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There are 25641 results for: content related to: A meta-analysis of elevated [CO 2 ] effects on soybean ( Glycine max ) physiology, growth and yield

  1. You have free access to this content
    The nitrate and ammonium nitrate supply have a major influence on the response of photosynthesis, carbon metabolism, nitrogen metabolism and growth to elevated carbon dioxide in tobacco

    Plant, Cell & Environment

    Volume 22, Issue 10, October 1999, Pages: 1177–1199, M. Geiger, V. Haake, F. Ludewig, U. Sonnewald and M. Stitt

    Version of Record online : 4 JAN 2002, DOI: 10.1046/j.1365-3040.1999.00466.x

  2. You have free access to this content
    The interaction between elevated carbon dioxide and nitrogen nutrition: the physiological and molecular background

    Plant, Cell & Environment

    Volume 22, Issue 6, June 1999, Pages: 583–621, M. STITT and A. KRAPP

    Version of Record online : 1 MAR 2002, DOI: 10.1046/j.1365-3040.1999.00386.x

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    Elevated carbon dioxide increases nitrate uptake and nitrate reductase activity when tobacco is growing on nitrate, but increases ammonium uptake and inhibits nitrate reductase activity when tobacco is growing on ammonium nitrate

    Plant, Cell & Environment

    Volume 24, Issue 11, November 2001, Pages: 1119–1137, P. Matt, M. Geiger, P. Walch-Liu, C. Engels, A. Krapp and M. Stitt

    Version of Record online : 1 MAR 2002, DOI: 10.1046/j.1365-3040.2001.00771.x

  4. Carbon dioxide and temperature effects on forage establishment: tissue composition and nutritive value

    Global Change Biology

    Volume 5, Issue 7, October 1999, Pages: 743–753, Felix B. Fritschi, Kenneth J. Boote, LynN. E. Sollenberger and L. Hartwell

    Version of Record online : 24 DEC 2001, DOI: 10.1046/j.1365-2486.1999.00260.x

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    Functional responses of plants to elevated atmospheric CO2– do photosynthetic and productivity data from FACE experiments support early predictions?

    New Phytologist

    Volume 162, Issue 2, May 2004, Pages: 253–280, Robert S. Nowak, David S. Ellsworth and Stanley D. Smith

    Version of Record online : 11 MAR 2004, DOI: 10.1111/j.1469-8137.2004.01033.x

  6. You have full text access to this OnlineOpen article
    Wheat genotypes differing in aluminum tolerance differ in their growth response to CO2 enrichment in acid soils

    Ecology and Evolution

    Volume 3, Issue 6, June 2013, Pages: 1440–1448, Qiuying Tian, Xinxin Zhang, Yan Gao, Wenming Bai, Feng Ge, Yibing Ma and Wen-Hao Zhang

    Version of Record online : 15 APR 2013, DOI: 10.1002/ece3.559

  7. The influence of elevated temperature, elevated atmospheric CO2 concentration and water stress on net photosynthesis of loblolly pine (Pinus taeda L.) at northern, central and southern sites in its native range

    Global Change Biology

    Volume 16, Issue 7, July 2010, Pages: 2089–2103, TIMOTHY M. WERTIN, MARY ANNE MCGUIRE and ROBERT O. TESKEY

    Version of Record online : 13 AUG 2009, DOI: 10.1111/j.1365-2486.2009.02053.x

  8. Salinity and sea level mediate elevated CO2 effects on C3–C4 plant interactions and tissue nitrogen in a Chesapeake Bay tidal wetland

    Global Change Biology

    Volume 13, Issue 1, January 2007, Pages: 202–215, JOHN E. ERICKSON, J. PATRICK MEGONIGAL, GARY PERESTA and BERT G. DRAKE

    Version of Record online : 18 OCT 2006, DOI: 10.1111/j.1365-2486.2006.01285.x

  9. Soil carbon and nitrogen cycling and storage throughout the soil profile in a sweetgum plantation after 11 years of CO2-enrichment

    Global Change Biology

    Volume 18, Issue 5, May 2012, Pages: 1684–1697, Colleen M. Iversen, Jason K. Keller, Charles T. Garten Jr and Richard J. Norby

    Version of Record online : 2 MAR 2012, DOI: 10.1111/j.1365-2486.2012.02643.x

  10. No cumulative effect of 10 years of elevated [CO2] on perennial plant biomass components in the Mojave Desert

    Global Change Biology

    Volume 19, Issue 7, July 2013, Pages: 2168–2181, Beth A. Newingham, Cheryl H. Vanier, Therese N. Charlet, Kiona Ogle, Stanley D. Smith and Robert S. Nowak

