Multidimensional (coupled land use, soil properties, and topography) landscape effects on
stream water nitrogen (N) are complex and scale-dependent. However, studies that identify …

The landscape patch amount and configuration at the class level profoundly affect stream
nitrogen (N) and phosphorus (P) concentrations in agricultural catchments, but their …

Although a landscape is a multidimensional integrated synthesis, the relationship between
land use and water quality was merely studied in relation to protecting the aquatic ecological …

Climate change and rapid urbanization have changed the characteristics of basin
landscapes. Non-point-source (NPS) pollution affects river water quality. Exploring the …

This study explored the sources of nitrate and the impact of landscape pattern on nitrogen
pollution in the highly urbanized Beiyun River Watershed, China during 2016 by applying a …

Studying the temporal and spatial relationship between water body nutrients and landscape
elements in the agricultural watershed will be helpful in revealing the process of non-point …

Nutrient loading into rivers is generally increased by human-induced land-use changes and
can lead to increased surface water pollution. Understanding the extent to which land-use …

Optimizing landscape pattern to reduce the risk of non-point source (NPS) pollution is an
effective measure to improve river water quality. The “source-sink” landscape theory is a …

Understanding the spatiotemporal distribution of nonpoint-source pollutant river loads from
catchments and their influences on the water quality along river networks in a large river …

Climate variability and landscape modifications directly influence watershed hydrology and
processes of nonpoint source pollution, while remedial action requires distinguishing their …