Reprint

Abiotic Stresses in Plants: From Molecules to Environment

Edited by
August 2024
430 pages
  • ISBN978-3-7258-1948-5 (Hardback)
  • ISBN978-3-7258-1947-8 (PDF)

This is a Reprint of the Special Issue Abiotic Stresses in Plants: From Molecules to Environment that was published in

Biology & Life Sciences
Chemistry & Materials Science
Medicine & Pharmacology
Summary

This Special Issue sheds light on the remarkable resilience of plants as they confront a wide array of abiotic stresses, such as drought, extreme temperatures, high salinity, waterlogging, and nutrient imbalances, among other challenges. By delving into the molecular intricacies, this collection offers a comprehensive journey from nucleic acids to proteins, from cellular responses to tissue-level adaptations, and from individual plants to the broader ecosystem. Through this exploration, we can unveil fascinating, yet unexplored, natural laws and interplays. The research presented in this Special Issue not only enhances our understanding of how plants respond to environmental changes but also offers valuable insights into mitigating the impacts of climate change on agriculture and ecosystems. The collection encompasses a diverse range of research articles and comprehensive reviews, providing a deep dive into the molecular essence of plant responses to various environmental cues. Finally, the special issue serves as an invaluable resource for researchers, scientists, and practitioners seeking to expand their knowledge of plant resilience and adaptability in the face of current environmental challenges.

Format
  • Hardback
License and Copyright
© 2024 by the authors; CC BY-NC-ND license
Keywords
wild rice; miRNA; target gene; salt tolerance; genetic resource; salt stress; Populus; Na+ transportation; transcriptome; HKT1; 2; wheat leaves chlorophyll; drought stress; machine learning; regression model; high-resolution spectral imaging; high-throughput phenotypic identification; fruit crop; maternal environment; plant genetic resources; seed storage; sweet orange; Magnolia sinostellata; STAY-GREEN gene (SGR); chlorophyll; light deficiency; transcriptome; yeast two-hybrids analysis; Dendrocalamus farinosus; CCoAOMT gene; genome-wide identification; drought response; lignin synthesis; salt stress; S-adenosylmethionine; ethylene; polyamines; SAM transporter; cotton; Medicago sativa; SPL; SUNN; nodulation; nitrate; miRNA; Rhododendron delavayi; waterlogging; photosynthesis; lignin; hydrogen peroxide; soluble sugar; Antarctic plant; asymmetric warming; CBF; climate change; cold deacclimation; gene expression; RNA-seq; leaf senescence; abiotic stress; stress tolerance; transcription factor; Arabidopsis; crop; cyclic electron flow; ferredoxin; NADH dehydrogenase; pgr5; photosynthesis; photosystem I; soybean; sucrose phosphate synthase; genome-wide survey; gene expression; cold stress; Crassulacean acid metabolism; C3 to CAM transition; facultative CAM; photosynthesis; climate change; water-use efficiency; CAM engineering; pea; wheat; seedling; zinc oxide nanoparticles; polar metabolite profiles; Piriformospora indica; nitrogen starvation; nitrogen metabolism; nitrate transporter; ammonium transporter; amino acid transporter; endophyte; Abies balsamea; cold; conifer; fluorescence; galactosyldiacylglycerol; galactolipids; phospholipids; membrane injury; needle retention; Ginkgo biloba L.; ginkgolides; bilobalide; miRNA; regulatory network; environment response; arabinogalactan proteins; carbohydrate epitopes; carnivorous plants; cell wall; cuticle; cuticular gaps; Drosophyllaceae; mucilage glands; transfer cells; scanning transmission electron microscopy; abiotic stress; heavy metals; frost; transcriptomics; proteomics; antioxidant system; integrative biology; oat; heat shock protein; HSP90; phylogenetic analysis; expression pattern; brackish water; metabolic pathways; energy metabolism; abiotic stresses; multi-omics; cyclic electron flow; ferredoxin; NADH dehydrogenase; pgr5; photosynthesis; photosystem I; photoreceptors; radiation; temperature; transcription factors; n/a