Strategies for Tree Improvement under Stress Conditions

doi:10.3390/books978-3-0365-8494-2

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Strategies for Tree Improvement under Stress Conditions

Edited by

August 2023

306 pages

ISBN978-3-0365-8495-9 (Hardback)
ISBN978-3-0365-8494-2 (PDF)

https://doi.org/10.3390/books978-3-0365-8494-2

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This book is a reprint of the Special Issue Strategies for Tree Improvement under Stress Conditions that was published in

Biology & Life Sciences

Environmental & Earth Sciences

Summary

Perennial woody plants usually face multifactorial adverse conditions during their long lifespan, which impairs their growth and productivity. To cope with these adverse conditions, trees deploy morphyological, physiological and molecular responses to adapt to the environmental constraints. By using high-throughput sequencing and bioinformatic approaches, many hub genes that are involved in stress response were identified. In recent years, with the advantages of transgenic technology in woody plants, many candidate genes participating in stress responses were functionally characterized and showed great potential for tree improvement under different stresses. On the other hand, cultivation strategies (including beneficial microorganism investigation, beneficial microorganism inoculation, mixed forest and so on) also play crucial roles in tree improvement under abiotic and biotic stress.

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Keywords

Salix matsudana; NaCl stress; salt tolerance index; salt tolerance gene; transcriptome sequencing; gene; water deficit; fertilization; aquaporins; auxin; abscisic acid; poplar; walnut oil; fatty acid; micronutrients; secondary metabolites; variation; genetic effect; climatic factors; SpsNAC005 gene; Populus × hopeiensis Hu & Chow; Salix; stress tolerance; Juglans regia; biomass; soil contamination; oxidative stress; antioxidant enzymes; Santalum album L.; auxin response factors; auxin; qRT-PCR; drought; phytoremediation; root architecture; antioxidant enzyme activity; chlorophyll; photosynthesis; fine-root distribution; plant-available water; hydraulic characteristics; Robinia pseudoacacia; Loess Plateau; nitrogen forms; Cunninghamia lanceolata; Schima superba; morphological characteristics of root system; pecan; scion growth; regulation; epigenetics; whole-genome bisulfite sequencing (WGBS); mulberry; MaTCP transcription factor; drought tolerance; root development; poplar; transcription factor; PtrWRKY51; salt tolerance; photosynthetic rate; water-use efficiency; Paulownia fortunei; PP2C family; identification; hormone treatment; expression analysis; drip fertigation; optimized furrow fertilization; soil nitrogen; fine root traits; poplar plantation; Camellia oil; foliar fertilizer; nutrient-poor; mulberry; physiology; organ-specific; secondary metabolism; transcriptome; zinc stress; sexual dimorphism; siblings; water deficit; gene regulation; ROS scavenging; Populus × euramericana; Camellia oleifera; boron deficiency; arbuscular mycorrhizal fungi (AMF); root morphology; physiological parameters; grafting; salt stress; gas exchange; chlorophyll fluorescence; Hibiscus syriacus Linn.; Hibiscus hamabo Sieb. et Zucc; n/a