利用水葫芦堆肥和矿物肥料一体化技术实现可持续杂草管理和土壤增肥

Q2 Environmental Science
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引用次数: 0

摘要

对布袋莲(Eichhornia crassipes)进行堆肥处理是一种很有前景的方法,既能管理杂草和水生环境,又能提高农业产量和土壤肥力。然而,关于布袋莲堆肥在田间条件下对土壤特性和作物产量的影响的研究报告十分有限。本研究旨在评估布袋莲堆肥及其与矿物肥料联合施用对土壤性质和作物产量的影响。在进行田间试验之前,通过生物测定评估了堆肥的植物毒性,确认其可安全用于农业,种子发芽指数超过 80%。田间试验采用因子设计,使用了四种布袋莲堆肥施用量(0、8、16 和 24 吨/公顷-1)和三种建议用于生产非洲茶的矿物肥料施用量(0/0、40/23 和 80/46 千克 N/P2O5 公顷-1)。结果表明,与对照组相比,施用布袋莲堆肥可使土壤 pH 值提高 0.69 个单位,体积密度降低 10.3%。土壤有机碳、全氮、可利用磷、阳离子交换容量和可交换钾分别增加了 24.3%、28.6%、80.2%、26.2% 和 112.7%。此外,可交换酸度和铝分别降低了 72.5 % 和 78.6 %。在施用 24 吨/公顷布袋莲堆肥和全量矿物肥料的情况下,柚子的谷物产量(1826 千克/公顷)和总生物量(8020 千克/公顷)均达到最高水平。不过,与只施用全量肥料相比,施用 16 吨和 24 吨/公顷水葫芦堆肥以及建议的一半矿物肥料所产生的谷物产量更高。这意味着布袋莲堆肥可以替代 50% 的矿物肥料。总之,水葫芦堆肥具有除草和肥沃土壤的双重功效。这可能是一种可持续的策略,在改善土壤质量和作物产量的同时,还能减少杂草的繁殖。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sustainable weed management and soil enrichment with water hyacinth composting and mineral fertilizer integration

Sustainable weed management and soil enrichment with water hyacinth composting and mineral fertilizer integration

Composting water hyacinth (Eichhornia crassipes) presents a promising approach for managing the weed and the aquatic environment while increasing agricultural production and soil fertility. However, limited research reported on the impact of water hyacinth compost on soil properties and crop production under field conditions. This study aimed to evaluate impact of water hyacinth compost and its combined application with mineral fertilizer on soil properties and crop production. Before field experiments, the compost's phytotoxicity was assessed through bioassays, confirming it was safe for agricultural use with a seed germination index exceeding 80 %. Field trials were conducted using a factorial design with four application rates of water hyacinth compost (0, 8, 16, and 24 t ha-1) and three rates of the recommended mineral fertilizer for teff production (0/0, 40/23, and 80/46 kg N/P2O5 ha-1). The results indicated that compared to the control group, applying water hyacinth compost increased soil pH by up to 0.69 units and reduced bulk density by 10.3 %. Soil organic carbon, total nitrogen, available phosphorus, cation exchange capacity, and exchangeable potassium increased by 24.3 %, 28.6 %, 80.2 %, 26.2 %, and 112.7 %, respectively. Furthermore, exchangeable acidity and aluminum were reduced by 72.5 % and 78.6 %, respectively. The maximum grain yield (1826 kg ha-1) and total biomass (8020 kg ha-1) of teff were achieved by applying 24 t ha-1 of water hyacinth compost coupled with the full rate of mineral fertilizer. However, compared to adding only full fertilizer, the grain yield that resulted from applying water hyacinth compost at 16 and 24 t ha-1 along with half of the suggested mineral fertilizer was superior. This implies that water hyacinth compost could substitute 50 % of the mineral fertilizer required. In conclusion, composting water hyacinth offers a dual benefit of weed management and soil enrichment. This could be a sustainable strategy to mitigate weed proliferation while improving soil quality and crop production.

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来源期刊
Environmental Challenges
Environmental Challenges Environmental Science-Environmental Engineering
CiteScore
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249
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