含盐条件下二氧化硅和生物炭改良剂对黄瓜生长的促进作用

IF 2.9 Q2 SOIL SCIENCE Soil Systems Pub Date : 2023-03-12 DOI:10.3390/soilsystems7010026
M. Al-Toobi, R. Janke, M. Khan, Mushtaque Ahmed, Waleed M. Al-Busaidi, A. Rehman
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引用次数: 0

摘要

耕地迅速增加的盐碱化是全球作物生产的主要威胁,而阿曼等干旱地区的土壤更容易受到这种威胁。本研究通过两项互为补充的研究来评价土壤改良剂对土壤理化性质和黄瓜幼苗生长的影响。在第一项研究中,高盐渍土和低盐渍土分别使用珍珠岩或不使用珍珠岩。试验的改性剂包括芒果木生物炭、二氧化硅和生物炭+二氧化硅,而不以改性剂为对照。第二项研究包括两个黄瓜品种和两种盐度处理的灌溉水,以及同样的四种土壤改良剂。结果表明,单独使用生物炭或添加二氧化硅均能提高土壤有机质和NO3、P、K浓度,而二氧化硅则显著提高了土壤Si水平。盐渍土和灌溉水抑制了幼苗出苗和植株生长。在盐胁迫下,生物炭和二氧化硅单独或联合施用使黄瓜幼苗干重比对照提高了39.5% ~ 77.3%。高盐度条件下,二氧化硅和生物炭+二氧化硅使树液Na积累减少29-31.1%。高盐条件下施用生物炭可使黄瓜液钾含量增加87.2%,生物炭与二氧化硅或两者复合土壤改良剂有可能减轻盐胁迫对黄瓜的不利影响。
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Silica and Biochar Amendments Improve Cucumber Growth under Saline Conditions
Rapidly increasing salinization of arable land is a major threat to crop production globally, and the soil of regions with arid environments, such as Oman, are more prone to this menace. In this work, two complementary studies were carried out to evaluate the effect of soil amendments on soil physicochemical properties and growth of cucumber seedlings. In the first study, high- and low-saline soils were used with or without perlite. The amendments tested included mango wood biochar, silica, and biochar + silica, while no amendment was taken as the control. The second study included two cucumber cultivars and irrigation water with two salinity treatments, along with the same four soil amendments. The results showed that soil amendment with biochar alone or with silica enhanced the soil organic matter and NO3, P, and K concentration, while silica amendment substantially enhanced the soil Si level in both studies. Saline soil and irrigation water inhibited seedling emergence and plant growth in both experiments. However, the addition of biochar and silica alone or in combination increased the cucumber seedling dry weight from 39.5 to 77.3% under salt stress compared to the control. Likewise, silica and biochar + silica reduced the sap Na accumulation by 29–31.1% under high salinity. Application of biochar under high salinity resulted in 87.2% increase in sap K. Soil amendments with biochar and silica or their combination have the potential to reduce the adverse effect of salt stress on cucumber.
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来源期刊
Soil Systems
Soil Systems Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
5.30
自引率
5.70%
发文量
80
审稿时长
11 weeks
期刊最新文献
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