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Global industrial growth has resulted in numerous pollutants being introduced into the environment. It has additionally caused decreased water availability for agricultural activity in developing countries, which, in turn, has compelled farmers to use wastewater irrigation. In advanced agricultural systems, farmers are adapting various strategies to achieve a higher yield and thus sustain crop productivity. Consequent to the introduction of contaminants in the environment, soil pollutants have become a critical issue. Selection of disease-resistant, high-yielding crop varieties, and extensive fertilizer applications are quite common among farming communities. This book provides insight into environmental pollutants with special reference to their interference with plant nutrition. It additionally discusses the physiological aspects of plant nutrition. This book enhances current knowledge of the effects of pollutants on plant growth and physiology.
Sustainable Plant Nutrition: Molecular Interventions and Advancements for Crop Improvement explores the significant opportunities for sustainable, eco-friendly approaches in plant nutrition and agricultural crop production. The book highlights the various prospects involved in optimizing plant nutrient uptake agriculture and includes chapters representing diverse areas dealing with biotechnology, nanotechnology, molecular biology, proteomics, genomics and metabolomics. This book is an ideal resource for those seeking to ensure a sustainable plant production future. While plants have evolved a set of elaborate mechanisms to cope with nutrient limitations, the traditional supplementation by the application of fertilizers to plant productivity may then lead to overfertilization which can actually reduce plant growth and have adverse effects on the environment. To tackle these issues, a detailed understanding of the responses of plants to nutrients and nutrient deficiency at the physiological, metabolic, transcriptome and epigenetic level is essential. - Illustrates the central role of sustainable plant nutrition to address current and future challenges - Presents global insights and research ranging from signaling to sensing and translational research - Provides a forward-looking perspective for future plans of action
Advances in Botanical Research Volume 108: Ozone Pollution and Plant Health: Understanding the Impacts and Solutions for Sustainable Agriculture provides a comprehensive overview of the harmful effects of tropospheric ozone (O3) pollution on crop productivity, with a focus on how it is measured and modeled under climate change scenarios. The book discusses the sources of O3 pollution, including anthropogenic precursor gases, and how O3 exposure can impair photosynthesis, reduce gas exchange, induce early leaf senescence, and hamper growth in natural vegetation and crops. The book highlights how O3 interacts with plant physiology and metabolism, including through the activation of signal transduction pathways, changes in phytohormone signaling, and modulation of reactive oxygen species (ROS) generation and signaling. The book also explores the experimental and modeling methods used to assess the effects of O3 on crops, with a focus on studies conducted in Asia. The book emphasizes the importance of understanding the implications of ozone pollution for ensuring food security and protecting human and environmental health and suggests strategies such as using ozone-resistant cultivars of plants and crops. Additionally, the book discusses the broader context of air pollution and its impact on crop productivity, including the effects of other air pollutants on plants and crops and the need for mitigation strategies and policies to address agricultural losses. This book is essential reading for early-career researchers, sustainable agriculture practitioners, and policymakers interested in understanding the complex interactions between ozone pollution and plant productivity and finding solutions to mitigate the detrimental effects of ozone pollution on crops in a changing climate. - Discusses the impact of O3 pollution on plant productivity and the methods for measuring and modeling this under climate change scenarios - Reviews recent findings about the target sites for O3 in plants, O3-induced stomatal regulation by phytohormone signaling, and plants' responses related to phytohormone biosynthesis, ROS generation, and signaling in exposure to O3 - Provides an overview of ozone air quality, ozone effects on plant and crop, and experimental and modeling methods used to assess the effects. It focuses on the results of the experimental and modeling studies of the ozone effects on agricultural crops in Asia - Covers the effects of common air pollutants on crops and their pathways of exposure to plants. It also discusses the disturbance in the biochemistry of plants and their metabolisms due to air pollution, and some laws implemented for air pollution control in Pakistan
In the history of the International Plant Nutrition Colloquium from its first meeting in 1954, this meeting, the 13th Colloquium, is the first to be held in Asia and will be the last in the 20th century. The 20th century has seen huge changes in the number and activities of mankind. Our population has increased from around 1. 7 billion to more than 5. 8 billion and technological innovations have completely altered our way of living. As a consequence of such rapid change, we are facing many problems including changes in our environment of a global scale. But, while food shortage has been a serious concern to mankind throughout our history, serious food shortages in the 20th century have been confined to limited times and areas. As Lester Brown discusses in this volume, farmers have increased food production heroically on demand. We, the plant nutritionists should be proud of our support to the world's farmers which has helped them make their achievement possible. During the 20th century, the science of plant nutrition also has achieved great progress as described by Jack Loneragan; it became established as a discipline firmly based in science, defined the chemical elements supporting plant growth, and has contributed to improvements in plant production and environmental quality, as readers will find in many contributions in this volume.
