Technology driven livestock farming for food security and sustainability

Environment Conservation Journal Pub Date : 2023-08-16 DOI:10.36953/ecj.15072477

Zahoor Pampori, Aasif Sheikh

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Abstract

Advent of industrialization increased the human population significantly and it expanded very rapidly from nineteen sixties. Introduction of mechanization, chemical fertilization and genetic selection in agriculture increased the food production, reduced pestilence and thus improved life expectancy. However, in doing so the natural resources were over utilized, degraded and polluted. The greenhouse gas emissions from anthropogenic activities increased several folds that resulted into global warming, the consequences of which are being observed in the form of floods, draughts, cloud bursts, melting of glaciers, rising of sea level and loss of species. The soil fertility & water table is decreasing, resistance to pesticides, drugs, antibiotics is increasing and immergence & reemergence of diseases are common. Since the world population by 2050 is anticipated to touch 9 billion that means an increase of 30%. Obviously, the demand for food to feed such a huge population would require 70% increase in the food. With limited resources, depleted soil, polluted atmosphere, disturbed ecosystems and exhausted natural resources, the challenges for food security have amplified. Urbanization, improved incomes and dietary changes will increase the demand for food of animal origin in coming years. Globally animal products provide 67% of the protein and the requirement for meat and milk by 2050 is expected to increase by 73% and 58% respectively. Therefore, to ensure food and nutritional security in coming years, livestock production has to be augmented efficiently, smartly and sustainably. As such, precision, smart livestock farming is inevitable that must integrate all the techniques, skills, knowledge and innovations to produce safe, sufficient, affordable, accessible and sustainable animal food with minimum environmental impacts. With the advancement in robotics, biosensors, artificial intelligence, internet of things and information technology, the farming practices should now be technology driven, smart, need based, automated, productive and integrated.

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技术驱动的畜牧业促进粮食安全和可持续性

工业化的到来大大增加了人口数量，并从 19 世纪 60 年代开始迅速扩张。在农业中引入机械化、化学肥料和基因选择提高了粮食产量，减少了瘟疫，从而提高了预期寿命。然而，在此过程中，自然资源被过度利用、退化和污染。人类活动排放的温室气体增加了几倍，导致全球变暖，其后果表现为洪水、干旱、云雾缭绕、冰川融化、海平面上升和物种减少。土壤肥力和地下水位正在下降，对杀虫剂、药物和抗生素的抗药性正在增加，疾病的出现和再次出现十分普遍。预计到 2050 年，世界人口将达到 90 亿，这意味着人口将增加 30%。显然，要养活如此庞大的人口，对粮食的需求将增加 70%。由于资源有限、土壤贫瘠、大气污染、生态系统紊乱和自然资源枯竭，粮食安全面临着更大的挑战。城市化、收入提高和饮食结构的改变将在未来几年增加对动物源性食品的需求。全球动物产品提供了 67% 的蛋白质，预计到 2050 年，肉类和奶类的需求量将分别增加 73% 和 58%。因此，为了确保未来几年的粮食和营养安全，必须高效、智能和可持续地提高畜牧业生产。因此，精准、智能的畜牧业势在必行，它必须整合所有技术、技能、知识和创新，以生产安全、充足、负担得起、可获取和可持续的动物食品，并将对环境的影响降至最低。随着机器人技术、生物传感器、人工智能、物联网和信息技术的发展，现在的畜牧业应该是技术驱动、智能、基于需求、自动化、高产和综合的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Environment Conservation Journal

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