粗质土壤盐灌藜麦对有机肥的响应

IF 1.9 Q3 SOIL SCIENCE
Magda R Abdrabou, Hala H. Gomah, Abd-eladl Darweesh, M. Eissa, S. Selmy
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引用次数: 4

摘要

由于对粮食的需求增加,在农业生产中需要使用低质量的水,如盐水和废水。使用含盐灌溉水是必要的,以便为预期的人口增长提供食物。盐胁迫降低了植物的生长和产量,但通过选择耐盐植物和良好的农业管理可以减少盐的负面影响。藜麦植物是符合可持续发展的粮食安全植物之一,其种子中含有独特的氨基酸和高蛋白质含量。本试验研究了藜麦植物(Chenopodium quinoa Wild)在盐水灌溉下对有机改进剂的反应。通过盆栽和生长箱试验,研究了藜麦萌发期和营养生长期对水分盐度的响应。采用线性关系对发芽期和营养生长期的水盐度阈值进行了评价。本研究评估了11种盐度水平的灌溉水(0.4、2、4、8、12、16、20、24、26、30和34 dsm−1)和施用有机肥(农家肥)对20 t ha−1大鼠的影响。藜麦种子在萌发阶段能够抵抗高盐度的水,但种子发芽率表明,灌溉水盐度的增加降低了种子的最终发芽率。盐度为26 dsm−1时,种子的萌发完全停止,而盐度为24 dsm−1时,只有50%的种子萌发。增加盐胁迫对藜麦产量及其组成有显著影响,另一方面有机肥的添加减轻了盐胁迫。在不添加有机改进剂的情况下,当水盐度为18 dsm−1时,藜麦植物的相对产量损失了50%,而添加有机肥使水盐度阈值提高到34 dsm−1。在粗糙的土壤中添加有机肥增加了藜麦植物抵抗盐水灌溉的能力,并允许使用低质量的水来灌溉这些有价值的植物。干旱半干旱地区土壤质地粗糙,提高土壤有机质水平可增加微咸水灌溉藜麦作物的用量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Response of saline irrigated quinoa (Chenopodium quinoa Wild) grown on coarse texture soils to organic manure
As a result of the increased demand for food, the need to use lower quality water such as saline and waste water in agricultural production increased. The use of saline irrigation water is necessary to provide food for the expected population increases. Salt stress decreases plant growth and yield but negative effects of salt can be reduced by choosing tolerant plants and good agricultural management. Quinoa plants are among the food security plants and are in line with the sustainable development, and are distinguished by their content of unique amino acids and high protein content in their seeds. This study has been conducted to investigate the response of quinoa plant ( Chenopodium quinoa Wild) irrigated with saline water to organic amendments. The study was conducted in pots and growth chamber to investigate the response of quinoa to water salinity at the germination and vegetative growth stages. The liner relationship was used to assess the threshold value of water salinity in germination and vegetative growth stages. The study evaluated the effects of eleven salinity levels of irrigation water (0.4, 2, 4, 8, 12, 16, 20, 24, 26, 30, and 34 dsm − 1 ) and organic matter application (farmyard manure) at rats of 20 t ha − 1 . Quinoa seeds were able to resist the high levels of water salinity in the germination stage, however, the seed germination percentage shows that the increase in irrigation water salinity decreases the final germination percentage. The germination of seeds stopped completely at a salinity level of 26 dsm − 1 , while at a salinity level of 24 dsm − 1 only 50% of the seeds were germinated. Quinoa yield and its components were significantly affected by increasing the salinity level, on the other hand, the addition of organic manure mitigated the salt stress. Quinoa plants lost 50% of the relative yield at water salinity of 18 dsm − 1 when no organic amendment was added, while the addition of organic manure increased the threshold value of water salinity up to 34 dsm − 1 .Adding organic fertilizers to coarse soils increases the ability of quinoa plants to resist saline irrigation water and allows using lower quality water to irrigate these valuable plants. There are many coarse texture soils in arid and semi-arid areas, and improving the level of soil organic matter increases the use of brackish water to irrigate quinoa plants.
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