Climate-sensitive models of tree mortality based on lifetime analysis and irregular permanent-plot remeasurements. Fortin, M., Riofrío, J., de Melo, L. C., Ashiq, M. W., Sharma, M., Howard, C., & Eskelson, B. N. Canadian Journal of Forest Research, 55:1–15, January, 2025. Publisher: NRC Research Press
Climate-sensitive models of tree mortality based on lifetime analysis and irregular permanent-plot remeasurements [link]Paper  doi  abstract   bibtex   
Climate change has driven forest growth modellers to develop different climate sensitivity implementations (CSIs) for their models. Among others, a model can rely on annual climate variables or average climate variables, such as 30-year normals. The novelty of this study was to develop a framework based on lifetime analysis to enable annual or average CSI in empirical models of tree mortality. Using this framework, we compared models of individual tree mortality based on an annual CSI with similar models relying on two average CSIs, one using interval-averaged climate variables, and the other, 30-year normals. We fitted these models to permanent-plot data of eight species in Ontario and tested the effects of summer and winter temperature as well as spring and summer precipitation in the models. Our results showed that the annual CSI was not superior to the average CSIs, but could be a valid alternative for some species. Warmer winter temperature was detrimental to the survival of Betula papyrifera, Picea glauca, and Pinus strobus, whereas greater spring and summer precipitation resulted in greater mortality occurrence for Picea mariana, Pinus banksiana, and Populus tremuloides. In most cases, the effects of climate variables were contrary to our initial hypotheses. We conclude that the effects of climate on tree mortality occurrence interact with other factors such as species distribution and ecophysiology.
@article{fortin_climate-sensitive_2025,
	title = {Climate-sensitive models of tree mortality based on lifetime analysis and irregular permanent-plot remeasurements},
	volume = {55},
	issn = {0045-5067},
	url = {https://cdnsciencepub.com/doi/10.1139/cjfr-2024-0205},
	doi = {10.1139/cjfr-2024-0205},
	abstract = {Climate change has driven forest growth modellers to develop different climate sensitivity implementations (CSIs) for their models. Among others, a model can rely on annual climate variables or average climate variables, such as 30-year normals. The novelty of this study was to develop a framework based on lifetime analysis to enable annual or average CSI in empirical models of tree mortality. Using this framework, we compared models of individual tree mortality based on an annual CSI with similar models relying on two average CSIs, one using interval-averaged climate variables, and the other, 30-year normals. We fitted these models to permanent-plot data of eight species in Ontario and tested the effects of summer and winter temperature as well as spring and summer precipitation in the models. Our results showed that the annual CSI was not superior to the average CSIs, but could be a valid alternative for some species. Warmer winter temperature was detrimental to the survival of Betula papyrifera, Picea glauca, and Pinus strobus, whereas greater spring and summer precipitation resulted in greater mortality occurrence for Picea mariana, Pinus banksiana, and Populus tremuloides. In most cases, the effects of climate variables were contrary to our initial hypotheses. We conclude that the effects of climate on tree mortality occurrence interact with other factors such as species distribution and ecophysiology.},
	urldate = {2026-05-27},
	journal = {Canadian Journal of Forest Research},
	author = {Fortin, Mathieu and Riofrío, José and de Melo, Lara Climaco and Ashiq, Muhammad Waseem and Sharma, Mahadev and Howard, Christina and Eskelson, Bianca N.I.},
	month = jan,
	year = {2025},
	note = {Publisher: NRC Research Press},
	keywords = {Political Boundaries},
	pages = {1--15},
}
Downloads: 0
About
Documentation
Keywords
Search
Users
Terms and Conditions of Use
Privacy Policy
Sitemap
© BibBase.org 2021