Bio-organic Amendments for Heavy Metal Remediation: Water, soil and plant focuses on these core continuum media to explore remediation options using microbial, organic and combined approached. A volume in the Plant Biology, Sustainability and Climate Change series, this book offers a comprehensive view of techniques and approaches for addressing contamination by heavy metals.As anthropogenic activities increasingly negatively impact natural resources, there has been significant disturbance of water, soil, and plant continuum due to the accumulation of heavy metals. The bioaccumulation of heavy metals in the food chain could pose life-threatening effects on plants as well as humans, and there is need to find effective and sustainable remediation options. The application of bio-organic amendments could serve as a sustainable solution to this problem.Employing microbial, organic and combined approaches to reduce the accumulation of heavy metals in the food chain ultimately would lead to the production of safe food for humans.This book provides a comprehensive view of the challenge with a focus on the bioremediation of heavy metals contamination using ecotechnological approaches to protecting the soil, water and plant continuum. - Highlights remediation techniques/approaches for heavy metals under water, soil and plant continuums - Presents case-studies for real-world insights as well as current practices - Includes regulatory aspects for ensuring safe implementation
Nanotechnology has shown great potential in all spheres of life. With the increasing pressure to meet the food demands of rapidly increasing population, thus, novel innovation and research are required in agriculture. The principles of nanotechnology can be implemented to meet the challenges faced by agricultural demands. Major challenges include the loss of nutrients in the soil and nutrient-deficient plants, which result in a lower crop yield and quality. Subsequently, consumption of such crops leads to malnourishment in humans, especially in underprivileged and rural populations. One convenient approach to tackle nutrient deficiency in plants is via the use of fertilizers; however, this method suffers from lower uptake efficiency in plants. Another approach to combat nutrient deficiency in humans is via the use of supplements and diet modifications; however, these approaches are less affordably viable in economically challenged communities and in rural areas. Therefore, the use of nano-fertilizers to combat this problem holds the greatest potential. Additionally, nanotechnology can be used to meet other challenges in agriculture including enhancing crop yield, protection from insect pests and animals, and by use of nano-pesticides and nano-biosensors to carry out the remediation of polluted soils. The future use of nanomaterials in soil ecosystems will be influenced by their capability to interact with soil constituents and the route of nanoparticles into the environment includes both natural and anthropogenic sources. The last decade has provided increasing research on the impact and use of nanoparticles in plants, animals, microbes, and soils, and yet these studies often lacked data involving the impact of nanoparticles on biotic and abiotic stress factors. This book provides significant recent research on the use of nano-fertilizers, which can have a major impact on components of an ecosystem. This work should provide a basis to further study these potential key areas in order to achieve sustainable and safe application of nanoparticles in agriculture.
Phytoremediation is the process that uses plants to remove pollutants from soils. These pollutants are stored in the edible parts of plants and, if they are consumed above a certain level, they become a health risk for humans and animals. This book is a critical review of phytoremediation, its direct or indirect effects on food products, and the risks posed by this cost-effective technology in food safety. It shows how different plants are suited for phytoremediation, explains the role of toxicants in the environment, and analyses their effects and risks in the food chain at a global level. It also reviews the extraction methods of toxicants from plants after they are exposed to phytoremediation. Features: Summarizes the phytoremediation technology for effective remediation Describes different types of pollutants in soils that render food products useless Identifies the role of phytoremediation in the environment and its advantages and disadvantages Explains the role of phytoexclusion and phytostabilization in foods and food safety Includes many case studies to describe the extraction protocols in postharvest for food safety This book is intended for practitioners in public and private companies involved in soil remediation and food production, as well as graduate students and academics, in both developed and developing countries, who are involved in soil and environmental sciences, the food industry, agriculture, and biotechnology.
Endophytes are the plant symbionts that live inside the plant tissue without causing any symptoms of disease for a part of their life-cycle, as compared to the rhizosphere and phyllosphere microbes that live on the plant’s surface, and pathogens that cause disease. Bacteria and fungi are the two most common groups that are included in endophytes. They find their way into plants’ endosphere to become extremely important plant symbionts that improve metabolite profile, fitness and stress tolerance of the host. Endophytes are an important untapped reservoir of biological resources. During the last few decades, endophytes have attracted scientists working in the field of agriculture, environment and industry due to the possibilities of diverse biotechnological applications in such fields. Endophytes promote plant growth by improving the physiological and metabolic functions of the host plants via nutrient acquisition, nitrogen fixation, phytohormone production, enhancing abiotic/biotic stress tolerance, and disease resistance. These benefits conferred by the endophytes can be used to promote agriculture yield and food quality. In addition endophytes are known to produce novel antibiotics; secondary metabolites including alkaloids, flavonoids, steroids, phenolic acids, quinines; siderophores; and enzymes such as chitinases and cellulases. These natural compounds have use in pharmaceutical, food and agricultural industries. Endophytes have usage in biodegradation, bioextraction or bioaccumulation of environmental pollutants. They also have potential application in enhanced phytoremediation. More recently, endophytic bacteria and fungi have also been used for the green synthesis of nanoparticles for different medical and industrial applications. Functional genomics studies of endophytes provided more information and better understanding of network of the complex host-endophyte interactions and other associated microbes to harness the biotechnological potential of endophytes more efficiently and sustainably.
Rhizomicrobiome: Current Status and Future Prospects for Agriculture and Environment explores the important potential of biocontrol agents in the reduction of overexploitation of synthetic pesticides, enhancing crop production, and maintaining the natural texture and health of agricultural soils. As concerns about sustainable production challenge current practices, this book presents opportunities for utilizing biological systems as part of the solution. Rhizomicrobiome is a significant part of plant biological system which impacts the plant growth and survival in different physiological conditions. Its composition includes different microbial networks whose presence is mainly impacted by the root exudates. Archaea, bacteria, protozoa, fungi, oomycetes, nematodes, microarthropods etc. are the significant parts of the rhizomicrobiome. Rhizomicrobiome could be that novel ecosystem housing the bioinoculants that can help create sustainable, productive growth environments. Written by a team of global experts Rhizomicrobiome explores the full range of rhizomicrobiome topics including sustainable agriculture, food security, and environmental management and will be a valuable resource for researchers, academics and advanced students. - Introduces the latest advancement in the sustainable agricultural practices, microbial biocontrol, and environmental management - Presents the prospects of, wide applications of, traditional uses of, and modern practices of harnessing the potential of rhizomicrobiome - Includes informative illustrations of recent trends of phyto and soil microbiome