G
Gerald Jurasinski
Researcher at University of Rostock
Publications - 98
Citations - 3140
Gerald Jurasinski is an academic researcher from University of Rostock. The author has contributed to research in topics: Peat & Greenhouse gas. The author has an hindex of 23, co-authored 83 publications receiving 2116 citations. Previous affiliations of Gerald Jurasinski include University of Bayreuth.
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Journal ArticleDOI
Accelerated increase in plant species richness on mountain summits is linked to warming
Manuel J. Steinbauer,Manuel J. Steinbauer,John-Arvid Grytnes,Gerald Jurasinski,Aino Kulonen,Jonathan Lenoir,Harald Pauli,Harald Pauli,Christian Rixen,Manuela Winkler,Manuela Winkler,Manfred Bardy-Durchhalter,Manfred Bardy-Durchhalter,Elena Barni,Anne D. Bjorkman,Anne D. Bjorkman,Frank T. Breiner,Frank T. Breiner,Sarah Burg,Patryk Czortek,Melissa A. Dawes,Anna Delimat,Stefan Dullinger,Brigitta Erschbamer,Vivian A. Felde,Olatz Fernández-Arberas,Kjetil F. Fossheim,Daniel Gómez-García,Damien Georges,Damien Georges,Erlend T. Grindrud,Sylvia Haider,Siri V. Haugum,Hanne Henriksen,María J. Herreros,Bogdan Jaroszewicz,Francesca Jaroszynska,Francesca Jaroszynska,Robert Kanka,Jutta Kapfer,Kari Klanderud,Ingolf Kühn,Ingolf Kühn,Andrea Lamprecht,Andrea Lamprecht,Magalì Matteodo,Umberto Morra di Cella,Signe Normand,Arvid Odland,Siri Lie Olsen,Sara Palacio,Martina Petey,Veronika Piscová,Blazena Sedlakova,Klaus Steinbauer,Klaus Steinbauer,Veronika Stöckli,Jens-Christian Svenning,Guido Teppa,Jean-Paul Theurillat,Pascal Vittoz,Sarah J. Woodin,Niklaus E. Zimmermann,Niklaus E. Zimmermann,Sonja Wipf +64 more
TL;DR: Analysis of changes in plant species richness on mountain summits over the past 145 years suggests that increased climatic warming has led to an acceleration in species richness increase, strikingly synchronized with accelerated global warming.
Journal ArticleDOI
Inventory, differentiation, and proportional diversity: a consistent terminology for quantifying species diversity.
TL;DR: In this article, the authors propose to use the terms "inventory diversity" for within-sample diversity, "differentiation diversity", "compositional similarity" for compositional similarity between samples, and "proportional diversity", for comparison of inventory diversity across spatial and temporal scales.
Journal ArticleDOI
High emissions of greenhouse gases from grasslands on peat and other organic soils.
Bärbel Tiemeyer,Elisa Albiac Borraz,Jürgen Augustin,Michel Bechtold,Sascha Beetz,Colja Beyer,Matthias Drösler,Martin Ebli,Tim Eickenscheidt,Sabine Fiedler,Sabine Fiedler,Christoph Förster,Annette Freibauer,Michael Giebels,Stephan Glatzel,Stephan Glatzel,Jan Heinichen,Mathias Hoffmann,Heinrich Höper,Gerald Jurasinski,Katharina Leiber-Sauheitl,Mandy Peichl-Brak,Niko Roßkopf,Michael Sommer,Jutta Zeitz +24 more
TL;DR: Analysis of mainly unpublished GHG emissions from grasslands on bog and fen peat as well as other soils rich in soil organic carbon in Germany can help both to improve GHG emission reporting and to prioritize and plan emission reduction measures for peat and similar soils at different scales.
Journal ArticleDOI
Resurveying historical vegetation data - opportunities and challenges.
Jutta Kapfer,Radim Hédl,Gerald Jurasinski,Martin Kopecký,Martin Kopecký,Fride Høistad Schei,John-Arvid Grytnes +6 more
TL;DR: In this article, the authors describe the properties of vegetation resurveys, distinguishing basic types of plots according to relocation error, and highlight the potential of such data types for studying vegetation dynamics and their drivers.
Journal ArticleDOI
Prompt rewetting of drained peatlands reduces climate warming despite methane emissions
Anke Günther,Alexandra Barthelmes,Alexandra Barthelmes,Vytas Huth,Hans Joosten,Hans Joosten,Gerald Jurasinski,Franziska Koebsch,John Couwenberg,John Couwenberg +9 more
TL;DR: A radiative forcing model is used to compare forcing dynamics of global scenarios for future peatland management using areal data from the Global Peatland Database and shows that rewetting is a critical way to mitigate climate change despite potential methane increases.