种植多样性和密度对印度比哈尔邦小农农场生产、环境和营养绩效影响的整体分析

D. Bijarniya, J. C. Groot, M. L. Jat, R. A. Toorop, S. Lopez-Ridaura, Kailash C. Kalvania, R. Jat, M. Gathala
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摘要

由于目前的生产方式效率低下、资源短缺和社会经济制约因素,印度东部恒河平原地区的农业生产力和可持续性受到威胁。我们假设,在一年的种植周期中,以绿豆作为第三种作物的强化谷物系统会产生哪些潜在影响。我们使用 FarmDESIGN 模型评估了该地区不同农场类型所采用的强化种植系统管理和当前种植系统管理的经济、社会和环境指标。在过去研究中为该地区构建的农场类型基础上,我们在本研究中使用了五种类型的农户:兼业农户(PT)、富裕农户(WE)、小型农户(SS)、中型农户(MS)和资源贫乏农户(RP)。43 个农场最初种植的 229 种作物系统在八项绩效指标上差异很大。农场类型内种植系统绩效的这种差异性导致不同类型之间没有显著差异。与原始种植系统相比,绿豆强化种植系统不仅膳食能量(DE)产量和土壤有机质(OM)投入量高,而且杀菌剂施用率高,氮(N)损失最小。干预系统对劳动力的要求较低,在作物毛利、用水量和温室气体排放方面处于中等水平。在 WE 和 RP 农场类型中,以玉米和水稻为基础的系统可被强化系统取代的面积范围最大。这反映在绩效指标的变化范围较大,但在不同农场类型之间没有发现显著的响应差异。采用建议的绿豆干预种植系统强化以玉米和水稻为基础的种植系统,可提高收益率、增加 DE 产量,并随着农场转换比例的增加而降低对劳动力和水的需求。然而,杀菌剂的使用会增加,而干预种植系统对 OM 投入、温室气体排放和土壤氮损失没有显著影响。
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Holistic analysis of cropping diversity and intensity implications for productive, environmental, and nutritional performance of smallholder farms in Bihar, India
The agricultural productivity and sustainability in Eastern Gangetic Plain Zones of India are threatened because of the inefficiency of current production practices, shortage of resources, and socioeconomic constraints. We hypothesized the potential impact of intensified cereal systems with mung bean as a third crop within the annual cropping cycle. We assessed economic, social, and environmental indicators for intensified and current cropping system management practiced by different farm types in the region using the FarmDESIGN model. Building on a farm typology constructed for the region in our past research, we used five types of farmers: part-time (PT), well-endowed (WE), small-scale (SS) crop and livestock mix, medium-scale (MS), and resource-poor farmers (RP) in this study. The performance indicators of the 229 original cropping systems cultivated within the 43 farms varied strongly in the eight performance indicators. This variability of cropping systems performance within the farm types resulted in the absence of significant differences between the types. Compared to the original cropping systems, the intensified cropping systems with mung bean not only performed high in dietary energy (DE) production and organic matter (OM) inputs into the soil but also had high application rates of biocides and minimized losses of nitrogen (N). The intervention systems were low in labor requirement and scored at an intermediate level for crop gross margin, water use, and greenhouse gas (GHG) emissions. The ranges of areas of maize- and rice-based systems that could be replaced by intensified systems were largest for the WE and RP farm types. This was reflected in large ranges of change in the performance indicators, but no significant differences in response were found between the farm types. The intensification of maize- and rice-based systems with the proposed intervention cropping systems involving mung bean would result in increased profitability, higher DE yield, and lower requirements for labor and water as the proportion of the farms being converted increases. However, the use of biocides would increase, while the intervention cropping systems would have no significant effect on OM input, GHG emissions, and soil N losses.
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