- Last updated
- December 12, 2025
- Terms of use
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- Organization
- EnviDat: the Environmental Data Portal
- Categories
- Education, culture and sport
Description
Plant ecophysiological and associated environmental data for two tree species (Fagus sylvatica and Quercus pubescens) grown for five years in a factorial open-top climate chamber experiment (Model Ecosystem Facility, Birmensdorf, Switzerland) to test the long-term effects of heat (+5 °C) and soil drought (irrigation reduced by 50%). n = 4 trees per species and treatment, n = 48 trees total. Included data sheets:
- Environmental_Data.csv: Chamber-level environmental recorded every 10 minutes
- Tleaf.csv: Leaf temperatures recorded every 10 minutes
- Gas_exchange.csv: Leaf-level gas exchange data taken diurnally on four days during the growing season
- Leaf_traits.csv: Leaf functional traits
- TSMs_HSMs.csv: Photosynthetic thermal tolerance and leaf water potential data, summarized also in terms of leaf thermal safety margins and hydraulic safety margins, collected 3-4 times during the growing season
- Scorch.csv: Leaf-level leaf scorching data, including leaf thermal safety margins and scorching occurrence and presence, summarized by date
Resources
- CSV Tleaf.csv
- CSV TSMs_HSMs.csv
- CSV Scorch.csv
- TXT README.txt
- CSV Leaf_traits.csv
- CSV Gas_exchange.csv
- CSV Environmental_Data.csv
Showcases
Additional information
- Identifier
- 8780a01e-98aa-46bb-9938-ba8e0568fa20@envidat
- Issued date
- November 10, 2025
- Modified date
- December 12, 2025
- Conforms to
- -
- Publisher
- EnviDat
- Contact points
- Languages
- English
- Further information
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- Landing page
- https://www.envidat.ch/#/metadata/hydraulic-stress-limits-thermal-acclimation-in-trees-under-chronic-drought
- Documentation
- -
- Temporal coverage
- -
- Spatial coverage
- -
- Update interval
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- Metadata Access
- API (JSON) Download XML
