土壤中聚乙烯/聚氯乙烯微塑料对大豆（Glycine max [L.] Merr.）光合性能的单一和复合损伤机制

Single and composite damage mechanisms of soil polyethylene/polyvinyl chloride microplastics to the photosynthetic performance of soybean (x [L.] merr.).

作者信息

Li Haibin, Song Fupeng, Song Xiliang, Zhu Kongming, Lin Qun, Zhang Jinliang, Ning Guoqiang

机构信息

Department of Soil Science, College of Resources and Environment, Shandong Agricultural University, Tai'an, China.

Dongying District, Agricultural and Rural Bureau, Dongying, China.

出版信息

Front Plant Sci. 2023 Jan 18;13:1100291. doi: 10.3389/fpls.2022.1100291. eCollection 2022.

DOI:10.3389/fpls.2022.1100291

PMID:36743543

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9889878/

Abstract

INTRODUCTION

Adverse impacts of soil microplastics (MPs, diameter<5 mm) on vegetative growth and crop production have been widely reported, however, the single and composite damage mechanisms of polyethylene (PE) /polyvinyl chloride (PVC) microplastics (MPs) induced photosynthesis inhibition are still rarely known.

METHODS

In this study, two widely distributed MPs, PE and PVC, were added to soils at a dose of 7% (dry soil) to examine the single and composite effects of PE-MPs and PVC-MPs on the photosynthetic performance of soybean.

RESULTS

Results showed PE-MPs, PVC-MPs and the combination of these two contaminants increased malondialdehyde (MDA) content by 21.8-97.9%, while decreased net photosynthesis rate (Pn) by 11.5-22.4% compared to those in non-stressed plants, PVC MPs caused the most severe oxidative stress, while MPs stress resulted in Pn reduction caused by non-stomatal restriction. The reason for this is the single and composite MPs stress resulted in a 6% to 23% reduction in soybean PSII activity RCs reaction centers, along with negative effects on soybean PSII energy uptake, capture, transport, and dissipation. The presence of K-band and L-band also represents an imbalance in the number of electrons on the donor and acceptor side of PSII and a decrease in PSII energy transfer. Similarly, PVC single stress caused greater effects on soybean chloroplast PSII than PE single stress and combined stresses.

DISCUSSION

PE and PVC microplastic stress led to oxidative stress in soybean, which affected the structure and function of photosynthetic PSII in soybean, ultimately leading to a decrease in net photosynthetic rate in soybean.

摘要

引言

土壤微塑料（MPs，直径<5毫米）对植物生长和作物产量的不利影响已被广泛报道，然而，聚乙烯（PE）/聚氯乙烯（PVC）微塑料（MPs）诱导光合作用抑制的单一和复合损伤机制仍鲜为人知。

方法

在本研究中，将两种广泛分布的微塑料PE和PVC以7%（干土）的剂量添加到土壤中，以研究PE-MPs和PVC-MPs对大豆光合性能的单一和复合影响。

结果

结果表明，与未受胁迫的植物相比，PE-MPs、PVC-MPs以及这两种污染物的组合使丙二醛（MDA）含量增加了21.8-97.9%，而净光合速率（Pn）降低了11.5-22.4%，PVC MPs造成的氧化应激最为严重，而微塑料胁迫导致的Pn降低是由非气孔限制引起的。其原因是单一和复合微塑料胁迫导致大豆PSII活性反应中心（RCs）减少6%至23%，同时对大豆PSII的能量吸收、捕获、运输和耗散产生负面影响。K带和L带的存在也代表了PSII供体和受体侧电子数量的不平衡以及PSII能量转移的减少。同样，PVC单一胁迫对大豆叶绿体PSII的影响大于PE单一胁迫和复合胁迫。

讨论

PE和PVC微塑料胁迫导致大豆产生氧化应激，影响了大豆光合PSII的结构和功能，最终导致大豆净光合速率下降。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0383/9889878/2a6304e2885e/fpls-13-1100291-g001.jpg

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土壤中聚乙烯/聚氯乙烯微塑料对大豆（Glycine max [L.] Merr.）光合性能的单一和复合损伤机制

Single and composite damage mechanisms of soil polyethylene/polyvinyl chloride microplastics to the photosynthetic performance of soybean (x [L.] merr.).

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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