Ecosystem Services Supply from Peri-Urban Watersheds in Greece: Soil Conservation and Water Retention

Ecosystem Services Supply from Peri-Urban Watersheds in Greece: Soil Conservation and Water Retention

The main objective of this study is to investigate the supply of ecosystem services (ESs) within peri-urban watersheds (PUWs) across Greece, utilizing earth observation (EO) data and empirical models. To achieve these goals, several open-access geospatial datasets were utilized and processed within...

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Bibliographic Details
Published in:Land (Basel) Vol. 13; no. 6; p. 765
Main Authors: Stefanidis, Stefanos, Proutsos, Nikolaos, Alexandridis, Vasileios, Mallinis, Giorgos
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-06-2024
Subjects:
Alpine regions
Biodiversity
Climate change
Datasets
Ecosystem management
Ecosystem services
Ecosystems
Environmental aspects
Environmental economics
erosion
Human influences
Land management
Land use planning
Management
Mountain regions
Mountainous areas
Mountains
Natural resources
Population
Regions
Retention
runoff
SCS-CN
Soil conservation
Soil erosion
Soil water
Sustainability management
Sustainable development
Urban watersheds
Urbanization
USLE
Water conservation
Watershed management
Watersheds
Woodlands
Greece
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Summary:The main objective of this study is to investigate the supply of ecosystem services (ESs) within peri-urban watersheds (PUWs) across Greece, utilizing earth observation (EO) data and empirical models. To achieve these goals, several open-access geospatial datasets were utilized and processed within a GIS environment. Specifically, the supply of soil conservation and water retention services was assessed at the watershed scale. The results indicates that the supply soil conservation service withing the examined PUWs range from 44.41 t ha[sup.−1] y[sup.−1] to 441.33 t ha[sup.−1] y[sup.−1] with an average value of 161.99 t ha[sup.−1] y[sup.−1] . Water retention services vary from 35.09 to 154.63 mm within the PUWs, with an average of 91.45 mm. Additionally, the variation in ES values across distinct altitudinal zones and ecosystem types provides useful insights for implementing protection and management measures. It is evident from the analysis that the soil conservation service gradually increases with elevation, with alpine and subalpine areas exhibiting the highest values. Moreover, mountainous and semi-mountainous regions demonstrate higher values compared to the estimated average soil conservation services of the entire study area. Furthermore, the provision of water retention services varies across different altitudinal zones. Specifically, the mountainous and semi-mountainous areas exhibit the highest values, followed by the subalpine and hilly regions, while lower values are observed in the lowland and alpine regions. The analysis also reveals distinct patterns in ecosystem services across various ecosystem types within the PUWs. Woodland and forest, along with heathland and shrubs, demonstrate higher values in terms of both soil conservation and water retention services. Our findings contribute to understanding the dynamics of ESs in PUWs, highlighting their significance for sustainable land management, and informing policy decisions aimed at preserving ecosystem health and resilience.
ISSN:2073-445X
2073-445X
DOI:10.3390/land13060765