Local-scale and spatially explicit response (LASER) of tropical forests to climate change
1
EGU 2020 virtual meeting PICO - 5 May 2020,
08:30–10:15
Florian Hofhansl
1, Werner Huber
2,
Anton Weissenhofer
2, Wolfgang Wanek
3, Oskar Franklin
11
International Institute for Applied Systems Analysis (IIASA)
2
Department of Botany & Biodiversity Research, Division of Conservation Biology, Vegetation- and Landscape Ecology,
University of Vienna.
3
Department of Microbiology & Ecosystem
Science, Division of Terrestrial Ecosystem
Research, University of Vienna.
In-situ observations from 1-ha forest inventory plots
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−83.7 −83.6 −83.5 −83.4 −83.3 −83.2 −83.1
8.48.58.68.7
Tvar (°C *10)
100 105 110 115
Hofhansl et al. (2020) Scientific Reports 10, 5066. https://doi.org/10.1038/s41598-020-61868-5
−83.7 −83.6 −83.5 −83.4 −83.3 −83.2 −83.1
8.48.58.68.7
Tvar (°C *10)
100 105 110 115
Spatio-temporal variability of forest dynamics
3 Hofhansl et al. (2014) Global Biogeochemical Cycles, 28 (12), 1437–1454. doi:10.1002/ 2014GB004934
Plant-IMPACT – Amazon forest ecosystem services
4 Zemp et al. (2017) Nature Communications 8: 14681; Zemp et al. (2014) Atmospheric Chemistry and Physics, 14(23), 13337–13359; Zemp et al. (2017) Geophysical Research Letters, 22(3), 1821–6190.
Plant-FATE – Plant FuntionAl Trait Evolution Model
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Ficus tikoua Quercus suber
Eucalyptus pilularis Conductivity as a function of water potential
parametrize plant hydraulic strategies
Zemp et al. (2017) Nature Communications 8: 14681; Sakschewski et al. (2016). Nature Climate Change, 1–6; Prentice et al. Ecology letters (2014) 17: 82-91; Wang et al. Nature Plants (2017) 3: 734.
Local-scale and spatially explicit response (LASER) of tropical forests to climate change
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