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  • Alexandre, A., J.-D. Meunier, F. Colin, and J.-M. Koud, Plant impact on the biogeochemical cycle of silicon and related weathering processes, Geochim. Cosmochim. Acta, 61, 677682, 1997.
  • Bartoli, F., The biogeochemical cycle of silicon in two temperate forest ecosystems, Ecol. Bull., 35, 469476, 1983.
  • Berner, R. A., Weathering, plants, and the long-term carbon cycle, Geochim. Cosmochim. Acta, 56, 32253231, 1992.
  • Berner, R. A., The rise of plants and their effect on weathering and atmospheric CO2, Science, 276, 544546, 1997.
  • Bormann, B. T., D. Wang, F. H. Bormann, G. Benoit, R. April, and M. C. Snyder, Rapid, plant-induced weathering in an aggrading experimental ecosystem, Biogeochemistry, 43, 129155, 1998.
  • Conley, D. J., Riverine contribution of biogenic silica to the oceanic silica budget, Limnol. Oceanogr., 42, 774777, 1997.
  • Conley, D. J., S. S. Kilham, and E. C. Theriot, Differences in silica content between marine and freshwater diatoms, Limnol. Oceanogr., 34, 205213, 1989.
  • Conley, D. J., C. L. Schelske, and E. F. Stoermer, Modification of silica biogeochemistry with eutrophication in aquatic systems, Mar. Ecol. Prog. Ser., 101, 179192, 1993.
  • Conley, D. J., P. Stålnacke, H. Pitkänen, and A. Wilander, The transport and retention of dissolved silicate from rivers in Sweden and Finland, Limnol. Oceanogr., 45, 18501853, 2000.
  • Datnoff, L. E., G. H. Snyder, and G. H. Korndörfer (Eds.), Silicon in Agriculture, Stud. Plant Sci., vol. 8, Elsevier Sci., New York, 2001.
  • De La Rocha, C. L., M. A. Brzezinski, and M. J. DeNiro, A first look at the distribution of the stable isotopes of silicon in natural waters, Geochim. Cosmochim. Acta, 64, 24672477, 2000.
  • DeMaster, D. J., The supply and accumulation of silica in the marine environment, Geochim. Cosmochim. Acta, 45, 17151732, 1981.
  • Derry, L. A., A. C. Kurtz, K. Ziegler, O. A. Chadwick, and E. F. Kelley, Plant phytolith source of dissolved silica in Hawaiian streams from Ge/Si ratios, Proc. Goldschmidt Conf., 6, 3805, 2001.
  • Douthitt, C. B., The geochemistry of the stable isotopes of silicon, Geochim. Cosmochim. Acta, 46, 14491458, 1982.
  • Drever, J. I., The effect of land plants on weathering rates of silicate minerals, Geochim. Cosmochim. Acta, 58, 23252332, 1994.
  • Epstein, E., The anomaly of silicon in plant biology, Proc. Natl. Acad. Sci. USA, 91, 1117, 1994.
  • Epstein, E., Silicon, Ann. Rev. Plant Physiol. Plant Molec. Biol., 50, 641664, 1999.
  • Filippelli, G. M., J. W. Carnahan, L. A. Derry, and A. Kurtz, Terrestrial paleorecords of Ge/Si cycling derived from lake diatoms, Chem. Geol., 168, 926, 2000.
  • Froelich, P. N., V. Blanc, R. A. Mortlock, S. N. Chillrud, W. Dunstan, A. Udomkit, and T.-H. Peng, River fluxes of dissolved silicate to the ocean were higher during glacials: Ge/Si in diatoms, rivers and oceans, Paleoceanography, 7, 739767, 1992.
  • Hammond, D. E., J. McManus, W. B. Berelson, C. Meredith, G. P. Klinkhammer, and K. Coale, Diagenetic fractionation of Ge and Si in reducing sediments: The missing Ge sink and a possible mechanism to cause glacial/interglacial variations in oceanic Ge/Si, Geochim. Cosmochim. Acta, 64, 24532465, 2000.
  • Harper, H. E., and A. H. Knoll, Silica, diatoms and Cenozoic radiolarian evolution, Geology, 3, 175177, 1975.
  • Harrison, K. G., Role of increased marine silica input on paleo-pCO2 levels, Paleoceanography, 15, 292298, 2000.
  • Hinsinger, P., O. N. F. Barros, M. F. Benedetti, Y. Novack, and G. Callot, Plant-induced weathering of a basaltic rock: Experimental evidence, Geochim. Cosmochim. Acta, 65, 137152, 2001.
  • Houghton, R. A., and D. L. Skole. Carbon, in The Earth as Transformed by Human Action, ed. B. L. Turner et al., pp. 393408, Cambridge Univ. Press, New York, 1990.
  • Humborg, C., D. J. Conley, L. Rahm, F. Wulff, A. Cociasu, and V. Ittekkot, Silica retention in river basins: Far-reaching effects on biogeochemistry and aquatic food webs in coastal marine environments, Ambio, 29, 4550, 2000.
