Project number: 23-06614S
Linking microclimate and forest dynamics: from plant growth responses to long-term vegetation change
Principal investigator from institute: Martin Kopecký
Members from LabGIS: Matěj Man, Martin Macek, Tereza Klinerová, Anna Růžičková, Jan Wild
Project results:
Brůna J., Macek M., Klinerová T., Hederová L., Růžičková A. & Kopecký M. (2024) Disturbance effects on mountain spruce forest microclimates. Silva Gabreta 30: 141–160. https://www.npsumava.cz/wp-content/uploads/2024/12/bruna_web.pdf
Kopecký M., Hederová L., Macek M., Klinerová T. & Wild J. (2024) Forest plant indicator values for moisture reflect atmospheric vapour pressure deficit rather than soil water content. New Phytologist 244: 1801–1811. https://doi.org/10.1111/nph.20068
Greiser C., Hederová L., Vico G., Wild J., Macek M. & Kopecký M. (2024) Higher soil moisture increases microclimate temperature buffering in temperate broadleaf forests. Agricultural and Forest Meteorology 345: 109828. https://doi.org/10.1016/j.agrformet.2023.109828
Klinges D.H., Baecher J.A., Lembrechts J.J., Maclean I.M.D., Lenoir J., Greiser C., Ashcroft M., Evans L.J., Kearney M.R., Aalto J., Barrio I.C., De Frenne P., Guillemot J., Hylander K., Jucker T., Kopecký M., Luoto M., Macek M., Nijs I., Urban J., van den Brink L., Vangansbeke P., Von Oppen J., Wild J., Boike J., Canessa R., Nosetto M., Rubtsov A., Sallo‐Bravo J. & Scheffers B.R. (2024) Proximal microclimate: Moving beyond spatiotemporal resolution improves ecological predictions. Global Ecology and Biogeography 33: e13884. https://doi.org/10.1111/geb.13884
Man M., Kalčík V., Macek M., Brůna J., Hederová L., Wild J. & Kopecký M. (2023) myClim : Microclimate data handling and standardised analyses in R. Methods in Ecology and Evolution 14: 2308–2320. https://doi.org/10.1111/2041-210X.14192
