromic applications. Journal of Materials Chemistry C 4(43): 10293-10300
Feron, P.; Thiruvenkatachari, R.; Cousins, A. 2017: Water production through CO2 capture in coal-fired power plants. Energy Science-Engineering 5(5): 244-256
Teixeira, A.d.C.; de Miranda, F.; Leivas, J.; Pacheco, E.; Garçon, E. 2019: Water productivity assessments for dwarf coconut by using Landsat 8 images and agrometeorological data. ISPRS Journal of Photogrammetry and Remote Sensing 155: 150-158
Hossain, M.I.; Siwar, C.; Mokhtar, M.B.; Dey, M.M.; Jaafar, A.H.; Alam, M.M. 2015: Water productivity for Boro Rice production: study on floodplain Beels in Rajshahi, Bangladesh. Journal of Bio-Science 21: 123-136
Baier, C.; Thevs, N.; Villwock, D.; Emileva, B.; Fischer, S. 2021: Water productivity of Paulownia tomentosa x fortunei (Shan Tong) in a plantation at Lake Issyk-Kul, Kyrgyzstan, Central Asia. Trees 35(5): 1627-1637
Aydinsakir, K.; Dinc, N.; Buyuktas, D.; Kocaturk, M.; Ozkan, C.F.; Karaca, C. 2021: Water productivity of soybeans under regulated surface and subsurface drip irrigation conditions. Irrigation Science 39(6): 773-787
Wiegand, P.S.; Flinders, C.A.; Ice, G.G.; Sleep, D.J.; Malmberg, B.J.; Lama, I. 2011: Water profiles of the forest products industry and their utility in sustainability assessment. July 10(7): 19-27
Ghorpade, S.A.; Sawant, D.N.; Makki, A.; Sekar, N.; Eppinger, J. 2018: Water promoted allylic nucleophilic substitution reactions of (E)-1,3 diphenylallyl acetate. Green Chemistry 20(2): 425-430
Movassagh, B.; Navidi, M. 2008: Water promoted catalyst-free anti-Markovnikov addition of thiols to styrenes. Arkivoc 15: 47-53
He, T.; Li, K.; Wu, M.; Wu, M.; Wang, N.; Pu, L.; Yu, X. 2013: Water promoted enantioselective aldol Reaction by proline-cholesterol and -diosgenin based amphiphilic organocatalysts. Tetrahedron 69(25): 5136-5143
Shaabani, A.; Rahmati, A.; Farhangi, E. 2007: Water promoted one-pot synthesis of 2′-aminobenzothiazolomethyl naphthols and 5-(2′-aminobenzothiazolomethyl)-6-hydroxyquinolines. Tetrahedron Letters 48(41): 7291-7294
Arfan, M.; Khan, R.; Anjum, S.; Ahmad, S.; Choudhary, M.I. 2008: Water promoted, microwave-assisted oxidative novel deamination of N-aminoquinazolinones. Chinese Chemical Letters 19(2): 161-165
Shi, J.; Zhang, Y.; Zhang, Z.; Fan, Z.; Chen, M.; Zhang, Z.; Shangguan, W. 2018: Water promotion mechanism on the NH3-SCR over Fe-BEA catalyst. Catalysis Communications 115: 59-63
Najafi, M.; Ghaedi, M.; Moghimi-Araghi, S. 2016: Water propagation in two-dimensional petroleum reservoirs. Physica A: Statistical Mechanics and its Applications 445: 102-111
Hanfu, H.; Changshen, W.; Haibo, B.; Zihe, W. 2012: Water protection in the western semiarid coal mining regions of China: a case study. International Journal of Mining Science and Technology 22(5): 719-723
Dai, Y.; Kawaguchi, T.; Suzuki, K.; Suzuki, S.; Yamamoto, K.; Masui, A. 1991: Water protective surface layer on fluorozirconate glass produced by low‐energy oxygen ion implantation. Applied Physics Letters 58(4): 422-424
Eley, D.; Hey, M.; Rix, C. 1978: Water proton magnetic relaxation in silver iodide sols. Journal of Colloid and Interface Science 65(3): 592-594
Niccolai, N.; Rossi, C.; Tiezzi, E. 1983: Water proton spin-lattice relaxation behaviour in heterogeneous biological systems. Chemical Physics Letters 96(2): 154-156
Karamoddin, M.; Varaminian, F. 2016: Water purification by freezing and gas hydrate processes, and removal of dissolved minerals (Na + , K + , Mg 2+ , Ca 2+ ). Journal of Molecular Liquids 223: 1021-1031
Sonawan, H.; Abdurrachim, H. 2020: Water purification experiment by applying flashing method with a rotating nozzle. Water Supply 20(5): 1965-1974
Hasan, M.; Louhi-Kultanen, M. 2016: Water purification of aqueous nickel sulfate solutions by air cooled natural freezing. Chemical Engineering Journal 294: 176-184
Ando, T.; Fujita, Y.; Kakinaga, M.; Oka, N.; Nishida, T. 2017: Water purification using porous ceramics prepared by recycling volcanic ash and waste glass. Applied Water Science 7(7): 4109-4115
Singh, A.K.; Singh, D.; Dwivedi, V.; Tiwari, G.; Gupta, A. 2020: Water purification using solar still with/without nano-fluid: a review. Materials Today: Proceedings 21: 1700-1706
Hyk, W.; Kitka, K. 2018: Water purification using sponge like behaviour of poly (N-isopropylacrylamide) ferrogels. Studies on silver removal from water samples. Journal of Environmental Chemical Engineering 6(5): 6108-6117
Jain, A.; Kumari, S.; Agarwal, S.; Khan, S. 2021: Water purification via novel nano-adsorbents and their regeneration strategies. Process Safety and Environmental Protection 152: 441-454
Wang, J.; Zhao, B. 1995: Water quality analysis and assessment of rivers in Jilin Province of China. Chinese Geographical Science 5(1): 87-96
Priya, A.; VigneshKumar, S.; Virpanan, N.; Vivekananthan, V.; Vinothkumar, V. 2021: Water quality analysis and purification through nanomembrane. Materials Today: Proceedings 37: 1243-1247
D, V.V.P.; Y Venkataramana, L.; Kumar, P.S.; G, P.; K., S.; A.J., P. 2020: Water quality analysis in a lake using deep learning methodology: prediction and validation. International Journal of Environmental Analytical Chemistry: 1-16
Angeline M, S.; Vijayanand S, V.; Akkara, P.J.; Gretel, A.; John, N.; Josephine, M. 2021: Water quality analysis of ground water from locations in North Bangalore. Current Trends in Biotechnology and Pharmacy 15(5): 437-443
Nagaraju, A.; Sreedhar, Y.; Thejaswi, A.; Sayadi, M.H. 2016: Water quality analysis of the Rapur area, Andhra Pradesh, South India using multivariate techniques. Applied Water Science 7(6): 2767-2777
Janoska, O.; Gruszecka-Kosowska, A. 2018: Water quality and Human Health Risk Assessment: a case study of the Czarna Przemsza River source in Zawiercie, Poland. Human and Ecological Risk Assessment: An International Journal 26(3): 757-781
Ganzhorn, J.U.; Rasoloariniaina, J.R.; Riemann, J.C.; Raminosoa, N. 2016: Water quality and biotic interaction of two cavefish species: Typhleotris madagascariensis Petit, 1933 and Typhleotris mararybe Sparks and Chakrabarty, 2012, in the Mahafaly Plateau groundwater system, Madagascar. Subterranean Biology 18: 1-16
Clapper, J.; Caudill, S.B. 2014: Water quality and cottage prices in Ontario. Applied Economics 46(10): 1122-1126
Stoddart, A.K.; Gagnon, G.A. 2017: Water quality and filter performance of nutrient-, oxidant- and media-enhanced drinking water biofilters. Environmental Science: Water Research-Technology 3(3): 520-533
Cruz, N.; Baeza, A.M.; Zarza Meza, E.A. 2021: Water quality and growth of juvenile specimens in giant freshwater prawn Macrobrachium rosenbergii (de Man, 1879) cultures applied in recirculation and biofloc systems. International Journal for Innovation Education and Research 9(5): 218-227
Alcamo, J. 2019: Water quality and its interlinkages with the Sustainable Development Goals. Current Opinion in Environmental Sustainability 36: 126-140
Qiang, J.; Zhang, Z.; Yu, J.; Xu, J.; Liu, H.; Zhang, Z.; Xu, P. 2017: Water quality and physiological response of F1hybrid seabream (Pagrus major♀ × Acanthopagrus schlegelii♂) to transport stress at different densities. Aquaculture Research 49(2): 767-775
Sipaúba-Tavares, L.; Donadon, A.; Milan, R. 2011: Water quality and plankton populations in an earthen polyculture pond. Brazilian Journal of Biology 71(4): 845-855
Chounlamany, V.; Tanchuling, M.A.; Inoue, T. 2018: Water quality and pollution loading of a river segment affected by landfill leachate and domestic waste. International Journal of Environmental Studies 76(3): 379-395
Barber, M.; Loge, F.; Al-Omari, A.; Fayyad, M. 2008: Water quality and quantity in Jordan's Dead Sea wadis. Water International 33(3): 369-379
de Vet, W.W.J.M.; van Genuchten, C.C.A.; van Loosdrecht, M.C.M.; van Dijk, J.C. 2010: Water quality and treatment of river bank filtrate. Drinking Water Engineering and Science 3(1): 79-90
Egbueri, J.C. 2019: Water quality appraisal of selected farm provinces using integrated hydrogeochemical, multivariate statistical, and microbiological technique. Modeling Earth Systems and Environment 5(3): 997-1013
Kpéra, G.N.; Mensah, G.A.; Aarts, N.; van der Zijpp, A.J. 2016: Water quality as an indicator of the health status of agro-pastoral dams' ecosystems in Benin: An ecosystem services study. Aquatic Ecosystem Health-Management 19(4): 441-451
Yang, L.; Zhao, X.; Peng, S.; Li, X. 2016: Water quality assessment analysis by using combination of Bayesian and genetic algorithm approach in an urban lake, China. Ecological Modelling 339: 77-88
Al-Barakah, F.N.; Al-jassas, A.M.; Aly, A.A. 2017: Water quality assessment and hydrochemical characterization of Zamzam groundwater, Saudi Arabia. Applied Water Science 7(7): 3985-3996
Bhat, S.U.; Pandit, A.K. 2020: Water quality assessment and monitoring of Kashmir Himalayan freshwater springs-A case study. Aquatic Ecosystem Health-Management 23(3): 274-287
Oluyege, J.O.; Adeoye, M.O.; Olowe, B.M. 2018: Water quality assessment and plasmid analysis of multiple antibiotic-resistant Escherichia coli O157:H7 from well-water sources in Ado-Ekiti metropolis, Nigeria. Water Supply 19(4): 1246-1252
Kim, D.; Baek, S.H.; Yoon, D.; Kim, K.; Jeong, J.; Jang, P.; Kim, Y. 2014: Water quality assessment at Jinhae Bay and Gwangyang Bay, South Korea. Ocean Science Journal 49(3): 251-264
Torres-Bejarano, F.; Arteaga-Hernández, F.; Rodríguez-Ibarra, D.; Mejía-Ávila, D.; González-Márquez, L.C. 2020: Water quality assessment in a wetland complex using Sentinel 2 satellite images. International Journal of Environmental Science and Technology 18(8): 2345-2356
Sajidu, S.; Masamba, W.; Henry, E.; Kuyeli, S. 2007: Water quality assessment in streams and wastewater treatment plants of Blantyre, Malawi. Physics and Chemistry of the Earth, Parts A/B/C 32(15-18): 1391-1398
Bora, M.; Goswami, D.C. 2016: Water quality assessment in terms of water quality index (WQI): case study of the Kolong River, Assam, India. Applied Water Science 7(6): 3125-3135
Khadse, G.K.; Patni, P.M.; Labhasetwar, P.K. 2016: Water quality assessment of Chenab river and its tributaries in Jammu Kashmir (India) based on WQi. Sustainable Water Resources Management 2(2): 121-126
Yang, Y.; Zhang, D.; Quan, J.; Wang, P.; Xu, Y. 2021: Water quality assessment of Middle Route of South-North Water Diversion Project based on modified Nemerow index method. Water Supply 21(3): 1005-1015
Sheela, A.M.; Letha, J.; Joseph, S.; Chacko, M.; Sanal kumar, S.P.; Thomas, J. 2012: Water quality assessment of a tropical coastal lake system using multivariate cluster, principal component and factor analysis. Lakes-Reservoirs: Science, Policy and Management for Sustainable Use 17(2): 143-159
Ouyang, L.; Pan, Y.; Huang, C.; Tang, Y.; Du, J.; Xiao, W. 2016: Water quality assessment of benthic diatom communities for water quality in the subalpine karstic lakes of Jiuzhaigou, a world heritage site in China. Journal of Mountain Science 13(9): 1632-1644
