RÉSUMÉ
This review paper critically assesses the challenges and opportunities associated with Radio Frequency Identification (RFID) adoption in agriculture. RFID technology has the potential to revolutionize agricultural processes, offering benefits such as improved supply chain management, enhanced livestock tracking, and data-driven decision-making. However, its implementation also faces various obstacles, including technical, economic, and integration challenges. Through an in-depth analysis, this review explores the socio-economic and environmental implications of RFID adoption, considering its impact on labor dynamics, job displacement, rural communities, energy consumption, and waste generation. The paper concludes with insights into the future prospects of RFID integration in agriculture and provides strategic recommendations for overcoming challenges and ensuring responsible adoption.
RÉSUMÉ
Biofuel production from agricultural residues presents an innovative solution to the global energy challenge. This study delves into the potential of using such residues as a renewable feedstock, addressing the pressing need to transition from conventional fossil fuels. By evaluating various agricultural residues' types and characteristics, a comprehensive assessment of their worldwide availability and potential yield was undertaken. Emphasizing sustainable and eco-friendly approaches, the research underscores closed-loop systems, efficient utilization of co-products, and the imperative of a holistic life cycle assessment (LCA) for biofuel production. The LCA revealed a significant reduction in greenhouse gas emissions, emphasizing water conservation and waste reduction during the process. Despite the evident potential, there are identifiable challenges, primarily technological research gaps, economic constraints, infrastructural limitations, and regulatory hurdles. Yet, the undeniable benefits include a notable reduction in carbon footprint, effective resource management, and a bolstered economy, especially for agrarian communities. Policies promoting sustainable farming practices, incentivizing research and development, and fostering collaborations are recommended. Such a framework can enhance biofuel infrastructure, necessitate regular monitoring, and optimize the biofuel production process. Conclusively, while challenges persist, with cohesive policy recommendations and technological innovations, agricultural residues can pivot as the linchpin in a sustainable energy future.
RÉSUMÉ
Livestock nutrition plays a crucial role in ensuring the health and productivity of animals. Fodder are key component of livestock diets, providing essential nutrients for growth, reproduction, and overall well-being. The application of inorganic nutrients with the combination of organic nutrients leads to improve crop yield with improvement in soil health and its productivity without deteriorating the environmental conditions. This review aims to explore the nutritional landscape of fodder and forage options for livestock, examining their composition, availability, and potential benefits.
RÉSUMÉ
Agrochemicals, including fertilizers, pesticides, and herbicides, are widely used in agriculture to improve crop yields and protect plants from pests and diseases. There is growing concern over their impact on beneficial soil microorganisms and, indirectly, on human health. This review aims to provide an in-depth analysis of the effects of agrochemicals on soil microbial communities and human health, focusing on recent scientific research and case studies. Exploring various agrochemicals can disrupt microbial diversity, population, and functionality, affecting crucial soil processes and, in turn, ecosystem health. We delve into the pathways of human exposure to agrochemicals and the potential health implications. To mitigate the adverse effects of agrochemicals, the review highlights several alternative approaches, including the use of organic fertilizers and pesticides, precision agriculture, and genetically modified crops. Despite these advancements, research gaps persist in understanding the complex interplay between agrochemicals, beneficial microorganisms, and human health, particularly in the changing agricultural practices and climate conditions. We argue that interdisciplinary, long-term studies are needed to fill these gaps and develop sustainable, health-conscious agricultural practices. The review is intended for researchers, policymakers, and agricultural practitioners seeking to understand and address the environmental and health impacts of agrochemicals.
RÉSUMÉ
This synthesis consolidates current research on sustainable agriculture and its pivotal role in enhancing food security, conserving biodiversity, and mitigating climate change. Sourced from a wide array of references, it accentuates exercises such as organic farming, agroforestry, and diversified farming systems as cornerstone approaches, sustainable agriculture. The potential of these practices is also explored, highlighting the carbon sequestration capacity of agroforestry systems, the environmental advantages of organic farming over conventional methods, and the implications of diversified farming systems on food security. However, sustainable agriculture still confronts numerous challenges, especially regarding the environmental repercussions of pesticide use and the barriers hindering the adoption of sustainable farming practices. The substantial role of traditional agricultural practices, which often reflect fundamentals of sustainability and resource preservation, is also underscored. The transformative impact of integrated aquaculture-agriculture systems on small-scale farms in Southern and Southeastern Asia is with Farmer Field School experiences worldwide. Critically, the synthesis acknowledges the daunting task of feeding a burgeoning global population and the environmental ramifications of land utilization. Synthesis concludes by asserting that future research and policy must perpetually focus on these issues, aiming to generate innovative strategies for sustainable agriculture and to bolster the resilience of farming systems in the face of climate change.
RÉSUMÉ
The present investigation was carried out to study the effect of foliar application of nano-fertilizers N and P on yield, and the economics of wheat in Semi-arid and sub-tropical region of Central Plain Zone of Uttar Pradesh. The experiment was laid out in triplicate following a randomized block design with twelve treatments comprising foliar application semi-different doses of Nano N and P. Foliar application of 1st spray of Nano N and P at 30 days after sowing (DAS) + 2nd spray of Nano N and Zn at 45 DAS along with 75% recommended dose of fertilizers (RDF) significantly (P=0.05) increased yield and have better economics. Foliar application of nano-fertilizers leads to significant improvement of crop productivity of wheat in Semi- arid and sub-tropical region of Uttar Pradesh. Moreover, the foliar application of nano-fertilizers, i.e., Nano N has direct role in increasing yield as nutrient get easily available to plant in case of foliar spray.