Abstract
As plastic has become an integral component of daily life, microplastic has become a ubiquitous, unavoidable constituent of nearly all ecosystems. Besides monitoring the amount and distribution of microplastic in the environment, it is necessary to understand the possible direct effects, especially toxicity and how it is affected by environmental factors where it is discarded. The present study investigated how microplastic derived from high-density polyethylene bottle caps collected in two climatically different cities, i.e., Singapore (tropical rainforest climate) and Lahti, Finland (continental climate), affected the essential agricultural grain crop, Triticum aestivum (L.). Wheat seedlings were exposed to microplastic derived from these collected bottle caps, as well as new and artificially aged caps, for seven days. Morphological parameters, such as root and shoot length and oxidative stress development, were measured. Exposure to microplastic derived from the caps resulted in reduced seedling root and shoot lengths compared to the controls, as well as enhanced lipid peroxidation and catalase activity. With all parameters tested, microplastic derived from Lahti bottle caps exhibited more severe effects than Singapore, which was similar to that elicited by new microplastic. The Singapore microplastic had possibly leached its toxic substances before collection due to accelerated degradation promoted by the prevailing warmer climate conditions.
Highlights
IntroductionThe potential hazardousness of microplastics (MP) in ecosystems has been recognized, which has increased interest in understanding the impact and influencing factors [1]
This study aimed to investigate the adverse effects of MP from discarded bottle caps, collected from two climatically different cities, on wheat in terms of growth and its cellular oxidative status to understand the effects of climate conditions on the ecotoxicity of the material
Pre-germinated wheat (T. aestivum L.) seedlings were cultivated for seven days in soil containing 2% MP particles (≤4 mm, w/w) derived from four different bottle caps batches, i.e., new, aged, collected from Lahti and Singapore
Summary
The potential hazardousness of microplastics (MP) in ecosystems has been recognized, which has increased interest in understanding the impact and influencing factors [1]. This is a global issue, as plastic debris, or more precisely MP particles (
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