|Forest disturbances under climate change|
R Seidl, D Thom, M Kautz, D Martin-Benito, M Peltoniemi, G Vacchiano, ...
Nature climate change 7 (6), 395-402, 2017
|Global carbon budget 2017|
C Le Quéré, RM Andrew, P Friedlingstein, S Sitch, J Pongratz, ...
Earth System Science Data 10 (1), 405, 2018
|Research frontiers for improving our understanding of drought‐induced tree and forest mortality|
H Hartmann, CF Moura, WRL Anderegg, NK Ruehr, Y Salmon, CD Allen, ...
New Phytologist 218 (1), 15-28, 2018
|Widespread seasonal compensation effects of spring warming on northern plant productivity|
W Buermann, M Forkel, M O’Sullivan, S Sitch, P Friedlingstein, V Haverd, ...
Nature 562 (7725), 110-114, 2018
|Small beetle, large‐scale drivers: how regional and landscape factors affect outbreaks of the European spruce bark beetle|
R Seidl, J Müller, T Hothorn, C Bässler, M Heurich, M Kautz
Journal of applied ecology 53 (2), 530-540, 2016
|Quantifying spatio-temporal dispersion of bark beetle infestations in epidemic and non-epidemic conditions|
M Kautz, K Dworschak, A Gruppe, R Schopf
Forest Ecology and Management 262 (4), 598-608, 2011
|Recent global decline of CO2 fertilization effects on vegetation photosynthesis|
S Wang, Y Zhang, W Ju, JM Chen, P Ciais, A Cescatti, J Sardans, ...
Science 370 (6522), 1295-1300, 2020
|Biotic disturbances in Northern Hemisphere forests–a synthesis of recent data, uncertainties and implications for forest monitoring and modelling|
M Kautz, AJH Meddens, RJ Hall, A Arneth
Global Ecology and Biogeography 26 (5), 533-552, 2017
|Tree defence and bark beetles in a drying world: carbon partitioning, functioning and modelling|
J Huang, M Kautz, AM Trowbridge, A Hammerbacher, KF Raffa, ...
New Phytologist 225 (1), 26-36, 2020
|The “sun-effect”: microclimatic alterations predispose forest edges to bark beetle infestations|
M Kautz, R Schopf, J Ohser
European Journal of Forest Research 132 (3), 453-465, 2013
|Important role of forest disturbances in the global biomass turnover and carbon sinks|
TAM Pugh, A Arneth, M Kautz, B Poulter, B Smith
Nature geoscience 12 (9), 730-735, 2019
|Increased control of vegetation on global terrestrial energy fluxes|
G Forzieri, DG Miralles, P Ciais, R Alkama, Y Ryu, G Duveiller, K Zhang, ...
Nature Climate Change 10 (4), 356-362, 2020
|Asymmetric responses of primary productivity to altered precipitation simulated by ecosystem models across three long-term grassland sites|
D Wu, P Ciais, N Viovy, AK Knapp, K Wilcox, M Bahn, MD Smith, S Vicca, ...
Biogeosciences (Online) 15 (11), 2018
|Understanding the uncertainty in global forest carbon turnover|
TAM Pugh, T Rademacher, SL Shafer, J Steinkamp, J Barichivich, ...
Biogeosciences 17 (15), 3961-3989, 2020
|Individual traits as drivers of spatial dispersal and infestation patterns in a host–bark beetle system|
M Kautz, R Schopf, MA Imron
Ecological Modelling 273, 264-276, 2014
|Dispersal variability and associated population-level consequences in tree-killing bark beetles|
M Kautz, MA Imron, K Dworschak, R Schopf
Movement ecology 4 (1), 1-12, 2016
|Spatial characterization of bark beetle infestations by a multidate synergy of SPOT and Landsat imagery|
H Latifi, B Schumann, M Kautz, S Dech
Environmental monitoring and assessment 186 (1), 441-456, 2014
|State of the science in reconciling top‐down and bottom‐up approaches for terrestrial CO2 budget|
M Kondo, PK Patra, S Sitch, P Friedlingstein, B Poulter, F Chevallier, ...
Global change biology 26 (3), 1068-1084, 2020
|Simulating the recent impacts of multiple biotic disturbances on forest carbon cycling across the United States|
M Kautz, P Anthoni, AJH Meddens, TAM Pugh, A Arneth
Global change biology 24 (5), 2079-2092, 2018
|Negative extreme events in gross primary productivity and their drivers in China during the past three decades|
W Chen, D Zhu, C Huang, P Ciais, Y Yao, P Friedlingstein, S Sitch, ...
Agricultural and Forest Meteorology 275, 47-58, 2019