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61,005 resultsShowing papers similar to Microplastics in Aquatic Ecosystems: Sources, Impacts, and Challenges for Biodiversity, Food Security, and Human Health - A Meta Analysis
ClearAn enigma: A meta-analysis reveals the effect of ubiquitous microplastics on different taxa in aquatic systems
This meta-analysis pooled data from multiple studies to assess how microplastics affect aquatic organisms including fish, invertebrates, and zooplankton. Results showed that microplastic exposure can reduce feeding, growth, and reproduction across different species, raising concerns about broader impacts on aquatic food webs.
Systematic Meta-analysis of Microplastic Concentrations in Aqueous Ecosystems
This meta-analysis compiles data on microplastic concentrations measured across different water environments worldwide. The findings help establish baseline levels of microplastic contamination in the aquatic systems that supply our drinking water and seafood, providing important context for understanding how much microplastic exposure humans may face through these sources.
Microplastic Pollutants in Aquatic Ecosystems: Present and Future Challenges
This review synthesizes evidence on microplastics as a widespread and growing contaminant found across marine, freshwater, terrestrial, and atmospheric environments. Organisms at every level of the food chain ingest microplastics, which cause physical harm, oxidative stress, and reproductive disruption, while also acting as carriers for toxic chemicals and pathogens. For humans, exposure via contaminated food, water, and air is well-documented — microplastics have been found in blood and tissues — though direct causal health links are still being established, making further research a priority.
Microplastic (MP) Pollution in Aquatic Ecosystems and Environmental Impact on Aquatic Animals
This review summarizes the current state of microplastic pollution across freshwater and marine ecosystems worldwide. Researchers found that microplastics are now virtually everywhere in aquatic environments, entering food chains through ingestion by organisms ranging from tiny invertebrates to large fish. The study highlights that microplastics also act as carriers for toxic chemicals, compounding their potential harm to wildlife and, ultimately, to people who consume seafood.
Microplastics in aquatic environments: A review on occurrence, distribution, toxic effects, and implications for human health
This review examines the global occurrence of microplastics in aquatic environments and their potential impacts on both aquatic organisms and human health. Researchers found that microplastics are now present in virtually all freshwater and marine systems, where they cause a range of harmful effects including oxidative stress, inflammation, and reproductive disruption in aquatic species. The study highlights trophic transfer, where microplastics move up the food chain, as a key pathway of human exposure.
[Occurrence Characteristics of Microplastics in Aquatic Environments and Their Environmental Ecological Risk Assessment].
This meta-analysis pools data from studies worldwide to map where microplastics are found in rivers, lakes, and oceans, and assesses their ecological risks. Understanding how widespread microplastics are in water sources matters because contaminated water is one of the main ways people are exposed to these particles.
Microplastics in Aquatic Ecosystems: A Global Review of Distribution, Ecotoxicological Impacts, and Human Health Risks
This global review summarizes how microplastics are distributed across freshwater, marine, and polar environments, and examines their ecological and human health impacts. People are exposed through contaminated seafood, water, and air, and research links microplastic exposure to oxidative stress, inflammation, hormone disruption, and possible genetic effects at the cellular level.
Impact of Microplastics on Global Public Health: A Systematic Review and Meta-Analysis
This meta-analysis pools data from multiple studies to assess how microplastics affect human health. It finds that people are widely exposed through contaminated food, water, and air, and that animal studies link microplastics to oxidative stress, immune disruption, and hormone interference. However, direct human health effects still need more long-term research to confirm.
Microplastics in aquatic systems: A review of occurrence, monitoring and potential environmental risks
Researchers review the presence of microplastics — tiny plastic fragments less than 5 mm — across freshwater and marine environments worldwide, finding that polyethylene, polypropylene, and polystyrene are the most commonly detected types. Exposure disrupts feeding, movement, and reproduction in aquatic wildlife, and the authors call for standardized measurement methods and legal limits to protect ecosystems.
Microplastic Pollution and Monitoring in Seawater and Harbor Environments: A Meta-Analysis and Review
This meta-analysis reviews microplastic pollution levels in seawater and harbors worldwide, finding that contamination is widespread and persistent. The research matters for human health because marine microplastics enter the food chain through fish and shellfish, representing a significant route of exposure for seafood consumers.
Global meta‐analysis reveals diverse effects of microplastics on freshwater and marine fishes
This systematic review and meta-analysis examines the effects of microplastics on fish in both freshwater and ocean environments. The findings show that microplastics reduce feeding, impair digestion, slow growth, and weaken immune function in fish, which is concerning because contaminated fish are a major food source for people worldwide.
The Challenge of Microplastics in Aquatic Ecosystem: A Review of Current Consensus and Future Trends of the Effect on the Fish
This review synthesizes research on how microplastics affect aquatic ecosystems, covering ingestion by marine animals, trophic transfer up the food chain, and the chemicals that microplastics carry. The findings highlight that microplastic contamination is now widespread enough to threaten marine biodiversity and food security for populations that rely on seafood.
