Chao Wu – författare

The third volume of Sustainable Soil and Land Management and Climate Change presents a complete overview of plant soil interactions in a climate affected by greenhouse gas emissions and organic carbon. It presents approaches and managements strategies for the stabilization of soil organic matter.The latest in the respected Footprints of Climate Variability on Plant Diversity series, this book enhances the reader’s knowledge of the preservation of organic matter through microbial approaches as well as through soil and plant interactions. Written by teams of specialist scientists, it presents research outcomes, practical applications and future challenges for this important field.Features:Presents microbial tactics for the alleviation of potentially toxic elements in agricultural soils and for reclaiming saline soil.Provides an overview of scientific investigations into greenhouse gas emissions.Outlines priming techniques developed in response to a changing climate.This book is written for students of agronomy, soil science and the environmental sciences as well as researchers interested in management technologies to improve soil fertility.

Climate Change and Plants: Biodiversity, Growth and Interactions Evidence is raised daily of the varying climate and its impression on both plants and animals. Climatic changes influence all agriculture factors, which can potentially adversely affect their productivity. Plant activities are intimately associated with climate and concentration of atmospheric carbon dioxide. Climate Change and Plants: Biodiversity, Growth and Interactions examines how plant growth characters influence and is influenced by climate change both in past and present scenarios. This book covers cutting-edge research of key determinants of plant growth in response to atmospheric CO2 enhancement and global warming. Features Discourses numerous areas of sustainable development goals projected by the UN as part of the 2030 agenda Highlights appropriate approaches for maintaining better plant growth under changing climatic conditions Presents diversity of techniques used across plant science Is designed to cater to the needs of researchers, technologists, policymakers and undergraduate and postgraduate students studying sustainable crop production and protection Addresses plant responses to atmospheric CO2 increases

Climatic conditions are key determinants of plant growth, whether at the scale of temperature regulation of the cell cycle or at the scale of the geographic limits for a particular species. The climate is changing due to human activities – particularly the emission of greenhouse gases – therefore the conditions for the establishment, growth, reproduction, survival, and distribution of plant species are changing. In contrast to animals, plants are able to cease and resume growth. This flexibility in their architecture and growth pattern is partly achieved by the action of plant hormones. Still, the role of plant growth regulators (PGRs) in agriculture is modest compared to other agrochemicals, such as fungicides, herbicides, and insecticides. Plant Growth Regulators for Climate-Smart Agriculture is an invaluable guide to the varied roles filled by PGRs in the attainment of higher-quality, better-yielding crops.Salient Features (minimum 5): Explores plant growth regulators and anthropogenic climate change. Provides new insights related to hormonal cross-talk in plant development and stress responses. Sheds new light on the role of PGRs in agriculture in the attainment of higher-quality, better-yielding crops. Delivers valuable information on physiological and molecular mechanisms linked to the role of plant growth regulators in stress tolerance. Provides valuable knowledge for students of agronomy, plant physiology, molecular biology, and environmental sciences.

Developing Climate-Resilient Crops: Improving Global Food Security and Safety is timely, as the world is gradually waking up to the fact that a global food crisis of enormous proportions is brewing. Climate change is creating immense problems for agricultural productivity worldwide, resulting in higher food prices. This book elucidates the causative aspects of climate modification related to agriculture, soil, and plants, and discusses the relevant resulting mitigation process and also how new tools and resources can be used to develop climate-resilient crops.Features: Addresses the limits of the anthropogenic global warming theory advocated by the Intergovernmental Panel on Climate Change Presents the main characters (drought tolerance, heat tolerance, water-use efficiency, disease resistance, nitrogen-use efficiency, nitrogen fixation, and carbon sequestration) necessary for climate-resilient agriculture Delivers both theoretical and practical aspects, and serves as baseline information for future research Provides valuable resource for those students engaged in the field of environmental sciences, soil sciences, agricultural microbiology, plant pathology, and agronomy Highlights factors that are threatening future food production

Despite significant progress in increasing agricultural production, meeting the changing dietary preferences and increasing food demands of future populations remains a significant challenge. Salinity, drought, water logging, high temperature and toxicity are abiotic stresses that affect the crop yield and production. Tolerance for stress is a important characteristic that plants need to have in order to survive. Identification of proper techniques at a proper time can make it easy for scientists to increase crop productivity and yield. In Engineering Tolerance in Crop Plants against Abiotic Stress we have discussed the possible stresses and their impact on crops and portrayed distinctive abiotic stress tolerance in response to different techniques that can improve the performance of crops.Features of the Book:Provide a state-of-the-art description of the physiological, biochemical, and molecular status of the understanding of abiotic stress in plantsAddress factors that threaten future food production and provide potential solution to these factorsDesigned to cater to the needs of the students engaged in the field of environmental sciences, soil sciences, agricultural microbiology, plant pathology, and agronomyNew strategies for better crop productivity and yieldUnderstanding new techniques pointed out in this book will open the possibility of genetic engineering in crop plants with the concomitant improved stress tolerance

This book is dedicated to the introduction and research on safety and security intelligence science. It is the first time to put forward the idea of intelligence-led safety management, which demonstrates distinct interdisciplinary characteristics. It caters to the needs of safety and safety intelligence in the era of big security and big intelligence, and enhances the academic value of safety intelligence research. Whether you are engaged in practical work or scientific research on safety and intelligence, or are interested in issues about safety and intelligence, this academic book will prove to be a worthy collection.

This book is written by a group of researchers based on the recent research progress in the fiber/matrix interface degradation under various environmental exposures via molecular dynamics simulation.