Rineau, Francois and Malina, Robert and Beenaerts, Natalie and Arnauts, Natasha and Bardgett, Richard and Berg, Matty P. and Boerema, Annelies and Bruckers, Liesbeth and Clerinx, Jan and Davin, Eduoard L. and De Boeck, Hans J. and De Dobbelaer, Tom and Dondini, Marta and De Laender, Frederik and Ellers, Jacintha and Franken, Oscar and Gilbert, Lucy and Gudmundsson, Lukas and Janssens, Ivan A. and Johnson, David and Lizin, Sebastien and Longdoz, Bernad and Meire, Patrick and Meremans, Dominique and Milbau, Ann and Moretti, Michele and Nijs, Ivan and Nobel, Anne and Sorin Pop, Luliu and Puetz, Thomas and Reyns, Wouter and Roy, Jacques and Schuetz, Jochen and Seneviratne, Sonia I. and Smith, Pete and Solmi, Francesca and Staes, Jan and Thiery, Wim and Thijs, Sofie and Vanderkelen, Inne and Van Landuyt, Wouter and Verbruggen, Erik and Witters, Nele and Zscheischler, Jakob and Vangronsveld, Jaco (2019) Towards more predictive and interdisciplinary climate change ecosystem experiments. Nature Climate Change, 9. pp. 809-816. ISSN 1758-678X
Full text not available from this repository.Abstract
Despite great advances, experiments concerning the response of ecosystems to climate change still face considerable challenges, including the high complexity of climate change in terms of environmental variables, constraints in the number and amplitude of climate treatment levels, and the limited scope of responses and interactions covered. Drawing on the expertise of researchers from a variety of disciplines, this Perspective outlines how computational and technological advances can help in designing experiments that can contribute to overcoming these challenges, and also outlines a first application of such an experimental design.