Green manuring–system of rice intensification–rice fallow pulses cropping system for enhancing the crop productivity and soil health: a sustainable farming solutions

IF 1.9 4区 农林科学 Q2 AGRICULTURAL ENGINEERING
S. Marimuthu, M. Gunasekaran, M. Raju, U. Surendran
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引用次数: 0

Abstract

Rice cultivation in Tamil Nadu, a southern state of India, is a vital component of its agricultural landscape and economy. It holds historical significance and contributes significantly to the state's food security. Green manuring–system of rice intensification (SRI)–blackgram (rice fallow pulses) cropping system is novel, and this integrated system appears to be holistic and sustainable approach, combining innovative farming techniques to optimize yields, improve soil health, and minimize environmental impacts. To evaluate this, field demonstrations were conducted at a farmer's field through the National Pulses Research Centre, Vamban, Pudukkottai, Tamil Nadu, within the kharif rabi and summer seasons of 2019–20 under the Tamil Nadu Irrigated Agriculture Modernization project. The experimental site was medium deep clay with soil pH of 8.51, EC of 0.26 d S m−1, low in available nitrogen (212.02 kg ha−1), high in P2O5 (23.24 kg ha−1), and medium in K2O (300.46 kg ha−1). Initially, farmers were given the awareness about the improved production technologies (IPT), and then, demonstration was conducted in 50 hectares with 92 locations of Ponnaniyar sub-basin. The demonstration results showed that the improved practice of SRI recorded higher plant height and other yield attributes. Notably, the SRI cultivation method exhibited a range of yields from 7580 to 9400 kg ha−1 of rice across various locations, with the highest recorded at Avoor village. Concurrently, within the IPT framework for the GM–SRI–Rice fallow pulses cropping system, the recorded yields for Rice fallow Blackgram ranged from 590 to 730 kg ha−1. Comparative analysis indicated a remarkable 39.9 percent enhancement in system productivity through the adoption of IPT practices compared to conventional farmer practices. Moreover, the IPT framework showcased significantly higher water productivity, recording 0.7087 kg ha−1 m−3 compared to the conventional method, which yielded 0.2512 kg ha−1 m−3. Soil nutrient observations highlighted that these cropping systems positively impacted soil fertility parameters, compared to the initial available nutrient status. This augmentation in soil fertility could be attributed to the incorporation of green manures. Consequently, the green manure–system of rice intensification–rice fallow pulses crop sequences emerged as more productive and sustainable option, displaying the potential to enhance soil productivity and fertility status compared to conventional rice–blackgram/groundnut cropping sequences. These systems present promising alternatives for farmers within the Ponnaniyar sub-basin area of Tamil Nadu.

Abstract Image

绿肥--水稻集约化系统--水稻休耕豆类种植系统,提高作物产量和土壤健康:可持续农业解决方案
印度南部泰米尔纳德邦的水稻种植是其农业景观和经济的重要组成部分。水稻种植具有重要的历史意义,并为该邦的粮食安全做出了巨大贡献。绿肥-水稻集约化系统(SRI)-黑粒(水稻休耕豆类)种植系统是一种新颖的综合系统,这种综合系统似乎是一种全面和可持续的方法,它结合了创新的耕作技术,以优化产量、改善土壤健康并最大限度地减少对环境的影响。为了对此进行评估,在泰米尔纳德邦灌溉农业现代化项目下,通过位于泰米尔纳德邦普杜科泰Vamban的国家豆类研究中心,于2019-20年秋季和夏季在农民田间进行了实地示范。实验地为中深层粘土,土壤 pH 值为 8.51,EC 值为 0.26 d S m-1,可利用氮含量低(212.02 千克/公顷-1),P2O5 含量高(23.24 千克/公顷-1),K2O 含量中等(300.46 千克/公顷-1)。首先,向农民宣传了改良生产技术(IPT),然后在 Ponnaniyar 子流域 92 个地点的 50 公顷土地上进行了示范。示范结果表明,改良的自力更生(SRI)耕作法可获得更高的株高和其他产量属性。值得注意的是,SRI 栽培方法在不同地点的水稻产量范围为 7580 至 9400 公斤/公顷,其中 Avoor 村的产量最高。同时,在转基因-SRI-水稻休耕豆类种植系统的 IPT 框架内,水稻休耕黑粒禾的记录产量为每公顷 590 至 730 千克。比较分析表明,与传统的农民耕作方式相比,采用综合耕作法可显著提高系统生产率 39.9%。此外,IPT 框架还显著提高了水分生产率,达到 0.7087 千克/公顷-1 米-3,而传统方法的水分生产率为 0.2512 千克/公顷-1 米-3。土壤养分观测结果表明,与最初的可用养分状况相比,这些种植系统对土壤肥力参数产生了积极影响。土壤肥力的提高可归因于绿肥的施用。因此,与传统的水稻-黑麦-花生种植序列相比,水稻强化-水稻休耕-豆类作物序列的绿肥系统更具生产力和可持续性,显示出提高土壤生产力和肥力状况的潜力。这些系统为泰米尔纳德邦 Ponnaniyar 子流域地区的农民提供了前景广阔的替代选择。
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来源期刊
Paddy and Water Environment
Paddy and Water Environment AGRICULTURAL ENGINEERING-AGRONOMY
CiteScore
4.70
自引率
4.50%
发文量
36
审稿时长
2 months
期刊介绍: The aim of Paddy and Water Environment is to advance the science and technology of water and environment related disciplines in paddy-farming. The scope includes the paddy-farming related scientific and technological aspects in agricultural engineering such as irrigation and drainage, soil and water conservation, land and water resources management, irrigation facilities and disaster management, paddy multi-functionality, agricultural policy, regional planning, bioenvironmental systems, and ecological conservation and restoration in paddy farming regions.
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