Lam, O. H. Y.; Kattge, J.; Tautenhahn, S.; Boenisch, G.; Kovach, K. R.; Townsend, P. A.: ‘rtry’: An R package to support plant trait data preprocessing. Ecology and Evolution 14 (5), e11292 (2024)
Vamsi, K. K.; Tautenhahn, S.; Baddam, P.; Gaikwad, J.; Wieczorek, B.; Triki, A.; Kattge, J.: Comprehensive leaf size traits dataset for seven plant species from digitised herbarium specimen images covering more than two centuries. Biodiversity Data Journal 9, e69806 (2021)
Tautenhahn, S.; Migliavacca, M.; Kattge, J.: News on intra‐specific trait variation, species sorting, and optimality theory for functional biogeography and beyond. New Phytologist 228 (1), pp. 6 - 10 (2020)
Tautenhahn, S.; Grün-Wenzel, C.; Jung, M.; Higgins, S.; Römermann, C.: On the relevance of intraspecific trait variability—A synthesis of 56 dry grassland sites across Europe. Flora 254, pp. 161 - 172 (2019)
Tautenhahn, S.; Lichstein, J. W.; Jung, M.; Kattge, J.; Bohlman, S. A.; Heilmeier, H.; Prokushkin, A.; Kahl, A.; Wirth, C.: Dispersal limitation drives successional pathways in Central Siberian forests under current and intensified fire regimes. Global Change Biology 22 (6), pp. 2178 - 2197 (2016)
Jung, M.; Tautenhahn, S.; Wirth, C.; Kattge, J.: Estimating basal area of spruce and fir in post-fire residual stands in Central Siberia using Quickbird, feature selection, and Random Forests. Procedia Computer Science 18, pp. 2386 - 2395 (2013)
Tautenhahn, S.; Heilmeier, H.; Jung, M.; Kahl, A.; Kattge, J.; Moffat, A. M.; Wirth, C.: Beyond distance-invariant survival in inverse recruitment modeling: A case study in Siberian Pinus sylvestris forests. Ecological Modelling 233, pp. 90 - 103 (2012)
Tautenhahn, S.; Heilmeier, H.; Gotzenberger, L.; Klotz, S.; Wirth, C.; Kuhn, I.: On the biogeography of seed mass in Germany - distribution patterns and environmental correlates. Ecography 31 (4), pp. 457 - 468 (2008)
Europe is the fastest warming continent in the world. According to the European Environment Agency’s assessment, many of these risks have already reached critical levels and could become catastrophic without urgent and decisive action.
A new study shows a natural solution to mitigate the effects of climate change such as extreme weather events. Researchers found that a diverse plant community acts as a buffer against fluctuations in soil temperature. This buffer, in turn, can have a decisive influence on important ecosystem processes.
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The new report by the Global Carbon Project shows: Fossil CO2 emissions will reach a record high in 2023. If emissions remain this high, the carbon budget that remains before reaching the 1.5°C limit will probably be used up in seven years. Although emissions from land use are decreasing slightly, they are still too high to be compensated by renewable forests and reforestation.
Global experts have unveiled the annual 10 New Insights in Climate Science report. The report equips policymakers with the latest and most pivotal climate science research from the previous 18 months, synthesised to help inform negotiations at COP28 and policy implementation through 2024 and beyond.
Storing carbon in the soil can help to mitigate climate change. Soil organic matter bound to minerals in particular can store carbon in the long term. A new study shows that the formation of mineral-associated organic matter depends primarily on the type of mineral, but is also influenced by land use and cultivation intensity.