气候智能型技术对南亚大量用水水稻-小麦系统水分生产力的干预

A. Hossain, Rajan Bhatt
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引用次数: 4

摘要

我在南亚大力推行水稻-小麦种植制度(RWCS),面临许多可持续性问题,如微量营养素缺乏、劳动力短缺、生产成本、土地减少、地下水位和水生产力下降以及土壤健康状况下降。气候变化以某种方式使事情变得更加复杂。因此,气候智能技术的干预对于提高南亚巨大的用水RWCS的水生产率是迫切需要的。尽管如此,农民们对选择合适的气候智能技术(CST)感到困惑,即激光土地平整、未经水坑的直接播种水稻(UPDRS)、基于土壤基质潜力的灌溉、小麦后水稻的双免耕、苗床种植、短期品种和正确的移植时间,一方面通过提高土地和水的生产力来提高他们的生计,另一方面通过减轻全球变暖的后果来改善他们的生计。这些技术的性能是针对现场和具体情况的,在实践时必须小心。它们中的大多数减少了排水损失,这进一步减少了土壤剖面的补给,而这在缺水地区是不需要的,而这些技术可以被称为节能技术;否则用于从更深的土壤深处抽水。这些CST对积水地区也很有用。然而,CST,即正确的移植时间和短时间栽培品种将较高的ET水分(蒸散)从E(蒸发)分配到T(蒸腾)成分,这进一步有利于提高粮食产量,从而提高水分生产率。因此,引入CST对于在气候变化时代提高南亚大量用水RWCS的农业和水生产力至关重要。
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Intervention of Climate Smart Technologies for Improving Water Productivity in an Enormous Water Use Rice-Wheat System of South-Asia
I Intensively practices rice-wheat (R-W) cropping system (RWCS) in South-Asia is suffering from many sustainability issues such as micronutrient deficiencies, labour scarcity, production cost, declining land, declining groundwater level and water productivity along with declining soil health.  Climate change further complex the things in one or other way. Therefore, the intervention of climate smart technologies are urgent for improving water productivity in an enormous water use RWCS of South-Asia. Although, farmers are confused regarding picking of suitable climate smart technology (CST) viz., laser land leveling, un-puddled direct-seeded rice (UPDSR), soil matric potential based irrigation, double zero tillage in wheat followed by rice, raised bed planting, short duration cultivars and correct transplantation time, for enhancing their livelihoods through increasing land and water productivity on one side and mitigating global warming consequences on other. Performance of these technologies is both site and situation specific, and care must be taken in practicing them. Most of them cutting down the drainage losses, which further reduces recharging of soil profile which is not required in water stressed regions while these might be termed as energy-saving technologies; otherwise used to withdraw water from the deeper soil depths. These CST are also useful for waterlogged regions. However, CST viz. correct transplantation time and short duration cultivars partition higher fraction of ET water (evapotranspiration) from E (evaporation) to T (transpiration) component which further favour higher grain yields and thus, higher water productivity. Therefore, it is crucial for the introduction of CST for improving agricultural and water productivity in the era of climate change in an enormous water use RWCS of South-Asia.
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International Letters of Natural Sciences
International Letters of Natural Sciences MULTIDISCIPLINARY SCIENCES-
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