保留蔬菜残留物:处理温室生产中番茄废弃物的有效环保方法

IF 3.7 2区 农林科学 Q1 ECOLOGY
Xiaomei Sun , Sijin Chen , Huan Li , Jinxia Li , Guojun Han , Haobing Dong , Jiangwei Che , Qin Zhang
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引用次数: 0

摘要

蔬菜废弃物的不当处理往往会导致非点农业污染的风险。为了加深我们对土壤质量和番茄连续生产如何应对蔬菜残渣厌氧掺入的理解,2019 年和 2020 年进行了温室实验。将新鲜番茄残茬(每公顷约 17 吨)与精心挑选的腐熟剂 "远东利 "和 "苏茂 "以三种不同的浓度混合。结果显示,与对照组相比,番茄残茬掺入组的土壤质量指数(SQI)和作物收获期的作物产量均有显著提高,分别为 7.4% 至 24.50% 和 2.3% 至 14.9%。具体而言,与对照组相比,土壤有机质(SOM)、可利用磷(AP)、可利用钾(AK)、微生物生物量碳(MBC)和微生物生物量氮(MBN)的水平随着厌氧添加蔬菜残渣而显著增加,分别增加了 4.5%-12.3%、4.1%-31.0%、2.3%-17.8%、7.8%-29.2% 和 20.0%-35.7%。此外,土壤蔗糖酶、脲酶和碱性磷酸酶等酶的活性平均提高了 38.9%、28.35% 和 48.6%。此外,番茄渣的加入使土壤真菌和植物寄生线虫的数量显著减少,在作物收获时分别减少了 28.8% 至 58.2% 和 401.% 至 85.6%。利用结构方程模型评估了土壤特性对 SQI 和随后作物产量的直接和间接影响。结果发现,土壤特性(包括 SOM、植物寄生线虫(APN)数量、MBC 和 AP)对 SQI 变化的影响占 79%。此外,这些指数还解释了作物产量变异的 49%。虽然分解剂的类型对土壤特性有不同的影响,但对 SQI 的影响可以忽略不计。此外,SQI 和番茄产量都没有表现出对腐熟剂施用量的连续反应。我们的研究结果表明,说明书中推荐的腐熟剂用量既经济又合理。蔬菜残留物的直接厌氧结合,尤其是在温室生产条件下,可以作为番茄残留物的一种高效、环保的管理策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Vegetable residues retention: An effective and environment friendly way to handle tomato wastes from greenhouse production

Vegetable residues retention: An effective and environment friendly way to handle tomato wastes from greenhouse production

The improper disposal of vegetable waste often leads to the risk of non-point agricultural pollution. In order to enhance our understanding of how soil quality and successive tomato production respond to the anaerobic incorporation of vegetable residues, greenhouse experiments were conducted in 2019 and 2020. The fresh tomato residues, approximately 17 tons per hectare from greenhouses, were incorporated with carefully selected decomposing agents “Yuandongli” and “Sumao” at three different levels. The results revealed a significant increase in both Soil Quality Index (SQI) and crop yield at the crop harvest stage for the tomato residues incorporation group, ranging from 7.4% to 24.50% and 2.3%–14.9%, respectively, compared to the control group. Specifically, the levels of soil organic matter (SOM), available phosphorus (AP), available potassium (AK), microbial biomass carbon (MBC), and microbial biomass nitrogen (MBN) increased significantly with the anaerobic incorporation of vegetable residues by an increase of 4.5%–12.3%, 4.1%–31.0%, 2.3%–17.8%, 7.8%–29.2% and 20.0%–35.7%, respectively, compared to the control group. Additionally, enzyme activities such as soil sucrase, urease, and alkaline phosphatase were averagely enhanced by 38.9%, 28.35 and 48.6%. Moreover, the incorporation of tomato residue led to a significant decrease in both the amount of soil fungi and plant parasitic nematodes, with reductions ranging from 28.8% to 58.2% and 401.% to 85.6%, respectively, at the time of crop harvest. The direct and indirect effects of soil properties on SQI and subsequent crop yields were evaluated using a structural equation model. It was found that the contribution of soil properties, including SOM, amount of plant parasitic nematodes (APN), MBC, and AP, to driving changes in SQI accounted for 79%. Furthermore, these indexes explained 49% of the variance in crop yield. Although the type of decomposing agent had varying effects on soil properties, it had a negligible impact on SQI. Furthermore, both SQI and tomato yield did not exhibit a continuous response to the quantity of decomposing agents applied. Our findings suggest that the recommended dosages of the decomposing agent in the instructions are cost-effective and reasonable. The direct anaerobic incorporation of vegetable residues, particularly under greenhouse production conditions, could serve as an efficient and environmentally-friendly management strategy for tomato residues.

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来源期刊
European Journal of Soil Biology
European Journal of Soil Biology 环境科学-生态学
CiteScore
6.90
自引率
0.00%
发文量
51
审稿时长
27 days
期刊介绍: The European Journal of Soil Biology covers all aspects of soil biology which deal with microbial and faunal ecology and activity in soils, as well as natural ecosystems or biomes connected to ecological interests: biodiversity, biological conservation, adaptation, impact of global changes on soil biodiversity and ecosystem functioning and effects and fate of pollutants as influenced by soil organisms. Different levels in ecosystem structure are taken into account: individuals, populations, communities and ecosystems themselves. At each level, different disciplinary approaches are welcomed: molecular biology, genetics, ecophysiology, ecology, biogeography and landscape ecology.
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