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Glutathione in Plant Growth, Development, and Stress Tolerance
Glutathione (γ-glutamyl-cysteinyl-glycine) is a ubiquitously distributed sulfurcontaining antioxidant molecule that plays key roles in the regulation of plant growth, development, and abiotic and biotic stress tolerance. It is one of the most powerful low-molecular-weight thiols, which rapidly accumulates in plant cells under stress. Recent in-depth studies on glutathione homeostasis (biosynthesis, degradation, compartmentalization, transport, and redox turnover) and the roles of glutathione in cell proliferation and environmental stress tolerance have provided new insights for plant biologists to conduct research aimed at deciphering the mechanisms associated with glutathione-mediated plan...
Plant-Environment Interaction
The increase in global population, urbanization and industrialization is resulting in the conversion of cultivated land into wasteland. Providing food from these limited resources to an ever-increasing population is one of the biggest challenges that present agriculturalists and plant scientists are facing. Environmental stresses make this situation even graver. Plants on which mankind is directly or indirectly dependent exhibit various mechanisms for their survival. Adaptability of the plants to changing environment is a matter of concern for plant biologists trying to reach the goal of food security. Despite the induction of several tolerance mechanisms, sensitive plants often fail to with...
H2S in Plants
H2S in Plants: Past, Present and Beyond presents translational insights from animal to plant application. The recent discovery of several aspects of the function of H2S and its homeostasis in plant cells was propelled by discoveries in mammalian models. Based on the practical application of those analytical methods to plant science, this book will guide readers in the identification and qualification of this gasotransmitter in plant cell function. In addition, it explores important roles in complex signaling networks together with calcium cations, nitric oxide, hydrogen peroxide and plant hormones.Presenting detailed descriptions of analytical methodologies, this book will enable the reader to determine H2S presence and understand it's potential in improving stress resistance and crop productivity. - Presents the integrated role of H2S in plant cells - Identifies methods for determining H2S in plants - Establishes feasible strategies based on H2S to improve food production
Abiotic Stress Alleviation in Plants: Morpho-Physiological and Molecular Aspects
Plants are constantly exposed to changing environmental conditions. Abiotic stresses cause adverse effects on plant growth, development, survival, and yield. It is essential to improve plant responses to such environmental conditions to achieve sustainable crop growth, development, and productivity. The activation of plant stress signaling mechanisms is crucial to address the adverse impacts of environmental factors on plant growth and productivity. Phytoprotectants, including signaling molecules, play crucial roles in the activation of plant physiological and molecular mechanisms to withstand the negative effects of abiotic stress on plants. Investigation of physiological, biochemical, and metabolic pathways associated with plant adaptation to abiotic stress will help identify the key players involved in plant abiotic stress tolerance mechanisms. The sensing, signaling, and gene regulatory mechanisms that help plants cope with abiotic stress must be fully explored.
Sustainable Remedies for Abiotic Stress in Cereals
This book is an elaborate account of the effects of abiotic stressors on cereals crops. It not only discusses the impacts of abiotic stress on the crops but also the physiological, biochemical, and molecular strategies applied in plant of cereal crops to alleviate the detrimental effects of abiotic stressors. The book also elaborates on various molecular response to the abiotic stress. It is a knowledgebase providing readers latest updates on development of high-performance diagnostics, stress induced responses, genomics, phenomics and metabolomics involved in abiotic stress tolerance of cereal food crops. The book is useful for plant scientists and research scholars. Post graduate students of agriculture sciences, plant physiology, botany and biochemistry also benefit from this compilation.
Advancement of Melatonin Research in Plants
Melatonin (N-acetyl-5-methoxytryptamine) is a widely studied biomolecule, and its function has been investigated in bacteria, mammals, birds, amphibians, reptiles, fish and plants. Melatonin research in plants the last five years has attained an exponential growth phase and the number of publications related to phytomelatonin has significantly increased in present times. All this research is directed towards establishing multifarious roles of melatonin in plants, including the promotion of seed germination and seedling growth, influencing plant development and senescence, alteration of flowering and fruiting time and grain yield, modulating circadian rhythms, improving resistance against bio...
Response of Field Crops to Abiotic Stress
Response of Field Crops to Abiotic Stress: Current Status and Future Prospects is a collection of useful scientific resources for students, researchers, and academicians on diverse aspects of abiotic stress responses in field crops. The book provides its readers with a vivid understanding of abiotic stress responses in field crops by covering diverse aspects. It offers exhaustive explanations of the impact and responses of field crops to abiotic stresses. This book offers comprehensive coverage of: Climate change impact on field crops Arsenic and aluminium stress responses in field crops Drought, high temperature, and flooding stress responses in field crops Salinity and osmotic stress responses in field crops Heavy metal stress responses in field crops UV stress responses Elemental biofortification Reactive oxygen species (ROS) metabolism Nutraceutical and human health Computational modelling approaches for abiotic stresses in plants
