提高农业的保水性:藤蔓生物炭掺杂水凝胶的膨胀和发芽效应

IF 4.4 4区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Yağmur Uysal, Zeynep Görkem Doğaroğlu, Mehmet Nuri Makas, Zehranur Çaylali
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引用次数: 0

摘要

缺水给农业带来了严峻的挑战,尤其是在干旱、半干旱和雨水充沛的环境中。在农业环境中,水凝胶是一种颗粒状的保水剂,遇水后会发生很大的膨胀。水凝胶的作用多种多样,包括保持土壤水分、分配养分和杀虫剂、封装种子、减少水土流失,甚至补充食物。本研究的目标是通过加入从葡萄树修剪废料中提取的生物炭,研究生物炭注入水凝胶,并评估其在各种水环境中的膨胀行为,包括浓度为 0.5-1% 的去离子水、自来水和盐水。对葡萄藤生物炭-VB 和生物炭融入水凝胶-VBHG 进行了表征,尤其关注它们在不同介质中的溶胀特性。作为评估其农业相关性的第一步,这些水凝胶被引入到以小麦种子为特征的发芽培养基中,以鉴别其对发芽动力学的潜在影响。VBHG 在去离子水、pH 值为 7.0 的自来水、pH 值为 9.0 的自来水、0.5% 的盐水和 1% 的盐水中的最大膨胀能力分别达到了 352%、207%、230%、522% 和 549%。值得注意的是,0.5% VBHG 处理的根系伸长最明显。水凝胶在农业中的应用前景广阔,尤其是在与干旱相关的情况下和潜在的无土栽培应用中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Boosting Water Retention in Agriculture: Vine Biochar-Doped Hydrogels' Swelling and Germination Effects

Boosting Water Retention in Agriculture: Vine Biochar-Doped Hydrogels' Swelling and Germination Effects

Boosting Water Retention in Agriculture: Vine Biochar-Doped Hydrogels' Swelling and Germination Effects

Water scarcity presents a formidable challenge to agriculture, particularly in arid, semiarid, and rainfed settings. In agricultural contexts, hydrogels serve as granular agents for water retention, undergoing considerable expansion upon water exposure. They assume versatile roles encompassing soil-water retention, the dispensation of nutrients and pesticides, seed encapsulation, erosion mitigation, and even food supplementation. This study's objective involves the examination of biochar-infused hydrogels, fashioned by incorporating vine pruning waste-derived biochars, and the assessment of swelling behaviors in various aqueous environments encompassing deionized, tap, and saline water at concentrations of 0.5–1%. Characterizations of the vine-biochars-VB and biochar-incorporated hydrogels-VBHG are executed, with particular attention to their swelling properties across diverse media. As an initial step toward appraising their agricultural relevance, these hydrogels are introduced to a germination medium featuring wheat seeds to discern potential influences on germination dynamics. The maximum swelling capacity of VBHG is recorded in deionized water, tap water at pH 7.0, tap water at pH 9.0, saline water at 0.5%, and saline water at 1%, reaching 352%, 207%, 230%, 522%, and 549%, respectively. Remarkably, the 0.5% VBHG treatment exhibits the most pronounced root elongation. The application of hydrogels in agriculture exhibits promise, particularly within drought-related contexts and potential soilless applications.

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来源期刊
Global Challenges
Global Challenges MULTIDISCIPLINARY SCIENCES-
CiteScore
8.70
自引率
0.00%
发文量
79
审稿时长
16 weeks
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