Ebooks

Natural resources are vital for meeting the food, livelihood and environmental security. It is now widely accepted that future of food, livelihood and environmental security depends upon the attention paid to conservation, sustainable development and management of natural resources. Research carried out over the last five decades have clearly demonstrated that resource conserving technological interventions, water harvesting and improved cultivation practices have the potential to improve utilization of natural resources and significantly enhance crop productivity in the country.

1.1 Introduction Broadcasting seed and harvesting meagre yields was a common method of ancient agriculture. High use of developed crop varieties, irrigation, chemical fertilizers, pesticides and farm mechanization is the main thrust of modern agriculture. Therefore, modern agriculture is an energy intensive farming system (Khan et al., 2010). Though modern technology based agriculture is achieving success to meet food demand of increasing global population, yet it creates many environmental issues such as loss of soil fertility, salinization and water scarcity.

2.1 Introduction Present day agriculture is facing more challenges like negative impacts of climate change, depletion of natural resources, increase of input costs etc. The major causes for steady decline in agricultural sustainability include intensive cultivation with conventional tillage practices, reduction of soil organic matter, soil loss by water and wind erosion, reduction in infiltration rate, formation of soil crust and continuous practice of mono-cropping. Over the years, soil and water resources are continuously overexploited leading to reduction in use efficiency of irrigation and energy.

3.1 Introduction Rice is the main staple food for most of the world’s population and plays a key role to maintain food security of many countries. More than 90% of the rice production globally comes from Asia and also more than 90% of rice consumption is done in Asia (IRRI, 1997). In Asia, more than two billion people get almost 60-70 percent of their daily energy requirement from rice and its products (Yogeswari and Porpavai, 2018). As for India, since independence the country has witnessed a remarkable progress in rice production.

4.1 Introduction Wheat (Triticum aestivum L.) is a major food security crop in South Asia, with 42% of the wheat in this region grown following rice (Oryza sativa L.) on 13.5 million hectares of land. Resource-conserving technologies offer considerable potential for improving the sustainability and productivity of wheat in the rice-wheat system of South Asia. These include raising input use efficiency, cutting costs, providing various environmental benefits, and ultimately improving farmer livelihoods and helping to reduce poverty.

5.1 Introduction Indian agriculture is now at crossroads. We have come a long way. Over the past five decades our strategies, policies and actions were guided by goals of ‘self sufficiency’ in foodgrain production with main focus on rice and wheat. Indian agriculture has been successful in achieving higher production of food grains to secure food security of the nation. While, the success for increasing food grain production has been achieved without major jump in the production and productivity of pulses in the country, this was accompanied by widespread problems of resource degradation, which now poses serious challenges to meet the demands of an increasing population and lifting our people above the poverty line.

6.1 Introduction The birth of modern conventional agriculture coincides with industrial revolution. The identification of N, P and K as critical factors in plant growth led to the manufacture of synthetic fertilizers. While chemical fertilizers and pesticides have existed since the 19th century, their use grew significantly in the early 20 century with the invention of Haber-Bosch method for synthesizing ammonia. The rapid farm mechanization, especially in the form of tractor and combine harvester coupled with science-driven innovative management methods and resources led to the efficiency of enabling outputs of high quality produce per unit area and time.

7.1 What is Soil Moisture Conservation Technique? In situ soil moisture conservation means capturing rain water and retaining it in soil for utilization by plants for better growth and increase in biomass and grain yield. This is achieved through rain water harvesting on farm or field where crops are planted to get benefit from the conserved rainwater. It reduces rainwater loss through runoff and increases rain water infiltration time, thereby increasing the amount of rain water in the soil that will be useful for crop production.

8.1 Introduction Conservation agriculture (CA) is an approach to regenerative agriculture and land management practices based on three interlinked principles: (1) continuous minimum mechanical soil disturbance using no-tillage or reduced tillage based crop cultivation, (2) maintenance of permanent soil cover using crop residues and cover crops and (3) diversification of cropping system using economically, environmentally and socially adapted crop rotation including legume crops and cover crops coupled with other complementary agronomic management practices (FAO, 2014).

9.1 Introduction Water is essential for all life and used in many different ways. It is an important part of the ecosystem in which the reproduction of the bio diversity also depends. Fresh water scarcity for agriculture, industry and household purpose is not only limited to the arid climatic regions, but also in areas having high rainfall. Water scarcity is caused by low water storage capacity, low infiltration rate, high evaporation demand and larger inter annual and annual fluctuations of precipitation.