Assessing Impact of Microplastics on Aquatic Food System and Human Health
This review assesses the impact of microplastics on aquatic food systems and human health, noting that aquatic species exposed to microplastics over extended periods can experience oxidative stress, genotoxicity, neurotoxicity, and reproductive issues. The study highlights that microplastics also act as carriers for other chemical pollutants in aquatic environments, compounding their potential risks through the food chain.
Microplastics in freshwater and marine ecosystems: Occurrence, characterization, sources, distribution dynamics, fate, transport processes, potential mitigation strategies, and policy interventions
This review summarizes research on microplastic pollution across freshwater and marine ecosystems on all six continents, finding that polyethylene and polypropylene are the most common types found in water. The study highlights that microplastics serve as carriers for toxic chemicals and can move up the food chain, ultimately posing risks to human health through seafood consumption and drinking water.
Microplastic Pollution in Aquatic Ecosystems: Environmental Behaviour, Biological Impacts, and Public Health Implications- A Comprehensive Review
This review paper summarizes existing research showing that tiny plastic particles called microplastics are now found throughout our water systems and food chain, including in seafood and drinking water that people consume. The research shows these particles can cause inflammation and disrupt hormones in the body, but scientists still need better methods to study long-term health effects. Understanding microplastic pollution is important because it affects the safety of our food and water supply.
Microplastics in Aquatic Environments: Sources, Ecotoxicity, Detection & Remediation
This review provides a comprehensive overview of microplastic sources, ecotoxicity, detection methods, and remediation strategies in aquatic environments. Researchers found that microplastics act as carriers for toxic chemicals and pose threats to both marine and freshwater ecosystems as well as human health through drinking water exposure. The study highlights the need for improved detection technologies and effective remediation approaches to address this growing environmental challenge.
Microplastic in the Aquatic Environment and their Impact on Aquatic Organisms and Humans: A Review
This review summarizes research on microplastic occurrence across marine water, freshwater, drinking water, wastewater, food, and air, characterizing microplastics as the most hazardous emerging contaminants of the 21st century given their ubiquity and persistence. The review underscores that human exposure through multiple simultaneous pathways — including food, water, and respiration — makes understanding cumulative health risks a critical research and public health priority.
Microplastics in the Aquatic Environment: Occurrence, Persistence, Analysis, and Human Exposure
This review synthesizes global research on microplastic occurrence in aquatic environments, from rivers and lakes to wastewater and seafood, and examines how these particles eventually reach humans. Researchers found that microplastics are now ubiquitous in freshwater and marine systems, with trophic transfer and biomagnification serving as key routes of human exposure. The study highlights the need for standardized sampling and analysis methods to enable better comparison across studies and more accurate risk assessment.
Microplastic in the Aquatic Ecosystem and Human Health Implications
This review examines the sources, distribution, and pathways of microplastics in aquatic ecosystems, summarizing current evidence on how MPs enter the food chain, accumulate in aquatic fauna, and pose risks to both ecosystem health and human health through seafood consumption.
A Comprehensive Review on Microplastic Pollution in Aquatic Ecosystems and Their Effects on Aquatic Biota
This comprehensive review examines microplastic pollution across freshwater and marine ecosystems and its effects on aquatic organisms. Researchers found that microplastics are abundant in both environments and that nearly all studies reviewed documented uptake by organisms along with alterations in biochemical parameters. The evidence indicates that microplastic contamination is becoming an increasingly serious environmental and health concern for aquatic life.
Microplastics in Freshwater Ecosystems: Sources, Transport and Ecotoxicological Impacts on Aquatic Life and Human Health
This review summarizes how microplastics enter freshwater ecosystems from sources like industrial runoff, urban waste, and agriculture, and how they accumulate in sediments where aquatic organisms ingest them. Researchers found that microplastics reduce feeding efficiency, inhibit growth, and harm reproduction in freshwater species, while also acting as carriers for toxic chemicals that build up through the food chain. The study highlights the need for better waste management and further research to understand the full scope of risks to both aquatic life and human health.
Microplastics in aquatic organisms: Improving understanding and identifying research directions for the next decade
This meta-analysis reviews a decade of research on microplastic ingestion by aquatic organisms, from tiny plankton to large fish. It identifies major knowledge gaps, including the long-term health effects of ingestion and what happens as microplastics move up the food chain toward human consumers.
Effect of microplastics in water and aquatic systems
This review examines the sources, distribution, and effects of microplastics in water and aquatic systems globally. Researchers found that microplastics are ingested by a wide range of aquatic organisms, leading to accumulation of toxic substances and disruption of physiological functions. The study highlights the urgent need for better waste management policies and further research into the long-term ecological consequences of microplastic pollution in freshwater and marine environments.
The Hidden Poison: How Microplastics and Nanoplastics Threaten the Health of Aquatic Organisms Across Ecosystems
This review synthesizes evidence on how microplastics and nanoplastics interact with aquatic organisms at molecular, cellular, and systemic levels across diverse ecosystems. The study highlights documented effects including oxidative stress, mitochondrial damage, neurotoxicity, immune disruption, and reproductive impairment across a wide range of aquatic species.