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Researcher
Simon Reynaert
- Keywords (Meise Botanic Garden):B110-bioinformatics
- Keywords (University of Antwerp):Biology
- Disciplines (Meise Botanic Garden):Invasion biology, Bioinformatics and computational biology not elsewhere classified
- Disciplines (University of Antwerp):Community ecology, Global ecology, Plant ecology, Atmospheric biology
- See also: Simon Reynaert (Meise Botanic Garden)
Affiliations
- Meise Botanic Garden (Knowledge institution)
Member
From1 Jan 2025 → Today - Plant and Ecosystems (PLECO) - Ecology in a time of change (Research group)
Member
From1 Nov 2024 → Today - Plant and Ecosystems (PLECO) - Ecology in a time of change (Research group)
Member
From1 Mar 2019 → 31 Oct 2024
Projects
1 - 1 of 1
- The effectiveness of novel genotypes and soil organic matter to protect agricultural grasslands against increasingly persistent weather.From1 Nov 2020 → 31 Oct 2024Funding: FWO Strategic Basic Research Grant
Publications
1 - 10 of 14
- More persistent precipitation regimes induce soil degradation(2025)Published in: Geoderma: an international journal of soil scienceISSN: 0016-7061Volume: 455Pages: 1 - 13
- Turning up the heat: more persistent precipitation regimes weaken the micro-climate buffering capacity of forage grasses during a hot summer(2025)Published in: Global change biologyISSN: 1354-1013Volume: 31Pages: 1 - 12
- Direct and higher-order interactions in plant communities under increasing weather persistence(2024)Published in: Oikos: a journal of ecologyISSN: 0030-1299Volume: 202Pages: 1 - 12
- Can permanent grassland soils with elevated organic carbon buffer negative effects of more persistent precipitation regimes on forage grass performance?(2024)Published in: The science of the total environmentISSN: 0048-9697Volume: 918Pages: 1 - 15
- More persistent rainfall regimes: consequences and solutions for natural and managed grassland systems(2024)Number of pages: 315
- Ecometabolomic analysis of the effect of more persistent precipitation regimes reveals common and tolerance related metabolic adjustments in four grassland species(2023)Published in: Environmental and experimental botanyISSN: 0098-8472Volume: 215Pages: 1 - 12
- Longer dry and wet spells alter the stochasticity of microbial community assembly in grassland soils(2023)Published in: Soil biology and biochemistryISSN: 0038-0717Volume: 178Pages: 1 - 9
- Biochemical composition changes can be linked to the tolerance of four grassland species under more persistent precipitation regimes(2023)Published in: Physiologia plantarumISSN: 0031-9317Volume: 175Pages: 1 - 13
- Basalt addition improves the performance of young grassland monocultures under more persistent weather featuring longer dry and wet spells(2023)Published in: Agricultural and forest meteorologyISSN: 0168-1923Volume: 340Pages: 15
- When things get MESI: the Manipulation Experiments Synthesis Initiative: a coordinated effort to synthesize terrestrial global change experiments(2023)Published in: Global change biologyISSN: 1354-1013Volume: 29Pages: 1922 - 1938
Linked dataset
1 - 7 of 7
- Data from: Turning up the heat: more persistent precipitation regimes weaken the micro-climate buffering capacity of forage grasses during hot summer
- Data from: Can permanent grassland soils with elevated organic carbon buffer negative effects of more persistent precipitation regimes on forage grass performance?
- Data from: Direct and higher-order interactions in plant communities under increasing weather persistence
- Data associated with Basalt addition improves the performance of young grassland monocultures under more persistent weather featuring longer dry and wet spells
- MESI: a database of terrestrial global change experiments
- Data from: Does previous exposure to extreme precipitation regimes result in acclimated grassland communities?
- Data from: Risk of short-term biodiversity loss under more persistent precipitation regimes