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Full Description
This book offers an approach to overcoming the challenges of abiotic stress in agriculture. By focusing on the role of plant elicitors, it provides a comprehensive exploration of how these compounds can activate a plant's immune system, leading to increased resistance against stressors such as salt, heavy metals, and temperature fluctuations. The chapters delve into a range of topics, including the cellular and molecular mechanisms modulated by elicitors, the protocols for their application, and their potential to reduce oxidative damage in plants. The book also addresses the critical questions such as the efficacy of plant elicitors in promoting sustainable agriculture. It also provides information on how physical and chemical treatments can activate plant defense systems and the role of elicitors in achieving a healthier, more productive harvest.
Designed for researchers, agricultural professionals, and farmers, this book offers innovative solutions to the challenges of abiotic stress in crops. It provides practical strategies for safeguarding crops and enhancing productivity, making it an invaluable resource for anyone interested in advancing sustainable agricultural practices.
Contents
.- Chapter 1: Genotype x environment interaction in breeding programs: wide vs. specific adaptation
.- Chapter 2: Impact of genotype-by-environment interaction on grain yield and related traits in multi-environment trials
.- Chapter 3: QTL x environmental interactions underlying phenotypic stability or plasticity in crops: Which one to utilize
.- Chapter 4: Contribution of yield related traits to GxE interaction for grain yield
.- Chapter 5: Does Modern Plant Breeding Techniques Increase Crop Stability Performance
.- Chapter 6: Does breeding for abiotic stress tolerance mitigate GxE interactions under a changing climate
.- Chapter 7: Impact of biotic stresses influence on wheat GxE interactions and yield performance
.- Chapter 8: Do soil properties significantly influence the GxE interaction of crop varieties?
.- Chapter 9: Efficiency of multivariate statistical models in analysis of GxE interactions
.- Chapter 10:A comparative study among multivariate statistical methods for analysing GxE interaction
.- Chapter 11:Does drought tolerance enhance crop stability performance?
.- Chapter 12:Genomic selection role to mitigate GxE interaction in plant breeding
.- Chapter 13:Can selection in segregating population reduce the effects of GxE interactions in breeding programs?
.- Chapter 14:A comparative study among parametric and non-parametric univariate stability statistics for stability analysis
.- Chapter 15:An introductory guide to the usage of statistical softwares for investigating GxE interaction: from theory to application.
