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Biogeochemistry global change

The chemistry of the mineral—water iaterface and of aquatic environmental particles and coUoids is reviewed ia References 25 and 26. References 16 and 27 review the role of the hydrosphere ia the biogeochemistry of global change. [Pg.216]

Schlesinger, W.H. Biogeochemistry - An Analysis of Global Change, Academic Press San Diego, CA, 1991 226-243. [Pg.257]

Schlesinger, W. H. (1997). "Biogeochemistry an Analysis of Global Change." Academic Press, San Diego. [Pg.193]

This book is about fundamental aspects of the science of biogeochemistry. As such, and while it is relevant to the major issues of global change, it is not issue oriented. Not does this book attempt to review all of the research on these topics. It does, however, emphasize fundamental aspects of the physical, chemical, biological, and Earth sciences that are of lasting importance for integrative studies of the Earth. [Pg.551]

Nouchi I, Mariko S. Mechanisms of methane transport by rice plants. In Oremland RS, editor. Biogeochemistry of Global Change Radiatively Active Trace Gases. New York Chapman Hall 1993. pp. 336-352. [Pg.206]

Conrad R. 1993. Mechanisms controlling methane emission from wetland rice fields. In Oremland R, ed. Biogeochemistry of Global Change. Radiatively Active Gases. New York Chapman HaU, 317-355. [Pg.263]

Schlesinger WH (1997) Biogeochemistry an Analysis of Global Change, 2nd edn. Academic, San Diego... [Pg.242]

McCarty PL.Reinhard M (1993) Biological and chemical transformations of halogenated aliphatic compounds in aquatic and terrestrial environments. In Oremland RS (ed) Biogeochemistry of global change. Chapman and Hill, New York... [Pg.61]

Glibert, P. M., Harrison, J., Heil, C. A., and Seitzinger, S. (2006). Escalating worldwide use of urea - a global change contributing to coastal eutrophication. Biogeochemistry 77, 441—463. [Pg.369]

WiUiams, R. G., and FoUows, M. J. (2003). Physical transport of nutrients and the maintenance of biological production. In Ocean Biogeochemistry The Role of the Ocean Carbon Cycle in Global Change (Fasham, M. J. R., ed.). Springer, Berlin, pp. 19—51. [Pg.630]

Joye, S. B., and Paerl, H. W. (1993). Nitrogen fixation and denitrification in the intertidal and subtidal sediments of Tomales Bay, California. In Biogeochemistry of Global Change Radiative Trace Gases (Oremland, R. S. ed.). Chapman and HaU, New York, NY. pp. 633-653. [Pg.907]

Le Quere, C., et al. (2005). Ecosystem dynamics based on plankton functional types for global ocean biogeochemistry models. Global Change Biol. 11, 2016—2040. [Pg.1492]

Cynar F. J. and Yayanos A. A. (1993) The oceanic distribution of methane and its flux to the atmosphere over Southern California waters. In Biogeochemistry of Global Change Radiatively Active Trace Gases (ed. R. S. Oremland). Chapman and Hall, New York, pp. 551-573. [Pg.1999]

William H. Schlesinger (1991/1997). Biogeochemistry. An Analysis of Global Changes. Academic Press, 308-348. [Pg.158]

See other pages where Biogeochemistry global change is mentioned: [Pg.244]    [Pg.488]    [Pg.298]    [Pg.222]    [Pg.439]    [Pg.474]    [Pg.285]    [Pg.380]    [Pg.36]    [Pg.505]    [Pg.510]    [Pg.671]    [Pg.764]    [Pg.1585]    [Pg.535]   
See also in sourсe #XX -- [ Pg.601 ]



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