富含硅和钙纳米颗粒的生物沥青减轻了盐分毒性,提高了红花植物的性能。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-06-01 Epub Date: 2024-02-27 DOI:10.1080/15226514.2024.2321167
Kazem Ghassemi-Golezani, Seyyed Amirreza Mousavi, Salar Farhangi-Abriz
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引用次数: 0

摘要

用纳米养分改性生物炭是提高生物炭效率的最有效方法之一,可减少盐度等环境胁迫对植物生长和生产力的不利影响。在不同的盐胁迫水平(非盐、6 和 12 dSm-1)下,评估了固体生物炭、纳米二氧化硅富集生物炭、纳米碳酸钙富集生物炭以及这些富集生物炭的联合应用对红花(Carthamus tinctorius L.)生理表现的可能影响。盐胁迫增加了红花植株的钠含量、活性氧生成量和抗氧化酶活性,但降低了钾、钙、镁、铁、锌、硅、光合色素、叶片含水量和种子产量(约 36%)。在盐碱土壤中添加生物炭可减少钠积累(约 32%)和 ROS 生成,提高养分吸收、光合色素和叶片含水量,从而改善红花的生长(最高达 24.6%)和种子产量(最高达 37%)。在减少盐胁迫对红花植物的影响方面,富集生物炭的组合形式是最好的处理方法。因此,应用富集生物沥青在减少盐胁迫对植物的有害影响方面具有很大的潜力。
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Enriched biochars with silicon and calcium nanoparticles mitigated salt toxicity and improved safflower plant performance.

Modifying biochar with nano-nutrients is one of the most effective methods in improving the efficiency of biochar in reducing the adverse effects of environmental stresses such as salinity on plant growth and productivity. The possible effects of solid biochar, nano-silicon dioxide enriched biochar, nano-calcium carbonate enriched biochar, and combined application of these enriched biochars on physiological performance of safflower (Carthamus tinctorius L.) were evaluated under different levels of salt stress (non-saline, 6 and 12 dSm-1). Salt stress increased sodium content, reactive oxygen species generation, and antioxidant enzymes activity, but decreased potassium, calcium, magnesium, iron, zinc, silicon, photosynthetic pigments, leaf water content, and seed yield (by about 36%) of safflower plants. The addition of biochar forms to the saline soil improved growth (up to 24.6%) and seed yield (up to 37%) of safflower by reducing sodium accumulation (by about 32%) and ROS generation and enhancing nutrient uptake, photosynthetic pigments, and water contents of leaves. The combined forms of enriched biochars were the best treatment on reducing salt stress effects on safflower plants. Therefore, application of enriched biochars has a high potential to reduce the harmful effects of salt stress on plants.

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自引率
4.30%
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