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1.
Broadbent, A.A.D.* et al.: Climate change disrupts the seasonal coupling of plant and soil microbial nutrient cycling in an alpine ecosystem. Glob. Change Biol. 30:e17245 (2024)
2.
Witzgall, K.* et al.: Soil carbon and nitrogen cycling at the atmosphere-soil interface: Quantifying the responses of biocrust-soil interactions to global change. Glob. Change Biol. 30:e17519 (2024)
3.
Hikino, K.* et al.: Dynamics of initial carbon allocation after drought release in mature Norway spruce-Increased belowground allocation of current photoassimilates covers only half of the carbon used for fine-root growth. Glob. Change Biol. 28, 6889-6905 (2022)
4.
Tedersoo, L.* et al.: Global patterns in endemicity and vulnerability of soil fungi. Glob. Change Biol. 28, 6696-6710 (2022)
5.
Hikino, K.* et al.: High resilience of carbon transport in long-term drought stressed mature Norway spruce trees within two weeks after drought release. Glob. Change Biol., DOI: 10.1111/gcb.16051 (2021)
6.
Rojo, J. et al.: Effects of future climate change on birch abundance and their pollen load. Glob. Change Biol. 27, 5934-5949 (2021)
7.
Roy, J.* et al.: Ecotrons: Powerful and versatile ecosystem analysers for ecology, agronomy and environmental science. Glob. Change Biol. 27, 1387-1407 (2021)
8.
Falconnier, G.N.* et al.: Modelling climate change impacts on maize yields under low nitrogen input conditions in sub-Saharan Africa. Glob. Change Biol. 26, 5942-5964 (2020)
9.
Ghirardo, A. et al.: Origin of volatile organic compound emissions from subarctic tundra under global warming. Glob. Change Biol. 26, 1908-1925 (2020)
10.
Asseng, S.* et al.: Climate change impact and adaptation for wheat protein. Glob. Change Biol. 25, 155-173 (2019)
11.
Liu, B.* et al.: Global wheat production with 1.5 and 2.0°C above pre‐industrial warming. Glob. Change Biol. 25, 1428-1444 (2019)
12.
Nickel, U.T. et al.: Quantitative losses vs. qualitative stability of ectomycorrhizal community responses to 3 years of experimental summer drought in a beech-spruce forest. Glob. Change Biol. 24, E560-E576 (2018)
13.
Wallach, D.* et al.: Multimodel ensembles improve predictions of crop-environment-management interactions. Glob. Change Biol. 24, 5072-5083 (2018)
14.
Kanaparthi, D. ; Reim, A.* ; Martinson, G.O.* ; Pommerenke, B.* & Conrad, R.*: Methane emission from feather moss stands. Glob. Change Biol. 23, 4884-4895 (2017)
15.
Wang, C.* et al.: Climate change amplifies gross nitrogen turnover in montane grasslands of Central Europe both in summer and winter seasons. Glob. Change Biol. 22, 2963-2978 (2016)
16.
Martre, P.* et al.: Multimodel ensembles of wheat growth: Many models are better than one. Glob. Change Biol. 21, 911-925 (2015)
17.
Aust, C.* et al.: Land availability and potential biomass production with poplar and willow short rotation coppices in Germany. Glob. Change Biol. 6, 521-533 (2014)
18.
Bassu, S.* et al.: How do various maize crop models vary in their responses to climate change factors? Glob. Change Biol. 20, 2301-2320 (2014)
19.
Fornara, D.A.* et al.: Increases in soil organic carbon sequestration can reduce the global warming potential of long-term liming to permanent grassland Glob. Change Biol. 17, 1925-1934 (2011)
20.
Roth, P.J.* et al.: Accumulation of nitrogen and microbial residues during 2000 years of rice paddy and non-paddy soil development in the Yangtze River Delta, China. Glob. Change Biol. 17, 3405-3417 (2011)