Your search keyword '"Water-related ecosystem services"' showing total 23 results

1. Dynamics in construction land patterns and its impact on water-related ecosystem services in Chengdu-Chongqing urban agglomeration, China: A multi-scale study

Author

Wu, Di, Zheng, Liang, Wang, Ying, Gong, Jian, Li, Jiangfeng, and Chen, Qian

Published

2024

2. The supply and demand of water-related ecosystem services in the Asian water tower and its downstream area

Author

Li, Lei, He, Chunyang, Li, Jingwei, Zhang, Jinxi, and Li, Jian

Published

2023

3. Construction of ecological security pattern of Jiangnan water town considering water-related ecosystem services: a case study of Yuecheng District, Shaoxing.

Author

Zhou, Meizi, He, Yong, Li, Yonghua, Wang, Jialei, and Yao, Song

Abstract

The ecological security pattern (ESP) is considered an effective method to balance urban development and ecological protection. Integrating water-related ecosystem services (ESs) into the ESP construction process is essential for protecting urban water systems. In this study, Yuecheng District, a typical Jiangnan water town, was selected as the study area. We combined water-related ESs hotspots, landscape connectivity analysis and ecological resistance surfaces to identify areas that should be prioritized for restoration. The results indicated that (1) 25 ecological sources were identified, mainly distributed in the central canal water network area and the southern mountainous area; (2) we extracted 51 ecological corridors, with 44 of these being blue ecological corridors overlapping with rivers; (3) we developed a spatial optimization scheme known as “two belts, one circle and three zones” based on the ESP. This study offers valuable insights for sustainable planning and refined river and lake management in Jiangnan Water Town. [ABSTRACT FROM AUTHOR]

Published

2024

4. Temporal–Spatial Characteristics and Trade-off–Synergy Relationships of Water-Related Ecosystem Services in the Yangtze River Basin from 2001 to 2021.

Author

Du, Hongbo, Wu, Jianping, Li, Wenjie, Wan, Yu, Yang, Ming, and Feng, Peng

Abstract

The Yangtze River Basin serves as an essential ecological shelter in China, yet it has encountered escalating aquatic ecological challenges. Exploring the spatial–temporal changes and the trade-off–synergy relationships of water-related ecosystem services (WESs) is necessary for formulating management and planning policies targeting the sustainable development of watersheds. In this study, the InVEST model is utilized to evaluate the spatial–temporal variations in water yield (WY), water purification (WP), and soil conservation (SC) in the Yangtze River Basin using remote-sensed data from 2001 to 2021. The spatial overlay method and a correlation analysis were adopted to reveal the trade-off–synergy relationship among the three WESs. Additionally, we performed a comparative analysis across the grid and sub-basin scales. The results showed that the multi-year average WY, WP, and SC were 536.10 mm, 1.32 kg/ha, and 250.08 t/ha, representing increasing rates of 4.74 mm/a, −0.001 kg/ha/a, and 1.88 t/ha/a, respectively. Moreover, the trade-off–synergy relationships of WESs exhibited spatial variability; specifically, the WY-WP, WP-SC, and WY-SC pairs demonstrated reduced synergy magnitude over time. The WES interactions were stable across the scales of interest, while synergy strength showed noticeable variability. The findings may contribute to the sustainable development of the Yangtze River Basin and enhance the comprehensive management of WESs. [ABSTRACT FROM AUTHOR]

Published

2024

5. Spatial Correlation between the Changes in Supply and Demand for Water-Related Ecosystem Services.

Author

Jiang, Yuncheng, Ouyang, Bin, and Yan, Zhigang

Subjects

*SUPPLY & demand, *ECOSYSTEM services, *ECOLOGICAL zones, *RESTORATION ecology, *LAND use

Abstract

Clarifying the spatiotemporal changes in the supply and demand of water-related ecosystem services (WESs) can provide comprehensive support information for ecological governance decisions. However, the spatial mismatch between the supply and demand of WESs is often overlooked, resulting in a lack of targeted decision-making. At the grid scale, while preserving both natural and social attributes, this study quantitatively analyzed the spatiotemporal changes in the supply and demand of WESs in the Southern River Basin from 2000 to 2020. Ecological zoning was performed based on the temporal changes in WESs supply and demand. The OPGD model was used to investigate the impacts of socio-economic and natural factors on different WESs supply factors and further explore the spatial correlation of WESs supply and demand changes in different zones. The results show that there is significant spatial heterogeneity in the changes in WESs supply and demand. Economic belts and megacities have experienced remarkable changes, with WESs supply decreasing and WESs demand increasing. WESs demand changes significantly affect WESs supply changes. The supply of WESs in all zones is influenced by WESs demand. In the high supply–low demand zone, WY has the highest explanatory power for WESs demand changes. From the high supply–middle demand zone to the low supply–middle demand zone and then to the high supply–high demand zone, the explanatory power of PE for WESs demand changes gradually increases. As WESs demand starts from the middle level, HAI gradually dominates WESs demand changes. The increase in land use changes may promote the impact of WESs demand changes on WESs supply changes. This study contributes to incorporating the supply and demand changes of WESs and their correlations into the ecological protection and restoration system, providing a new perspective and method for regional sustainable management. [ABSTRACT FROM AUTHOR]