Sappa, G.; Ergul, S.; Ferranti, F. 2013: Water quality assessment of carbonate aquifers in southern Latium region, Central Italy: a case study for irrigation and drinking purposes. Applied Water Science 4(2): 115-128
Bhateria, R.; Jain, D. 2016: Water quality assessment of lake water: a review. Sustainable Water Resources Management 2(2): 161-173
Vasistha, P.; Ganguly, R. 2020: Water quality assessment of natural lakes and its importance: An overview. Materials Today: Proceedings 32: 544-552
Sharma, R.C.; Kumar, R. 2017: Water quality assessment of sacred glacial Lake Satopanth of Garhwal Himalaya, India. Applied Water Science 7(8): 4757-4764
Bu, H.; Tan, X.; Li, S.; Zhang, Q. 2009: Water quality assessment of the Jinshui River (China) using multivariate statistical techniques. Environmental Earth Sciences 60(8): 1631-1639
Ali, R.; Bünzli, M.; Colombo, L.; Khattak, S.A.; Pera, S.; Riaz, M.; Valsangiacomo, C. 2018: Water quality before and after a campaign of cleaning and disinfecting shallow wells: a study conducted during and after floods in Khyber Pakhtunkhwa, Pakistan. Journal of Water, Sanitation and Hygiene for Development 9(1): 28-37
Jylhä-Ollila, M.; Laine-Kaulio, H.; Niinikoski-Fusswinkel, P.; Leveinen, J.; Koivusalo, H. 2020: Water quality changes and organic matter removal using natural bank infiltration at a boreal lake in Finland. Hydrogeology Journal 28(4): 1343-1357
Hägg, K.; Li, J.; Heibati, M.; Murphy, K.R.; Paul, C.J.; Persson, K.M. 2021: Water quality changes during the first meter of managed aquifer recharge. Environmental Science: Water Research-Technology 7(3): 562-572
Yin, Z.; Duan, R.; Li, P.; Li, W. 2021: Water quality characteristics and health risk assessment of main water supply reservoirs in Taizhou City, East China. Human and Ecological Risk Assessment: An International Journal 27(8): 2142-2160
Petts, G. 1986: Water quality characteristics of regulated rivers. Progress in Physical Geography: Earth and Environment 10(4): 492-516
Holden, A. 1981: Water quality criteria for freshwater fish. Aquaculture 24: 371-372
Tan, J.; Cherkauer, K.A.; Chaubey, I.; Troy, C.D.; Essig, R. 2016: Water quality estimation of River plumes in Southern Lake Michigan using Hyperion. Journal of Great Lakes Research 42(3): 524-535
Singh, K.R.; Goswami, A.P.; Kalamdhad, A.S.; Kumar, B. 2021: Water quality evaluation and apportionment of pollution sources: a case study of the Baralia and Puthimari River (India). Water Practice and Technology 16(2): 692-706
Kurdi, M.; Eslamkish, T.; Seyedali, M.; Ferdows, M.S. 2015: Water quality evaluation and trend analysis in the Qareh Sou Basin, Iran. Environmental Earth Sciences 73(12): 8167-8175
Chen, L.; Tian, Z.; Zou, K. 2020: Water quality evaluation based on the water quality index method in Honghu Lake: one of the largest shallow lakes in the Yangtze River Economic Zone. Water Supply 20(6): 2145-2155
Ewaid, S.H. 2016: Water quality evaluation of Al-Gharraf river by two water quality indices. Applied Water Science 7(7): 3759-3765
Seth, R.; Mohan, M.; Singh, P.; Singh, R.; Dobhal, R.; Singh, K.P.; Gupta, S. 2014: Water quality evaluation of Himalayan Rivers of Kumaun region, Uttarakhand, India. Applied Water Science 6(2): 137-147
Woodman, C.J.; Min-Venditti, A.A.; Woosnam, K.M.; Brightsmith, D.J. 2019: Water quality for guest health at remote Amazon ecotourism lodges. Tourism Management 72: 202-208
Kerr, P.; Perkovic, V.; Petrie, J.; Agar, J.; Disney, A. 2005: Water quality for haemodialysis. Nephrology 10(s 4): S75-S77
Rinella, M.; Muscha, J.; Reinhart, K.; Petersen, M. 2021: Water quality for livestock in northern Great Plains rangelands. Rangeland Ecology-Management 75: 29-34
Loh, R. 2014: Water quality guide for fish veterinarians. Companion Animal 19(9): 484-485
Cruz, R.F.; Hamilton, S.K.; Tritico, H.M.; Fantin‐Cruz, I.; Figueiredo, D.M.; Zeilhofer, P. 2021: Water quality impacts of small hydroelectric power plants in a tributary to the Pantanal floodplain, Brazil. River Research and Applications 37(3): 448-461
Lathrop, R.; Carpenter, S. 2014: Water quality implications from three decades of phosphorus loads and trophic dynamics in the Yahara chain of lakes. Inland Waters 4(1): 1-14
Jia, Z.; Tang, S.; Luo, W.; Hai, Y. 2016: Water quality improvement through five constructed serial wetland cells and its implications on nonpoint-source pollution control. Hydrological Sciences Journal 61(16): 2946-2956
Aguilar, F.X.; Obeng, E.A.; Cai, Z. 2018: Water quality improvements elicit consistent willingness-to-pay for the enhancement of forested watershed ecosystem services. Ecosystem Services 30: 158-171
Naylor, M. A.; Kaiser, H.; Jones, C. L W. 2010: Water quality in a serial-use raceway and its effect on the growth of South African abalone, Haliotis midae Linnaeus, 1758. Aquaculture Research 42(7): 918-930
Lu, J.; Cai, H.; Zhang, X.; Fu, Y. 2021: Water quality in relation to land use in the Junshan Lake watershed and water quality predictions. Water Supply 21(7): 3602-3613
Bellinger, B.J.; Hoffman, J.C.; Angradi, T.R.; Bolgrien, D.W.; Starry, M.; Elonen, C.; Jicha, T.M.; Lehto, L.P.; Seifert-Monson, L.R.; Pearson, M.S.; Anderson, L.; Hill, B.H. 2016: Water quality in the St. Louis River Area of Concern, Lake Superior: Historical and current conditions and delisting implications. Journal of Great Lakes Research 42(1): 28-38
New, M. 1982: Water quality in warmwater fish pounds. Aquaculture 27(1): 90-91
de Oliveira, K.L.; Ramos, R.L.; Oliveira, S.C.; Christofaro, C. 2020: Water quality index and spatio-temporal perspective of a large Brazilian water reservoir. Water Supply 21(3): 971-982
Simões, F.d.S.; Moreira, A.B.; Bisinoti, M.C.; Gimenez, S.M.N.; Yabe, M.J.S. 2008: Water quality index as a simple indicator of aquaculture effects on aquatic bodies. Ecological Indicators 8(5): 476-484
Bassi, N.; Kumar, M.D. 2017: Water quality index as a tool for wetland restoration. Water Policy 19(3): 390-403
Babaei, S.; F; Hassani; A H; Torabian; A; Karbassi; A R; Hosseinzadeh, L.; F, 2011: Water quality index development using fuzzy logic: a case study of the Karoon River of Iran. African Journal of Biotechnology 10(50): 10125-10133
Beamonte Córdoba, E.; Casino Martínez, A.; Veres Ferrer, E. 2010: Water quality indicators: Comparison of a probabilistic index and a general quality index. the case of the Confederación Hidrográfica del Júcar (Spain). Ecological Indicators 10(5): 1049-1054
Walsh, P.J.; Wheeler, W.J. 2013: Water quality indices and benefit-cost analysis. Journal of Benefit-Cost Analysis 4(1): 81-105
Rivera-Rodríguez, D.A.; Beltrán-Hernández, R.I.; Lucho-Constantino, C.A.; Coronel-Olivares, C.; Hernández-González, S.; Villanueva-Ibáñez, M.; Nolasco-Arizmendi, V.; Vázquez-Rodríguez, G.A. 2018: Water quality indices for groundwater impacted by geogenic background and anthropogenic pollution: case study in Hidalgo, Mexico. International Journal of Environmental Science and Technology 16(5): 2201-2214
Mashauri, D. A. 2003: Water quality management and sustainability, environmental flows and river basin management. Physics and Chemistry of the Earth, Parts A/B/C 28(20-27): 1095-1096
Machiwa, P.K. 2003: Water quality management and sustainability: the experience of Lake Victoria Environmental Management Project (LVEMP)––Tanzania. Physics and Chemistry of the Earth, Parts A/B/C 28(20-27): 1111-1115
New, M.B. 1983: Water quality management for pond fish culture. Aquaculture 35: 178-179
Slaughter, A.S.; Mantel, S.K.; Hughes, D.A. 2016: Water quality management in the context of future climate and development changes: a South African case study. Journal of Water and Climate Change 7(4): 775-787
Shahady, T.; Boniface, H. 2018: Water quality management through community engagement in Costa Rica. Journal of Environmental Studies and Sciences 8(4): 488-502
Parmar, K.S.; Bhardwaj, R. 2014: Water quality management using statistical analysis and time-series prediction model. Applied Water Science 4(4): 425-434
Biswas, A.K.; Tortajada, C. 2019: Water quality management: a globally neglected issue. International Journal of Water Resources Development 35(6): 913-916
Ebdon, L. 1983: Water quality measurement. the modern analytical techniques. Endeavour 7(1): 51-52
Chen, G.; Long, T.; Bai, Y. 2017: Water quality model with axial dispersion solved by Eulerian-Lagrangian operator-splitting method in water distribution system. Water Supply 18(3): 831-842
Wang, B.; Lu, S.; Lin, W.; Yang, Y.; Wang, D. 2016: Water quality model with multiform of N/P transport and transformation in the Yangtze River Estuary. Journal of Hydrodynamics 28(3): 423-430
Sharma, D.; Kansal, A.; Pelletier, G. 2015: Water quality modeling for urban reach of Yamuna river, India (1999–2009), using QUAL2Kw. Applied Water Science 7(3): 1535-1559
Couto, C.; Vicente, H.; Machado, J.; Abelha, A.; Neves, J. 2012: Water quality modeling using artificial intelligence-based tools. International Journal of Design-Nature and Ecodynamics 7(3): 299-308
Couto, C.; Vicente, H.; Machado, J.; Abelha, A.; Neves, J. 2012: Water quality modeling using artificial intelligence-based tools. International Journal of Design-Nature and Ecodynamics 7(3): 300-309
Cebe, K.; Balas, L. 2016: Water quality modelling in kaş bay. Applied Mathematical Modelling 40(3): 1887-1913
Elhassan, A.; Xie, H.; Al-othman, A.A.; Mcclelland, J.; Sharif, H.O. 2015: Water quality modelling in the San Antonio River Basin driven by radar rainfall data. Geomatics, Natural Hazards and Risk 7(3): 953-970
Isiyaka, H.A.; Mustapha, A.; Juahir, H.; Phil-Eze, P. 2018: Water quality modelling using artificial neural network and multivariate statistical techniques. Modeling Earth Systems and Environment 5(2): 583-593
Jin, J.; Jiang, P.; Li, L.; Xu, H.; Lin, G. 2019: Water quality monitoring at a virtual watershed monitoring station using a modified deep extreme learning machine. Hydrological Sciences Journal 65(3): 415-426
Grigoriev, G.; Lagutin, A.; Nabiev, S.; Zuev, B.; Filonenko, V.; Legin, A.; Kirsanov, D. 2019: Water quality monitoring during interplanetary space flights. Acta Astronautica 163: 126-132
Purcell, P.; Bruen, M.; O'Sullivan, J.; Cocchiglia, L.; Kelly-Quinn, M. 2011: Water quality monitoring during the construction of the M3 motorway in Ireland. Water and Environment Journal 26(2): 175-183
Mickelson, A.; Tsvankin, D. 2017: Water quality monitoring for coupled food, energy, and water systems. Environmental Progress-Sustainable Energy 37(1): 165-171
Baptista, C.; Santos, L. 2016: Water quality monitoring in the Paul do Boquilobo Biosphere Reserve. Physics and Chemistry of the Earth, Parts A/B/C 94: 180-187
Pérez-Belmont, P.; Alvarado, J.; Vázquez-Salvador, N.; Rodríguez, E.; Valiente, E.; Díaz, J. 2019: Water quality monitoring in the Xochimilco peri-urban wetland: experiences engaging in citizen science. Freshwater Science 38(2): 342-351
