Terrestrial biospheric response to atmospheric carbon dioxide and the missing carbon
King, A.W.; Emanuel, W.R.; Wullschleger, S.D.; Post, W.M.
Bulletin of the Ecological Society of America 74(2 Suppl): 308-309
1993
ISSN/ISBN: 0012-9623 Accession: 033677646
PDF emailed within 1 workday: $29.90
Related References
King, A.W.; Emanuel, W.R.; Wullschleger, S.D.; Post, W.M. 1995: In search of the missing carbon sink: a model of terrestrial biospheric response to land-use change and atmospheric Co 2 Tellus B: Chemical and Physical Meteorology 47(4): 501-519King, A.W.; Emanuel, W.R.; Wullschleger, S.D.; Post, W.M. 1995: In search of the missing carbon sink A model of terrestrial biospheric response to land-use change and atmospheric CO-2 Tellus Series B Chemical and Physical Meteorology 47(4): 501-519
Reich, P.B.; Hungate, B.A.; Luo, Y. 2006: Carbon-nitrogen interactions in terrestrial ecosystems in response to rising atmospheric carbon dioxide Annual Review of Ecology, Evolution, and Systematics 37: 611-636
Kohlmaier, G.H.; Sire E O.; Janecek, A.; Keeling, C.D.; Piper, S.C.; Revelle, R. 1989: Modelling the seasonal contribution of a carbon dioxide fertilization effect of the terrestrial vegetation to the amplitude increase in atmospheric carbon dioxide at mauna loa observatory hawaii usa Tellus Series B Chemical and Physical Meteorology 41(5): 487-510
Alpert, S.B.; Spencer, D.F.; Hidy, G. 1992: Biospheric options for mitigating atmospheric carbon dioxide levels Energy Conversion and Management 33(5-8): 729-736
Joos, F.; Gerber, S.; Prentice, I.C.; Otto Bliesner, B.L.; Valdes, P.J. 2004: Transient simulations of Holocene atmospheric carbon dioxide and terrestrial carbon since the Last Glacial Maximum Global Biogeochemical Cycles 18(2): GB2002
Heimann Martin 2001: Modeling and evaluating terrestrial biospheric exchanges of water, carbon dioxide, and oxygen in the global climate system Pages 52-65 2001
J.R.K.amer; P.B.assard; G.P.try; I.T.kacs 1990: Sensivity of terrestrial carbon cycle on atmospheric carbon dioxide Chemical Geology 84(1-4): 0-168
Fan; Gloor; Mahlman; Pacala; Sarmiento; Takahashi; Tans 1998: A large terrestrial carbon sink in north america implied by atmospheric and oceanic carbon dioxide data and models Science 282(5388): 442-446
Gifford, R.M. 1992: Implications of the globally increasing atmospheric carbon dioxide concentration and temperature for the Australian terrestrial carbon budget Integration using a simple model Australian Journal of Botany 40(4-5): 527-543
Idso, S.B.; Kimball, B.A. 1993: Tree growth in carbon dioxide enriched air and its implications for global carbon cycling and maximum levels of atmospheric carbon dioxide Global Biogeochemical Cycles 7(3): 537-555
Revelle Roger, R. 1983: Past and future atmospheric concentrations of carbon dioxide; methane hydrates in continental slope sediments and increasing atmospheric carbon dioxide Pages 252-261 1983
Fujita, D.; Ishizawa, M.; Maksyutov, S.; Thornton, P.E.; Saeki, T.; Nakazawa, T. 2003: Inter-annual variability of the atmospheric carbon dioxide concentrations as simulated with global terrestrial biosphere models and an atmospheric transport model Tellus Series B Chemical and Physical Meteorology 55B(2): 530-546
Gamo, T.; Horibe, Y. 1985: Gas chromatographic separation of carbon dioxide and nitrous oxide for measurements of delta carbon 13 in atmospheric carbon dioxide Geochemical Journal 19(3): 171-174
Grootes, P.M.; Farwell, G.W.; Schmidt, F.H.; Leach, D.D.; Stuiver, M. 1989: Rapid response of tree cellulose radiocarbon content to changes in atmospheric carbon 14 carbon dioxide Tellus Series B Chemical and Physical Meteorology 41(2): 134-148
Chen, Z.; Liu, J.; Henze, D.K.; Huntzinger, D.N.; Wells, K.C.; Sitch, S.; Friedlingstein, P.; Joetzjer, E.; Bastrikov, V.; Goll, D.S.; Haverd, V.; Jain, A.K.; Kato, E.; Lienert, S.; Lombardozzi, D.L.; McGuire, P.C.; Melton, J.R.; Nabel, J.E.M.S.; Poulter, B.; Tian, H.; Wiltshire, A.J.; Zaehle, S.; Miller, S.M. 2021: Linking global terrestrial CO2 fluxes and environmental drivers: inferences from the Orbiting Carbon Observatory 2 satellite and terrestrial biospheric models Atmospheric Chemistry and Physics 21(9): 6663-6680
Mcguire, A.; Melillo, J.; Kicklighter, D.; Pan, Y.; Xiao, X. 1996: The role of the nitrogen cycle in the global response of net primary production and carbon storage to doubled atmospheric carbon dioxide Bulletin of the Ecological Society of America 77(3 Suppl Part 2): 295
Marino Bruno, D.; McElroy Michael, B.; DeNiro Michael, J. 1989: Carbon isotope ratios of C (sub 4) plant cellulose as a proxy for atmospheric carbon isotopic composition; implications for fine-grained reconstructions of global biospheric activity from (super -20,000) YBP EOS Transactions American Geophysical Union 70(15): 294
Fox, D.L. 1933: Carbon dioxide narcosi. I. Specific effects of carbon dioxide upon protoplasmic streaming and consistency in Nitella, and upon the life of the cell. II. The effect of carbon dioxide compared with that of the hydrogen ion. The threshold of tolerance in Nitella to carbon dioxide and to the hydrogen ion. III. Salt antagonism. IV. Is oxygen lack a factor in the narcotic effects of carbon dioxide? V. Water and electrolytes in Nitella during exposure to carbon dioxide solutions Jour Cell And Comp Physiol 3-3(1-3): 75-100, 341-354
Atkinson, C.J. 1996: Global changes in atmospheric carbon dioxide The influence on terrestrial vegetation Yunus, M , Iqbal, M Plant response to air pollution : 99-133