原地秸秆还田与使用塑料薄膜相结合,影响温室条件下的土壤特性及番茄质量和产量

Ying Han , Lu Lu , Lei Wang , Zitong Liu , Pengfei Huang , Shuangchen Chen , Yansu Li , Mintao Sun , Chaoxing He , Jun Wang , Yan Yan
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摘要

为了应对在温室中处理蔬菜废弃物的挑战,同时减轻与使用传统聚乙烯薄膜相关的白色污染,我们在秸秆还田和无秸秆还田处理中比较了聚乙烯(PE)薄膜和两种完全可生物降解的薄膜。我们系统地研究了地膜覆盖对土壤特性、薄膜降解以及番茄品质和产量的影响。结果表明,与无秸秆还田的聚乙烯薄膜(PE-NR)相比,有秸秆还田的腐植酸生物降解薄膜(FZS-SR)使番茄果实中番茄红素、维生素 C(Vc)和可溶性糖的含量分别提高了 20.77%、16.68% 和 25.89%,总酸含量降低了 8.46%。此外,FZS-SR 还提高了土壤细菌和真菌中的绿僵菌属和玄参菌属的相对丰度,同时降低了病原真菌群的相对丰度。此外,在秸秆还田处理中,可降解薄膜提前 15 天降解,与未进行秸秆还田处理相比,傅里叶变换红外光谱分析中的特征峰明显更高。在温室中,秸秆还田模式加快了生物降解薄膜的降解速度。总之,我们的研究结果表明,使用腐植酸生物降解膜和秸秆还田是一种有效且可持续的栽培方法,能提高番茄的品质和产量。这种方法为解决蔬菜生产中残留的植物和薄膜污染问题提供了启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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In-situ straw return, combined with plastic film use, influences soil properties and tomato quality and yield in greenhouse conditions

To address the challenge of disposing vegetable waste in greenhouses while mitigating white pollution associated with the use of conventional polyethylene film, we compared polyethylene (PE) film with two types of fully biodegradable film in both straw-return and no-straw-return treatments. We systematically investigated the effects of mulching on soil properties, film degradation, and tomato quality and yield. The results showed that the humic acid biodegradable film with straw-return (FZS-SR) increased the contents of lycopene, vitamin C (Vc), and soluble sugars in tomato fruit by 20.77%, 16.68%, and 25.89%, respectively, and decreased the total acid content by 8.46% compared to polyethylene film with no-straw-return (PE-NR). Additionally, FZS-SR enhanced the relative abundance of soil bacteria and fungi in Chloroflexi and Basidiomycota, while reducing the relative abundance of pathogenic fungal groups. Moreover, the biodegradable film degraded 15 days earlier in the straw-return treatment, with significantly higher characteristic peaks in Fourier transform infrared spectral analysis compared to no straw-return treatment. In a greenhouse, the straw-return model accelerated the degradation rate of biodegradable film. In summary, our results indicate that using humic acid biodegradable film with straw-return is an effective and sustainable cultivation method, improving tomato quality and yield. This approach offers insights for addressing residual plant and film pollution in vegetable production.

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