2023 - Research.com Ecology and Evolution in Germany Leader Award
His primary areas of study are Ecology, Biodiversity, Species richness, Ecosystem and Forest ecology. His Species diversity, Tropical and subtropical moist broadleaf forests, Secondary forest, Abiotic component and Shrub study are his primary interests in Ecology. Helge Bruelheide has included themes like Database, Extinction, Ecosystem services, Climate change and Anthropocene in his Biodiversity study.
Helge Bruelheide works mostly in the field of Climate change, limiting it down to topics relating to Decomposition and, in certain cases, Biome. Helge Bruelheide combines subjects such as Subtropics, Abundance and Plant ecology, Deciduous, Botany with his study of Species richness. The Ecosystem study combines topics in areas such as Productivity and Forest management, Agroforestry, Afforestation.
Helge Bruelheide mainly focuses on Ecology, Species richness, Biodiversity, Ecosystem and Botany. His study in Forest ecology, Range, Tropical and subtropical moist broadleaf forests, Species diversity and Herbivore falls within the category of Ecology. Helge Bruelheide has researched Species richness in several fields, including Subtropics, Abundance, Productivity, Trophic level and Tree species.
His studies in Biodiversity integrate themes in fields like Agroforestry, Ecosystem services, Climate change, Environmental resource management and Tree. The various areas that Helge Bruelheide examines in his Ecosystem study include Plant community, Habitat and Monoculture. His Botany research is multidisciplinary, incorporating elements of Biomass, Agronomy, Abiotic component and Horticulture.
Helge Bruelheide mostly deals with Ecology, Species richness, Biodiversity, Ecosystem and Habitat. His research on Ecology often connects related areas such as Specific leaf area. The study incorporates disciplines such as Productivity, Host and Herbivore in addition to Species richness.
His work carried out in the field of Biodiversity brings together such families of science as Infestation, Environmental planning, Climate change, Identification and Tree. His Ecosystem study combines topics in areas such as Soil biology and Cunninghamia. His studies deal with areas such as Floristics, Plant species and Invasive species as well as Habitat.
Helge Bruelheide spends much of his time researching Ecology, Biodiversity, Species richness, Agroforestry and Botany. His research on Ecology often connects related topics like Specific leaf area. His Habitat destruction study in the realm of Biodiversity connects with subjects such as Psychological intervention.
His Species richness research incorporates themes from Taxon, Plant community, Carbon-to-nitrogen ratio and Niche differentiation. The concepts of his Agroforestry study are interwoven with issues in Drought resistance, Citizen science, Species-area curve and Land use. His study in the fields of Exudate and Tree species under the domain of Botany overlaps with other disciplines such as Mixing, Interactive effects and Dual.
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Biodiversity increases the resistance of ecosystem productivity to climate extremes
Forest Isbell;Dylan Craven;John Connolly;Michael Loreau.
Positive biodiversity-productivity relationship predominant in global forests
Jingjing Liang;Thomas W. Crowther;Nicolas Picard;Susan Wiser.
TRY plant trait database : Enhanced coverage and open access
Jens Kattge;Gerhard Bönisch;Sandra Díaz;Sandra Lavorel.
Global Change Biology (2020)
Impacts of species richness on productivity in a large-scale subtropical forest experiment.
Yuanyuan Huang;Yuxin Chen;Nadia Castro-Izaguirre;Martin Baruffol;Martin Baruffol.
Global trait–environment relationships of plant communities
Helge Bruelheide;Jürgen Dengler;Jürgen Dengler;Oliver Purschke;Jonathan Lenoir.
Nature Ecology and Evolution (2018)
Growth and water relations of Tamarix ramosissima and Populus euphratica on Taklamakan desert dunes in relation to depth to a permanent water table
D. Gries;F. Zeng;A. Foetzki;S. K. Arndt.
Plant Cell and Environment (2003)
A new measure of fidelity and its application to defining species groups
Journal of Vegetation Science (2000)
BioTIME: A database of biodiversity time series for the Anthropocene
Maria Dornelas;Laura H. Antão;Laura H. Antão;Faye Moyes;Amanda E. Bates;Amanda E. Bates.
Global Ecology and Biogeography (2018)
The geography of biodiversity change in marine and terrestrial assemblages.
Designing forest biodiversity experiments : general considerations illustrated by a new large experiment in subtropical China
Helge Bruelheide;Karin Nadrowski;Thorsten Assmann;Jürgen Bauhus.
Methods in Ecology and Evolution (2014)
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