部分有机物质及叶面纳米二氧化硅对盐渍土壤理化性状及小麦产量的影响

Saher H. Rashed, S. Sorour, Dalia Aelhag, M. Amer
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引用次数: 0

摘要

确保气候变化情景下的粮食安全,需要通过有效的植物营养管理战略,以生物上可行的方式修复退化的土壤,并可持续地提高主要作物产量。在埃及Kafr El Sheikh的Sakha农业研究站进行了两项多年溶蚀仪试验,研究了土壤有机质和叶面施用纳米二氧化硅对盐影响土壤理化性质和小麦产量的影响(2017/18和2018/19冬季)。试验分3个重复,主区施用有机物质(Molas (M)、堆肥茶(CT)、腐植酸钾(KH)、M+CT、M+KH、CT+KH、M+CT+KH和对照处理,次区叶面施用(tab water)和纳米二氧化硅。结果表明:土壤理化性质(容重、孔隙度、阳离子交换量、电导率、交换钠率等)和肥力(氮、磷、钾的有效性)均受有机质影响显著,但molas+ k -腐植酸+堆肥茶配施效果不明显;同一处理组合在两个季节均能有效提高籽粒氮和蛋白质含量及小麦产量。叶面施用纳米二氧化硅,记录了小麦的最高产量属性和籽粒产量。综上所述,在盐害土壤环境干旱半干旱区,有机物质与纳米二氧化硅叶面配施可作为恢复和保持土壤、提高小麦产量的有效途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Some Organic Substances and Foliar Application of Nano-Silica on Physico-Chemical Soil Properties and Yield of Wheat in Salt Affected Soils
Ensuring food security under climate change scenario requisites amending degraded soils and sustainably boost staple crops yield in a biologically viable way through effective plant nutrition management strategies. Two multi-year lysimeter experiments at Sakha Agricultural Research Station, Kafr El Sheikh, Egypt, were conducted to investigate the impact of soil organic substances and foliar application of nano-Silica on  physico-chemical soil properties and yield of wheat in salt affected soils (2017/18 and 2018/19 winter seasons). The experiment was executed in split plot with three replicates having organic substances (Molas (M),Compost tea (CT), K-humate (KH), M+CT, M+KH, CT + KH, M+CT+KH and control treatment in main plots while sub plots had foliar application of (tab water  and nano-Silica).The results showed that physico-chemical properties (bulk density, porosity , cation exchange capacity, electrical conductivity, exchangeable sodium percentage  etc.) and fertility (availability of Nitrogen, Phosphorus and Potassium ) of the soil were significantly influenced by all organic substances, however co-application of molas+K-humate+compost tea remained unmatched. The same treatment combination also remained effective in boosting Nitrogen and protein in grain along with wheat yield during both seasons. With foliage applied nano Silica remained superior by recording the highest yield attributes and grain yield of wheat. Therefore, it is inferred that co-application of organic substances and foliage applied of nano-Silica could be developed as an effective approach to restore and conserve the soil and increase wheat productivity in salt affected soils environment arid and semi-arid regions.
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