Global Change Biology, 1354-1013

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  1. Below-ground responses of silver birch trees exposed to elevated CO2 and O-3 levels during three growing seasons

    Kasurinen, A., Keinanen, MM., Kaipainen, S., Nilsson, L. O., Vapaavuori, E., Kontro, MH. & Holopainen, T., 2005, In : Global Change Biology. 11, 7, p. 1167-1179

    Research output: Contribution to journalArticle

  2. Bioprecipitation: a feedback cycle linking Earth history, ecosystem dynamics and land use through biological ice nucleators in the atmosphere

    Morris, C. E., Conen, F., Huffman, J. A., Vaughan Phillips, Poeschl, U. & Sands, D. C., 2014, In : Global Change Biology. 20, 2, p. 341-351

    Research output: Contribution to journalDebate/Note/Editorial

  3. Carbon cycle responses of semi-arid ecosystems to positive asymmetry in rainfall

    Haverd, V., Anders Ahlström, Benjamin Smith & Canadell, J. G., 2017 Feb, In : Global Change Biology. 23, 2, p. 793-800 8 p.

    Research output: Contribution to journalArticle

  4. Carbon dioxide balance of a fen ecosystem in northern Finland under elevated UV-B radiation

    Haapala, J. K., Morsky, S. K., Saarnio, S., Rinnan, R., Suokanerva, H., Kyro, E., Latola, K., Martikanen, P. J., Holopainen, T. & Silvola, J., 2009, In : Global Change Biology. 15, 4, p. 943-954

    Research output: Contribution to journalArticle

  5. Carbon dynamics, net primary productivity and human-appropriated net primary productivity across a forest–cocoa farm landscape in West Africa

    Morel, A. C., Adu Sasu, M., Adu-Bredu, S., Quaye, M., Moore, C., Ashley Asare, R., Mason, J., Hirons, M., McDermott, C. L., Robinson, E. J. Z., Emily Boyd, Norris, K. & Malhi, Y., 2019, In : Global Change Biology.

    Research output: Contribution to journalArticle

  6. Carbon sequestration in peatland: patterns and mechanisms of response to climate change

    Belyea, L. R. & Malmer, N., 2004, In : Global Change Biology. 10, 7, p. 1043-1052

    Research output: Contribution to journalArticle

  7. Changes in European ecosystem productivity and carbon balance driven by regional climate model output

    Morales, P., Hickler, T., Rowell, D. P., Benjamin Smith & Martin Sykes, 2007, In : Global Change Biology. 13, 1, p. 108-122

    Research output: Contribution to journalReview article

  8. Climate change and the optimal flowering time of annual plants in seasonal environments

    Jacob Johansson, Bolmgren, K. & Jonzén, N., 2013, In : Global Change Biology. 19, 1, p. 197-207

    Research output: Contribution to journalArticle

  9. Climate warming and heat waves affect reproductive strategies and interactions between submerged macrophytes

    Li, Z., He, L., Zhang, H., Urrutia-Cordero, P., Ekvall, M. K., Johan Hollander & Lars Anders Hansson, 2017 Jan 1, In : Global Change Biology. 23, 1, p. 108-116 9 p.

    Research output: Contribution to journalArticle

  10. Climate warming and land-use changes drive broad-scale floristic changes in Southern Sweden

    Torbjörn Tyler, Lina Herbertsson, Pål Axel Olsson, Lars Fröberg, Olsson, K-A., Svensson, Å. & Ola Olsson, 2018 Jun, In : Global Change Biology. 24, 6, p. 2607-2621

    Research output: Contribution to journalArticle

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