Yazdi, J. 2018: Water quality monitoring network design for urban drainage systems, an entropy method. Urban Water Journal 15(3): 227-233
Khadse, G.K.; Meshram, D.B.; Deshmukh, P.; Labhasetwar, P.K. 2019: Water quality of Tehri dam reservoir and contributing rivers in the Himalayan region, India. Sustainable Water Resources Management 5(4): 1951-1961
Lane, R.R.; Huang, H.; Day, J.W.; Justic, D.; DeLaune, R.D. 2015: Water quality of a coastal Louisiana swamp and how dredging is undermining restoration efforts. Estuarine, Coastal and Shelf Science 152: 23-32
Ansari, M.A.; Deodhar, A.; Kumar, U.S.; Khatti, V.S. 2015: Water quality of few springs in outer Himalayas – a study on the groundwater–bedrock interactions and hydrochemical evolution. Groundwater for Sustainable Development 1(1-2): 59-67
Rubio-Cisneros, N.; Herrera-Silveira, J.; Morales-Ojeda, S.; Moreno-Báez, M.; Montero, J.; Pech-Cárdenas, M. 2018: Water quality of inlets' water bodies in a growing touristic barrier reef Island "Isla Holbox" at the Yucatan Peninsula. Regional Studies in Marine Science 22: 112-124
Castro, M.S.M.; de Vasconcelos, A.M.; Fontenelle, R.O.d.S.; Julião, M.S.d.S.; Soares, A.T.L.; da Silva, L.C.; de Sousa, F.J.S.; Silveira, R.M.F. 2019: Water quality of small ruminant production systems in the Brazilian semiarid region. Biological Rhythm Research 52(6): 934-945
Gabyshev, V.A.; Gabysheva, O.I. 2010: Water quality of the Anabar River indicated by phytoplankton structure and hydrochemical characteristics. Contemporary Problems of Ecology 3(4): 395-400
Abo, R.; Merkel, B.J. 2015: Water quality of the Helvetian and Eocene aquifers in Al Zerba catchment and southern parts of Al Qweek Valley, Aleppo basin, Syria. Sustainable Water Resources Management 1(3): 189-211
Vanacker, M.; Wezel, A.; Oertli, B.; Robin, J. 2018: Water quality parameters and tipping points of dragonfly diversity and abundance in fishponds. Limnology 19(3): 321-333
Park, J.; Jung, N.; Kwak, K.; Chun, M. 2010: Water quality prediction in a reservoir: Linguistic model approach for interval prediction. International Journal of Control, Automation and Systems 8(4): 868-874
Najah, A.A.; El-Shafie, A.; Karim, O.A.; Jaafar, O. 2010: Water quality prediction model utilizing integrated wavelet-ANFIS model with cross-validation. Neural Computing and Applications 21(5): 833-841
Chawla, P.; Cao, X.; Fu, Y.; Hu, C.; Wang, M.; Wang, S.; Gao, J.Z. 2021: Water quality prediction of salton sea using machine learning and big data techniques. International Journal of Environmental Analytical Chemistry: 1-24
Agumassie, T. 2019: Water quality problems, related challenges and their impacts on Ethiopian fishery. African Journal of Environmental Science and Technology 13(2): 66-73
Schöntag, J.M.; Pizzolatti, B.S.; Jangada, V.H.; de Souza, F.H.; Sens, M.L. 2015: Water quality produced by polystyrene granules as a media filter on rapid filters. Journal of Water Process Engineering 5: 118-126
Noh, J.; Choi, H.; Lee, S. 2014: Water quality projection in the Geum River basin in Korea to support integrated basin-wide water resources management. Environmental Earth Sciences 73(4): 1745-1756
Rosińska, J.; Kozak, A.; Dondajewska, R.; Kowalczewska-Madura, K.; Gołdyn, R. 2018: Water quality response to sustainable restoration measures – Case study of urban Swarzędzkie Lake. Ecological Indicators 84: 437-449
Oliver, A.A.; Reuter, J.E.; Heyvaert, A.C.; Dahlgren, R.A. 2011: Water quality response to the Angora Fire, Lake Tahoe, California. Biogeochemistry 111(1-3): 361-376
Teng, Y.; Hu, B.; Zheng, J.; Wang, J.; Zhai, Y.; Zhu, C. 2018: Water quality responses to the interaction between surface water and groundwater along the Songhua River, NE China. Hydrogeology Journal 26(5): 1591-1607
Ding, X.; Zhu, Q.; Zhai, A.; Liu, L. 2019: Water quality safety prediction model for drinking water source areas in Three Gorges Reservoir and its application. Ecological Indicators 101: 734-741
Ghorbani, Z.; Amanipoor, H.; Battaleb-Looie, S. 2020: Water quality simulation of Dez River in Iran using QUAL2KW model. Geocarto International: 1-13
Goher, M.E.; Mahdy, E.M.; Abdo, M.H.; El Dars, F.M.; Korium, M.A.; Elsherif, A.A.S. 2017: Water quality status and pollution indices of Wadi El-Rayan lakes, El-Fayoum, Egypt. Sustainable Water Resources Management 5(2): 387-400
Zhang, Y.; Pulliainen, J.; Koponen, S.; Hallikainen, M. 2002: Water quality studies of combined optical, thermal infrared, and microwave remote sensing. Microwave and Optical Technology Letters 34(4): 281-285
Norton, P.; Amaro, J.; Martins, N.; da Silva, M.V. 2016: Water quality supply in a Portuguese teaching hospital: monitoring and studies on detection of critical points. Toxicological-Environmental Chemistry 99(1): 171-180
Hiriart-Baer, V.P.; Milne, J.; Charlton, M.N. 2009: Water quality trends in Hamilton Harbour: two decades of change in nutrients and chlorophyll a. Journal of Great Lakes Research 35(2): 293-301
Kuo, Y.; Liu, W.; Zhao, E.; Li, R.; Muñoz-Carpena, R. 2019: Water quality variability in the middle and down streams of Han River under the influence of the Middle Route of South-North Water diversion project, China. Journal of Hydrology 569: 218-229
Wang, X.; Bing, H.; Wu, Y.; Zhou, J.; Zhu, H.; Wu, Y.; Sun, H. 2020: Water quality variation and its conditioning factors in the Three Gorges Reservoir, China. Journal of Water and Climate Change 12(5): 1694-1707
Montaseri, M.; Zaman Zad Ghavidel, S.; Sanikhani, H. 2018: Water quality variations in different climates of Iran: toward modeling total dissolved solid using soft computing techniques. Stochastic Environmental Research and Risk Assessment 32(8): 2253-2273
Hoyle, G.M.; Holderman, C.; Anders, P.J.; Shafii, B.; Ashley, K.I. 2014: Water quality, chlorophyll, and periphyton responses to nutrient addition in the Kootenai River, Idaho. Freshwater Science 33(4): 1024-1029
Fourqurean, J.W.; Manuel, S.A.; Coates, K.A.; Kenworthy, W.J.; Boyer, J.N. 2015: Water quality, isoscapes and stoichioscapes of seagrasses indicate general P limitation and unique N cycling in shallow water benthos of Bermuda. Biogeosciences 12(20): 6235-6249
Chen, Z.; Chang, Z.; Wang, J.; Liu, Y.; Chen, S.; Li, J. 2021: Water quality, microbial community and shrimp growth performance of Litopenaeus vannamei culture systems based on biofloc or biofilters. Aquaculture Research 52(12): 6656-6666
de Medeiros, G.A.; de Lima Tresmondi, A.C.C.; de Queiroz, B.P.V.; Fengler, F.H.; Rosa, A.H.; Fialho, J.M.; Lopes, R.S.; Negro, C.V.; dos Santos, L.F.; Ribeiro, A.I. 2017: Water quality, pollutant loads, and multivariate analysis of the effects of sewage discharges into urban streams of Southeast Brazil. Energy, Ecology and Environment 2(4): 259-276
Hozumi, A.; Hong, P.; Kaartvedt, S.; Røstad, A.; Jones, B. 2018: Water quality, seasonality, and trajectory of an aquaculture-wastewater plume in the Red Sea. Aquaculture Environment Interactions 10: 61-77
Elliott, M. 1998: Water quality: Management of a natural resource. Marine Pollution Bulletin 36(4): 312-313
Heal, K.V.; Bartosova, A.; Hipsey, M.R.; Chen, X.; Buytaert, W.; Li, H.; McGrane, S.J.; Gupta, A.B.; Cudennec, C. 2021: Water quality: the missing dimension of water in the water–energy–food nexus. Hydrological Sciences Journal 66(5): 745-758
Zhao, Z.; Wang, H.; Gong, S.; Wang, C. 2021: Water quota system in China: problems and countermeasures. Water Supply 21(4): 1701-1717
Burns, W.G.; Moore, P.B. 1976: Water radiolysis and its effect upon in-reactor zircaloy corrosion. Radiation Effects 30(4): 233-242
Saito, J.; Fujii, S. 1977: Water re-use by ultra-filtration in individual building. Desalination 23(1-3): 183-193
Duyvesteijn, C. 1998: Water re-use in an oil refinery. Desalination 119(1-3): 357-358
Inoue, G.; Nagasawa, S.; Tanaka, S.; Takahashi, T. 1977: Water re-use in fiber dyeing industry. Desalination 23(1-3): 133-140
Kato, H.S.; Shiraki, S.; Nantoh, M.; Kawai, M. 2003: Water reaction on Sr Ti O3(001): promotion effect due to condensation. Surface Science 544(2-3): L722-L728
McGrail, B.; Schaef, H.; Glezakou, V.; Dang, L.; Owen, A. 2009: Water reactivity in the liquid and supercritical CO2 phase: Has half the story been neglected?. Energy Procedia 1(1): 3415-3419
Kita, R.; Osumi, F. 2001: Water reactivity of (Y,Ca)(Ba,La)2Cu3Ox superconductors. Physica C: Superconductivity 357-360: 792-795
Gulamussen, N.J.; Arsénio, A.M.; Matsinhe, N.P.; Rietveld, L.C. 2019: Water reclamation for industrial use in sub-Saharan Africa – a critical review. Drinking Water Engineering and Science 12(2): 45-58
Bowler, C.; Greenhalgh, S. 1985: Water reclamation from sewage using traditional techniques - some large scale examples. Desalination 56: 131-136
Gagliardo, P.; Adham, S.; Merlo, R.; Trussell, R.; Trussell, R. 2001: Water reclamation with membrane bioreactors. Water Supply 1(5-6): 293-302
Gleick, P.H. 2021: Water recommendation for the new administration. Bulletin of the Atomic Scientists 77(1): 24-27
Alkaya, E.; Demirer, G.N. 2015: Water recycling and reuse in soft drink/beverage industry: a case study for sustainable industrial water management in Turkey. Resources, Conservation and Recycling 104: 172-180
Udagawa, T. 1994: Water recycling systems in Tokyo. Desalination 98(1-3): 309-318
Kong, Y.; Wang, W.; Yang, L.; Du, X.; Yang, Y. 2019: Water redistribution among various sectors to avoid freezing of air-cooled heat exchanger. International Journal of Heat and Mass Transfer 141: 294-309
Stünitz, H.; Thust, A.; Heilbronner, R.; Behrens, H.; Kilian, R.; Tarantola, A.; Fitz Gerald, J.D. 2017: Water redistribution in experimentally deformed natural milky quartz single crystals-Implications for H2O-weakening processes. Journal of Geophysical Research: Solid Earth 122(2): 866-894
Monosi, S.; Troli, R.; Coppola, L.; Collepardi, M. 1996: Water reducers for the high alumina cement-silica fume system. Materials and Structures 29(10): 639-644
Antuch, M.; Millet, P.; Iwase, A.; Kudo, A. 2019: Water reduction into hydrogen using Rh-doped Sr Ti O3 photoelectrodes surface-modified by minute amounts of Pt: Insights from heterogeneous kinetic analysis. Electrochimica Acta 297: 696-704
Gazizov, M.S. 1983: Water regime control in mines and quarries in the USSR coal industry. International Journal of Mine Water 2(1): 43-48
Shaporina, N.A. 2009: Water regime of the aeration zone of geochemically conjugated soils of the priobskoe plateau under irrigation conditions. Contemporary Problems of Ecology 2(6): 650-654
Khosravi Mashizi, A.; Sharafatmandrad, M. 2021: Water regulation and soil retention services in semiarid ecosystems of southeastern Iran, 2018–2020. International Journal of Environmental Science and Technology 18(12): 3979-3994
O'Kelly, L.I.; Beck, R.C. 1960: Water regulation in the rat: III. the artificial control of thirst with stomach loads of water and sodium chloride. Psychological Monographs: General and Applied 74(13): 1-26
