Managing climatic risks in rice–wheat cropping system for enhanced productivity in middle Gangetic plains of India

IF 3.7 2区 农林科学 Q2 FOOD SCIENCE & TECHNOLOGY
R. Jha, Abdus Sattar, Anil Kumar Singh, Madhu Sudan Kundu, Ravindra Kumar Tiwari, Abhay Kumar Singh, Arbind Kumar Singh, Sudhir Das, Ram Pal, Sunita Kushwah, Anuradha Ranjan Kumari, Motilal Meena, Pushpa Singh, Santosh Kumar Gupta, D. Shekhar, Sanjay Kumar Rai, Shishir Kumar Gangwar, Ram Krishna Rai, Ram Ishwar Prasad, Abhishek Pratap Singh, Rajendra Pratap Singh, P. K. Singh, Pawan Kumar Srivastawa, B. Jha, Rupashree Senapati, Sudeshna Das, Sandeep Kumar Suman, Gulab Singh, S. K. Rajak, Nidhi Kumari, Ashish Rai, Sarvesh Kumar, Vinita Kashyap, Sunita Kumari, Krishna Bahadur Chhetri, Tarun Kumar, Sachchidanand Prasad, A. Gangwar, A. Nalia, Abhik Patra, Rajneesh Singh, Ch Ramulu, Shubhashisa Praharaj, K. L. Regar, Saurabh Shankar Patel, Vandana Kumari, Leela Chauhan, B. R. Harsh, Shirsat Tejaswini Kapil, Jogendra Soren, Sourav Choudhury, Sushma Tamta, Naveen Kumar, Dhiru Kumar Tiwari
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Abstract

Rice followed by wheat is the dominant cropping system in the middle Indo-Gangetic plains (IGP). Lower productivity (4.8 t ha−1) of this cropping system in Bihar, compared to the national average (6.8 t ha−1) due to several climate- and production-related issues, is a matter of concern for the farmers and the policymakers. Keeping all these in view, an experiment with rice–wheat cropping system was carried out during 2020–21 and 2021–22 in 17 adopted villages of 13 districts of Bihar under the Project “Climate Resilient Agriculture Program (CRAP)” to evaluate the feasibility of early transplanting of rice in the month of June with the aim of achieving higher system productivity by early harvesting of rice and subsequent timely sowing of wheat before 15 November with the provision of assured irrigation. In this study, the concept of an innovative community irrigation approach and single-phase 3-hp submersible pump was employed. Long-duration rice variety (150 days) Rajendra Mahsuri-1 was sown during 20–25 May in the nursery and transplanted through puddling operation during 15–20 June in 17 locations. Under delayed conditions, the nursery sowing and transplanting window were 10–15 June and 10–15 July, respectively. Timely sown rice grown with the provision of a community irrigation system achieved a grain yield of 5.2 t ha−1 and 85.8% higher water productivity, compared to late-sown crops. Following the harvest of rice, the HD-2967 variety of wheat was planted in the first fortnight of November and harvested in the first week of April, yielding 4.9 t ha−1 with the application of 2–3 irrigations based on soil type and evaporative demand. Timely harvesting of wheat facilitated farmers of the region to take an additional crop of summer green gram. With an assured irrigation system and shifting planting dates and thereby managing climatic risks, the overall productivity of the rice–wheat cropping system was achieved to the tune of 10.1 t ha−1 with a cropping intensity of 300% for better adaptation and sustainable production.
管理印度恒河平原中部稻麦种植系统的气候风险,提高生产力
水稻和小麦是印度洋-恒河平原(IGP)中部的主要种植系统。与全国平均水平(6.8 吨/公顷)相比,比哈尔邦这一种植系统的生产率(4.8 吨/公顷)较低,这是农民和政策制定者关注的问题。有鉴于此,在 2020-21 年和 2021-22 年期间,根据 "气候适应性农业计划(CRAP)"项目,在比哈尔邦 13 个县的 17 个村庄开展了水稻-小麦种植系统试验,以评估在 6 月份提前插秧的可行性,目的是通过提前收获水稻,随后在 11 月 15 日之前及时播种小麦,并提供有保障的灌溉,实现更高的系统生产率。本研究采用了创新的社区灌溉方法和单相 3 马力潜水泵的概念。长效水稻品种(150 天)Rajendra Mahsuri-1 于 5 月 20 日至 25 日在苗圃播种,6 月 15 日至 20 日在 17 个地点通过水坑作业移栽。在延迟条件下,苗圃播种和插秧窗口期分别为 6 月 10-15 日和 7 月 10-15 日。与晚播作物相比,通过社区灌溉系统适时播种的水稻每公顷产量达到 5.2 吨,水分生产率提高了 85.8%。水稻收获后,HD-2967 小麦品种在 11 月的前两周播种,4 月的第一周收获,根据土壤类型和蒸发需求灌溉 2-3 次,每公顷产量为 4.9 吨。小麦的及时收割为该地区的农民增种夏播禾苗提供了便利。有了可靠的灌溉系统和种植日期的调整,从而控制了气候风险,水稻-小麦种植系统的总产量达到了 10.1 吨/公顷,种植密度达到了 300%,从而更好地适应和实现了可持续生产。
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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来源期刊
Frontiers in Sustainable Food Systems
Frontiers in Sustainable Food Systems Agricultural and Biological Sciences-Horticulture
CiteScore
5.60
自引率
6.40%
发文量
575
审稿时长
14 weeks
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