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There are 48793 results for: content related to: Temperate grasslands and global atmospheric change: a review

  1. Nitrogen-15 budget in model ecosystems of white clover and perennial ryegrass exposed for four years at elevated atmospheric pCO2

    Global Change Biology

    Volume 8, Issue 2, February 2002, Pages: 194–202, Ueli A. Hartwig, Andreas Lüscher, Josef Nösberger and Chris Van Kessel

    Version of Record online : 5 APR 2002, DOI: 10.1046/j.1354-1013.2001.00465.x

  2. Direct evidence that symbiotic N2 fixation in fertile grassland is an important trait for a strong response of plants to elevated atmospheric CO2

    Global Change Biology

    Volume 6, Issue 6, August 2000, Pages: 655–662, Andreas Lüscher, Ueli A. Hartwig, Daniel Suter and Josef Nösberger

    Version of Record online : 22 SEP 2008, DOI: 10.1046/j.1365-2486.2000.00345.x

  3. You have free access to this content
    Mycorrhizas improve nitrogen nutrition of Trifolium repens after 8 yr of selection under elevated atmospheric CO2 partial pressure

    New Phytologist

    Volume 167, Issue 2, August 2005, Pages: 531–542, Hannes Gamper, Ueli A. Hartwig and Adrian Leuchtmann

    Version of Record online : 21 APR 2005, DOI: 10.1111/j.1469-8137.2005.01440.x

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    Soil [N] modulates soil C cycling in CO2-fumigated tree stands: a meta-analysis

    Plant, Cell & Environment

    Volume 33, Issue 12, December 2010, Pages: 2001–2011, W. I. J. DIELEMAN, S. LUYSSAERT, A. REY, P. DE ANGELIS, C. V. M. BARTON, M. S. J. BROADMEADOW, S. B. BROADMEADOW, K. S. CHIGWEREWE, M. CROOKSHANKS, E. DUFRÊNE, P. G. JARVIS, A. KASURINEN, S. KELLOMÄKI, V. LE DANTEC, M. LIBERLOO, M. MAREK, B. MEDLYN, R. POKORNÝ, G. SCARASCIA-MUGNOZZA, V. M. TEMPERTON, D. TINGEY, O. URBAN, R. CEULEMANS and I. A. JANSSENS

    Version of Record online : 12 NOV 2010, DOI: 10.1111/j.1365-3040.2010.02201.x

  5. Elevated CO2 increases nitrogen fixation and decreases soil nitrogen mineralization in Florida scrub oak

    Global Change Biology

    Volume 5, Issue 7, October 1999, Pages: 781–789, Bruce A. Hungate, PauL. Dijkstra, DalE. W. Johnson, C. RosS. Hinkle and BerT. G. Drake

    Version of Record online : 24 DEC 2001, DOI: 10.1046/j.1365-2486.1999.00275.x

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    Carbon sequestration in temperate grassland ecosystems and the influence of management, climate and elevated CO2

    New Phytologist

    Volume 164, Issue 3, December 2004, Pages: 423–439, M. B. Jones and Alison Donnelly

    Version of Record online : 20 OCT 2004, DOI: 10.1111/j.1469-8137.2004.01201.x

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    Elevated atmospheric CO2 does not affect per se the preference for symbiotic nitrogen as opposed to mineral nitrogen of Trifolium repens L.

    Plant, Cell & Environment

    Volume 21, Issue 6, June 1998, Pages: 623–630, S. Zanetti, U.A. Hartwig and J. Nösberger

    Version of Record online : 1 MAR 2002, DOI: 10.1046/j.1365-3040.1998.00307.x

  8. Effects of elevated CO2, temperature and N fertilization on nitrogen fluxes in a temperate grassland ecosystem

    Global Change Biology

    Volume 6, Issue 8, December 2000, Pages: 953–965, P. Loiseau and J. F. Soussana

    Version of Record online : 24 DEC 2001, DOI: 10.1046/j.1365-2486.2000.00373.x

  9. You have free access to this content
    Legume species identity and soil nitrogen supply determine symbiotic nitrogen-fixation responses to elevated atmospheric [CO2]

    New Phytologist

    Volume 167, Issue 2, August 2005, Pages: 523–530, Jason B. West, Janneke HilleRisLambers, Tali D. Lee, Sarah E. Hobbie and Peter B. Reich

    Version of Record online : 28 APR 2005, DOI: 10.1111/j.1469-8137.2005.01444.x

  10. A meta-analysis of climate change effects on forage quality in grasslands: specificities of mountain and Mediterranean areas

