Monitoring the Landscape Pattern and Characteristics of Non-Point Source Pollution in a Mountainous River Basin

Monitoring the Landscape Pattern and Characteristics of Non-Point Source Pollution in a Mountainous River Basin

This study aimed to assess the relationship between the landscape patterns and non-point source (NPS) pollution distribution in Qixia County, China. The sub-basin classification was conducted based on a digital elevation model and Landsat8 satellite images. Water samples were collected from each sub...

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Autores principales: Yuepeng Liu, Chuanfeng Yang, Xinyang Yu, Mengwen Wang, Wei Qi
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
non-point source pollution
“source-sink” theory
location weighted landscape contrast index (<i>LWLCI</i>)
landscape patterns
Medicine
R
Acceso en línea:https://doaj.org/article/c853907c78ca4355a17c386ecdb5444c
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Sumario:This study aimed to assess the relationship between the landscape patterns and non-point source (NPS) pollution distribution in Qixia County, China. The sub-basin classification was conducted based on a digital elevation model and Landsat8 satellite images. Water samples were collected from each sub-basin, andtheir water quality during the wet and dry seasons was estimated. The correlation between the landscape indices and water pollution indicators was determined by Pearson analysis. The location-weighted landscape contrast index (<i>LWLCI</i>) was calculated based on the “source-sink” theory. Qixia was further divided into five sections based on the <i>LWLCI</i> score to illustrate the potential risk of NPS pollution. The results showed that the water quality in Qixia County was generally good. Cultivated land, orchards, construction areas, and unused land were positively correlated with the water pollution index and weredesignated as the “source” landscape categories, while forests, grasslands, and water bodies, which were negatively correlated with water pollution, were the “sink” landscapes; the <i>LWCI</i> was high in 36.94% of the study area. In these areas, measures such as increasing vegetation buffer zones are necessary to decrease the sediment and nutrient loads carried by precipitation.

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