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Ali Al-Akbar
In the Name of Allah, the Beneficent, the MercifulPraise be to Allah, Lord of the worlds, and may his blessings be upon Mohammed and his Pure Household.Humans (often) select role models to emulate in their daily activities. For a Muslim, there are many opportunities for this and examples to look for. The Prophet Mohammed, for example, is the greatest role model for every believer. So are his Household. But many Muslims today lose these opportunities and are either left clueless or take infidels as their role models.One of the primary reasons for this may be the Muslims' unawareness of the lives of their guiding leaders and that is due to the loss of proper education.At home, there aren't any...
Maize
Maize is a staple cereal after wheat and rice. It is an important source of carbohydrate, protein, iron, vitamin B and minerals for many poor people in the world. In developing countries maize is a major source of income in resource-poor farmers. As maize is used both as silage and as crop residue and the grains of maize are usually used for food, starch and oil extraction industrially, the demand for maize is rising day by day. Therefore, it is imperative for improvement of maize to meet the increasing demand. This book entitled "Maize - Production and Use" highlights the importance of maize and the improved management approaches for improving the productivity of maize in the era of changing climate.
Input Use Efficiency for Food and Environmental Security
Ending hunger, achieving food security and promoting sustainable development are at the top of the list of United Nations (UN) sustainable global development priorities. In the times of high population growth and increasing pressure of agricultural systems, efficiency in use of natural resources has been at the epicenter of sustainable agricultural. The concept of ‘Input efficiency’ implies production of high quantity and quality of food, from using only finite natural resources as inputs, in the form of mainly land, water, nutrients, energy, or biological diversity. In this book, editors provide a roadmap to the food, nutritional, and environmental security in the agricultural systems. ...
The Nanotechnology Driven Agriculture
Nanotechnology is believed to accelerate our fight to sustain and enhance crop productivity for the ever-increasing world population. It has been reckoned as one of the safest and most cost-efficient techniques to boost crop productivity in the future. The ever-increasing state-of-the-art availability of various nanomaterials has allowed us to pursue their beneficial properties in agronomy. Nanotechnology will help minimize the dependency on chemical fertilizers and existing crop production techniques that have already been exploited to their maximum potential. Therefore, in the present context, it could well be realized that agriculture will be driven by nanotechnology in the future. This b...
Plant Stress Physiology
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.
‘Save Soil’ by Managing Soil Nutrient Losses, Agronomic Practices and Crop-Microbial Interaction: World Soil Day 2022
Soil is not only a fundamental source for all living organisms but also impacts non-living factors (water, air, minerals, etc.) making it an invaluable and finite resource. The importance of soil expands from agronomy through to industrialization, thus, it is crucial to understand the impact of human activity on soil quality. To address several global issues related to pollution, food security, and health, the United Nations promotes the Sustainable Development Goals (SDGs) with targets to ‘save soil’ by minimizing nutrient loss and pollution load from the soil. Due to increasing anthropogenic pollution load, many soil pollution control measures are failing, therefore, new technologies a...
The Impact of Abiotic Stresses on Agriculture: Mitigation through Climate Smart Strategies
Climate-smart agriculture, or CSA, is a multidimensional approach to transforming and reshaping agricultural systems to support food security under the new realities of climate change. Global changes in rainfall and temperature patterns threaten agricultural production and increase the vulnerability of people dependent on agriculture for their livelihoods, residing mostly in the world's developing countries. Climate change interrupts food markets and agro-economy, posing population-wide risks to the food supply. Threats can be minimized by increasing the resilience capacity of farmers through improving agricultural practices as well as enhancing flexibility and resource use efficiency in agr...
Mindset Matters
How colleges can foster growth mindsets among students—and why this approach matters. We live in an era of escalating, tech-fueled change. Our jobs and the skills we need to work and thrive are constantly evolving, and those who can't keep up risk falling behind. That's where college comes in. In Mindset Matters, Daniel R. Porterfield advances a powerful new argument about the value of residential undergraduate education and its role in developing growth mindsets among students. The growth mindset, according to Porterfield, is the belief that we can enhance our core qualities or talents through our efforts, strategies, and education, and with assistance from others. People with growth mind...
Efficient Nitrogen Fertilizer Management to Improve Crop Production
The improvement in global crop production over the past several decades has been associated with increased use of nitrogen (N) fertilizer. However, on average, less than 50% of the nitrogen added to croplands globally is harvested as crop product. Inefficient use of N fertilizer by crops will result in substantial agricultural nitrogen losses, posing threats to human and ecosystem health. Crop production must increase dramatically to meet the growing demand for food and biofuels projected for 2050. To boost crop yield with lowered environmental cost, the use of high-potential crop cultivars and efficient nitrogen fertilizer management are required. Recent advances in N management practices, such as enhanced-efficiency fertilizer use, improved manure management and machine deep placement of fertilizer have opened up new strategies to achieve improved crop production with N use reduction. A better understanding of the key crop traits and regulatory processes in response to N fertilizer managements will facilitate the increase in crop yield, N use efficiency while minimizing impacts on the environment.
