自然环境中的水凝胶——历史与技术

Q2 Agricultural and Biological Sciences Inzynieria Ekologiczna Pub Date : 2018-12-01 DOI:10.12912/23920629/99171
Łukasz Kulikowski, E. Kulikowski, A. Matuszewski, Jacek Kiepurski
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引用次数: 2

摘要

参与植物种植的公司之间的竞争日益激烈,迫使研发部门寻找新技术和制剂,以在这些领域取得更好的成果。决定植物栽培技术和制剂选择的同样重要的因素是它们对环境的影响。由于多年的鲁莽行为(过度施肥、大量使用化学植物保护产品、灌溉),自然环境不断退化。问题也是由反复无常的气候变化引起的,这些变化要么导致暴雨,要么导致长期干旱。超吸收剂技术似乎是一个巨大的机遇。该解决方案在多年的生产技术使用中,今天有机会帮助农业抗旱。开发中的技术可以生产出完全可生物降解的产品,为植物提供土壤蓄水功能。为农业目的设计的水凝胶专门用于自然环境,同时可以限制干旱的负面影响,振兴自然资源。基本经济和社会效益:将灌溉需求减少约20-50%,防止水胁迫和干旱的影响,通过在根系中释放营养物质(肥料)的“智能”方式将肥料剂量限制约30%,保护自然环境免受过度施肥和土地盐碱的影响。限制肥料向深层土壤的浸出,保护地下水,将护理处理的强度限制在约9%,产量增加约15%。
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Hydrogels in the natural environment – history and technologies
The growing competition between companies involved in the cultivation of plants, forces the research and development departments to search for new technologies and preparations to achieve better results in these fields. No less important factor determining the choice of technologies and preparations for use in the cultivation of plants, is their impact on the environment. By many years reckless actions (over-fertilization, intensive use of chemical plant protection products, irrigation) the natural environment is constantly degraded. Problems are also caused by capricious climate changes, causing either heavy rains or periods of prolonged drought. The superabsorbent technology seems to be a great opportunity. The solution used for years in the production in technical usage, today has the chance to help agriculture in the fight against drought. The developing technology allows to produce fully biodegradable products that perform the function of soil water storage for plants. Hydrogels designed for agricultural purposes are dedicated to the natural environment, in the same time are allowing to limit the negative effects of drought and revitalize natural resources. Basic economic and social benefits: reducing the need for irrigation by about 20–50% preventing the effects of water stress and drought, limitation of fertilizer doses by approx. 30% through the “intelligent” way of release of nutrients (fertilizers) within the root system, protection of the natural environment against the effects of over-fertilization and land salinity. limiting the leaching of fertilizers into deeper soil parts, protection of groundwater, limiting the intensity of care treatments by approx. 9%, increase in yield by approx. 15%.
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来源期刊
Inzynieria Ekologiczna
Inzynieria Ekologiczna Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
2.70
自引率
0.00%
发文量
0
审稿时长
8 weeks
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