Prof. Dr. Christian Hof
Prof. Dr. Christian Hof
Hubland Nord
Nach Vereinbarung.
Since 9.2023 Professor for Global Change Ecology, University of Würzburg
2018 – 2023 Junior Research Group Leader and TUM Junior Fellow, Technical University of Munich, funded by the Bavarian Network for Climate Research bayklif
since 2020 Freelance Lecturer for sustainability and global change within the sustainability programs of the European Business School
2018 – 2019 Guest Scientist, Senckenberg BiK-F, Frankfurt (Germany)
2011 – 2018 Postdoctoral Researcher (wissenschaftlicher Mitarbeiter), Senckenberg Biodiversity and Climate Research Centre (BiK-F), Senckenberg Gesellschaft für Naturforschung, Frankfurt (Germany)
2010 – 2011 Postdoctoral Researcher, CMEC, University of Copenhagen (Denmark)
2010 Graduation as PhD with the dissertation “Species distributions and climate change: current patterns and future scenarios for biodiversity”
2007 – 2010 PhD student, Center for Macroecology, Evolution and Climate (CMEC), University of Copenhagen & Biodiversity and Global Change Lab, Museo Nacional de Ciencias Naturales, CSIC, Madrid (Supervisors: Prof. Dr. C. Rahbek, Prof. Dr. M.B. Araújo)
2006 Scientific assistant (4 months), Helmholtz Centre for Environmental Research – UFZ
2006 Graduation as “Diplom-Biologe” (= M.Sc. in Biology) with the thesis “Macroecology of the European freshwater fauna” (Supervisor: Prof. Dr. R. Brandl)
1999 – 2006 Studies of Biology, University of Marburg (Germany), majors: Animal Ecology, Nature Conservation, Zoology
1998 – 1999 Civilian Service (13 months) with the Verein Jordsand e.V. (Jordsand Society for the Protection of Seabirds and the Conservation of Nature), working as a nature reserve ranger at the lower Elbe River
1989 – 1998 Abitur (university-entrance qualification) at the Westerwald-Gymnasium Altenkirchen/Ww (Germany)
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Expedition Anthropozän. In.(2024)
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Micro‐ and macroclimate interactively shape diversity, niches and traits of Orthoptera communities along elevational gradients. Diversity and Distributions.(2024)
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Dispersal, glacial refugia and temperature shape biogeographical patterns in European freshwater biodiversity. Global Ecology and Biogeography.(2024)
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Modelling potential biotope composition on a regional scale revealed that climate variables are stronger drivers than soil variables. Diversity and Distributions 29: 492–508.(2023)
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Trait overdispersion in dragonflies reveals the role and drivers of competition in community assembly across space and season. Ecography.(2023)
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Microhabitat conditions remedy heat stress effects on insect activity. Global Change Biology 29: 3747–3758.(2023)
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Global change impacts on bird biodiversity in South Asia: potential effects of future land-use and climate change on avian species richness in Pakistan. PeerJ 11: e16212.(2023)
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Body colour drives optimal insect phenology via thermoregulation.(2023)
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Seasonal variation in dragonfly assemblage colouration suggests a link between thermal melanism and phenology. Nature Communications 14.(2023)
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Potential effects of future climate change on global reptile distributions and diversity. Global Ecology and Biogeography 32: 519–534.(2023)
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Potential future climate change effects on global reptile distributions and diversity.(2022)
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Projected climate change impacts on the phylogenetic diversity of the world’s terrestrial birds: more than species numbers. Proceedings of the Royal Society B: Biological Sciences 289.(2022)
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Global impacts of climate change on avian functional diversity. Ecology Letters 25: 673-685.(2022)
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Scientiststextquotesingle warning on climate change and insects. Ecological Monographs.(2022)
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Climate change aggravates anthropogenic threats of the endangered savanna tree Pterocarpus erinaceus (Fabaceae) in Burkina Faso. Journal for Nature Conservation 70: 126299.(2022)
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Representation of the worldtextquotesingles biophysical conditions by the global protected area network. Conservation Biology 36.(2021)
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Towards more integration of physiology, dispersal and land-use change to understand the responses of species to climate change. Journal of Experimental Biology 224.(2021)
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Considering sustainability thresholds for BECCS in IPCC and biodiversity assessments. GCB Bioenergy 13: 510–515.(2021)
