Reprint

Plant Physiology under Abiotic Stresses

Edited by
April 2023
194 pages
  • ISBN978-3-0365-7218-5 (Hardback)
  • ISBN978-3-0365-7219-2 (PDF)

This is a Reprint of the Special Issue Plant Physiology under Abiotic Stresses that was published in

Biology & Life Sciences
Summary

Abiotic stress includes not only single adversities, i.e., drought, salt, temperature, and elevated CO2, but also complex stresses, i.e., saline and alkali soil, and karst environment. Abiotic stresses strongly affect many aspects of a plant’s substance and energy metabolism. Meanwhile, abiotic stress not only affects the physiological processes of photosynthesis, water metabolism, and inorganic nutrient absorption, but it also influences the electrophysiology and other physical parameters of plants. Plant physiological information, especially online physiological information, helps us to understand the plant’s adaptive mechanism and take the effective measures to improve the production of horticultural plants. This Special Issue contains a collection of 11 important research works, which deepen the connotation and expand the denotation of plant physiology under abiotic stress. These works will provide a theoretical basis for the production of horticultural crops under single stresses, such as drought and salt stress, or under complex stresses, such as saline and alkali and karst environments. Readers from all over the globe are expected to greatly benefit from this Special Issue collection both in terms of their own work and to improve the productivity of horticultural crops under complex abiotic stresses. In the future, we hope that the field of plant (horticultural crop) physiology under abiotic stresses flourishes in terms of academic research and publications.

 

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
genovese; leaf area; root length; nitrogen balance index; anthocyanin; epicuticular leaf waxes; drought stress; GABA: gamma aminobutyric acid; metabolism; pea; Pisum sativum L.; seedling growth; water deficit; agricultural production; redox; photorespiration; chlorophyll fluorescence; dose effect; Annonaceae; antioxidant enzymes; carbohydrates; liriodenine; photosynthesis; garlic; drought stress; chitosan; yeast; antioxidant system; reactive oxygen species; drought stress; citrus; oxidative stress; proline; photosynthesis; water potential; vascular bundle modifications; electrophysiological signals; intracellular water metabolism; bioenergetics; plant physiological information; water shortage response; coastal areas; ornamental plants; gas exchange; chlorophyll a fluorescence; enzyme activity; proline; jujube; saline–alkali stress; sugar metabolism; antioxidant enzyme; RT-qPCR; salinity; biomass; chlorophyll; woody plants; tolerance; electrophysiology; anatomical structure; water potential; cell elasticity; water status; n/a