  • Kaufman, P. B., P. Dayanandan, Y. Takeoka, W. C. Bigelow, J. D. Jones, and R. Iler, Silica in shoots of higher plants, in Silicon and Siliceous Structures in Biological Systems, ed. T. L. Simpson, and B. E. Volcani, pp. 409449, Springer-Verlag, New York, 1981.
  • Kelly, E. F., O. A. Chadwick, and T. E. Hilinski, The effect of plants on mineral weathering, Biogeochemistry, 42, 2153, 1998.
  • Lanning, F. C., and L. N. Eleuterius, Silica and ash in tissues of some coastal plants, Ann. Bot., 51, 835850, 1983.
  • Lanning, F. C., and L. N. Eleuterius, Silica deposition in some C3 and C4 species of grasses, sedges and composites in the USA, Ann. Bot., 63, 395410, 1989.
  • Likens, G. E., F. H. Bormann, N. M. Johnson, D. W. Fisher, and R. S. Pierce, Effects of forest cutting and herbicide treatment on nutrient budgets in the Hubbard Brook watershed-ecosystem, Ecol. Monogr., 40, 2347, 1970.
  • Lucas, Y., F. J. Luizao, A. Chauvel, J. Rouiller, and D. Nahon, The relation between biological activity of the rain forest and mineral composition of soils, Science, 260, 521523, 1993.
  • Maldonado, M., M. C. Carmona, M. J. Uriz, and A. Cruzado, Decline in Mesozoic reef-building sponges explained by silicon limitation, Nature, 401, 785788, 1999.
  • Malviva, R. G., A. H. Knoll, and R. Siever, Secular change in chert distribution: A reflection of evolving biological participation in the silica cycle, Palaios, 4, 519532, 1990.
  • Marschner, H., Mineral Nutrition in Higher Plants, Academic, San Diego, Calif., 1995.
  • Meunier, J. D., F. Colin, and C. Alarcon, Biogenic silica storage in soils, Geology, 27, 835838, 1999.
  • Norris, A. R., and C. T. Hackney, Silica content of a mesohaline tidal marsh in North Carolina, Estuarine Coastal Shelf Sci., 49, 597605, 1999.
  • Piperno, D. R., Phytolith Analysis — An Archeological and Eeological Perspective, Academic, San Diego, Calif., 1988.
  • Rapp, G.,Jr., and S. C. Mulholland, Phytolith Systematics: Emerging Issues, Plenum, New York, 1992.
  • Raven, J. A., The transport and function of silicon in plants, Biol. Rev., 58, 179207, 1983.
  • Redfield, A. C., B. H. Ketchum, and F. A. Richards, The influence of organisms on the composition of sea-water, in The Sea, edited by M. N. Hill, pp. 1237, John Wiley, New York, 1963.
  • Runge, F., The opal phytolith inventory of soils in central Africa — Quantities, shapes, classification, and spectra, Rev. Palaeobot. Palynol., 107, 2353, 1999.
  • Schelske, C. L., E. F. Stoermer, D. J. Conley, J. A. Robbins, and R. Glover, Early eutrophication in the lower Great Lakes: New evidence from biogenic silica in sediments, Science, 222, 320322, 1983.
  • Siever, R., Silica in the oceans: Biological-geochemical interplay, in Scientists on Gaia, pp. 287295, MIT Press, Cambridge, Mass., 1991.
  • Tréguer, P., D. M. Nelson, A. J. van Bennekom, D. J. DeMaster, A. Leynaert, and B. Quéguiner, The silica balance in the world ocean: a reestimate, Science, 268, 375379, 1995.
  • Turner, R. E., N. Qureshi, N. N. Rabalais, Q. Dortch, D. Justic, R. F. Shaw, and J. Cope, Fluctuating silicate:nitrate ratios and coastal plankton food webs, Proc. Natl. Acad. Sci. USA, 95, 13,04813,051, 1998.
  • van Bennekom, A. J., and W. Salomons, Pathways of nutrients and organic matter from land to ocean through rivers, in River Inputs to Ocean Systems, ed. J.-M. Martin, J. D. Burton, and D. Eisma, p. 3351, U. N. Environ. Programme, Int. Ozone Comm., Sci. Comm. On Oceanic Res., Paris, 1981.
  • Wilding, L. P., N. E. Smeck, and L. R. Drees, Silica in soils: Quartz, cristobalite, trimite, and opal, in Minerals in Soil Environments, pp. 471552, Soil Sci. Soc. Am., Madison, Wis., 1977.
  • Wollast, R., and F. T. Mackenzie, The global cycle of silica, in Silicon Geochemistry and Biogeochemistry, edited by S. R. Aston, pp. 3976, Academic, San Diego, Calif., 1983.
  • Ziegler, K. A., O. A. Chadwick, E. F. Kelly, M. A. Brzezinski, and M. J. DeNiro, Silicon isotope fractionation during weathering and soil formation: Experimental results, Proc. Goldschmidt Conf., 5, 1135, 2000.