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Trait-Based Assessments of Climate-Change Impacts on Interacting Species. Trends in Ecology & Evolution 35: 319-328.(2020)
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Climate change impacts on the phylogenetic diversity of the worldtextquotesingles terrestrial birds: more than species numbers.(2020)
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Global impacts of climate change on avian functional diversity.(2020)
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Macroecology as a hub between research disciplines: Opportunities, challenges and possible ways forward. Journal of Biogeography 47: 13-15.(2019)
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BEREICHERUNG ODER BEDROHUNG?. In Historische Gärten und Klimawandel (eds R.F. Hüttl, K. David & B.U. Schneider), pp. 211-222.(2019)
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Macroecology in the age of Big Data – Where to go from here?. Journal of Biogeography 47: 1–12.(2019)
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Host assemblage and environment shape \($\upbeta$\)-diversity of freshwater parasites across diverse taxa at a continental scale. Global Ecology and Biogeography 29: 38-49.(2019)
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A comparison of macroecological and stacked species distribution models to predict future global terrestrial vertebrate richness. Journal of Biogeography 47: 114–129.(2019)
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Moving in the Anthropocene: Global reductions in terrestrial mammalian movements. Science 359: 466-469.(2018)
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Does metabolism constrain bird and mammal ranges and predict shifts in response to climate change?. Ecology and Evolution 8: 12375–12385.(2018)
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Evolutionary processes, dispersal limitation and climatic history shape current diversity patterns of European dragonflies. Ecography 41: 795-804.(2018)
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Testing the heat dissipation limitation hypothesis: basal metabolic rates of endotherms decrease with increasing upper and lower critical temperatures. PeerJ 6: e5725.(2018)
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Bioenergy cropland expansion may offset positive effects of climate change mitigation for global vertebrate diversity. Proceedings of the National Academy of Sciences 115: 13294-13299.(2018)
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Phylogenetic signals in thermal traits remain stronger in the tropics if we can believe published physiological data. A reply to McKechnie et al., “Data quality problems undermine analyses of endotherm upper critical temperatures”. Journal of Biogeography 44: 2427–2431.(2017)
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The influence of thermal tolerances on geographical ranges of endotherms. Global Ecology and Biogeography 26: 650-668.(2017)
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Cross-taxa generalities in the relationship between population abundance and ambient temperatures. Proceedings of the Royal Society B: Biological Sciences 284: 20170870.(2017)
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Cross-realm assessment of climate change impacts on species’ abundance trends. Nature Ecology & Evolution 1.(2017)
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A framework integrating physiology, dispersal and land-use to project species ranges under climate change. Journal of Avian Biology 48: 1532-1548.(2017)
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Assessing the impacts of 1.5 degrees C global warming - simulation protocol of the Inter-Sectoral Impact Model Intercomparison Project (ISIMIP2b). Geoscientific Model Development 10: 4321-4345.(2017)
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It’s not (all) about the money textemdash supporting IPBES through challenging times. Frontiers of Biogeography 9.(2017)
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Global patterns of thermal tolerances and vulnerability of endotherms to climate change remain robust irrespective of varying data suitability criteria. Proceedings of the Royal Society B: Biological Sciences 284: 20170232.(2017)
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Twenty-million-year relationship between mammalian diversity and primary productivity. Proceedings of the National Academy of Sciences of the United States of America 113: 10908-10913.(2016)
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Changes in abundances of forest understorey birds on Africa’s highest mountain suggest subtle effects of climate change. Diversity and Distributions 22: 288-299.(2016)
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Macroecology meets IPBES. Frontiers of Biogeography 7.(2016)
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Ecological networks are more sensitive to plant than to animal extinction under climate change. Nature Communications 7.(2016)
