Effect of varying sand percentage in sheath of nature-based capillary barriers composite on water storage capacity and okra growth in arid climate

Q1 Agricultural and Biological Sciences

Journal of the Saudi Society of Agricultural Sciences Pub Date : 2024-02-01 DOI:10.1016/j.jssas.2023.10.004

Nadhira Al-Harrasi , Said Al-Ismaily , Ali Al-Maktoumi , Hamed Al-Busaidi , Anvar Kacimov , Ahmed Al-Mayahi

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引用次数: 0

Abstract

Agricultural development in many arid countries including Oman is limited due to water scarcity which is currently exacerbated with increasing demand due to rapid population growth, economic development, and mismanagement of water resources. Impact of climate change is expected to adversely impact the water resources. Therefore, finding new efficient, environmentally friendly, and affordable water-saving techniques in agronomy is a necessity for achieving agricultural sustainability. Irrigation water can be saved by creating capillary barriers (CB) to unsaturated moisture flow. In this study, a “nature-inspired capillary barrier design” called hereafter as Smart Capillary Barrier (SCB) (mosaic of fine textured blocks, made of silt loam, and sandy sheath surrounding the blocks) was tested in series of field experiments with soil columns and pots. We investigated the effect of the percentage of sand of the sheath on water storage capacity of the SCB blocks and growth of okra (Abelmoschus esculentus L.) under deficit irrigation. Three proportions of sand to silt loam (sand%:silt loam%) in the sheaths were used in this study, SCB-25 (25:75%), SCB-50 (50:50%) and SCB-75 (75:25%). Our results show that increasing the percentage of sand in the designed and constructed SCB composite reduces evaporative and drainage water losses and therefore increases the water storage capacity of the blocks. Our SCB-75 attains 1.7–1.3 smaller drying rate than that for SCB-25 and SCB-50, respectively. Therefore, this composite had higher water saving capacity than a homogeneous soil (no capillary barrier) and a soil with a standard sand mulch (coarse soil overlies fine soil). The study found that using SCB composite did not consistently have a clear effect on the growth of okra plants at all stages of their development. However, during the development stage, using SCB-75 resulted in significantly higher dry biomass of the plants compared to using a homogeneous soil (the control). Additionally, during the initial stage of fruit yield, using SCB-75 also resulted in significantly higher fruit yield compared to using a homogeneous soil. Application of our SCB composite is a promising approach for saving water in desertic farming.

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改变天然毛细管屏障复合材料护套中沙子的比例对干旱气候下储水能力和秋葵生长的影响

由于缺水，包括阿曼在内的许多干旱国家的农业发展都受到了限制，而目前由于人口快速增长、经济发展和水资源管理不善，水资源需求日益增加，导致缺水问题更加严重。气候变化的影响预计将对水资源产生不利影响。因此，要实现农业的可持续发展，就必须在农艺学中寻找高效、环保、经济的节水新技术。通过在非饱和湿流中设置毛细管屏障（CB）可以节约灌溉用水。本研究利用土壤柱和盆进行了一系列田间试验，测试了一种 "受自然启发的毛细管屏障设计"，以下简称为智能毛细管屏障（SCB）（由淤泥质壤土制成的细纹理块体和块体周围的沙质护膜拼接而成）。我们研究了沙土裹覆层的比例对沙土裹覆层砌块蓄水能力的影响，以及缺水灌溉条件下秋葵（Abelmoschus esculentus L.）的生长情况。本研究使用了三种比例的沙土壤土（沙%:壤土%）鞘，即 SCB-25（25:75%）、SCB-50（50:50%）和 SCB-75（75:25%）。结果表明，在设计和建造的 SCB 复合材料中增加砂的比例可减少蒸发和排水损失，从而提高砌块的蓄水能力。与 SCB-25 和 SCB-50 相比，SCB-75 的干燥率分别降低了 1.7-1.3 个百分点。因此，这种复合材料比均质土壤（无毛细管屏障）和标准沙土覆盖层土壤（粗土覆盖细土）具有更高的节水能力。研究发现，在秋葵生长的各个阶段，使用 SCB 复合材料对秋葵植株的生长都没有明显的影响。不过，在生长阶段，与使用均质土壤（对照组）相比，使用 SCB-75 能显著提高植物的干生物量。此外，在果实产量的初始阶段，使用 SCB-75 的果实产量也明显高于使用均质土壤的果实产量。应用我们的 SCB 复合材料是在荒漠农业中节约用水的一种很有前景的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of the Saudi Society of Agricultural Sciences Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

8.70

自引率

0.00%

发文量

审稿时长

17 days

期刊介绍： Journal of the Saudi Society of Agricultural Sciences is an English language, peer-review scholarly publication which publishes research articles and critical reviews from every area of Agricultural sciences and plant science. Scope of the journal includes, Agricultural Engineering, Plant production, Plant protection, Animal science, Agricultural extension, Agricultural economics, Food science and technology, Soil and water sciences, Irrigation science and technology and environmental science (soil formation, biological classification, mapping and management of soil). Journal of the Saudi Society of Agricultural Sciences publishes 4 issues per year and is the official publication of the King Saud University and Saudi Society of Agricultural Sciences and is published by King Saud University in collaboration with Elsevier and is edited by an international group of eminent researchers.