Zeng, F.; Zhang, X.; Foetzki, A.; Li, X.; Li, X.; Runge, M. 2002: Water relation characteristics of Alhagi sparsifolia and consequences for a sustainable management. Science in China Series D: Earth Sciences 45(S 1): 125-131
Holmstrup, M. 2019: Water relations and drought sensitivity of Folsomia candida eggs (Collembola: Isotomidae). European Journal of Entomology 116: 229-234
Geovani, S.d.L.; Hans, R.G.; Reginaldo, G.N.; Lauriane, A.d.A.S.; Diego, A.X.; Jose, A.d.S.J. 2015: Water relations and gas exchange in castor bean irrigated with saline water of distinct cationic nature. African Journal of Agricultural Research 10(13): 1581-1594
Zhang, Y.; Xu, G.; Peng, S.; Bai, J.; Lu, Q.; Duan, B. 2020: Water relations and non-structural carbohydrate responses to the combined effects of defoliation and progressive drought in a dioecious tree. New Forests 52(4): 605-619
Strobl, S.; Cueva, E.; Silva, B.; Knuesting, J.; Schorsch, M.; Scheibe, R.; Bendix, J.; Beck, E. 2017: Water relations and photosynthetic water use efficiency as indicators of slow climate change effects on trees in a tropical mountain forest in South Ecuador. Ecological Indicators 83: 550-558
He, X.; Wang, S.; Sun, H.; Körner, C.; Yang, Y. 2021: Water relations of "trailing‐edge" evergreen oaks in the semi‐arid upper Yangtze region, SE Himalaya. Journal of Systematics and Evolution 59(6): 1256-1265
Souden, S.; Ennajeh, M.; Ouledali, S.; Massoudi, N.; Cochard, H.; Khemira, H. 2020: Water relations, photosynthesis, xylem embolism and accumulation of carbohydrates and cyclitols in two Eucalyptus species (E. camaldulensis and E. torquata) subjected to dehydration–rehydration cycle. Trees 34(6): 1439-1452
Reyes, F.A.; Muñoz, L.A.; Hansen, A.; del Valle, J.M. 2015: Water relationships in Haematoccoccus pluvialis and their effect in high-pressure agglomeration for supercritical CO2 extraction. Journal of Food Engineering 162: 18-24
Frunza, L.; Kosslick, H.; Pitsch, I.; Frunza, S.; Schönhals, A.; Krause, C.; Stallmach, F.; Kärger, J. 2004: Water relaxation behavior inside the pores and cages of some molecular sieves. Recent Advances in the Science and Technology of Zeolites and Related Materials Part B, Proceedings of the 14th International Zeolite Conference: 1721-1729
Starkweather Jr., H.W.; Chang, J.J. 1982: Water relaxation in perfluorosulfonate ionomers. Macromolecules 15(3): 752-756
de Almeida, A.; Singh, P.; Huebner, W. 1997: Water release rates, active areas, and minimum nuclear radius derived from visual magnitudes of comets- an application to comet 46P/Wirtanen. Planetary and Space Science 45(6): 681-692
Garg, R.; Garg, R.; Thakur, A.; Arif, S.M. 2021: Water remediation using biosorbent obtained from agricultural and fruit waste. Materials Today: Proceedings 46: 6669-6672
Dahri, M.K.; Kooh, M.R.R.; Lim, L.B. 2014: Water remediation using low cost adsorbent walnut shell for removal of malachite green: Equilibrium, kinetics, thermodynamic and regeneration studies. Journal of Environmental Chemical Engineering 2(3): 1434-1444
Tsanaktsidis, C.G.; Favvas, E.P.; Tzilantonis, G.T.; Christidis, S.G.; Katsidi, E.C.; Scaltsoyiannes, A.V. 2015: Water removal from biodiesel/diesel blends and jet fuel using natural resin as dehydration agent. The Canadian Journal of Chemical Engineering 93(10): 1812-1818
Halim, N.; Ali, A.; Ahmad, A.; Abidin, Z.; Ibrahim, Z. 2020: Water removal in Polymer − Ca2+-Montmorillonite (Ca2+-Mon) composites prepared in colloidal System: DSC studies in low temperature range. Materials Today: Proceedings 29: 104-109
Sammartino, S.; Sánchez-Garrido, J.C.; Naranjo, C.; García Lafuente, J.; Rodríguez Rubio, P.; Sotillo, M. 2017: Water renewal in semi-enclosed basins: a high resolution Lagrangian approach with application to the Bay of Algeciras, Strait of Gibraltar. Limnology and Oceanography: Methods 16(2): 106-118
Belzile, M.; Galbraith, P.S.; Bourgault, D. 2016: Water renewals in the S aguenay F jord. Journal of Geophysical Research: Oceans 121(1): 638-657
Hurchalla, G.; Drelich, J. W. 2019: Water repellency of hierarchically structured legs of water-walking striders and fire ants. Surface Innovations 7(3-4): 184-193
Choi, H.; Lee, S.; Park, S.H.; Ko, J.S.; Yang, H. 2017: Water repellency of large-scale imprinting-assisted polymer films. Macromolecular Research 25(6): 584-590
Karapanagiotis, I.; Pavlou, A.; Manoudis, P.N.; Aifantis, K.E. 2014: Water repellent ORMOSIL films for the protection of stone and other materials. Materials Letters 131: 276-279
Sarkar, S.; Patra, S.; Bera, S.; Paul, G.; Ghosh, R. 2010: Water repellent Zn O nanowire arrays synthesized by simple solvothermal technique. Materials Letters 64(3): 460-462
Samadpour, M.; Heydari, M.; Mohammadi, M.; Parand, P.; Taghavinia, N. 2021: Water repellent room temperature vulcanized silicone for enhancing the long-term stability of perovskite solar cells. Solar Energy 218: 28-34
Dai, J.; Akira, Y.; Wittmann, F.; Yokota, H.; Zhang, P. 2010: Water repellent surface impregnation for extension of service life of reinforced concrete structures in marine environments: the role of cracks. Cement and Concrete Composites 32(2): 101-109
Silva, K.F.; de Moraes, D.H.M.; Mesquita, M.; de Oliveira, H.F.E.; Nascimento, W.M.; Battisti, R.; Flores, R.A. 2021: Water requirement and crop coefficient of three chickpea cultivars for the edaphoclimatic conditions of the Brazilian savannah biome. Irrigation Science 39(5): 607-616
Feng, Z.; Liu, D.; Zhang, Y. 2007: Water requirements and irrigation scheduling of spring maize using GIS and Crop Wat model in Beijing-Tianjin-Hebei region. Chinese Geographical Science 17(1): 56-63
Gurski, B.C.; Souza, J.L.M.d.; Oliveira, R.A.d.; Gerstemberg, E. 2020: Water requirements and restrictions to sugarcane in cane plants and ratoon cane cycles in Southern Brazil. Acta Agronómica 69(2): 136-144
Beck, A.; Schaal, M. 1982: Water requirements of an inland nuclear power station engineering and economic aspects. Desalination 40(1-2): 19-24
Helmke, PhD, Emt-B, M.F.; Davis, Ba, S.T.; Degnan, Bs, M.E.; Wojton, Bs, D.A.; Witmer, Ba, Emt-B, G. 2010: Water rescue management in suburban environments. Journal of Emergency Management 8(4): 45-52
Rocchi, C.; Rita Bizzarri, A.; Cannistraro, S. 1997: Water residence times around copper plastocyanin: a molecular dynamics simulation approach. Chemical Physics 214(2-3): 261-276
Falkenmark, M. 2020: Water resilience and human life support - global outlook for the next half century. International Journal of Water Resources Development 36(2-3): 377-396
Kim, D.; Lee, S.; Kwon, H.; Seo, J. 2015: Water resistance and antimicrobial properties of poly(vinyl alcohol) composite films containing surface-modified tetrapod zinc oxide whiskers. Macromolecular Research 23(12): 1134-1143
Hu, J.; Shan, J.; Zhao, J.; Tong, Z. 2015: Water resistance and curing kinetics of epoxy resins with a novel curing agent of biphenyl-containing amine synthesized by one-pot method. Thermochimica Acta 606: 58-65
Kiani, H.; Ashori, A.; Mozaffari, S.A. 2010: Water resistance and thermal stability of hybrid lignocellulosic filler–PVC composites. Polymer Bulletin 66(6): 797-802
Daglilar, S.; Erkan, M.; Gunduz, O.; Ozyegin, L.; Salman, S.; Agathopoulos, S.; Oktar, F. 2007: Water resistance of bone-cements reinforced with bioceramics. Materials Letters 61(11-12): 2295-2298
Jijian, C.; Rong, Z.; Rakov, E. 1989: Water resistance of cadmium-containing fluorozirconate glasses. Journal of Non-Crystalline Solids 112(1-3): 392-398
Liu, Y.; Bolger, B.; Cahill, P.A.; McGuinness, G.B. 2009: Water resistance of photocrosslinked polyvinyl alcohol based fibers. Materials Letters 63(3-4): 419-421
da Silva Freitas, D.d.F.; Claudio Mendes, L. 2019: Water resistance, mechanical, and morphological characteristics in polyamide-6/zirconium phosphate nanocomposites. Journal of Composite Materials 54(2): 259-269
Wansom, S.; Chintasongkro, P.; Srijampan, W. 2019: Water resistant blended cements containing flue-gas desulfurization gypsum, Portland cement and fly ash for structural applications. Cement and Concrete Composites 103: 134-148
Zhao, F.; Liu, H.; Hao, L.; Li, Q. 2012: Water resistant block from desulfurization gypsum. Construction and Building Materials 27(1): 531-533
Pistillo, B.R.; Perrotta, A.; Gristina, R.; Ceccone, G.; Nardulli, M.; d'Agostino, R.; Favia, P. 2011: Water resistant ethylene/acrylic acid plasma-deposited coatings. Surface and Coatings Technology 205: S534-S536
Sun, D.; Zhang, H.; Tang, X.; Yang, J. 2016: Water resistant reactive microcapsules for self-healing coatings in harsh environments. Polymer 91: 33-40
Benkebil, M.; Cizeron, R.; Plaszczynski, S.; Schune, M.; Wormser, G. 2000: Water resistant rhodium plated reflectors for use in the DIRC Ba Bar Cherenkov detector. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 442(1-3): 364-367
Cho, I.; Heo, E.; Park, J. 2021: Water resource R&D efficiency in Korea – toward sustainable integrated water resources management. Water Policy 23(3): 581-598
Crampes, C.; Moreaux, M. 2001: Water resource and power generation. International Journal of Industrial Organization 19(6): 975-997
Brisco, B.; Touzi, R.; van der Sanden, J.; Charbonneau, F.; Pultz, T.; D'Iorio, M. 2008: Water resource applications with RADARSAT-2 – a preview. International Journal of Digital Earth 1(1): 130-147
Egunjobi, L. 1988: Water resource as a factor in the development of the Niger Delta Region. The Environmentalist 8(2): 109-114
Cooke, S.J.; Cech, J.J.; Glassman, D.M.; Simard, J.; Louttit, S.; Lennox, R.J.; Cruz-Font, L.; O'Connor, C.M. 2020: Water resource development and sturgeon (Acipenseridae): state of the science and research gaps related to fish passage, entrainment, impingement and behavioural guidance. Reviews in Fish Biology and Fisheries 30(2): 219-244
Whittington, D.; Wu, X. 2013: Water resource development on the Ganges: moving beyond ambiguity. Water Policy 15(S 1): 1-8
Seenithamby, M.; Nandalal, K.D.W. 2021: Water resource development planning around village cascades: piloting of a scientific methodology in Yan Oya river basin of Sri Lanka. Water Policy 23(4): 946-969
Chen, C. 1996: Water resource in Qilian Mountainous region and its influence on eco-environment of Hexi Corridor. Chinese Geographical Science 6(3): 247-258
Phong, N.T.; Van Tien, H. 2021: Water resource management and island tourism development: insights from Phu Quoc, Kien Giang, Vietnam. Environment, Development and Sustainability 23(12): 17835-17856
DeBell, L.; Anderson, K.; Brazier, R.; King, N.; Jones, L. 2016: Water resource management at catchment scales using lightweight UAVs: current capabilities and future perspectives. Journal of Unmanned Vehicle Systems 4(1): 7-30
Fu, Q.; Zhu, C.; Jiang, Q.; Guo, H.; Zhao, K. 2015: Water resource management based on trade-off analysis of multi-dimensional critical regulation and control indicators. Water Supply 15(3): 552-558
Seguela, G.; Littlewood, J.R.; Karani, G. 2020: Water resource management in the context of a non-potable water reuse case study in arid climate. Energy, Ecology and Environment 5(5): 369-388
