Reprint

Advances in Forest Ecophysiology: Stress Response and Ecophysiological Indicators of Tree Vitality

Edited by
May 2023
212 pages
  • ISBN978-3-0365-7519-3 (Hardback)
  • ISBN978-3-0365-7518-6 (PDF)

This is a Reprint of the Special Issue Advances in Forest Ecophysiology: Stress Response and Ecophysiological Indicators of Tree Vitality that was published in

Biology & Life Sciences
Environmental & Earth Sciences
Summary

Air pollution and the changing climate are some of the greatest threats to the health and functioning of forest ecosystems, strongly jeopardizing their ecological and economic functions as well as services. The impact of increasing temperatures and extreme weather events (droughts, storms, temperature and precipitation extremes) on the vitality of forest trees is often difficult to separate from the impact of pollution, such as nitrogen deposition and tropospheric ozone, as they can exhibit synergistic effects. The use of indicators is elementary in modern forest ecophysiological research, as they help us to disentangle complex interactions between trees and various stress-inducing factors as well as better estimate the level of damage to trees and forest ecosystems.Eleven papers are included in this Special Issue, with wide-ranging topics from various disciplines but centered around tree responses to environmental stress. The task of this Special Issue is twofold: one, to remind us that a better understanding of the physiological processes influencing tree vitality under the changing climate and air pollution pressures requires considerable research efforts and constant advancements in research methods and approaches; two, to highlight the fact that the environmental pressures instigating the use of tree stress response indicators are more present than ever, and will likely continue to affect tree vitality in the foreseeable future.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
defoliation; monitoring; tree vitality; drought; climate change; defoliation; forest decline; extreme climate events; drought; tree mortality; climate change; climate response; drought; radial increment; dendrochronology; Fagaceae; osmolytes; antioxidant; phytohormones; trade-off mechanisms; stress marker; oxidative stress; tropospheric ozone; leaf symptoms; PODy; water stress; risk assessment; climate–growth relationship; climate signal; tree-ring width; basal area increment; blue intensity; daily climatic data; cadmium; nickel; phytoremediation; plant hormones; polyamines; poplar; Populus deltoides; antioxidative enzymes; chlorophyll; defoliated trees; hydrogen peroxide; lipid peroxidation; nutrient concentration; oxidative stress; Pinus spp.; Quercus spp.; undefoliated trees; pine; BAI; isotopes; iWUE; water and thermal stress; SPEI; Poland; tree vitality; foliar composition; stoichiometry; climate change; ICP Forests; drought; tree decline; Quercus brantii; cellular characteristics; calcium oxalate crystals; n/a

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