Biodegradable film mulching alters soil C, N, P and S cycling via mediating microbial communities in dryland.

IF 3.5 2区农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY

Journal of the Science of Food and Agriculture Pub Date : 2025-09-15 DOI:10.1002/jsfa.70193

Hao Zhang, Duntao Shu, Kai Wang, Xuejun Liu, Lifen Wang, Rui Jiang

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引用次数: 0

Abstract

Background: Biodegradable film mulching, induced the generation of microplastics (MPs), may affect nutrient cycling and ecosystem functions. However, its influence on carbon (C), nitrogen (N), phosphorus (P) and sulfur (S) cycling and the underlying driving force remains lacking. Through a 4-year field experiment comparing conventional plastic mulch (M), biodegradable plastic mulch (BM) and un-mulch control (NM), we evaluated the impact of different film mulching measures on the abundance of MPs and how MPs affect ecosystem functions including C, N, P and S cycling.

Results: BM resulted in maximal accumulation of MPs across experimental treatments, with particular enrichment of small-size (< 0.25 mm) MPs. BM slightly reduced C, N, P and S gene abundances compared to M in bulk soils, whereas it was similar to NM. However, in rhizosphere soils, BM significantly decreased C, N, P and S cycling-related gene abundances compared to M (54%-60%) and NM (64%-69%). Correlation analysis revealed that the abundance of MPs and soil nutrient and microbial community structure were the main factors affecting soil C, N, P and S cycling. Compared to M, BM increased the abundance of MPs and enhanced soil C (9%), N (23%) and P (9%) contents in rhizosphere soils, thus reducing microbial competition for nutrition and altered microbial interactions, and consequently decreasing C, N, P, and S cycling gene abundance.

Conclusion: Different film mulching alters soil nutrient cycling via mediating microbial communities. BM mitigates excessive nutrient consumption through functional gene regulation at the same time as maintaining agricultural productivity comparable to M. Our findings provide a microbial perspective on the dual role of BMs in accumulation of MPs and nutrient conservation, highlighting its potential as an environmentally balanced agricultural practice. © 2025 Society of Chemical Industry.

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生物可降解地膜通过调节土壤微生物群落改变土壤碳、氮、磷和硫循环。

背景：可生物降解地膜覆盖可诱导微塑料（MPs）的产生，影响养分循环和生态系统功能。然而，其对碳(C)、氮(N)、磷(P)和硫(S)循环的影响及其潜在驱动力尚缺乏。通过对常规地膜覆盖(M)、生物降解地膜覆盖（BM）和不覆盖对照（NM）的4年田间试验，研究了不同地膜覆盖措施对土壤中MPs丰度的影响，以及MPs对土壤中C、N、P、S循环等生态系统功能的影响。结果：不同覆膜处理对土壤中多磺酸粘多糖（MPs）的积累最大，对小粒径多磺酸粘多糖的富集尤为显著。结论：不同覆膜方式通过调节微生物群落改变土壤养分循环。BM通过功能基因调控减轻了过度的养分消耗，同时保持了与m相当的农业生产力。我们的研究结果从微生物的角度提供了BM在MPs积累和养分保存方面的双重作用，突出了其作为环境平衡农业实践的潜力。©2025化学工业协会。

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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来源期刊

Journal of the Science of Food and Agriculture 工程技术-农业综合

CiteScore

8.10

自引率

4.90%

发文量

634

审稿时长

3.1 months

期刊介绍： The Journal of the Science of Food and Agriculture publishes peer-reviewed original research, reviews, mini-reviews, perspectives and spotlights in these areas, with particular emphasis on interdisciplinary studies at the agriculture/ food interface. Published for SCI by John Wiley & Sons Ltd. SCI (Society of Chemical Industry) is a unique international forum where science meets business on independent, impartial ground. Anyone can join and current Members include consumers, business people, environmentalists, industrialists, farmers, and researchers. The Society offers a chance to share information between sectors as diverse as food and agriculture, pharmaceuticals, biotechnology, materials, chemicals, environmental science and safety. As well as organising educational events, SCI awards a number of prestigious honours and scholarships each year, publishes peer-reviewed journals, and provides Members with news from their sectors in the respected magazine, Chemistry & Industry . Originally established in London in 1881 and in New York in 1894, SCI is a registered charity with Members in over 70 countries.