Armenia, S.; Bellomo, D.; Medaglia, C.M.; Nonino, F.; Pompei, A. 2019: Water resource management through systemic approach: the case of Lake Bracciano. Journal of Simulation 15(1-2): 65-81
van Dijk, A.I.J.M.; Renzullo, L.J. 2011: Water resource monitoring systems and the role of satellite observations. Hydrology and Earth System Sciences 15(1): 39-55
Hedayati Aghmashhadi, A.; T. Cirella, G.; Zahedi, S.; Kazemi, A. 2019: Water resource policy support system of the Caspian Basin. AIMS Environmental Science 6(4): 242-261
Kravchenko, A.N.; Kussul, N.N.; Lupian, E.A.; Savorsky, V.P.; Hluchy, L.; Shelestov, A.Y. 2008: Water resource quality monitoring using heterogeneous data and high-performance computations. Cybernetics and Systems Analysis 44(4): 616-624
Liu, J.; Chen, J.; Yuan, Z.; Xu, J.; Wang, Y.; Lin, Y. 2020: Water resource security evaluation of the Yangtze River Economic Belt. Water Supply 20(4): 1554-1566
Wang, S.; Wei, Y. 2019: Water resource system risk and adaptive management of the Chinese Heihe River Basin in Asian arid areas. Mitigation and Adaptation Strategies for Global Change 24(7): 1271-1292
Mwakalila, S. 2005: Water resource use in the Great Ruaha Basin of Tanzania. Physics and Chemistry of the Earth, Parts A/B/C 30(11-16): 903-912
R.H.O., 1943: Water resources 1942. Journal of the Franklin Institute 235(6): 652-653
Newman, D. 1995: Water resources and conflict in the Middle East. Political Geography 14(8): 713-715
Song, Y.; Wang, R.; Peng, Y. 2002: Water resources and ecological conditions in the Tarim Basin. Science in China Series D: Earth Sciences 45(S 1): 11-17
Wang, Y.; Kwong Ho, J.; Lu, J. 2019: Water resources and environmental management. Journal of Water and Climate Change 10(2): 3-4
Higashino, M.; Stefan, H.G. 2020: Water resources and flooding risk in Kumamoto based on observed hydrologic data analysis. Journal of Water and Climate Change 12(3): 833-843
Tang, Q.; Chen, H. 1992: Water resources and oasis construction in Tarim Basin. Chinese Geographical Science 2(2): 173-182
Trinidad Requena, A.; Soriano-Miras, R.M.; Calvo Alba, M. 2019: Water resources and textile maquilas in Tehuacán. International Journal of Water Resources Development 37(4): 676-694
Karthe, D.; Chalov, S.; Borchardt, D. 2014: Water resources and their management in central Asia in the early twenty first century: status, challenges and future prospects. Environmental Earth Sciences 73(2): 487-499
Li, J.; See, K.F.; Chi, J. 2019: Water resources and water pollution emissions in China's industrial sector: a green-biased technological progress analysis. Journal of Cleaner Production 229: 1412-1426
Wu, T.; Yu, Y.; Wang, B. 2018: Water resources availability and the growth of housing prices in China. Resources, Conservation and Recycling 128: 555-562
Iranmanesh, R.; Jalalkamali, N.; Tayari, O. 2021: Water resources availability under different climate change scenarios in South East Iran. Journal of Water and Climate Change 12(8): 3976-3991
Naimi Ait-Aoudia, M.; Berezowska-Azzag, E. 2016: Water resources carrying capacity assessment: the case of Algeria's capital city. Habitat International 58: 51-58
Wang, C.; Hou, Y.; Xue, Y. 2017: Water resources carrying capacity of wetlands in Beijing: Analysis of policy optimization for urban wetland water resources management. Journal of Cleaner Production 161: 1180-1191
Caro-Borrero, A.; Carmona-Jiménez, J.; Figueroa, F. 2020: Water resources conservation and rural livelihoods in protected areas of central Mexico. Journal of Rural Studies 78: 12-24
Bandler, H. 1995: Water resources exploitation in Australian prehistory environment. The Environmentalist 15(2): 97-107
Wegerich, K. 2011: Water resources in Central Asia: regional stability or patchy make-up?. Central Asian Survey 30(2): 275-290
Li, Z.; Gui, J.; Wang, X.; Feng, Q.; Zhao, T.; Ouyang, C.; Guo, X.; Zhang, B.; Shi, Y. 2019: Water resources in inland regions of central Asia: Evidence from stable isotope tracing. Journal of Hydrology 570: 1-16
Kniveton, D.R.; Todd, M.C. 2006: Water resources in regional development: the Okavango river. Journal of Hydrology 331(1-2): 1-2
Chidammodzi, C.L.; Muhandiki, V.S. 2017: Water resources management and Integrated Water Resources Management implementation in Malawi: Status and implications for lake basin management. Lakes-Reservoirs: Science, Policy and Management for Sustainable Use 22(2): 101-114
Wang, X.; Chen, Y.; Li, Z.; Fang, G.; Wang, F.; Hao, H. 2021: Water resources management and dynamic changes in water politics in the transboundary river basins of Central Asia. Hydrology and Earth System Sciences 25(6): 3281-3299
Zimmermann, M. 2012: Water resources management in central northern Namibia using empirically grounded modelling. Journal of Water, Sanitation and Hygiene for Development 2(2): 112-123
Mantel, S.K.; Hughes, D.A.; Slaughter, A.S. 2015: Water resources management in the context of future climate and development changes: a South African case study. Journal of Water and Climate Change 6(4): 772-786
Lachaal, F.; Chekirbane, A.; Chargui, S.; Sellami, H.; Tsujimura, M.; Hezzi, H.; Faycel, J.; Mlayah, A. 2016: Water resources management strategies and its implications on hydrodynamic and hydrochemical changes of costal groundwater: Case of Grombalia shallow aquifer, NE Tunisia. Journal of African Earth Sciences 124: 171-188
Naabil, E.; Lamptey, B.; Arnault, J.; Olufayo, A.; Kunstmann, H. 2017: Water resources management using the WRF-Hydro modelling system: Case-study of the Tono dam in West Africa. Journal of Hydrology: Regional Studies 12: 196-209
Greenway, J. 2021: Water resources management versus the world. AIMS Geosciences 7(4): 589-604
Chaminé, H.I. 2015: Water resources meet sustainability: new trends in environmental hydrogeology and groundwater engineering. Environmental Earth Sciences 73(6): 2513-2520
P.M., 1968: Water resources of Canada. Journal of Hydrology 6(3): 330-332
Ben Meir, M. 1982: Water resources of Israel and the need for desalination. Desalination 40(1-2): 15-18
Katko, T.S. 2021: Water resources of Italy: protection, use and control. International Journal of Water Resources Development: 1-3
Osypov, V.; Speka, O.; Chyhareva, A.; Osadcha, N.; Krakovska, S.; Osadchyi, V. 2021: Water resources of the Desna river basin under future climate. Journal of Water and Climate Change 12(7): 3355-3372
Jewitt, G.; Garratt, J.; Calder, I.; Fuller, L. 2004: Water resources planning and modelling tools for the assessment of land use change in the Luvuvhu Catchment, South Africa. Physics and Chemistry of the Earth, Parts A/B/C 29(15-18): 1233-1241
Zhang, X.; Zhang, H.; Chen, B.; Chen, G.; Zhao, X. 2008: Water resources planning based on complex system dynamics: a case study of Tianjin city. Communications in Nonlinear Science and Numerical Simulation 13(10): 2328-2336
Hamdan, L. 1989: Water resources research needs in the Arabian Gulf area. Desalination 72(1-2): 3-7
Li, P.; Qian, H. 2018: Water resources research to support a sustainable China. International Journal of Water Resources Development 34(3): 327-336
Sun, J.; Li, H.; Wang, X.; Shahid, S. 2021: Water resources response and prediction under climate change in Tao'er River Basin, Northeast China. Journal of Mountain Science 18(10): 2635-2645
Liu, M.; Wei, J.; Wang, G.; Wang, F. 2017: Water resources stress assessment and risk early warning–a case of Hebei Province China. Ecological Indicators 73: 358-368
Konar, M.; Evans, T.P.; Levy, M.; Scott, C.A.; Troy, T.J.; Vörösmarty, C.J.; Sivapalan, M. 2016: Water resources sustainability in a globalizing world: who uses the water?. Hydrological Processes 30(18): 3330-3336
de O. Vieira, E.; Sandoval-Solis, S. 2018: Water resources sustainability index for a water-stressed basin in Brazil. Journal of Hydrology: Regional Studies 19: 97-109
Qu, Y.; Luo, H. 1995: Water resources transformation and water quality variation in the Urumqi River Basin. Chinese Geographical Science 5(4): 325-335
Droogers, P.; Immerzeel, W.W.; Terink, W.; Hoogeveen, J.; Bierkens, M.F.P.; van Beek, L.P.H.; Debele, B. 2012: Water resources trends in Middle East and North Africa towards 2050. Hydrology and Earth System Sciences 16(9): 3101-3114
Danilov-Danil'yan, V.I. 2009: Water resources: a strategic factor in the long-term development of the Russian economy. Herald of the Russian Academy of Sciences 79(5): 420-428
Dupoué, A.; Le Galliard, J.; Josserand, R.; DeNardo, D.F.; Decencière, B.; Agostini, S.; Haussy, C.; Meylan, S. 2017: Water restriction causes an intergenerational trade‐off and delayed mother–offspring conflict in a viviparous lizard. Functional Ecology 32(3): 676-686
Rozen‐Rechels, D.; Badiane, A.; Agostini, S.; Meylan, S.; Le Galliard, J. 2020: Water restriction induces behavioral fight but impairs thermoregulation in a dry‐skinned ectotherm. Oikos 129(4): 572-584
Sauquet, E.; Richard, B.; Devers, A.; Prudhomme, C. 2019: Water restrictions under climate change: a Rhône–Mediterranean perspective combining bottom-up and top-down approaches. Hydrology and Earth System Sciences 23(9): 3683-3710
Afridi, M.; Ohama, Y.; Iqbal, M.; Demura, K. 1995: Water retention and adhesion of powdered and aqueous polymer-modified mortars. Cement and Concrete Composites 17(2): 113-118
Singh, J.; Dhaliwal, A.S. 2019: Water retention and controlled release of KCl by using microwave-assisted green synthesis of xanthan gum-cl-poly (acrylic acid)/Ag NPs hydrogel nanocomposite. Polymer Bulletin 77(9): 4867-4893
Yurikov, A.; Lebedev, M.; Pervukhina, M.; Gurevich, B. 2018: Water retention effects on elastic properties of Opalinus shale. Geophysical Prospecting 67(4): 984-996
Olsson, R.; Yang, L.; Lestelius, M. 2007: Water retention of flexographic inks and its influence on final print gloss. Nordic Pulp-Paper Research Journal 22(3): 287-292
Zvala, A.; šurda, P.; Kidová, A.; Vitková, J. 2021: Water retention of the organic soil horizon in a central European deciduous forest. Geografický časopis - Geographical Journal 73(4): 347-358
Okada, K.; Ooyama, A.; Isobe, T.; Kameshima, Y.; Nakajima, A.; MacKenzie, K.J. 2009: Water retention properties of porous geopolymers for use in cooling applications. Journal of the European Ceramic Society 29(10): 1917-1923
Gu, F.; Wang, W.; Cai, Z.; Xue, F.; Jin, Y.; Zhu, J.Y. 2018: Water retention value for characterizing fibrillation degree of cellulosic fibers at micro and nanometer scales. Cellulose 25(5): 2861-2871
Thomsen, S.T.; Weiss, N.D.; Zhang, H.; Felby, C. 2020: Water retention value predicts biomass recalcitrance for pretreated biomass: biomass water interactions vary based on pretreatment chemistry and reflect composition. Cellulose 28(1): 317-330
Buros, O. 1977: Water reuse and conservation in the Virgin Islands. Desalination 23(1-3): 485-494
Hafeez, M.; Bouman, B.; Van de Giesen, N.; Mushtaq, S.; Vlek, P.; Khan, S. 2008: Water reuse and cost-benefit of pumping at different spatial levels in a rice irrigation system in UPRIIS, Philippines. Physics and Chemistry of the Earth, Parts A/B/C 33(1-2): 115-126
