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OLS Field Name OLS Field Data
Main Title Abiotic stress tolerance in plants [electronic resource] /
Other Authors
Author Title of a Work
Publisher Springer Netherlands,
Year Published 2006
Call Number QK1-989
ISBN 9781402043895
Subjects Life sciences. ; Biotechnology. ; Food science. ; Agriculture. ; Botany. ; Plant physiology.
Internet Access
Description Access URL
Collation X, 246 p. online resource.
Due to license restrictions, this resource is available to EPA employees and authorized contractors only
Contents Notes
I - Signal transduction -- Stress Signal Transduction: components, pathways and network integration -- Identification of salt-responsive genes in monocotyledonous plants: from transcriptome to functional -- Phosphorylation of RNA polymerase II C-terminal domain and plant osmotic-stress responses -- II - Temperature stress -- Trienoic fatty acids and temperature tolerance of higher plants -- III - Oxidative stresses -- Nitric oxide research in agriculture: bridging the plant and bacterial realms -- Ultraviolet radiation stress: molecular and physiological adaptations in trees -- Involvement of aldehyde dehydrogenase in alleviation of post-anoxic injury in rice -- IV - Phytoremediation -- Genetic engineering stress tolerant plants for phytoremeditation -- V - Osmotic stresses -- Metabolic engineering of glycinebetaine -- Induction of biosynthesis of osmoprotectants in higher plants by hydrogen peroxide and its application to agriculture -- VI - Ion homeostasis -- Na+/H+ antiporters in plants and cyanobacteria -- Structural and functional relationship between cation transporters and channels -- VII - Nutrition -- Is cellulose synthesis enhanced by expression of sucrose sysnthesis in poplar -- Nitrogen metabolism in cyanobacteria under osmotic stress -- VIII - Structural responses -- Ultrastructural effects of salinity stress in higher plants -- IX - Development of Biotechnology -- Genetic diversity of saline coastal rice (Oryza Sativa L.) landraces of Bangladesh -- Development of marker-free and gene-exchange vectors, and its application -- Toward the development of biotechnology in Asia. Stresses in plants caused by salt, drought, temperature, oxygen, and toxic compounds are the principal reason for reduction in crop yield. For example, high salinity in soils accounts for large decline in the yield of a wide variety of crops world over; ~1000 million ha of land is affected by soil salinity. Increased sunlight leads to the generation of reactive oxygen species, which damage the plant cells. The threat of global environment change makes it increasingly demanding to generate crop plants that could withstand such harsh conditions. Much progress has been made in the identification and characterization of the mechanisms that allow plants to tolerate abiotic stresses. The understanding of metabolic fluxes and the main constraints responsible for the production of compatible solutes and the identification of many transporters, collectively open the possibility of genetic engineering in crop plants with the concomitant improved stress tolerance. Abiotic Stress Tolerance in Plants is a new book with focus on how plants adapt to abiotic stress and how genetic engineering could improve the global environment and food supply. Especially, the application of biotechnology in Asia and Africa would be important. Environmental stress impact is not only on current crop species, but is also the paramount barrier to the introduction of crop plants into areas not currently being used for agriculture. Stresses are likely to enhance the severity of problems to be faced by plants in the near future.