Articles, reporting the effects of elevated CO2, are marked with *
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* Andrews J, Harrison K, Matamala R and W Schlesinger. 1999. Separation of root respiration from total soil respiration using carbon-13 labeling during Free-Air Carbon dioxide Enrichment (FACE). Soil Science Society of America Journal 63:1429-1435.
Clark J, Beckage B, Camill P, Cleveland B, HilleRisLambers J, Lichter J, MacLachlan J, Mohan J and P Wyckoff. 1999. Interpreting recruitment limitation in forests. American Journal of Botany 86:1-16.
Clark J, Silman M, Kern R, Macklin E and J HilleRisLambers. 1999. Seed dispersal near and far: generalized patterns across temperate and tropical forests. Ecology 80:1475-1494.
* DeLucia E, Hamilton J, Naidu S, Thomas R, Andrews J, Finzi A, Lavine M, Matamala R, Mohan J, Hendrey G and W Schlesinger. 1999. Net primary production of a forest ecosystem with experimental CO2 enrichment. Science 284:1177-1179.
* DeLucia E, Thomas R and J Ward, editors. 1999. Critical assessment of the response of forest ecosystems to elevated atmospheric carbon dioxide. Tree Physiology, special volume 19:(4/5) p211-335.
* Ellsworth D. 1999. CO2 enrichment in a maturing pine forest: Are CO2 exchange and water status in the canopy affected? Plant, Cell and Environment 22:461-472. [PDF]
* Groninger J, Johnsen K, Seiler J, Will R, Ellsworth D and C Maier. 1999. Implications of elevated atmospheric carbon dioxide for loblolly pine plantation management and productivity. Journal of Forestry 97:4-10.
* Hendrey G, Ellsworth D, Lewin K and J Nagy. 1999. A free-air enrichment system for exposing tall forest vegetation to elevated atmospheric CO2. Global Change Biology 5:293-309. [PDF]
* Herrick J and R Thomas. 1999. Effects of CO2 enrichment on the photosynthetic light response of sun and shade leaves of canopy sweetgum trees (Liquidambar styraciflua L.) in a forest ecosystem. Tree Physiology 19:779-786. [PDF]
* Hymus G, Ellsworth D, Baker N and S Long. 1999. Does free-air carbon dioxide enrichment (FACE) affect photochemical energy use by evergreen trees in different seasons? A chlorophyll fluorescence study of mature loblolly pine. Plant Physiology 120:1183-1191.
Katul G and J Albertson. 1999. Modeling CO2 sources, sinks and fluxes within a forest canopy. Journal of Geophysical Research 104:6081-6091.
Katul G, Hsieh C, Bowling D, Clark K, Shurpali N, Turnipseed A, Albertson J, Tu K, Hollinger D, Evans B, Offerle B, Anderson D, Ellsworth D, Vogel C and R Oren. 1999. Spatial variability of turbulent fluxes in the roughness sublayer of an even-aged pine forest. Boundary Layer Meteorology 93:1-28. [PDF]
* Luan J, Luo Y and J Reynolds. 1999. Responses of a loblolly pine ecosystem to CO2 enrichment: A modeling analysis. Tree Physiology 19:279-287. [PDF]
Luo Y. 1999. Scaling against environmental variability and biological variability. In: Luo, Y. and H.A. Mooney (eds.). Carbon Dioxide and Environmental Stress. Academic Press, San Diego. :Pp. 308-331.
* Luo Y and H Mooney (Eds.). 1999. Carbon Dioxide and Environmental Stress. Academic Press, San Diego :P. 418.
* Luo Y and J Reynolds. 1999. Validity of extrapolating field CO2 experiments to predict carbon sequestration in natural ecosystems. Ecology 80:1568-1583.
* Luo Y, Canadell J and H Mooney. 1999. Interactive effects of carbon dioxide and environmental stress on plants and ecosystems: A synthesis. In: Luo, Y. and H.A. Mooney (eds.). Carbon Dioxide and Environmental Stress. Academic Press, San Diego :Pp. 393-408.
* Luo Y, Reynolds J, Wang Y and D Wolfe. 1999. A search for a predictive understanding of plant responses to elevated [CO2]. Global Change Biology 5:143-156. [PDF]
* McLeod AR and SP Long. 1999. Free-air carbon dioxide enrichment (FACE) in global change research: A review Advances in Ecological Research 28:1-56.
* Myers D, Thomas R and E DeLucia. 1999. Photosynthetic responses of loblolly pine (Pinus taeda L.) needles to experimental sink demand reduction. Tree Physiology 19:235-242. [PDF]
* Myers D, Thomas R and E DeLucia. 1999. Photosynthetic capacity of loblolly pine (Pinus taeda L) trees during the first year of carbon dioxide enrichment in a forest ecosystem. Plant, Cell and Environment 22:473-482.
* Naidu S and E DeLucia. 1999. First-year growth response of trees in an intact forest exposed to elevated CO2. Global Change Biology 5:609-614. [PDF]
* Pritchard S, Rogers H, Peterson C and S Prior. 1999. Elevated CO2 and plant structure. A review. Global Change Biology 5:807-837. [PDF]
* Rogers H, Runion G, Prior S and H Torbert. 1999. Response of plants to elevated atmospheric CO2: Root growth, mineral nutrition, and soil carbon. In Luo, Y., and Mooney, H.A. (eds.). Carbon Dioxide and Environmental Stress Academic Press, NY:215-244.
In press 2009 2008 2007 2006 2005 2004 2003 2002 2001 2000 1999 1998 1997 1996 1995