Voulvoulis, N. 2018: Water reuse from a circular economy perspective and potential risks from an unregulated approach. Current Opinion in Environmental Science-Health 2: 32-45
Féres, J.; Reynaud, A.; Thomas, A. 2012: Water reuse in Brazilian manufacturing firms. Applied Economics 44(11): 1417-1427
Duarte, N.C.; Amaral, A.E.d.S.; Gomes, B.G.L.A.; Siqueira, G.H.; Tonetti, A.L. 2019: Water reuse in the production of non-reinforced concrete elements: An alternative for decentralized wastewater management. Journal of Water, Sanitation and Hygiene for Development 9(3): 596-600
Subtil, E.L.; Rodrigues, R.; Hespanhol, I.; Mierzwa, J.C. 2017: Water reuse potential at heavy-duty vehicles washing facilities – the mass balance approach for conservative contaminants. Journal of Cleaner Production 166: 1226-1234
Lima, M.; Araujo, B.M.d.; Soares, S.R.A.; Santos, A.S.P.; Vieira, J.M.P. 2020: Water reuse potential for irrigation in Brazilian hydrographic regions. Water Supply 21(6): 2799-2810
Urano, K. 1977: Water reuse with granular activated carbon. Desalination 23(1-3): 533-540
Santos, K.A.; Gomes, T.M.; Rossi, F.; Kushida, M.M.; Del Bianchi, V.L.; Ribeiro, R.; Alves, M.S.M.; Tommaso, G. 2020: Water reuse: dairy effluent treated by a hybrid anaerobic biofilm baffled reactor and its application in lettuce irrigation. Water Supply 21(5): 1980-1993
Elliott, R.L. 1982: Water rheostat for shipyard use. IEEE Transactions on Industry Applications IA-18(5): 568-572
Morgan, B.; Seshadri, S. 2014: Water rights between social activism and social enterprise. Journal of Human Rights and the Environment 5(1): 25-48
Mulwafu, W.O. 2010: Water rights in the context of pluralism and policy changes in Malawi. Physics and Chemistry of the Earth, Parts A/B/C 35(13-14): 752-757
Adhikari, B.; Verhoeven, R.; Troch, P. 2009: Water rights of the head reach farmers in view of a water supply scenario at the extension area of the Babai Irrigation Project, Nepal. Physics and Chemistry of the Earth, Parts A/B/C 34(1-2): 99-106
Hanemann, M.; Young, M. 2020: Water rights reform and water marketing: Australia vs the US West. Oxford Review of Economic Policy 36(1): 108-131
Shah, S.B.H.; Chen, Z.; Yin, F.; Ahmad, A. 2017: Water rippling shaped clustering strategy for efficient performance of software define wireless sensor networks. Peer-to-Peer Networking and Applications 12(2): 371-380
Schaefer, T.; Udenio, M.; Quinn, S.; Fransoo, J.C. 2019: Water risk assessment in supply chains. Journal of Cleaner Production 208: 636-648
Ko, J.; Ng, C.K.; Arramel; Wee, A.T.S.; Tam, T.L.D.; Leong, W.L. 2020: Water robustness of organic thin-film transistors based on pyrazino[2,3-g]quinoxaline-dione conjugated polymer. Journal of Materials Chemistry C 8(12): 4157-4163
Tompa, K.; Bokor, M.; Verebélyi, T.; Tompa, P. 2015: Water rotation barriers on protein molecular surfaces. Chemical Physics 448: 15-25
Thompson, A.B.; Lam, J.K.W. 2012: Water run-off in aircraft fuel tanks. IMA Journal of Applied Mathematics 77(1): 72-85
Wan, R.; Wang, P.; Dai, X.; He, Z. 2019: Water safety assessment and spatio-temporal changes in Dongting Lake, China on the basis of water regime during 1980–2014. Journal of Water and Climate Change 11(3): 877-890
Odimayomi, T.O.; Proctor, C.R.; Wang, Q.E.; Sabbaghi, A.; Peterson, K.S.; Yu, D.J.; Lee, J.; Shah, A.D.; Ley, C.J.; Noh, Y.; Smith, C.D.; Webster, J.P.; Milinkevich, K.; Lodewyk, M.W.; Jenks, J.A.; Smith, J.F.; Whelton, A.J. 2021: Water safety attitudes, risk perception, experiences, and education for households impacted by the 2018 Camp Fire, California. Natural Hazards 108(1): 947-975
Carneiro, R.N.; Damião, S.; Benoliel, M.J. 2015: Water safety plans at EPAL's water supply system-tool to prioritize investments and mitigation actions. Water Supply 15(5): 1106-1114
Roeger, A.; Tavares, A.F. 2018: Water safety plans by utilities: a review of research on implementation. Utilities Policy 53: 15-24
Sonchieu, J.; Tapaat, C. 2020: Water safety: management, perception and health implications in Santa agricultural area, North-West Region, Cameroon. Hydrological Sciences Journal 65(11): 1848-1855
Shiau, Y.; Lee, S.; Chen, T.; Tian, G.; Chiu, C. 2017: Water salinity effects on growth and nitrogen assimilation rate of mangrove (Kandelia candel) seedlings. Aquatic Botany 137: 50-55
Doi, H.; Akamatsu, Y.; Watanabe, Y.; Goto, M.; Inui, R.; Katano, I.; Nagano, M.; Takahara, T.; Minamoto, T. 2017: Water sampling for environmental DNA surveys by using an unmanned aerial vehicle. Limnology and Oceanography: Methods 15(11): 939-944
Zhou, Z.; Cai, X.; Ma, D.; Du, X.; Chen, L.; Wang, H.; Zang, H. 2019: Water saturation effects on dynamic fracture behavior of sandstone. International Journal of Rock Mechanics and Mining Sciences 114: 46-61
Amiri, M.; Zahedi, G.; Yunan, M.H. 2015: Water saturation estimation in tight shaly gas sandstones by application of Progressive Quasi-Static (PQS) algorithm – a case study. Journal of Natural Gas Science and Engineering 22: 468-477
Verdet, C.; Salmon, F.; Sirieix, C.; Lacanette, D. 2021: Water saturation variation in a fire-heated limestone gallery monitored by ERT. Geophysical Journal International 227(1): 660-668
Zhang, S.; Zhang, J.; Jing, X.; Wang, Y.; Wang, Y.; Yue, T. 2018: Water saving efficiency and reliability of rainwater harvesting systems in the context of climate change. Journal of Cleaner Production 196: 1341-1355
Shiguang, C.; Yu, Z. 2020: Water saving potential and economic viability assessment of rainwater harvesting system for four different climatic regions in China. Water Supply 21(1): 386-400
Jeuland, M.; Moffa, M.; Alfarra, A. 2021: Water savings from urban infrastructure improvement and wastewater reuse: evidence from Jordan. International Journal of Water Resources Development 37(6): 976-995
Allen, S. 2019: Water scarce or water abundant? the case of can Tho, Vietnam. Urban Geography 40(7): 1030-1038
Abdul-Kareem Al-Sofi, M. 1994: Water scarcity - the challenge of the future. Desalination 98(1-3): 425-435
Yuan, K.; Yang, Z.; Wang, S. 2021: Water scarcity and adoption of water-saving irrigation technologies in groundwater over-exploited areas in the North China Plain. Irrigation Science 39(3): 397-408
Molinos-Senante, M.; Donoso, G. 2016: Water scarcity and affordability in urban water pricing: a case study of Chile. Utilities Policy 43: 107-116
Rocha, R.; Soares, R.R. 2015: Water scarcity and birth outcomes in the Brazilian semiarid. Journal of Development Economics 112: 72-91
Kharraz, J.E.; El-Sadek, A.; Ghaffour, N.; Mino, E. 2012: Water scarcity and drought in WANA countries. Procedia Engineering 33: 14-29
Almer, C.; Laurent-Lucchetti, J.; Oechslin, M. 2017: Water scarcity and rioting: Disaggregated evidence from Sub-Saharan Africa. Journal of Environmental Economics and Management 86: 193-209
Ioris, A.A.R. 2016: Water scarcity and the exclusionary city: the struggle for water justice in Lima, Peru. Water International 41(1): 125-139
Buxmann, K.; Koehler, A.; Thylmann, D. 2016: Water scarcity footprint of primary aluminium. The International Journal of Life Cycle Assessment 21(11): 1605-1615
Musikavong, C.; Gheewala, S.H. 2016: Water scarcity footprint of products from cooperative and large rubber sheet factories in southern Thailand. Journal of Cleaner Production 134: 574-582
Dinar, A.; Tieu, A.; Huynh, H. 2019: Water scarcity impacts on global food production. Global Food Security 23: 212-226
Andrade, E.P.; de Araújo Nunes, A.B.; de Freitas Alves, K.; Ugaya, C.M.L.; da Costa Alencar, M.; de Lima Santos, T.; da Silva Barros, V.; Pastor, A.V.; de Figueirêdo, M.C.B. 2019: Water scarcity in Brazil: part 1- regionalization of the AWARE model characterization factors. The International Journal of Life Cycle Assessment 25(12): 2342-2358
Alves, K.d.F.; Andrade, E.P.; Savioli, J.P.; Pastor, A.V.; de Figueirêdo, M.C.B.; Ugaya, C.M.L. 2020: Water scarcity in Brazil: part 2- uncertainty assessment in regionalized characterization factors. The International Journal of Life Cycle Assessment 25(12): 2359-2379
Odhiambo, G.O. 2016: Water scarcity in the Arabian Peninsula and socio-economic implications. Applied Water Science 7(5): 2479-2492
Schwerdtner Máñez, K.; Husain, S.; Ferse, S.C.; Máñez Costa, M. 2012: Water scarcity in the Spermonde Archipelago, Sulawesi, Indonesia: Past, present and future. Environmental Science-Policy 23: 74-84
Revollo-Fernández, D.A.; Rodríguez-Tapia, L. 2021: Water scarcity reduces the efficiency of the manufacturing industry in the valley of Mexico Basin: DEA-based two-stage efficiency analysis. Applied Economics Letters: 1-6
Gunkel, A.; Lange, J. 2017: Water scarcity, data scarcity and the Budyko curve- An application in the Lower Jordan River Basin. Journal of Hydrology: Regional Studies 12: 136-149
Molina Camacho, F.; Park, S. 2021: Water scarcity, intergenerational dynamics and music: the case of the Indigenous community of Chiu-Chiu. Canadian Journal of Latin American and Caribbean Studies / Revue canadienne des études latino-américaines et caraïbes: 1-23
Merrey, D.J. 2015: Water scarcity, livelihoods and food security: research and innovation for development. International Journal of Water Resources Development 31(4): 795-799
Potkanski, T.; Adams, W.M. 1998: Water scarcity, property regimes and irrigation management in Sonjo, Tanzania. Journal of Development Studies 34(4): 86-116
Dominguez, F. 2010: Water scarcity: can virtual water operators help?. Utilities Policy 18(3): 129-134
Mesallam, M.; Sheha, E. 2021: Water scavengers controlled electrolyte performance and sulfur cathode for magnesium-ion batteries. Ionics 27(10): 4295-4305
Hu, J.; Cao, Z. 2013: Water science on the molecular scale: new insights into the characteristics of water. National Science Review 1(2): 179-181
Tittmann, E.M.; Hase, E.A. 1950: Water sealed wind boxes for Dwight and Lloyd sintering machine. JOM 2(4): 669-670
Scott, C.A.; Albrecht, T.R.; De Grenade, R.; Zuniga-Teran, A.; Varady, R.G.; Thapa, B. 2018: Water security and the pursuit of food, energy, and earth systems resilience. Water International 43(8): 1055-1074
Huang, Z.; Liu, J.; Mei, C.; Wang, H.; Shao, W. 2020: Water security evaluation based on comprehensive index in Jing-Jin-Ji district, China. Water Supply 20(7): 2698-2714
Zhang, Y.; Xu, Z.; Liao, H. 2018: Water security evaluation based on the TODIM method with probabilistic linguistic term sets. Soft Computing 23(15): 6215-6230
Magsig, B. 2015: Water security in Himalayan Asia: first stirrings of regional cooperation?. Water International 40(2): 342-353
Jun, X.; Yongyong, Z. 2008: Water security in north China and countermeasure to climate change and human activity. Physics and Chemistry of the Earth, Parts A/B/C 33(5): 359-363
Belmar, Y.N.; McNamara, K.E.; Morrison, T.H. 2015: Water security in small island developing states: the limited utility of evolving governance paradigms. WIREs Water 3(2): 181-193
