Stress of Soil Moisture and Temperature Exacerbates the Toxicity of Tire Wear Particles to Soil Fauna: Tracking the Role of Additives through Host Microbiota

IF 12.2 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Journal of Hazardous Materials Pub Date : 2024-09-27 DOI:10.1016/j.jhazmat.2024.135995

Min Lv, Han Chen, Zhaoqin Liang, Anqi Sun, Shuang Lu, Suyu Ren, Dong Zhu, Si Wei, Lingxin Chen, Jing Ding

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Abstract

Tire wear particles (TWPs) are considered as an emerging threat to soil fauna. However, how TWP toxicity to soil fauna responds to the stress of soil moisture and temperature remains unclear. We assessed the toxicity of environmentally relevant TWPs to the soil model species Enchytraeus crypticus under three soil moisture and two temperature gradients. Typical thermoplastic polypropylene (PP) was selected for comparison. Results showed that compared with PP, TWPs exerted stronger toxicity, including decreasing the worm growth, survival and reproduction rates, disturbing the soil and worm gut microbiota, and leaching more diverse and higher contents of additives. Stress of soil moisture and temperature exacerbated TWP toxicity mainly through affecting the leaching and transformation of additives. Fourteen mediated additives significantly contributed to the shift of the gut microbiota under soil moisture and temperature stress, among which 1,3-diphenylguanidine, N,N'-bis(methylphenyl)-1,4-benzenediamine quinone, N-tert-butyl-2-benzothiazolesulfenamide, and 2-aminobenzothiazole were identified as the main drivers. In addition, this study provided the first clear evidence that increased soil moisture and temperature promoted the transformation of additives in the soil. Our study revealed the non-negligible aggravated toxicity of TWPs to soil fauna under stress of soil moisture and temperature, providing novel insights into the environmental behavior of additives.

Environmental Implication (maximum limit:100 words)

Tire wear particles (TWPs) have become an emerging threat to the environment and soil is the major sink for TWPs. However, it is still unknown about whether and how the toxicity of TWPs to soil fauna responds to soil moisture and temperature. We represent the first to demonstrate that stress of soil moisture and temperature exacerbates TWP toxicity to soil fauna mainly through mediating additive leaching and transformation, and provide the first clear evidence that increased soil moisture and temperature promote the transformation of additives in the soil, helping understand the environmental behavior and risks of TWPs.

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土壤水分和温度压力加剧了轮胎磨损颗粒对土壤动物的毒性：通过宿主微生物群追踪添加剂的作用

轮胎磨损颗粒（TWPs）被认为是对土壤动物的一种新威胁。然而，轮胎磨损颗粒对土壤动物的毒性如何随土壤湿度和温度的变化而变化仍不清楚。我们在三种土壤湿度和两种温度梯度条件下评估了环境相关 TWP 对土壤模式物种隐翅虫的毒性。我们选择了典型的热塑性聚丙烯（PP）进行比较。结果表明，与聚丙烯相比，双酚A具有更强的毒性，包括降低蠕虫的生长率、存活率和繁殖率，扰乱土壤和蠕虫肠道微生物区系，浸出更多种类和更高含量的添加剂。土壤水分和温度胁迫主要通过影响添加剂的浸出和转化来加剧 TWP 的毒性。在土壤湿度和温度胁迫下，14 种介导添加剂明显导致了肠道微生物群的变化，其中 1,3-二苯基胍、N,N'-双（甲基苯基）-1,4-苯二胺醌、N-叔丁基-2-苯并噻唑次磺酰胺和 2-氨基苯并噻唑是主要的驱动因素。此外，这项研究首次提供了明确的证据，证明土壤水分和温度的增加促进了土壤中添加剂的转化。我们的研究揭示了在土壤湿度和温度的压力下，轮胎磨损颗粒对土壤动物的毒性不可忽视地加剧，从而为研究添加剂的环境行为提供了新的视角。环境影响（字数上限：100 字）轮胎磨损颗粒（TWPs）已成为一种新出现的环境威胁，而土壤则是轮胎磨损颗粒的主要来源。然而，人们对轮胎磨损颗粒对土壤动物的毒性是否以及如何随土壤湿度和温度而变化仍一无所知。我们首次证明了土壤湿度和温度的压力主要通过介导添加剂的浸出和转化来加剧 TWPs 对土壤动物的毒性，并首次提供了土壤湿度和温度的增加会促进添加剂在土壤中转化的明确证据，有助于理解 TWPs 的环境行为和风险。

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来源期刊

Journal of Hazardous Materials 工程技术-工程：环境

CiteScore

25.40

自引率

5.90%

发文量

3059

审稿时长

58 days

期刊介绍： The Journal of Hazardous Materials serves as a global platform for promoting cutting-edge research in the field of Environmental Science and Engineering. Our publication features a wide range of articles, including full-length research papers, review articles, and perspectives, with the aim of enhancing our understanding of the dangers and risks associated with various materials concerning public health and the environment. It is important to note that the term "environmental contaminants" refers specifically to substances that pose hazardous effects through contamination, while excluding those that do not have such impacts on the environment or human health. Moreover, we emphasize the distinction between wastes and hazardous materials in order to provide further clarity on the scope of the journal. We have a keen interest in exploring specific compounds and microbial agents that have adverse effects on the environment.