Global Change Biology, 1354-1013

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  1. Direct and indirect climate change effects on carbon dioxide fluxes in a thawing boreal forest–wetland landscape

    Helbig, M., Chasmer, L., Desai, A. R., Natascha Kljun, Quinton, W. L. & Sonnentag, O., 2017 Jan 28, In : Global Change Biology. 23, 8, p. 3231-3248

    Research output: Contribution to journalArticle

  2. Developing an empirical model of stand GPP with the LUE approach: analysis of eddy covariance data at five contrasting conifer sites in Europe

    Makela, A., Pulkkinen, M., Kolari, P., Fredrik Lagergren, Berbigier, P., Anders Lindroth, Loustau, D., Nikinmaa, E., Vesala, T. & Hari, P., 2008, In : Global Change Biology. 14, 1, p. 92-108

    Research output: Contribution to journalArticle

  3. Deforestation causes increased dissolved silicate losses in the Hubbard Brook Experimental Forest

    Daniel Conley, Likens, G. E., Buso, D. C., Saccone, L., Bailey, S. W. & Johnson, C. E., 2008, In : Global Change Biology. 14, 11, p. 2548-2554

    Research output: Contribution to journalArticle

  4. Declining population trends of European mountain birds

    Lehikoinen, A., Brotons, L., Calladine, J., Campedelli, T., Escandell, V., Flousek, J., Grueneberg, C., Haas, F., Harris, S., Herrando, S., Husby, M., Jiguet, F., Kålås, J. A., Lindström, Å., Lorrillière, R., Molina, B., Pladevall, C., Calvi, G., Sattler, T., Schmid, H. & 3 others, Sirkiä, P. M., Teufelbauer, N. & Trautmann, S., 2019, In : Global Change Biology. 25, 2, p. 577–588

    Research output: Contribution to journalArticle

  5. Decadal vegetation changes in a northern peatland, greenhouse gas fluxes and net radiative forcing

    Johansson, T., Malmer, N., Crill, P. M., Friborg, T., Jonas Åkerman, Mikhail Mastepanov & Torben Christensen, 2006, In : Global Change Biology. 12, 12, p. 2352-2369

    Research output: Contribution to journalArticle

  6. Contrasting above- and belowground organic matter decomposition and carbon and nitrogen dynamics in response to warming in High Arctic tundra

    Blok, D., Faucherre, S., Banyasz, I., Rinnan, R., Michelsen, A. & Elberling, B., 2018 Jun 1, In : Global Change Biology. 24, 6, p. 2660-2672 13 p.

    Research output: Contribution to journalArticle

  7. Contemporary carbon accumulation in a boreal oligotrophic minerogenic mire - a significant sink after accounting for all C-fluxes

    Nilsson, M., Sagerfors, J., Buffam, I., Laudon, H., Eriksson, T., Grelle, A., Klemedtsson, L., Weslien, P. & Anders Lindroth, 2008, In : Global Change Biology. 14, 10, p. 2317-2332

    Research output: Contribution to journalArticle

  8. Comprehensive assessment of carbon productivity, allocation and storage in three Amazonian forests

    Malhi, Y., Aragao, L. E. O. C., Dan Metcalfe, Paiva, R., Quesada, C. A., Almeida, S., Anderson, L., Brando, P., Chambers, J. Q., da Costa, A. C. L., Hutyra, L. R., Oliveira, P., Patino, S., Pyle, E. H., Robertson, A. L. & Teixeira, L. M., 2009, In : Global Change Biology. 15, 5, p. 1255-1274

    Research output: Contribution to journalArticle

  9. Comparison of Ecosystem Water-use Efficiency among Douglas Fir Forest, Aspen Forest and Grassland Using Eddy Covariance and Carbon Isotope Techniques

    Ponton, S., Flanagan, L. B., Alstad, K. P., Johnson, B. G., Morgenstern, K., Natascha Kljun, Black, T. A. & Barr, A. G., 2006, In : Global Change Biology. 12, 2, p. 294-310

    Research output: Contribution to journalArticle