Saif, O.; Mezher, T.; Arafat, H.A. 2014: Water security in the GCC countries: challenges and opportunities. Journal of Environmental Studies and Sciences 4(4): 329-346
Gürsoy, S..; Jacques, P.J. 2014: Water security in the Middle East and North African region. Journal of Environmental Studies and Sciences 4(4): 310-314
Alves, E.M.; Geere, J.; Gutierres Arteiro da Paz, M.; Jacobi, P.R.; Grandisoli, E.A.d.C.; Sulaiman, S.N. 2021: Water security in two megacities: observations on public actions during 2020 in São Paulo and London. Water International 46(6): 883-899
Nie, R.; Tian, Z.; Wang, J.; Zhang, H.; Wang, T. 2018: Water security sustainability evaluation: Applying a multistage decision support framework in industrial region. Journal of Cleaner Production 196: 1681-1704
Norton, M.R. 2013: Water security: pipe dream or reality? a global perspective from the UK. WIREs Water 1(1): 11-18
Hailu, R.; Tolossa, D.; Alemu, G. 2017: Water security: stakeholders' arena in the Awash River Basin of Ethiopia. Sustainable Water Resources Management 5(2): 513-531
Qian, C.; Huang, B.; Wang, Y.; Wu, M. 2012: Water seepage flow in concrete. Construction and Building Materials 35: 491-496
Bloch, R.; Kedem, O.; Vofsi, D. 1965: Water selective membranes for reverse osmosis. Journal of Polymer Science Part B: Polymer Letters 3(11): 965-968
Filipoi, C.; Demco, D.E.; Zhu, X.; Vinokur, R.; Conradi, O.; Fechete, R.; Möller, M. 2012: Water self-diffusion anisotropy and electrical conductivity of perfluorosulfonic acid/Si O2 composite proton exchange membranes. Chemical Physics Letters 554: 143-149
Brüschweiler, R.; Wright, P.E. 1994: Water self-diffusion model for protein-water NMR cross relaxation. Chemical Physics Letters 229(1-2): 75-81
Zhou, C.; Zhang, X.; Wang, Z.; Yang, Z. 2021: Water sensitivity of cement‐based materials. Journal of the American Ceramic Society 104(9): 4279-4296
Machotová, J.; Černošková, E.; Honzíček, J.; Šňupárek, J. 2018: Water sensitivity of fluorine-containing polyacrylate latex coatings: Effects of crosslinking and ambient drying conditions. Progress in Organic Coatings 120: 266-273
Buchholz, D.; Chagas, L.G.; Vaalma, C.; Wu, L.; Passerini, S. 2014: Water sensitivity of layered P2/P3-Nax Ni0.22Co0.11Mn0.66O2 cathode material. J. Mater. Chem. A 2(33): 13415-13421
Tutusaus, M.; Schwartz, K. 2018: Water services in small towns in developing countries: at the tail end of development. Water Policy 20(S 1): 1-11
Pinto, F.S.; Simões, P.; Marques, R.C. 2016: Water services performance: do operational environment and quality factors count?. Urban Water Journal 14(8): 773-781
Yang, G.; Block, P. 2021: Water sharing policies conditioned on hydrologic variability to inform reservoir operations. Hydrology and Earth System Sciences 25(6): 3617-3634
Brewis, A.; Rosinger, A.; Wutich, A.; Adams, E.; Cronk, L.; Pearson, A.; Workman, C.; Young, S. 2019: Water sharing, reciprocity, and need: a comparative study of interhousehold water transfers in sub-Saharan Africa. Economic Anthropology 6(2): 208-221
Nassiri, H.; Lee, K.; Hu, Y.; Hayes, R.E.; Scott, R.W.; Semagina, N. 2017: Water shifts Pd O-catalyzed lean methane combustion to Pt-catalyzed rich combustion in Pd–Pt catalysts: in situ X-ray absorption spectroscopy. Journal of Catalysis 352: 649-656
Deckard, S. 2019: Water shocks: Neoliberal hydrofiction and the crisis of "cheap water". Atlantic Studies 16(1): 108-125
Abdulrahman, S.A. 2019: Water shortage in GCC countries: transferring water from Iraqi Kurdistan Region. International Journal of Environmental Studies 77(2): 191-207
Hadadin, N.; Qaqish, M.; Akawwi, E.; Bdour, A. 2010: Water shortage in Jordan - Sustainable solutions. Desalination 250(1): 197-202
Cordão, M.J.d.S.; Rufino, I.A.A.; Barros Ramalho Alves, P.; Barros Filho, M.N.M. 2020: Water shortage risk mapping: a GIS-MCDA approach for a medium-sized city in the Brazilian semi-arid region. Urban Water Journal 17(7): 642-655
Cao, T.; Wang, S.; Chen, B. 2019: Water shortage risk transferred through interprovincial trade in Northeast China. Energy Procedia 158: 3865-3871
McGuirk, J.P. 1985: Water shortage: Lessons in conservation from the Great California drought, 1976–1977. Environment International 11(5): 484-485
Seright, R.; Brattekas, B. 2021: Water shutoff and conformance improvement: an introduction. Petroleum Science 18(2): 450-478
Yang, Y.; Ni, M. 2014: Water shutoff model test in water-rich sandy stratum by phosphoric acid-water glass grout. Journal of Central South University 21(10): 4014-4020
Aime, S.; Botta, M.; Barbero, L.; Uggeri, F.; Fedeli, F. 1991: Water signal suppression by T2-relaxation enhancement promoted by Dy(III) complexes. Magnetic Resonance in Chemistry 29(13): S85-S88
Bray-Miners, J.; Runciman, R J.; Monteith, G. 2012: Water skiing biomechanics: a study of advanced skiers. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology 227(2): 137-146
Gentili, D.; Chinappi, M.; Bolognesi, G.; Giacomello, A.; Casciola, C.M. 2013: Water slippage on hydrophobic nanostructured surfaces: molecular dynamics results for different filling levels. Meccanica 48(8): 1853-1861
Joshi, B.; Govindan, K. 1981: Water softening by diffusion using cation exchange membranes. Desalination 38: 509-516
Wu, H.; Maginn, E.J. 2014: Water solubility and dynamics of CO2 capture ionic liquids having aprotic heterocyclic anions. Fluid Phase Equilibria 368: 72-79
Romano, P.; Di Carlo, I.; Andújar, J.; Rotolo, S.G. 2021: Water solubility in trachytic and pantelleritic melts: an experimental study. Comptes Rendus. Géoscience 353(S 2): 1-17
Jiang, S.Y.; Yang, F.; Chan, K.L.; Ning, Z. 2014: Water solubility of metals in coarse PM and PM 2.5 in typical urban environment in Hong Kong. Atmospheric Pollution Research 5(2): 236-244
Kreuer, K.; Dippel, T.; Baikov, Y.; Maier, J. 1996: Water solubility, proton and oxygen diffusion in acceptor doped Ba Ce O3: a single crystal analysis. Solid State Ionics 86-88: 613-620
Bera, A.; Ojha, K.; Kumar, T.; Mandal, A. 2012: Water solubilization capacity, interfacial compositions and thermodynamic parameters of anionic and cationic microemulsions. Colloids and Surfaces A: Physicochemical and Engineering Aspects 404: 70-77
Singh, H.N.; Prasad, C.D.; Kumar, S. 1993: Water solubilization in microemulsions containing amines as cosurfactant. Journal of the American Oil Chemists' Society 70(1): 69-73
Romieu, A.; Tavernier-Lohr, D.; Pellet-Rostaing, S.; Lemaire, M.; Renard, P. 2010: Water solubilization of xanthene dyes by post-synthetic sulfonation in organic media. Tetrahedron Letters 51(25): 3304-3308
Kundu, K.; Bardhan, S.; Saha, S.K.; Paul, B.K. 2014: Water solubilization, conductivity and structural characteristics of single and mixed surfactant water-in-oil microemulsions in absence and presence of ionic liquids. Fluid Phase Equilibria 361: 237-249
Hemraj-Benny, T.; Budhoo, S. 2013: Water solubilized single-walled carbon nanotubes from stirring reaction. Materials Letters 93: 85-87
Fujita, S.; Sakairi, N. 2016: Water soluble EDTA-linked chitosan as a zwitterionic flocculant for p H sensitive removal of Cu(ii) ion. RSC Advances 6(13): 10385-10392
Pradhan, R.N.; Hossain, S.M.; Lakma, A.; Stojkov, D.D.; Verbić, T..; Angelovski, G.; Pujales–Paradela, R.; Platas–Iglesias, C.; Singh, A.K. 2019: Water soluble Eu(III) complexes of macrocyclic triamide ligands: Structure, stability, luminescence and redox properties. Inorganica Chimica Acta 486: 252-260
Zhang, Z.; Chang, H.; Kang, Y.; Li, X.; Jiang, H.; Xue, B.; Wang, Y.; Lü, X.; Zhu, X. 2019: Water soluble Ln(III)-based metallopolymer with AIE-active and ACQ-effect lanthanide behaviors for detection of nanomolar pyrophosphate. Sensors and Actuators B: Chemical 282: 999-1007
Gopalakrishnan, D.; Ganeshpandian, M.; Loganathan, R.; Bhuvanesh, N.S.P.; Sabina, X.J.; Karthikeyan, J. 2017: Water soluble Ru(ii)–arene complexes of the antidiabetic drug metformin: DNA and protein binding, molecular docking, cytotoxicity and apoptosis-inducing activity. RSC Advances 7(60): 37706-37719
Twigg, M.M.; Di Marco, C.F.; Leeson, S.; van Dijk, N.; Jones, M.R.; Leith, I.D.; Morrison, E.; Coyle, M.; Proost, R.; Peeters, A.N.M.; Lemon, E.; Frelink, T.; Braban, C.F.; Nemitz, E.; Cape, J.N. 2015: Water soluble aerosols and gases at a UK background site – Part 1: Controls of PM2.5 and PM10 aerosol composition. Atmospheric Chemistry and Physics 15(14): 8131-8145
Costa, G.; Mestroni, G. 1967: Water soluble alkyl-cobalt chelates as organometallic complex cations. Tetrahedron Letters 8(41): 4005-4007
Barut, B.; Demirbaş, .; Şenocak, A.; Özel, A.; Kantekin, H. 2017: Water soluble axially morpholine disubstituted silicon phthalocyanines: Synthesis, characterisation, DNA/BSA binding, DNA photocleavage properties. Synthetic Metals 229: 22-32
Gungor, O.; Kurtar, S.N.K.; Kose, M. 2020: Water soluble biguanide salts and their 1,3,5-triazine derivatives as inhibitors of acetylcholinesterase and α-glucosidase. Zeitschrift für Kristallographie - Crystalline Materials 235(10): 465-475
Anwer, M.K.; Jamil, S.; Ansari, M.J.; Al-Shdefat, R.; Ali, B.E.; Ganaie, M.A.; Abdel-Kader, M.S.; Shakeel, F. 2014: Water soluble binary and ternary complexes of diosmin with β-cyclodextrin: Spectroscopic characterization, release studies and anti-oxidant activity. Journal of Molecular Liquids 199: 35-41
Lynch, D.E.; Chowdhury, M.Z.; Luu, N.; Wane, E.S.; Heptinstall, J.; Cox, M.J. 2013: Water soluble bis(indolenine)squaraine salts for use as fluorescent protein-sensitive probes. Dyes and Pigments 96(1): 116-124
Lee, L.; Robb, R. 1980: Water soluble blue-green lasing dyes for flashlamp-pumped dye lasers. IEEE Journal of Quantum Electronics 16(7): 777-784
Arena, G.; Cali, R.; Lombardo, G.G.; Rizzarelli, E.; Sciotto, D.; Ungaro, R.; Casnati, A. 1992: Water soluble calix[4]arenes. a thermodynamic investigation of proton complex formation. Supramolecular Chemistry 1(1): 19-24
Rogers, R.D.; Bauer, C.B. 1996: Water soluble calixarenes as possible metal ion extractants in polyethylene glycol-based aqueous biphasic systems. Journal of Radioanalytical and Nuclear Chemistry Articles 208(1): 153-161
Zhu, L.; Shi, S.; Yang, L.; Zhang, M.; Liu, K.; Zhang, L. 2016: Water soluble cationic porphyrin TMPip EOPP-induced G-quadruplex and double-stranded DNA photocleavage and cell phototoxicity. RSC Advances 6(16): 13080-13087
Zhang, J.; Yan, Z.; Wang, S.; She, M.; Zhang, Z.; Cai, W.; Liu, P.; Li, J. 2018: Water soluble chemosensor for Ca 2+ based on aggregation-induced emission characteristics and its fluorescence imaging in living cells. Dyes and Pigments 150: 112-120
İlyasoğlu, H.; Guo, Z. 2019: Water soluble chitosan-caffeic acid conjugates as a dual functional polymeric surfactant. Food Bioscience 29: 118-125
Jakubek, M.; Kejík, Z.; Parchaňský, V.; Kaplánek, R.; Vasina, L.; Martásek, P.; Král, V. 2016: Water soluble chromone Schiff base derivatives as fluorescence receptor for aluminium(III). Supramolecular Chemistry 29(1): 1-7
