印度半干旱地区农业效率与灌溉强度之间的时空变化和关系

Q1 Social Sciences Regional Sustainability Pub Date : 2024-06-01 DOI:10.1016/j.regsus.2024.100144
Shibu Das , Kaushal Kumar Sharma , Suranjan Majumder , Debabrata Das , Indrajit Roy Chowdhury
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引用次数: 0

摘要

印度半干旱地区卡纳塔克邦人口激增,对粮食安全和生计可持续性都构成了威胁,因此有必要集中力量提高农业效率,实现联合国可持续发展目标 2(零饥饿)。因此,为了解决卡纳塔克邦粮食短缺的紧迫问题,本研究细致考察了卡纳塔克邦农业效率和灌溉强度的时空变化,揭示了农业效率对灌溉强度的显著依赖性。具体而言,本研究采用单因素方差分析(ANOVA)确定了 2004-2005 年和 2018-2019 年期间农业效率和灌溉强度均值的显著差异。该研究表明,2004-2005 年至 2018-2019 年期间,农业效率指数改善最大的地区是贝尔高姆(40.24)、古尔巴加(24.77)和亚吉尔(22.92)地区,这表明了农业推广的进步趋势和更好的发展空间。相反,在卡纳塔克邦的四个北部县(巴加尔科特、比达、拉丘尔和比贾布尔)、三个南部县(奇特拉杜尔加、奇克巴拉普尔和哈桑)以及两个南部县(科普帕尔和加达格),一些县的农业效率指数下降超过 20.00,对提高农业效率构成威胁,需要特别关注。2004-2005 年期间,灌溉强度从 3.19% 到 56.39% 不等,科达古县的灌溉强度最低,希莫加县的灌溉强度最高。2018-2019 年期间,灌溉强度从 0.77% 变为 72.77%,其中科达古县的灌溉强度最低,达克辛-卡纳德县的灌溉强度最高。此外,研究还仔细研究了农业效率与灌溉强度之间的复杂关系,相关系数从 2004-2005 年的 0.162 增加到 2018-2019 年的 0.255。这意味着在这两个时期,这两个变量之间存在较低的正相关性。随着时间的推移,除灌溉强度外,其他几个因素(高产种子和化肥)逐渐成为农业效率的关键。这项研究为印度各地区和其他发展中国家应对类似挑战的地区规划者和政策制定者提供了大量有价值的见解。
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Spatio-temporal variation and relationship between agricultural efficiency and irrigation intensity in a semi-arid region of India

A surging population in Karnataka State, a semi-arid region in India, poses a threat to both food security and livelihood sustainability, necessitating a concentrated effort to bolster agricultural efficiency and achieve United Naton’s Sustainable Development Goal 2 (zero hunger). Therefore, in order to address the pressing issue of food scarcity in Karnataka, this study meticulously examined the spatio-temporal variation of agricultural efficiency and irrigation intensity in Karnataka, uncovering its significant dependence of agricultural efficiency on irrigation intensity. Specifically, this study used a one-way analysis of variance (ANOVA) to ascertain significant differences in the means of agricultural efficiency and irrigation intensity during 2004–2005 and 2018–2019. This study showed that the maximum improvement in agricultural efficiency index was recorded in Belgaum (40.24), Gulbarga (24.77), and Yadgir districts (22.92) between 2004–2005 and 2018–2019, which indicated the progressing trend and better scope for agriculture extension. On the contrary, some districts expressed threat (a decline of above 20.00 of agricultural efficiency index) and needed special care for the improvement of agricultural efficiency in four northern districts (Bagalkot, Bidar, Raichur, and Bijapur), three southern districts (Chitradurga, Chikballapur and Hassan), and two southern districts (Koppal and Gadag) in Karnataka. During 2004–2005, irrigation intensity varied from 3.19% to 56.39%, with the lowest irrigation intensity in Kodagu District and the highest irrigation intensity in Shimoga District. During 2018–2019, irrigation intensity changed from 0.77% to 72.77%, with the lowest irrigation intensity in Kodagu District and the highest in Dakshin Kannad District. Moreover, the research scrutinized the complex relationship between agricultural efficiency and irrigation intensity, with the correlation coefficient increased from 0.162 during 2004–2005 to 0.255 during 2018–2019. It implies that in both periods, a low positive correlation existed between these two variables. Over time, several factors (high-yield seeds and chemical fertilizers) other than irrigation intensity gradually became essential for agricultural efficiency. This research offers a wealth of valuable insights for regional planners and policy-makers contending with comparable challenges in various regions of India and other developing countries.

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来源期刊
Regional Sustainability
Regional Sustainability Social Sciences-Urban Studies
CiteScore
3.70
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0.00%
发文量
20
审稿时长
21 weeks
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