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Papers
20 resultsShowing papers similar to Beyond landscape experience: A systematic literature review on the concept of spatial quality in flood‐risk management
ClearAssessing the Performance and Challenges of Low-Impact Development under Climate Change: A Bibliometric Review
This paper is not directly about microplastics; it is a bibliometric review of Low-Impact Development (LID) stormwater management strategies and their performance under climate change, with no substantive focus on microplastic pollution.
From headwaters to receiving waters: river dynamics in an increasingly urban world
This paper is not about microplastics; it synthesizes research on river dynamics from headwaters to receiving waters in urban environments, covering hydrological, ecological, and restoration topics.
Development Trend and Frontier of Stormwater Management (1980–2019): A Bibliometric Overview Based on CiteSpace
A bibliometric analysis of 3,080 stormwater management papers published from 1980–2019 identified key research themes including sponge city concepts and low-impact development. Stormwater management is directly relevant to microplastic pollution because rain events wash plastic particles from urban surfaces into waterways.
Why analysing microplastics in floodplains matters: application in a sedimentary context
This study examined microplastic distribution and accumulation in floodplain areas of Germany, finding that floodplains trap and concentrate microplastics during flood events and serve as long-term storage sites. Floodplains are an important but underappreciated environmental compartment for microplastic accumulation that can release particles back into rivers during future floods.
Abundance, Distribution and Drivers of Microplastic Contaminant in Urban River Environments
Researchers surveyed microplastic distribution in urban river environments and identified key drivers of accumulation hotspots, finding that land use, hydrology, and infrastructure factors concentrated microplastics at predictable locations that could inform targeted management interventions.
Multi-method analysis of microplastic distribution by flood frequency and local topography in Rhine floodplains
Researchers used multiple analytical methods to examine how flood frequency and local topography influence microplastic distribution in Rhine River floodplains. The study found that floods can mobilize, transport, and redeposit microplastics in floodplain sediments, making these areas both temporary sinks and potential sources of microplastic pollution.
Quantifying the Geomorphic Effect of Floods Using Satellite Observations of River Mobility
This paper is not about microplastics; it uses satellite imagery and machine learning to study how flood magnitude, duration, and hydrograph shape determine lateral erosion and channel change in rivers.
Opening Space for Plastics—Why Spatial, Soil and Land Use Data Are Important to Understand Global Soil (Micro)Plastic Pollution
This review evaluates the global database of microplastic pollution in soils, finding major gaps in spatial referencing and land-use documentation across 35 case studies, and argues that better spatial, soil, and land-use data are essential to understanding microplastic cycling and environmental consequences at a global scale.
Managing Urban Water Resources: A Review of Challenges, Techniques, and Sustainability Strategies
Despite its title referencing urban water resource management, this paper is a broad review of water management challenges and tools — including hydrological modeling, remote sensing, and integrated governance strategies — rather than a study of microplastic pollution. It reviews planning frameworks and case studies related to water sustainability and does not examine microplastics or their health effects.
Strategies to Reduce Risk and Mitigate Impacts of Disaster: Increasing Water Quality Resilience from Microplastics in the Water Supply System
Researchers propose a disaster management framework for addressing microplastic contamination in water supply systems, arguing that this type of pollution meets the criteria for a disaster. They developed a mathematical model to assess the risks microplastics pose to water infrastructure, public health, and economic stability. The study calls for integrating microplastic mitigation strategies into existing water quality resilience planning.
Microplastic analysis in urban areas and their impact on quality of life
Researchers assessed microplastic contamination in urban water environments and evaluated its impact on community quality of life, arguing that a critical gap in standardized analytical methods is limiting progress in both research and environmental management of microplastic pollution.
The Role of Landscape Configuration, Season, and Distance from Contaminant Sources on the Degradation of Stream Water Quality in Urban Catchments
A study of a Portuguese river basin found that landscape configuration and proximity to pollution point sources both affect stream macroinvertebrate communities. Macroinvertebrates are sensitive to microplastic pollution, and their decline in contaminated streams can indicate broader ecosystem degradation.
Human Health, Environmental Quality and Governance Quality: Novel Findings and Implications From Human Health Perspective
Researchers assessed microplastic contamination in urban street runoff during rainfall events, finding particle concentrations 10-fold higher than in dry-weather flows. Road markings, tire wear, and litter were identified as the dominant source categories.
The urban microplastic footprint: investigating the distribution and transport
Researchers investigated the distribution and transport of microplastics within an urban environment, mapping the 'urban microplastic footprint' to understand how city infrastructure and land use patterns drive the spatial distribution and downstream export of plastic particles to receiving water bodies.
The potentiality of GIS for assessing soil pollution – A review
Not relevant to microplastics — this review examines how Geographic Information Systems (GIS) can be applied to assess and map soil pollution from heavy metals, pesticides, and other contaminants, with no substantive microplastics content.
Indicators to assess temporal variability in marine connectivity processes: A semi-theoretical approach
Not relevant to microplastics — this is an oceanography study developing indicators to characterize temporal variability in marine connectivity for designing effective marine protected area networks in the Mediterranean.
Application of Porous Concrete Infiltration Techniques to Street Stormwater Inlets That Simultaneously Mitigate against Non-Point Heavy Metal Pollution and Stormwater Runoff Reduction in Urban Areas: Catchment-Scale Evaluation of the Potential of Discrete and Small-Scale Techniques
This is a civil engineering review on using porous concrete in stormwater inlets to reduce runoff and filter heavy metals in urban areas; it is not a microplastics research paper.
Purpose-Designed Hydrogeological Maps in Wide Interconnected Surface-Groundwater Systems: The Test Example of Parma Alluvial Aquifer and Taro River Basin (Northern Italy)
Not relevant to microplastics — this paper presents a methodology for designing hydrogeological maps of surface water and groundwater systems in northern Italy.
The concept, approach, and future research of hydrological connectivity and its assessment at multiscales
Researchers reviewed the concept of hydrological connectivity — the water-mediated transfer of matter and energy across landscapes — examining how dam construction, land management, and climate factors alter it, and identifying numerical modeling and connectivity indices as the most useful tools for its assessment across spatial scales.
Macroplastic retention on river floodplains following flood events
Researchers investigated macroplastic retention dynamics on river floodplains following flood events, examining how elevated flows transport and deposit plastic debris beyond the main channel. The study quantified floodplain retention relative to channel retention and assessed how flood magnitude influences remobilization and downstream delivery of plastics toward the sea.