Mohan, P.K.; Sreelakshmi, G.; Muraleedharan, C.; Joseph, R. 2012: Water soluble complexes of curcumin with cyclodextrins: Characterization by FT-Raman spectroscopy. Vibrational Spectroscopy 62: 77-84
Mumick, P.S.; McCormick, C.L. 1994: Water soluble copolymers. 54: N-isopropylacrylamide-co-acrylamide copolymers in drag reduction: Synthesis, characterization, and dilute solution behavior. Polymer Engineering and Science 34(18): 1419-1428
Mumick, P.S.; Hester, R.D.; McCormick, C.L. 1994: Water soluble copolymers. 55: N-isopropylacrylamide-co-acrylamide copolymers in drag reduction: Effect of molecular structure, hydration, and flow geometry on drag reduction performance. Polymer Engineering and Science 34(18): 1429-1439
McCormick, C.; Middleton, J.; Grady, C. 1992: Water soluble copolymers: 38. Synthesis and characterization of electrolyte responsive terpolymers of acrylamide, N-(4-butyl)phenylacrylamide, and sodium acrylate, sodium-2-acrylamido-2-methylpropanesulphonate or sodium-3-acrylamido-3-methylbutanoate. Polymer 33(19): 4184-4190
McCormick, C. L.; Salazar, L. C. 1992: Water soluble copolymers: 44. Ampholytic terpolymers of acrylamide with sodium 2-acrylamido-2-methylpropanesulphonate and 2-acrylamido-2-methylpropanetrimethyl-ammonium chloride. Polymer 33(20): 4384-4387
Mccormick, C.; Salazar, L. 1992: Water soluble copolymers: 46. Hydrophilic sulphobetaine copolymers of acrylamide and 3-(2-acrylamido-2-methylpropanedimethylammonio)-1-propanesulphonate. Polymer 33(21): 4617-4624
Sangeetha, S.; Murali, M. 2015: Water soluble copper(II) complex [Cu(dipica)(CH 3 COO)]Cl O 4 : DNA binding, p H dependent DNA cleavage and cytotoxicity. Inorganic Chemistry Communications 59: 46-49
Huang, H.; Wang, Z.; Gong, Y.; Gao, F.; Luo, Z.; Zhang, S.; Li, H. 2017: Water soluble corrosion inhibitors for copper in 3.5 wt% sodium chloride solution. Corrosion Science 123: 339-350
Li, D.; Qin, W.; Zhang, P.; Xiao, S.; Wang, L. 2016: Water soluble cubic K2Na Sc F6nanocrystals: crystal structure evolution and luminescence properties. CrystEngComm 18(36): 6908-6913
Tabushi, I.; Yamamura, K. 1983: Water soluble cyclophanes as hosts and catalysts. Topics in Current Chemistry: 145-182
Salmon, A.; Jutzi, P. 2001: Water soluble ferrocenyl and polyferrocenyl compounds: synthesis and electrochemistry. Journal of Organometallic Chemistry 637-639: 595-608
Zhu, S.; Kong, L.; Wang, H.; Tian, Y.; Li, S.; Xue, Z.; Xu, X.; Yang, J. 2015: Water soluble fluorophore-carbazole–Au–DNA nanohybrid: enhanced two-photon absorption for living cell imaging application. RSC Advances 5(114): 94446-94455
Shen, S.; Liao, Q.; Huang, L.; Li, D.; Zhang, Q.; Wang, Y.; Lee, S.M.; Lin, L. 2018: Water soluble fraction from ethanolic extract of Clausena lansium seeds alleviates obesity and insulin resistance, and changes the composition of gut microbiota in high-fat diet-fed mice. Journal of Functional Foods 47: 192-199
Grgić, I.; Poznič, M. 1998: Water soluble fraction of iron and oxalate in atmospheric aerosols and its effect on SO2 oxidation. Journal of Aerosol Science 29: S1029-S1030
Grgic´, I.; Poznicˇ, M.; Bercˇicˇ, G.; Bizjak, M. 1999: Water soluble fraction of oxalate in atmospheric aerosols and its influence on manganese and/or iron catalyzed SO2 oxidation. Journal of Aerosol Science 30: S79-S80
Mayilvel Dinesh, M.; Saminathan, K.; Selvam, M.; Srither, S.; Rajendran, V.; Kaler, K.V. 2015: Water soluble graphene as electrolyte additive in magnesium-air battery system. Journal of Power Sources 276: 32-38
Li, Y.; Li, P.; Wang, J.; Yang, Y.; Yao, W.; Wei, Z.; Wu, J.; Yan, X.; Xu, X.; Liu, Y.; Zhu, Y. 2018: Water soluble graphitic carbon nitride with tunable fluorescence for boosting broad-response photocatalysis. Applied Catalysis B: Environmental 225: 519-529
Tabushi, I.; Sasaki, H.; Kuroda, Y. 1976: Water soluble heterocyclophane as a novel class of inclusion host. Journal of the American Chemical Society 98(18): 5727-5728
Zhao, T.; Zhang, H.; Zhou, D.; Gao, Y.; Dong, Y.; Greiser, U.; Tai, H.; Wang, W. 2015: Water soluble hyperbranched polymers from controlled radical homopolymerization of PEG diacrylate. RSC Advances 5(43): 33823-33830
Hocking, M.B.; Syme, D.T.; Axelson, D.E. 2007: Water soluble imide-amide copolymers: Iv. Flocculation and surface active properties of poly(acrylamide-co-sodium N-(4-sulfophenyl)maleimide). Journal of Chemical Technology-Biotechnology 54(2): 97-105
Markova, L.I.; Fedyunyayeva, I.A.; Povrozin, Y.A.; Semenova, O.M.; Khabuseva, S.U.; Terpetschnig, E.A.; Patsenker, L.D. 2013: Water soluble indodicarbocyanine dyes based on 2,3-dimethyl-3-(4-sulfobutyl)-3H-indole-5-sulfonic acid. Dyes and Pigments 96(2): 535-546
Saxena, M.; Sharma, A.; Sen, A.; Saxena, P.; Saraswati; Mandal, T.; Sharma, S.; Sharma, C. 2017: Water soluble inorganic species of PM10 and PM2.5 at an urban site of Delhi, India: Seasonal variability and sources. Atmospheric Research 184: 112-125
Andrews, P.C.; Blair, M.; Fraser, B.H.; Junk, P.C.; Massi, M.; Tuck, K.L. 2006: Water soluble lanthanoid benzoate complexes for the kinetic separation of cis/trans-limonene oxide. Tetrahedron: Asymmetry 17(19): 2833-2838
Pasha, S.S.; Das, P.; Rath, N.P.; Bandyopadhyay, D.; Jana, N.R.; Laskar, I.R. 2016: Water soluble luminescent cyclometalated platinum(II) complex - a suitable probe for bio-imaging applications. Inorganic Chemistry Communications 67: 107-111
Dai, L.; Li, D.; Cheng, J.; Liu, J.; Deng, L.; Wang, L.; Lei, J.; He, J. 2014: Water soluble multiarm-polyethylene glycol–betulinic acid prodrugs: design, synthesis, and in vivo effectiveness. POLYM. Chem. 5(19): 5775-5783
Pique, T. M.; Pérez, C. J.; Alvarez, V. A.; Vázquez, A. 2013: Water soluble nanocomposite films based on poly(vinyl alcohol) and chemically modified montmorillonites. Journal of Composite Materials 48(5): 545-553
Syiemlieh, I.; Asthana, M.; Asthana, S.K.; Kurbah, S.D.; Koch, A.; Lal, R.A. 2018: Water soluble new bimetallic catalyst [Cu Zn(bz)3(bpy)2]PF6 in hydrogen peroxide mediated oxidation of alcohols to aldehydes/ketones and C-N functional groups. Journal of Organometallic Chemistry 878: 48-59
Takemoto, K. 1996: Water soluble nucleic acid analogs: Preparation and properties. Macromolecular Symposia 103(1): 119-125
Sedaghat, T.; Tarassoli, A.; Ansari-Asl, Z.; Motamedi, H. 2013: Water soluble organotin(IV) complexes with Girard-T reagent-based hydrazones: synthesis, spectral characterization, and antibacterial activity. Journal of Coordination Chemistry 66(14): 2549-2557
Maccaroni, E.; Dong, H.; Blacque, O.; Schmalle, H.W.; Frech, C.M.; Berke, H. 2010: Water soluble phosphine rhenium complexes. Journal of Organometallic Chemistry 695(4): 487-494
Herd, O.; Heßler, A.; Hingst, M.; Tepper, M.; Stelzer, O. 1996: Water soluble phosphines VII. Palladium-catalyzed PC cross coupling reactions between primary or secondary phosphines and functional aryliodides - a novel synthetic route to water soluble phosphines. Journal of Organometallic Chemistry 522(1): 69-76
Wondraczek, H.; Pfeifer, A.; Heinze, T. 2012: Water soluble photoactive cellulose derivatives: synthesis and characterization of mixed 2-[(4-methyl-2-oxo-2H-chromen-7-yl)oxy]acetic acid–(3-carboxypropyl)trimethylammonium chloride esters of cellulose. Cellulose 19(4): 1327-1335
Ullah, A.; Ullah, S.; Khan, G.S.; Shah, S.M.; Hussain, Z.; Muhammad, S.; Siddiq, M.; Hussain, H. 2016: Water soluble polyhedral oligomeric silsesquioxane based amphiphilic hybrid polymers: Synthesis, self-assembly, and applications. European Polymer Journal 75: 67-92
Afacan, C.; Narain, R.; Soares, J.B.P. 2019: Water soluble polymeric nanofibres for rapid flocculation and enhanced dewatering of mature fine tailings. The Canadian Journal of Chemical Engineering 98(1): 96-103
Kathmann, E.E.; White, L.A.; McCormick, C.L. 1997: Water soluble polymers: 69. p H and electrolyte responsive copolymers of acrylamide and the zwitterionic monomer 4-(2-acrylamido-2-methylpropyldimethylammonio) butanoate: synthesis and solution behaviour. Polymer 38(4): 871-878
Kathmann, E.E.; White, L.A.; McCormick, C.L. 1997: Water soluble polymers: 70. Effects of methylene versus propylene spacers in the p H and electrolyte responsiveness of zwitterionic copolymers incorporating carboxybetaine monomers. Polymer 38(4): 879-886
Albuquerque, B.L.; Denicourt-Nowicki, A.; Mériadec, C.; Domingos, J.B.; Roucoux, A. 2016: Water soluble polymer–surfactant complexes-stabilized Pd(0) nanocatalysts: Characterization and structure–activity relationships in biphasic hydrogenation of alkenes and α,β-unsaturated ketones. Journal of Catalysis 340: 144-153
Das, S.; Chatterjee, D.P.; Ghosh, R.; Nandi, A.K. 2015: Water soluble polythiophenes: preparation and applications. RSC Advances 5(26): 20160-20177
Tang, H.; Sun, L.; He, H. 2017: Water soluble reduced graphene oxide as an efficient photoluminescence quencher for semiconductor quantum dots. Optical Materials 64: 9-12
Das, S.; Chatterjee, D.P.; Ghosh, R.; Das, P.; Nandi, A.K. 2016: Water soluble stimuli-responsive star copolymers with multiple encapsulation and release properties. RSC Advances 6(11): 8773-8785
Zhang, R.; Yang, X.; Zhang, D.; Qiu, H.; Fu, Q.; Na, H.; Guo, Z.; Du, F.; Chen, G.; Wei, Y. 2015: Water soluble styrene butadiene rubber and sodium carboxyl methyl cellulose binder for Zn Fe2O4 anode electrodes in lithium ion batteries. Journal of Power Sources 285: 227-234
Mondal, S.; Mandal, S.M.; Ojha, D.; Chattopadhyay, D.; Sinha, C. 2019: Water soluble sulfaguanidine based Schiff base as a "Turn-on" fluorescent probe for intracellular recognition of Zn2+ in living cells and exploration for biological activities. Polyhedron 172: 28-38
Chen, D.; Li, S.; Zheng, F. 2016: Water soluble sulphur quantum dots for selective Ag+ sensing based on the ion aggregation-induced photoluminescence enhancement. Analytical Methods 8(3): 632-636
Garcia, M.; Beecham, M.P.; Kempe, K.; Haddleton, D.M.; Khan, A.; Marsh, A. 2015: Water soluble triblock and pentablock poly(methacryloyl nucleosides) from copper-mediated living radical polymerisation using PEG macroinitiators. European Polymer Journal 66: 444-451
Maksym-Bębenek, P.; Biela, T.; Neugebauer, D. 2015: Water soluble well-defined acidic graft copolymers based on a poly(propylene glycol) macromonomer. RSC Advances 5(5): 3627-3635
Sneeden, R.; Throndsen, H. 1966: Water soluble σ-bonded organochromium compounds; unsubstit utedand substituted dichlorotris(pyridine)benzylchromium(III) complexes. Journal of Organometallic Chemistry 6(5): 542-550
Le, T.; Grewal, H.; Changoco, V.; Truong, V.; Brook, D.J. 2016: Water soluble, chiral, verdazyl radicals derived from aldoses. Tetrahedron 72(41): 6368-6374
Mokdsi, G.; Harding, M. M. 1998: Water soluble, hydrolytically stable derivatives of the antitumor drug titanocene dichloride and binding studies with nucleotides. Journal of Organometallic Chemistry 565(1-2): 29-35