生物纳米肥料是缓解硝酸盐积累和丰富蔬菜作物品质特征的可持续方法

IF 3.1 3区 农林科学 Q1 HORTICULTURE
M. Abdelkader, M. Zargar, Maryam Bayat, E. Pakina, Ahmed S. A. Shehata, Ahmed A. Suliman
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引用次数: 0

摘要

蔬菜会积累大量硝酸盐,这些硝酸盐通过营养进入人体,造成严重问题。本研究旨在确定芹菜植物对用生物纳米颗粒替代矿物氮肥的反应。在两个芹菜栽培品种(Balady 和 Utah Tall 52-75)上,除了传统的氮肥(NH4NO3)处理(100 千克氮/英亩)外,还施用了三种不同的纳米生物氮肥处理(20、30 和 40 ppm)。在无性销售阶段测定了植物生长参数、维生素 C、类胡萝卜素、硝酸盐积累、宏量营养素吸收和抗氧化活性。我们的研究结果表明,用生物纳米合成肥料替代传统氮肥具有显著的积极影响。值得注意的是,施用生物纳米颗粒提高了芹菜的产量效率,每英亩产量从 5.1 吨到 5.8 吨不等,这表明生物纳米颗粒是传统施肥方法的可行替代品。此外,从矿物肥料过渡到纳米颗粒形式的有机肥料,减少了新鲜芹菜作物中硝酸盐的积累,使硝酸盐含量从百万分之 342.5 降至百万分之 100。这种具有环保意识的方法提供了一种可持续的解决方案,既能减少化学残留,又能增强芹菜的风味、营养价值和健康功效。具体而言,我们的研究结果表明,施用生物纳米肥料后,新鲜芹菜叶片中的硝酸盐含量有所降低。与传统施肥方法相比,处理过的植物中硝酸盐含量最多可降低 70.0%。这凸显了有机纳米肥料在解决硝酸盐积累相关问题方面的潜力,从而促进更安全、更健康的蔬菜消费。通过倡导使用有机纳米肥料,我们提出了优化芹菜施肥管理、确保可持续农业和消费者福祉的可行策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biogenic Nano-Fertilizers as a Sustainable Approach to Alleviate Nitrate Accumulation and Enrich Quality Traits of Vegetable Crops
Vegetables accumulate considerable amounts of nitrates that enter the human body through nutrition, causing severe problems. This study aims to determine celery plants’ response to replacing mineral nitrogen fertilizers with bio-nanoparticles. Three different treatments of nano bio-nitrogen fertilizer (20, 30, and 40 ppm) in addition to traditional nitrogen (NH4NO3) treatment (100 kg N/acre) were applied on two celery cultivars (Balady and Utah Tall 52–75). Plant growth parameters, vitamin C, carotenoids, nitrate accumulation, macro-nutrient uptakes, and antioxidant activities were determined at the vegetative marketing stage. Our findings reveal a significant positive impact of replacing conventional nitrogen fertilizers with bio-nano-synthesized forms. Notably, applying bio-nanoparticles improved celery yield efficiency, ranging from 5.1 to 5.8 tons per acre, suggesting a viable alternative to traditional fertilization methods. Furthermore, transitioning from mineral to organic fertilizers in nanoparticle form reduced nitrate accumulation in fresh celery crops, decreasing nitrate levels from 342.5 ppm to as low as 100 ppm. This environmentally conscious approach offers a sustainable solution to mitigate chemical residues and enhance celery’s flavor, nutritional value, and health benefits. Specifically, our results demonstrate alleviated nitrate contents in fresh celery leaves after applying bio-nano-fertilizer. Nitrate levels in treated plants decreased by up to 70.0% compared to traditional fertilization methods. This highlights the potential of organic nano-fertilizers to address concerns related to nitrate accumulation, thereby promoting safer and healthier vegetable consumption. By advocating for organic nano-fertilizers, we propose a promising strategy to optimize celery fertilizing management, ensuring sustainable farming and consumer well-being.
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来源期刊
Horticulturae
Horticulturae HORTICULTURE-
CiteScore
3.50
自引率
19.40%
发文量
998
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