Plant Stress Physiology

Plant Stress Physiology
Author: Akbar Hossain
Publisher: BoD – Books on Demand
Total Pages: 420
Release: 2021-01-20
Genre: Science
ISBN: 1839625260

Due to the changing climate, food security for the increasing population has raised a great threat globally. Therefore, it is imperative to find alternate solutions for enhancing agricultural sustainability through plant stress physiology. The concept of plant stress physiology has been well-established over the past 60 years due to the increasing trends of environmental stress. Researchers have found that crop stress physiology has an association with two main areas, one is concerned with agronomy, the other concerned with plant breeding. The contents of the current book emphasize the integration of both breeding and agronomy strategies to ensure agricultural productivity and environmental safety under changing climate.

Climate Change and Agriculture

Climate Change and Agriculture
Author: Noureddine Benkeblia
Publisher: John Wiley & Sons
Total Pages: 500
Release: 2023-01-30
Genre: Technology & Engineering
ISBN: 1119789753

Authoritative and comprehensive resource covering climate-smart agriculture with key insight into its implementation Climate Change and Agriculture provides a complete overview of the development of sustainable agroecosystems and cropping systems and details how to improve the resilience of cultivated crops and cropping systems to the adverse conditions of the climate, such as drought, raising carbon dioxide, global warming, and many other secondary effects such as soils fertility depletion, uncommon disease, and pests. Additionally, the text suggests different agricultural practices to face the severity of frequency of the natural events. Climate Change and Agriculture also delves into the different climate-resilient ways and climate-smarter agriculture (CSA) for food production by building healthier soils through different sustainable practices, redesigning diverse agroecosystems, and developing new crop varieties, livestock breeds, and farm practices. Insight into how modern technology has affected the field, and how it may affect the field in the future, is included. Other topics discussed in Climate Change and Agriculture are as follows: Climate change and agriculture (state of the art, challenges, and perspectives), plus studies on crop yields and their extreme value analysis over India Symbiosis for food security and sustainability in changing climate and emerging issues related to conservation agriculture in Africa Role of Periurban agriculture in sustainability and climate change, with additional information on nutrient management in agro-ecosystems Soil fertility management and biofertilization in changing climate and biochar mitigate abiotic stress-induced damages under changing climate For academics and students, seed, fertilizer, and chemical producers, farmers and farming communities, and policy makers, Climate Change and Agriculture contains invaluable insight on the subject that is helpful in understanding the current state of the field and being prepared for potential future developments.

Nutrition of Rice

Nutrition of Rice
Author: National Fertilizer Development Center (U.S.)
Publisher:
Total Pages: 104
Release: 1971
Genre: Food crops
ISBN:

The bibliography is arranged into sections according to geographic regions. Within sections, abstracts are arranged alphabetically by country in which the work was done or, if unknown, the country in which the work was published.

Sustainable Agriculture in the Era of the OMICs Revolution

Sustainable Agriculture in the Era of the OMICs Revolution
Author: Channa S. Prakash
Publisher: Springer Nature
Total Pages: 511
Release: 2023-01-01
Genre: Technology & Engineering
ISBN: 3031155688

Access to food with enough calories and nutrients is a fundamental right of every human. The global population has exceeded 7.8 billion and is expected to pass 10 billion by 2055. Such rapid population increase presents a great challenge for food supply. More grain production is needed to provide basic calories for humans. Thus, it is crucial to produce 60-110% more food to fill the gap between food production and the demand of future generations. Meanwhile food nutritional values are of increasing interest to accommodate industrialized modern lives. The instability of food production caused by global climate change presents another great challenge. The global warming rate has become more rapid in recent decades, with more frequent extreme climate change including higher temperatures, drought, and floods. Our world faces various unprecedented scenarios such as rising temperatures, which causes melting glaciers and the resulting various biotic and abiotic stresses, ultimately leading to food scarcity. In these circumstances it is of utmost importance to examine the genetic basis and extensive utilization of germplasm to develop “climate resilient cultivars” through the application of plant breeding and biotechnological tools. Future crops must adapt to these new and unpredictable environments. Crop varieties resistant to biotic and abiotic stresses are also needed as plant disease, insects, drought, high- and low-temperature stresses are expected to be impacted by climate change. Thus, we need a food production system that can simultaneously satisfy societal demands and long-term development. Since the Green Revolution in the 1960s, farming has been heavily dependent on high input of nitrogen and pesticides. This leads to environmental pollution which is not sustainable in the long run. Therefore, a new breeding scheme is urgently needed to enable sustainable agriculture; including new strategies to develop varieties and crops that have high yield potential, high yield stability, and superior grain quality and nutrition while also using less consumption of water, fertilizer, and chemicals in light of environmental protection. While we face these challenges, we also have great opportunities, especially with flourishing developments in omics technologies. High-quality reference genomes are becoming available for a larger number of species, with some species having more than one reference genome. The genome-wide re-sequencing of diverse varieties enables the identification of core- and pan-genomes. An integration of omics data will enable a rapid and high-throughput identification of many genes simultaneously for a relevant trait. This will change our current research paradigm fundamentally from single gene analysis to pathway or network analysis. This will also expand our understanding of crop domestication and improvement. In addition, with the knowledge gained from omics data, in combination with new technologies like targeted gene editing, we can breed new varieties and crops for sustainable agriculture.