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Global variation in thermal physiology of birds and mammals: evidence for phylogenetic niche conservatism only in the tropics. Journal of Biogeography 42: 2187-2196.(2015)
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Metabolic heat production and thermal conductance are mass-independent adaptations to thermal environment in birds and mammals. Proceedings of the National Academy of Sciences of the United States of America 112: 15934-15939.(2015)
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Integrating climate change vulnerability assessments from species distribution models and trait-based approaches. Biological Conservation 190: 167-178.(2015)
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A cross-taxon analysis of the impact of climate change on abundance trends in central Europe. Biological Conservation 187: 41-50.(2015)
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A comparative analysis of dispersal syndromes in terrestrial and semi-terrestrial animals. Ecology Letters 17: 1039-1052.(2014)
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Global variation in thermal tolerances and vulnerability of endotherms to climate change. Proceedings of the Royal Society B-Biological Sciences 281.(2014)
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Conservation implications of omitting narrow-ranging taxa from species distribution models, now and in the future. Diversity and Distributions 20: 1307-1320.(2014)
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Diversity in time and space: wanted dead and alive. Trends in Ecology & Evolution 28: 509-516.(2013)
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Recent range shifts of European dragonflies provide support for an inverse relationship between habitat predictability and dispersal. Global Ecology and Biogeography 22: 403-409.(2013)
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What’s on the horizon for macroecology?. Ecography 35: 673-683.(2012)
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Habitat stability affects dispersal and the ability to track climate change. Biology Letters 8: 639-643.(2012)
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Rethinking species’ ability to cope with rapid climate change. Global Change Biology 17: 2987-2990.(2011)
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Range size patterns in European freshwater trematodes. Ecography 34: 982-989.(2011)
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Host diversity and latitude drive trematode diversity patterns in the European freshwater fauna. Global Ecology and Biogeography 20: 675-682.(2011)
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Additive threats from pathogens, climate and land-use change for global amphibian diversity. Nature 480: 516-U137.(2011)
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Phylogenetic signals in the climatic niches of the world’s amphibians. Ecography 33: 242-250.(2010)
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Habitat availability does not explain the species richness patterns of European lentic and lotic freshwater animals. Journal of Biogeography 37: 1919-1926.(2010)
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Partitioning and mapping uncertainties in ensembles of forecasts of species turnover under climate change. Ecography 32: 897-906.(2009)
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Latitudinal variation of diversity in European freshwater animals is not concordant across habitat types. Global Ecology and Biogeography 17: 539-546.(2008)
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Lentic odonates have larger and more northern ranges than lotic species. Journal of Biogeography 33: 63-70.(2006)
Ecological Society of Germany, Austria and Switzerland (GfÖ), Macroecology Specialist Group of the GfÖ (founding member), German Ornithologists’ Society (DO-G), The International Biogeography Society (IBS), Society of Island Biology, German Society for the Protection of Nature (NABU), Society for Nature Conservation and Ornithology of Rheinland-Pfalz (GNOR), Jordsand Society for Seabird Protection and Nature Conservation (Verein Jordsand)
2021 Supervisory Award by the Graduate Center Weihenstephan of the TUM School of Life Sciences, Technical University of Munich
2019 Horst-Wiehe Award of the Ecological Society of Germany, Austria and Switzerland
2015 - 2020 Membership of the German Young Academy (Die Junge Akademie bei der Berlin-Brandenburgischen Akademie der Wissenschaften und der Nationalen Akademie der Naturforscher Leopoldina)
2009 Poster award of the International Biogeography Society during the 4th biennial meeting in Merida (Mexico)
2006 PhD stipend granted by the Cusanuswerk – the German Catholic scholarship foundation for the project “Diversity, Biogeography and Macroecology of the European freshwater fauna” (declined)
2004 – 2010 Scholarship granted by e-fellows.net
2001 – 2006 Student scholarship granted by the Cusanuswerk – the German Catholic scholarship foundation