    Grass and Forage Science

    Volume 70, Issue 2, June 2015, Pages: 239–254, B. Dumont, D. Andueza, V. Niderkorn, A. Lüscher, C. Porqueddu and C. Picon-Cochard

    Version of Record online : 22 MAR 2015, DOI: 10.1111/gfs.12169

  11. You have full text access to this OnlineOpen article
    Potential of legume-based grassland–livestock systems in Europe: a review

    Grass and Forage Science

    Volume 69, Issue 2, June 2014, Pages: 206–228, A. Lüscher, I. Mueller-Harvey, J. F. Soussana, R. M. Rees and J. L. Peyraud

    Version of Record online : 16 APR 2014, DOI: 10.1111/gfs.12124

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    How can we predict the effects of elevated CO2 on the balance between perennial C3 grass species competing for light?

    New Phytologist

    Volume 154, Issue 1, April 2002, Pages: 53–64, F. Teyssonneyre, C. Picon-Cochard and J. F. Soussana

    Version of Record online : 4 APR 2002, DOI: 10.1046/j.1469-8137.2002.00353.x

  13. Impact of climate change on crop nutrient and water use efficiencies

    Physiologia Plantarum

    Volume 133, Issue 4, August 2008, Pages: 705–724, Sylvie M. Brouder and Jeffrey J. Volenec

    Version of Record online : 28 JUN 2008, DOI: 10.1111/j.1399-3054.2008.01136.x

  14. You have full text access to this Open Access content
    Water use and yield of bioenergy poplar in future climates: modelling the interactive effects of elevated atmospheric CO2 and climate on productivity and water use

    GCB Bioenergy

    Volume 7, Issue 5, September 2015, Pages: 958–973, Rebecca J. Oliver, Eleanor Blyth, Gail Taylor and Jon W. Finch

    Version of Record online : 7 JUN 2014, DOI: 10.1111/gcbb.12197

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    Elevated CO2 increases carbon allocation to the roots of Lolium perenne under free-air CO2 enrichment but not in a controlled environment

    New Phytologist

    Volume 154, Issue 1, April 2002, Pages: 65–75, Daniel Suter, Marco Frehner, Bernt U. Fischer, Josef Nösberger and Andreas Lüscher

    Version of Record online : 4 APR 2002, DOI: 10.1046/j.1469-8137.2002.00368.x

  16. Impacts of elevated atmospheric CO2 and temperature on plant community structure of a temperate grassland are modulated by cutting frequency

    Grass and Forage Science

    Volume 59, Issue 2, June 2004, Pages: 144–156, H. Harmens, P. D. Williams, S. L. Peters, M. T. Bambrick, A. Hopkins and T. W. Ashenden

    Version of Record online : 24 MAY 2004, DOI: 10.1111/j.1365-2494.2004.00414.x

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    Responses of CAM species to increasing atmospheric CO2 concentrations

    Plant, Cell & Environment

    Volume 23, Issue 8, August 2000, Pages: 767–781, P. M. Drennan and P. S. Nobel

    Version of Record online : 25 DEC 2001, DOI: 10.1046/j.1365-3040.2000.00588.x

  18. Effects of elevated atmospheric CO2, cutting frequency, and differential day/night atmospheric warming on root growth and turnover of Phalaris swards

    Global Change Biology

    Volume 13, Issue 5, May 2007, Pages: 1040–1052, ASTRID VOLDER, ROGER M. GIFFORD and JOHN R. EVANS

    Version of Record online : 10 JAN 2007, DOI: 10.1111/j.1365-2486.2007.01321.x

  19. You have free access to this content
    The response of perennial ryegrass/white clover swards to elevated atmospheric CO2concentrations 1. Effects on competition and species composition and interaction with N supply

    New Phytologist

    Volume 135, Issue 1, January 1997, Pages: 67–79, U. SCHENK, H.-J. JÄGER and H.-J. WEIGEL

    Version of Record online : 28 JUN 2008, DOI: 10.1046/j.1469-8137.1997.00615.x

  20. Soil 13C–15N dynamics in an N2-fixing clover system under long-term exposure to elevated atmospheric CO2

    Global Change Biology

    Volume 9, Issue 12, December 2003, Pages: 1751–1762, Kees-Jan Van Groenigen, Johan Six, David Harris, Herbert Blum and Chris Van Kessel

    Version of Record online : 15 DEC 2003, DOI: 10.1111/j.1365-2486.2003.00706.x