We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
20 resultsShowing papers similar to Long-term human expansion and the environmental impacts on the coastal zone of China
ClearCoastal Wetland Restoration Strategies Based on Ecosystem Service Changes: A Case Study of the South Bank of Hangzhou Bay
Researchers analyzed coastal wetland restoration strategies based on ecosystem service changes along Hangzhou Bay's south bank, identifying priority restoration areas where interventions would maximize ecological benefits including pollution filtration and biodiversity support.
Spatiotemporal changes in land use and residential satisfaction in the Huai River-Gaoyou Lake Rim area
Researchers used two decades of satellite data to track land use changes and ecological risks in China's Jiangsu Province, focusing on shifts between agricultural, urban, and wetland areas. Land use changes alter how plastic waste and microplastics are transported and deposited in freshwater ecosystems.
Spatiotemporal Dynamics of Land Use Changesand Their Impacts on Ecosystem ServiceValue in the Qinghai Lake Basin, 2003-2023
Researchers examined spatiotemporal land use changes and their effects on ecosystem service value in the Qinghai Lake Basin of the Qinghai-Tibet Plateau over a 20-year period from 2003 to 2023. The study found that land use alterations significantly disrupted biodiversity, soil retention, water conservation, and overall ecosystem service value in this important inland saltwater lake region.
Evaluation of the Spatiotemporal Change of Ecological Quality under the Context of Urban Expansion—A Case Study of Typical Urban Agglomerations in China
Researchers tracked changes in ecological quality across three major urban areas in China over two decades of rapid urbanization. They found that urban expansion significantly reduced ecological quality in surrounding areas, with the most severe impacts occurring in newly developed zones. The study provides a framework for monitoring how urbanization affects local ecosystems using remote sensing data.
Dynamic Mapping of Inland Freshwater Aquaculture Areas in Jianghan Plain, China
This study used remote sensing to dynamically map changes in freshwater aquaculture area in Jianghan Plain, China over recent decades, tracking rapid expansion driven by growing consumer demand. The spatial data provide a foundation for assessing the environmental footprint of aquaculture expansion.
The Changes in Dominant Driving Factors in the Evolution Process of Wetland in the Yellow River Delta during 2015–2022
This paper is not about microplastics; it uses satellite time-series imagery to analyze changes in wetland area and type in the Yellow River Delta between 2015 and 2022.
Long-Term and Bimonthly Estimation of Lake Water Extent Using Google Earth Engine and Landsat Data
Long-term bimonthly satellite estimates of lake water surface area were generated for numerous lakes using Google Earth Engine and Landsat imagery from the 1970s to the present. The method produced a reliable time series of lake area dynamics at high spatial resolution. Monitoring lake area changes is important for understanding how water availability is shifting under climate change.
Effects of Urbanization on Landscape Patterns in the Middle Reaches of the Yangtze River Region
This remote sensing study analyzed how urbanization changed land use and landscape patterns in the middle Yangtze River region of China over several decades. Rapid urbanization replaced natural vegetation with impervious surfaces, reducing ecosystem services like water filtration. Urban expansion is closely linked to increases in plastic consumption and microplastic pollution in adjacent water bodies.
The Transformation of Coastal Governance Pattern from Human Ecology to Political Ecology—A Case Study of Jimei Peninsula, Xiamen, China
This study examined how coastal governance on China's Jimei Peninsula shifted from human ecology to political ecology, finding that a 2002 coastal exclusion policy eroded maritime culture, disrupted local livelihoods, and caused ecological degradation.
Analysis of Land Use Evolution of Suzhou Wetlands Based on RS and GIS
Researchers used satellite remote sensing and GIS to track changes in land use and wetland coverage in Suzhou, China over time. Understanding how wetland ecosystems change is important for assessing their capacity to filter pollutants, including microplastics carried by stormwater and runoff.
Earth Observations for Monitoring Marine Coastal Hazards and Their Drivers
Researchers reviewed the use of Earth observation technologies for monitoring coastal hazards including pollution, sea-level changes, and extreme weather events. The study highlights how satellite-based monitoring and forecasting systems are increasingly important for managing risks to densely populated coastal zones, including emerging threats from marine pollution such as microplastics.
Coastal vulnerability modelling and social vulnerability assessment under anthropogenic impacts
This study modeled coastal vulnerability and social vulnerability on the south coast of the Bohai Sea in China, integrating land-based human activities, tidal dynamics, and social exposure data. In 2020, 25.2% of the coastal zone showed high combined vulnerability, with aquaculture ponds and port infrastructure identified as key drivers of disaster risk.
Hands-off, artificial construction, or penalty? How to deal with the increasingly polluted coastal wetland ecosystem in China
This paper examines policy approaches for managing increasingly polluted coastal wetlands in China, considering hands-off preservation, active restoration, and financial penalties for polluters. Microplastics and other pollutants are identified as major drivers of wetland ecosystem destruction.
Remote Data for Mapping and Monitoring Coastal Phenomena and Parameters: A Systematic Review
This systematic review of over 15,000 papers identified 103 coastal phenomena and 39 parameters that can now be accurately mapped and monitored using remote sensing data. The authors validated 91% of retrieved parameters, demonstrating that satellite and aerial remote sensing has become a comprehensive tool for tracking coastal environmental changes including pollution and habitat degradation.
Landscape Ecological Risk Assessment Based on Land Use Change in the Yellow River Basin of Shaanxi, China
Researchers assessed landscape ecological risk in the Yellow River Basin of Shaanxi, China using land use change data, finding that fragmentation and conversion of natural habitats driven by urbanization and agriculture have substantially increased ecological risk across the basin over recent decades.
Changes of marine environments due to human activities in coastal waters of Korea.
A comprehensive review of four representative Korean bays documented how human activities—land reclamation, industrial development, and agricultural runoff—have altered marine environments, increased organic pollution, and changed biota communities. The review provided a regional baseline for understanding human-driven coastal degradation in Korea.
Towards an urban marine ecology: characterizing the drivers, patterns and processes of marine ecosystems in coastal cities
Researchers reviewed the emerging field of urban marine ecology, examining how coastal cities transform nearby marine environments through resource exploitation, pollution, and construction of artificial structures. They found that urban marine ecosystems are characterized by spatially heterogeneous pollution patterns and biotic homogenization over time. The study calls for an integrated framework to better understand and manage the unique ecological dynamics of marine environments adjacent to major cities.
A systematic review of emerging contaminants in the Greater Bay Area (GBA), China: Current baselines, knowledge gaps, and research and management priorities
This systematic review examines emerging contaminants, including microplastics, in China's Greater Bay Area. The region's rapid urban and industrial growth has introduced a wide range of pollutants into local ecosystems, raising concerns about what these contaminants mean for both environmental and human health in heavily developed coastal areas.
Spatio-Temporal Analysis of Oil Spill Impact and Recovery Pattern of Coastal Vegetation and Wetland Using Multispectral Satellite Landsat 8-OLI Imagery and Machine Learning Models
Researchers used Landsat 8 satellite imagery and machine learning to assess the spatial extent and recovery trajectory of oil spill damage to coastal vegetation and wetlands in Nigeria, demonstrating that remote sensing combined with AI models can track long-term ecosystem recovery.
Mapping the risks of China’s global coastal development to marine socio-ecological systems
Researchers quantified the risks of coastal development projects financed by China to marine biodiversity and coastal Indigenous communities by mapping nearly half a trillion dollars in overseas development finance since 2008. They found that port development presents the greatest impact risks in terms of both magnitude and geographic area, with the highest risks concentrated in Africa and the Caribbean.