    Version of Record online : 3 APR 2013, DOI: 10.1111/gcb.12177

  11. Elevated CO2 concentration, nitrogen use, and seed production in annual plants

    Global Change Biology

    Volume 13, Issue 10, October 2007, Pages: 2161–2170, KAY-MAY MIYAGI, TOSHIHIKO KINUGASA, KOUKI HIKOSAKA and TADAKI HIROSE

    Version of Record online : 7 AUG 2007, DOI: 10.1111/j.1365-2486.2007.01429.x

  12. Enhanced isoprene emission capacity and altered light responsiveness in aspen grown under elevated atmospheric CO2 concentration

    Global Change Biology

    Volume 18, Issue 11, November 2012, Pages: 3423–3440, Zhihong Sun, Ülo Niinemets, Katja Hüve, Steffen M. Noe, Bahtijor Rasulov, Lucian Copolovici and Vivian Vislap

    Version of Record online : 20 AUG 2012, DOI: 10.1111/j.1365-2486.2012.02789.x

  13. Integration of photosynthetic acclimation to CO2 at the whole-plant level

    Global Change Biology

    Volume 4, Issue 8, December 1998, Pages: 879–893, DAVID W. WOLFE, ROGER M. GIFFORD, DAVID HILBERT and YIQI. LUO

    Version of Record online : 4 JAN 2002, DOI: 10.1046/j.1365-2486.1998.00183.x

  14. Leaf and canopy scale drivers of genotypic variation in soybean response to elevated carbon dioxide concentration

    Global Change Biology

    Volume 23, Issue 9, September 2017, Pages: 3908–3920, Álvaro Sanz-Sáez, Robert P. Koester, David M. Rosenthal, Christopher M. Montes, Donald R. Ort and Elizabeth A. Ainsworth

    Version of Record online : 5 APR 2017, DOI: 10.1111/gcb.13678

  15. Cassava about-FACE: Greater than expected yield stimulation of cassava (Manihot esculenta) by future CO2 levels

    Global Change Biology

    Volume 18, Issue 8, August 2012, Pages: 2661–2675, David M. Rosenthal, Rebecca A. Slattery, Rebecca E. Miller, Aleel K. Grennan, Timothy R. Cavagnaro, Claude M. Fauquet, Roslyn M. Gleadow and Donald R. Ort

    Version of Record online : 1 JUN 2012, DOI: 10.1111/j.1365-2486.2012.02726.x

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    Flowering time and elevated atmospheric CO2

    New Phytologist

    Volume 176, Issue 2, October 2007, Pages: 243–255, Clint J. Springer and Joy K. Ward

    Version of Record online : 23 AUG 2007, DOI: 10.1111/j.1469-8137.2007.02196.x

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    Plant water relations at elevated CO2– implications for water-limited environments

    Plant, Cell & Environment

    Volume 25, Issue 2, February 2002, Pages: 319–331, S. D. Wullschleger, T. J. Tschaplinski and R. J. Norby

    Version of Record online : 11 MAR 2002, DOI: 10.1046/j.1365-3040.2002.00796.x

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    Stomatal conductance of forest species after long-term exposure to elevated CO2 concentration: a synthesis

    New Phytologist

    Volume 149, Issue 2, February 2001, Pages: 247–264, B. E. Medlyn, C. V. M. Barton, M. S. J. Broadmeadow, R. Ceulemans, P. De Angelis, M. Forstreuter, M. Freeman, S. B. Jackson, S. Kellomäki, E. Laitat, A. Rey, P. Roberntz, B. D. Sigurdsson, J. Strassemeyer, K. Wang, P. S. Curtis and P. G. Jarvis

    Version of Record online : 7 JUL 2008, DOI: 10.1046/j.1469-8137.2001.00028.x

  19. The impacts of rising CO2 concentrations on Australian terrestrial species and ecosystems

    Austral Ecology

    Volume 35, Issue 6, September 2010, Pages: 665–684, MARK J. HOVENDEN and AMITY L. WILLIAMS

    Version of Record online : 29 AUG 2010, DOI: 10.1111/j.1442-9993.2009.02074.x

  20. Temporal dynamics and spatial variability in the enhancement of canopy leaf area under elevated atmospheric CO2

    Global Change Biology

    Volume 13, Issue 12, December 2007, Pages: 2479–2497, HEATHER R. McCARTHY, RAM OREN, ADRIEN C. FINZI, DAVID S. ELLSWORTH, HYUN-SEOK KIM, KURT H. JOHNSEN and BONNIE MILLAR

    Version of Record online : 19 SEP 2007, DOI: 10.1111/j.1365-2486.2007.01455.x