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Effects of Microplastic Exposure on Different Speciesin Ecosystem
Summary
This review examines the ecotoxicological effects of microplastic exposure on organisms across aquatic and terrestrial ecosystems, covering bioaccumulation and trophic transfer in fish, mollusks, and other species. The authors emphasize that microplastics originating from industrial processes and plastic waste pose long-term ecosystem-wide threats.
Microplastic pollution poses a pervasive threat to ecosystems, prompting concerns about its longterm effects on various species across different environments. This article reviews the ecotoxicological implications of microplastic exposure on diverse organisms, emphasizing aquatic and terrestrial ecosystems. Microplastics, originating from sources like industrial processes and plastic waste, infiltrate environments through water and air, affecting species via trophic transfer. In aquatic ecosystems, the impact on fish, mollusks, and other organisms is evident through bioaccumulation and habitat disruption. Terrestrial ecosystems experience effects on soil-dwelling organisms, with airborne transport influencing plant health and terrestrial food webs. Species-specific responses vary, highlighting the complexity of microplastic toxicity. The article explores the mechanisms underlying these effects, including cellular and physiological impacts, as well as potential long-term consequences at the molecular level. Challenges in studying long-term effects are discussed, underscoring the need for standardized methodologies and increased research efforts. Mitigation strategies and policy implications are addressed, emphasizing the importance of proactive measures. The article concludes with a call for continued research, awareness, and collaborative efforts to address the multifaceted and long-term impacts of microplastic exposure on global biodiversity.
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