Co-exposure to microplastics and soil pollutants significantly exacerbates toxicity to crops: Insights from a global meta and machine-learning analysis
Co-exposure to microplastics and soil pollutants significantly exacerbates toxicity to crops: Insights from a global meta and machine-learning analysis
Environmental contamination of microplastics (MPs) is ubiquitous worldwide, and co-contamination of arable soils with MPs and other pollutants is of increasing concern, and may lead to unexpected consequences on crop production. However, the overall implications of this combined effect, whether beneficial or detrimental, remain a subject of current debate. Here, we conducted a global meta and machine-learning analysis to evaluate the effects of co-exposure to MPs and other pollutants on crops, utilizing 3346 biological endpoints derived from 68 different studies. Overall, compared with control groups that only exposure to conventional soil contaminants, co-exposure significantly exacerbated toxicity to crops, particularly with MPs intensifying adverse effects on crop morphology, oxidative damage, and photosynthetic efficiency. Interestingly, our analysis demonstrated a significant reduction in the accumulation of pollutants in the crop due to the presence of MPs. In addition, the results revealed that potential adverse effects were primarily associated with crop species, MPs mass concentration, and exposure duration. Our study reaffirms the substantial consequences of MPs as emerging pollutants on crops within the context of integrated pollution, providing novel insights into improving sustainability in agro-ecosystems.
Crops, Joint toxicity, Machine learning, Meta-analysis, Microplastics, Soil contaminants
Wang, Yunsheng
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Feng, Zerui
2020cf2f-7080-46ec-884d-259c6c0d10d6
Ghani, Muhammad imran
e55fd3f1-9b8e-4e10-99c5-b7efbb9e6ab4
Wang, Qiran
984694e8-7a43-4514-90b8-8ac250356b7c
Zeng, Lina
53f82363-7852-4d61-8387-ea774460b053
Yang, Xuqin
569657a1-0b04-4681-8ca3-de9163d0a283
Zhang, Xin
3056a795-80f7-4bbd-9c75-ecbc93085421
Chen, Cai
c1195dfa-17f7-444b-bd45-549c7be60288
Li, Shule
67028771-d04c-4911-b73c-22d9292d8229
Cao, Pengxi
1544c0a9-74f0-47d2-acd9-c84964dcc8bd
Chen, Xiaoyulong
02c0a0f6-0927-47d3-80ab-68b70e81c9fb
Cernava, Tomislav
a13d65aa-2529-479a-ba90-69ebbc4ba07f
Wang, Yunsheng
4d72c354-b617-4d89-9bc0-dd42df396fde
Feng, Zerui
2020cf2f-7080-46ec-884d-259c6c0d10d6
Ghani, Muhammad imran
e55fd3f1-9b8e-4e10-99c5-b7efbb9e6ab4
Wang, Qiran
984694e8-7a43-4514-90b8-8ac250356b7c
Zeng, Lina
53f82363-7852-4d61-8387-ea774460b053
Yang, Xuqin
569657a1-0b04-4681-8ca3-de9163d0a283
Zhang, Xin
3056a795-80f7-4bbd-9c75-ecbc93085421
Chen, Cai
c1195dfa-17f7-444b-bd45-549c7be60288
Li, Shule
67028771-d04c-4911-b73c-22d9292d8229
Cao, Pengxi
1544c0a9-74f0-47d2-acd9-c84964dcc8bd
Chen, Xiaoyulong
02c0a0f6-0927-47d3-80ab-68b70e81c9fb
Cernava, Tomislav
a13d65aa-2529-479a-ba90-69ebbc4ba07f
Wang, Yunsheng, Feng, Zerui, Ghani, Muhammad imran, Wang, Qiran, Zeng, Lina, Yang, Xuqin, Zhang, Xin, Chen, Cai, Li, Shule, Cao, Pengxi, Chen, Xiaoyulong and Cernava, Tomislav
(2024)
Co-exposure to microplastics and soil pollutants significantly exacerbates toxicity to crops: Insights from a global meta and machine-learning analysis.
Science of the Total Environment, 954, [176490].
(doi:10.1016/j.scitotenv.2024.176490).
Abstract
Environmental contamination of microplastics (MPs) is ubiquitous worldwide, and co-contamination of arable soils with MPs and other pollutants is of increasing concern, and may lead to unexpected consequences on crop production. However, the overall implications of this combined effect, whether beneficial or detrimental, remain a subject of current debate. Here, we conducted a global meta and machine-learning analysis to evaluate the effects of co-exposure to MPs and other pollutants on crops, utilizing 3346 biological endpoints derived from 68 different studies. Overall, compared with control groups that only exposure to conventional soil contaminants, co-exposure significantly exacerbated toxicity to crops, particularly with MPs intensifying adverse effects on crop morphology, oxidative damage, and photosynthetic efficiency. Interestingly, our analysis demonstrated a significant reduction in the accumulation of pollutants in the crop due to the presence of MPs. In addition, the results revealed that potential adverse effects were primarily associated with crop species, MPs mass concentration, and exposure duration. Our study reaffirms the substantial consequences of MPs as emerging pollutants on crops within the context of integrated pollution, providing novel insights into improving sustainability in agro-ecosystems.
Text
Wang et al_2024_accepted
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Accepted/In Press date: 22 September 2024
e-pub ahead of print date: 24 September 2024
Keywords:
Crops, Joint toxicity, Machine learning, Meta-analysis, Microplastics, Soil contaminants
Identifiers
Local EPrints ID: 495829
URI: http://eprints.soton.ac.uk/id/eprint/495829
ISSN: 0048-9697
PURE UUID: 4eabce9c-c010-4f84-b756-457fe3cc2a56
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Date deposited: 25 Nov 2024 17:40
Last modified: 26 Nov 2024 03:07
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Contributors
Author:
Yunsheng Wang
Author:
Zerui Feng
Author:
Muhammad imran Ghani
Author:
Qiran Wang
Author:
Lina Zeng
Author:
Xuqin Yang
Author:
Xin Zhang
Author:
Cai Chen
Author:
Shule Li
Author:
Pengxi Cao
Author:
Xiaoyulong Chen
Author:
Tomislav Cernava
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