Estimation of ammonium regeneration efficiencies associated with bacterivory in pelagic food webs via a N15 tracer method
Suzuki, M.T.; Sherr, E.B.; Sherr, B.F.
Journal of Plankton Research 18(3): 411-428
1996
ISSN/ISBN: 0142-7873
DOI: 10.1093/plankt/18.3.411
Accession: 020985028
PDF emailed within 0-6 h: $19.90
Related References
Sherr, E.B.; Sherr, B.F. 1994: Bacterivory and herbivory: Key roles of phagotrophic protists in pelagic food webs Microbial Ecology 28(2): 223-235Cai, D.-ling.; Meng, F.; Han, Y.-bing.; Gao, S.-lan. 1999: Studies on 13C/12C ratios as a tracer for food web in a marine ecosystem - the trophic relations in pelagic food webs in Laoshan Bay Oceanologia et Limnologia Sinica. Nov; 306: 671-678
Wheeler, P.A.; Kirchman, D.L.; Landry, M.R.; Kokkinakis, S.A. 1989: Diel periodicity in ammonium uptake and regeneration in the oceanic subarctic pacific implications for interactions in microbial food webs Limnology and Oceanography 34(6): 1025-1033
López-Sepulcre, A.és.; Bruneaux, M.; Collins, S.M.; El-Sabaawi, R.; Flecker, A.S.; Thomas, S.A. 2020: A new Method to Reconstruct Quantitative Food Webs and Nutrient Flows from Isotope Tracer Addition Experiments American Naturalist 195(6): 964-985
Hessen, D.O. 2008: Efficiency, Energy and Stoichiometry in Pelagic Food Webs; Reciprocal Roles of Food Quality and Food Quantity Freshwater Reviews 1(1): 43-57
Springer, AM.; Murphy, EC.; Roseneau, DG.; McRoy, CP.; Cooper, BA. 1987: The paradox of pelagic food webs in the northern Bering Sea - 1. Seabird food habits Continental Shelf Research 78: 895-911
Springer, A M.; Murphy, E C.; Roseneau, D G.; McRoy, C. Peter; Cooper, B A. 1987: The paradox of pelagic food webs in the northern Bering SeaI. Seabird food habits Continental Shelf Research 7(8): 895-911
Sherr, EB.; Sherr, BF.; Paffenhofer, G-A. 1986: Phagotrophic Protozoa as food for metazoans: a 'missing' trophic link in marine pelagic food webs? Marine Microbial Food Webs 1985- ; 12: 61-79
Sherr, E.B.; Sherr, B.F.; Paffenhofer, G.A. 1985: Phagotrophic protozoa as food for metazoans: a «missing» trophic link in marine pelagic food webs? Marine Microbial Food Webs 1(2): 61-79
Paves, H.J.; Gonzalez, H.E. 2008: Carbon fluxes within the pelagic food web in the coastal area off Antofagasta (23°S), Chile : The significance of the microbial versus classical food webs Ecological Modelling 212(3-4): 218-232
Hudson, J.J.; Taylor, W.D.; Mcqueen, D.J.; Somers, K.M. 2001: Phosphorus in pelagic food webs Advances in Limnology 56: 211-225
Paves, H., J.; Gonzalez, H., E. 2008: Carbon fluxes within the pelagic food web in the coastal area off Antofagasta 23 degrees S, Chile The significance of the microbial versus classical food webs Ecological Modelling 212(3-4): 218-232
Jonas Persson, M.T.B.,T.V.andJ.L.R. 2007: Food Quantity and Quality Regulation of Trophic Transfer between Primary Producers and a Keystone Grazer (Daphnia) in Pelagic Freshwater Food Webs Oikos 116(7): 1152-1163
Persson, J.; Brett, M.-T.V.ede, T.; Ravet, J., L. 2007: Food quantity and quality regulation of trophic transfer between primary producers and a keystone grazer (Daphnia) in pelagic freshwater food webs Oikos acta oecologica Scandinavica 116(7): 1152-1163
Roger, C.; Grandperrin, R. 1976: Pelagic food webs in the tropical pacific Limnology and Oceanography 21(5): 731-735
Colin, S. Reynolds 2008: A Changing Paradigm of Pelagic Food Webs International Review of Hydrobiology 93(4-5): 517-531
Tepp, H.Ltunen, A.D.B.Rreiro, N.Lso, G.H.Irsto, J. 2012: Mixotrophy and the toxicity of Ochromonas in pelagic food webs Freshwater Biology 57(11)
Watras, C.J.; Back, R.C.; Halvorsen, S.; Hudson, R.J.; Morrison, K.A.; Wente, S.P. 1998: Bioaccumulation of mercury in pelagic freshwater food webs Science of the Total Environment 219(2-3): 183-208
Piatt, J.F.; Arimitsu, M.L.; Sydeman, W.J.; Thompson, S.A.; Renner, H.; Zador, S.; Douglas, D.; Hatch, S.; Kettle, A.; Williams, J. 2018: Biogeography of pelagic food webs in the North Pacific Fisheries Oceanography 27(4): 366-380
Montevecchi, W.A.; Myers, R.A. 1996: Dietary changes of seabirds indicate shifts in pelagic food webs Sarsia 80(4): 313-322