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Researcher
Yongshuo Fu
- Keywords:Biology
- Disciplines:Animal biology, Bioinformatics and computational biology, Ecology, Evolutionary biology, General biology, Genetics, Microbiology, Molecular and cell biology, Plant biology, Systems biology, Other biological sciences, Other natural sciences
Affiliations
- Plant and Ecosystems (PLECO) - Ecology in a time of change (Research group)
Member
From1 Sep 2011 → 30 Nov 2017
Projects
1 - 1 of 1
- Merging satellite-derived and ground-based observations of spring phenology to select the best fitting and most parsimonious vegetation phenology model for global carbon cycle models.From1 Feb 2015 → 31 Jan 2016Funding: FWO Pegasus Marie Curie Fellowships
Publications
1 - 10 of 65
- Diminished contribution of spring phenology to early-season carbon uptake in a changing climate(2025)Published in: Communications Earth & EnvironmentISSN: 2662-4435Volume: 6Pages: 1 - 9
- Incorporating drought thresholds improves model predictions of autumn phenology in tropical and subtropical forests(2025)Published in: Global change biologyISSN: 1354-1013Volume: 31Pages: 1 - 12
- Higher drought sensitivity of autumn photosynthetic phenology in planted forests than in natural forests of tropical and subtropical China(2025)Published in: Global change biologyISSN: 1354-1013Volume: 31Pages: 1 - 12
- A vegetation phenology dataset developed by integrating multiple sources using the reliability ensemble averaging method(2025)Published in: Earth System Science DataISSN: 1866-3508Volume: 17Pages: 4005 - 4022
- Artificial light reduced the temperature responsiveness of Ginkgo budburst(2025)Published in: Journal of plant ecologyISSN: 1752-9921Volume: 18Pages: 1 - 10
- Tree species composition governs urban phenological responses to warming(2025)Published in: Nature communicationsISSN: 2041-1723Volume: 16Pages: 1 - 11
- Enhanced vegetation productivity driven primarily by rate not duration of carbon uptake(2025)Published in: Nature climate changeISSN: 1758-678XVolume: 15Pages: 560 - 568
- Background climate determines the response of spring leaf-out to climate change: results from a national-scale twig-cutting experiment(2025)Published in: The journal of ecologyISSN: 0022-0477Volume: 113Pages: 2981 - 2991
- Increased early-season productivity drives earlier peak of vegetation photosynthesis across the Northern Hemisphere(2025)Published in: Communications Earth & EnvironmentISSN: 2662-4435Volume: 6Pages: 1 - 11
- Divergent impacts of precipitation regimes on autumn phenology in the Northern Hemisphere mid- to high-latitudes(2025)Published in: Geophysical research lettersISSN: 0094-8276Volume: 52Pages: 1 - 12
Linked dataset
1 - 5 of 5
- Larger drought sensitivity in planted forests
- A vegetation phenology dataset by integrating multiple sources using the Reliability Ensemble Averaging method
- Vegetation phenology data based on GIMMS4g NDVI from 1982 to 2020
- A vegetation phenology dataset by integrating multiple sources using the Reliability Ensemble Averaging method
- LPJ-GUESS code with a new temperature-photoperiod coupled phenology module