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In the realm of agriculture, technological innovation and economic productivity stand as pillars essential for sustainable development and global food security. Technological advancements have revolutionized farming practices, enabling efficient resource utilization, precision agriculture and enhanced crop yields. From automated machinery to biotechnology and data analytics, innovations have streamlined processes, reduced labor costs and mitigated environmental impacts. Moreover, economic productivity in agriculture is indispensable for ensuring food affordability, rural livelihoods and overall economic growth.

Introduction  It is estimated that over 795 million people, which is equivalent to one out of every nine individuals, are suffering from undernutrition. These people are mostly found in rural areas and in countries that are still in the process of developing. Technologies that are either brand new, already in use, or in the process of being developed have the potential to address all four aspects of food security. Increasing the availability of food, for instance, may be accomplished via the use of genetic modification, methods for boosting the fertility of soil, and contemporary irrigation innovation (Tripathi et al?, 2019).

Introduction According to FAO (1994), pulses, a subgroup of legumes, are crop plant members of the Leguminosae family that produce edible seeds used for human and animal consumption. Legumes, which are harvested for dry grain, are classified as pulses. Grain legumes are used mainly for oil production, and vegetables are not considered pulses. Pulses are considered the heroes of nutrition as they are an excellent source of key nutrients, including carbohydrates, dietary fibers, protein, vitamins, and minerals, with health-promoting benefits. Pulses are a rich source of essential micronutrients, such as iron, potassium, magnesium, zinc, and B vitamins, including folate, thiamin, and niacin.

Introduction In recent years, agriculture has undergone a transformative evolution driven by technological advancements. Precision Agriculture (PA) has emerged as a revolutionary approach to farming, utilizing cutting-edge technologies to optimize resource utilization, enhance productivity, and promote sustainable practices. The integration of technology into crop management processes has played a pivotal role in ushering in a new era of precision and efficiency. This essay explores the significance of technology integration for sustainable crop management in precision agriculture, emphasizing its potential to address global challenges such as food security, resource depletion, and environmental sustainability.

Introduction It is impossible to overestimate the crucial impact that plant breeding, a fundamental branch of agricultural science, has played in determining the course of societies throughout history. The foundation of agricultural advancement throughout history has been the creation and spread of improved crop varieties, which have a profound effect on farmers’ socioeconomic conditions everywhere. This effort involves strategically enhancing crop types to meet the evolving demands of communities and farmers.

Introduction In the contemporary landscape of economic development, the fusion of sustainable technology practices with growth strategies has emerged as a compelling imperative. This chapter embarks on an exploration of the intricate interplay between sustainable technology practices and economic development. As societies grapple with the escalating challenges of environmental degradation and resource depletion, the integration of innovative technologies becomes pivotal for forging a path towards sustainable and resilient economies.

Introduction Globally, the tech revolution in agriculture is a game-changer. Yields per hectare surged 21% from 2000 to 2018, a trend powered by precision agriculture utilizing drones, sensors and AI. This data-driven approach slashes fertilizer and water use by 15% and 30% respectively, saving billions globally (Kumar and Aithal, 2023). Automation through driverless tractors and robotic milking machines boosts farm efficiency by 20%, while e-commerce platforms connect farmers directly to markets, inflating their profit margins by 10%.

Introduction The Greek terms hydro, which means water and ponos, which means labor are the roots of the word hydroponics, which literally means water work. Maharana and Koul (2011) defined hydroponics as a technique of growing plants in soil less conditions with their roots immersed in a nutrient solution. According to Savaas (2017), hydroponics can be briefly defined as the cultivation of plants without soil. So, it is clear that in hydroponics, plants are grown without soil, and they get nutrients from nutrient solutions added to water.

Introduction Soil erosion is becoming a global challenge, causing various effects such as reducing crop yields, degradation of water quality, leading to inundation, degrading land by making it unsuitable for agriculture and others. Moreover, it is a significant problem that poses a devastating impact on food security, livelihoods, and the environment. It not only depletes the fertile soil needed for agriculture but also leads to reduced agricultural productivity, loss of biodiversity, and increased vulnerability to climate change.

Introduction Food habit of Indian people is mostly cereal based and depends on Rice, Wheat and Maize for their staple food. Although, there are thousands of indigenous plant species which are rich in nutrition and locally or regionally adapted and accepted but not included in the modern food systems. Presently, food security is largely dependent on a handful number of crops. Modern agricultural systems promote the cultivation of high-yielding crop species, with the intensification of a limited number of species.

Introduction Bihar lies in the river plains of the basin of the river Ganga. It is endowed with fertile alluvial soil ground water resources. This makes the agriculture of Bihar rich and diverse. Bihar is one of the major producers of fruits in India with 6.7 percent of national production respectively. It ranks sixth among other States in the production of fruits respectively. Considering versatile climatic feature of Bihar, there is huge potential to grow almost all the fruits. The major fruit crops grown in Bihar are Litchi, Mango, Guava, Banana, etc. Minor crops like Makhana, Pineapple, strawberry are also grown.

Green Marketing Agriculture is one of the foremost vital divisions of India’s economy given its tremendous land resources and conducive climate the share of agriculture within the Indian economy was as high as 35 within the 1960s which has reduced over time with the advancement in manufacturing and services segment within the nation within the late 1950s and early 1960s the nation had been ridden with different issues counting serious nourishment insufficiency different endeavors have been made since independence to implement successful rural arrangements to move forward the generation level in agriculture and hence supporting both producers and consumers post-independence the center of agrarian arrangement was on guaranteeing nourishment security to fight with emergency like shortage of nourishment and low yield rates between 1960 and 1970 the far reaching selection of rice and wheat was advanced together with a cluster of steady activities around production subsidies minimum support prices public procurement storage and distribution of nourishment grains and trade protection.

Introduction There is a large market for organic products, growers worldwide are faced with a potentially dangerous situation. While the majority of organic farmers prioritize soil quality, encompassing the physical, chemical, and biological aspects of soils, they often employ several inversion tillage techniques (Ploughing, disking and cultivating) to prepare seedbeds, integrate cover crops, and control weeds. These actions may worsen the condition of the soil. (Bruulsema et al?, 2003).

Introduction Agriculture is one of the most important sectors of the global economy and provides food, fibre, and other crucial commodities to the world’s population. With the increasing global population, there is a need to improve agricultural efficiency and productivity to fulfil the growing demand for food. The use of Information and Communication Technologies (ICTs) has been recognized as a critical factor in the development of agriculture and rural areas. In recent years, e-extension has emerged as a promising ICT tool for agriculture development, enabling farmers to access information and services remotely.

Introduction The seventh-largest country in the world, India has a total size of 328 million hectares (mha). As of 2015–16, only 42.6% of the overall geographical area, or around 140 mha, is under cultivation, with nearly half of this land (156.4 mha) being arable. Despite accounting for only 16.5% of India’s GDP, the agricultural industry employs the greatest percentage of people (about 42.3% in 2019), including 71% of women working in rural regions.  

Introduction Both the technology generation system and the technology transfer system play crucial roles in agriculture. For a very long time, research through the National Agricultural Research Systems (NARS), such as the Department of Agriculture Services (DARS), and other research institutions, such as Universities, has produced a vast body of innovations and technological information (Drechsel et al?, 2004). Despite the many promising improvements that researchers have produced, there is still very little application for them (Doss, 2005). A greater knowledge of the mechanisms underlying the distribution and acceptance of agricultural research output is necessary to know the cause of the low levels of technology uptake (Garforth, 1998).