Published

2024

6. Multiscale Analysis for Identifying the Impact of Human and Natural Factors on Water-Related Ecosystem Services.

Author

Jiang, Yuncheng, Ouyang, Bin, and Yan, Zhigang

Abstract

Accurately identifying and obtaining changes in ecosystem drivers and the spatial heterogeneity of their impacts on ecosystem services can provide comprehensive support information for ecological governance. In this study, we investigate the changes in the relationship between human and natural factors and water-related ecosystem services (WESs) in different sub-watersheds across various time periods, focusing on four aspects: single-factor effect, nonlinear effect, interactive effects, and spatial characteristics. Taking the southern basins, which have complex topographic, climatic, and economic characteristics, as a study area, the study area was divided into four sub-basins with different characteristics. WESs of water yield, soil conservation, and water purification were quantified using the InVEST model for five periods from 2000 to 2020, and the OPGD and MGWR models were integrated to assess the impacts of 15 factors on WESs and their spatial characteristics. The results show the following: (1) After comparing the data over multiple time periods, climate factors such as precipitation (0.4033) are the primary factors affecting WESs in the southern basins, and human factors such as construction area (0.0688) have a weaker influence. The direct impact of human factors on WESs is not significant in the short term but increases over time. (2) Different sub-watersheds have different impacts on WESs. For instance, human activity intensity (0.3518) is a key factor affecting WESs in the Inward Flowing Area, while precipitation is the primary factor influencing WESs in other sub-watersheds. (3) Influencing factors and WES changes are often nonlinearly correlated; however, once a certain threshold is exceeded, they may have adverse impacts on WESs. (4) When a single factor interacts with other factors, its explanatory power tends to increase. (5) Compared to traditional methods, the estimation accuracy of MGWR is higher. Intense human activities can adversely affect WESs, while abundant precipitation creates favorable conditions for the formation of WESs. Therefore, integrating long-time-series multi-remote sensing data with OPGD and MGWR models is suitable for identifying and analyzing the driving mechanisms of human and natural factors that influence changes in WESs. Against the backdrop of global change, elucidating the driving factors of ecosystem services can provide crucial insights for developing practical policies and land management applications. [ABSTRACT FROM AUTHOR]

Published

2024

7. Effects of Restoration and Conservation of Riparian Vegetation on Sediment Retention in the Catchment Area of Corumbá IV Hydroelectric Power Plant, Brazil

Author

Natália Pezzi Fachinelli and Amaro Olímpio Pereira

Subjects

water-related ecosystem services, sediment retention, riparian vegetation, Brazilian Native Vegetation Protection Law, water management, water–energy–food nexus, Social Sciences

Abstract

Vegetation cover and land use are important factors related to the capacity of ecosystems to provide soil loss regulation and sediment retention services, which are highly relevant for sediment management in watersheds draining into reservoirs with multiple water uses. One way to ensure the protection and recovery of vegetation by landowners in Brazil is the implementation of the federal Native Vegetation Protection Law (NVPL), which designates environmentally sensitive areas as Areas of Permanent Preservation (APPs), aiming to conserve water resources and prevent soil erosion. The benefits of riparian vegetation in the catchment of Corumbá IV Hydroelectric Power Plant (HPP), located in the Brazilian Cerrado, were analyzed considering landscape reconfigurations from a baseline condition (year 2011) in order to account for the recovery of riparian vegetation by the agricultural sector, as foreseen in the NVPL. The Sediment Delivery Ratio (SDR) model from the InVEST (Integrated Valuation of Environmental Services and Tradeoffs) package was used to map and quantify variations in sediment export and sediment retention throughout the catchment. The reduction in annual sediment export in the drainage basin of the Corumbá IV reservoir reached −27% in the scenario where the total deficit of riparian APPs occupied by pasture or agriculture in the baseline map (41.000 ha) are recovered. While 14% of riparian APP are occupied by crops versus 86% occupied by pasture in the drainage basin of the Corumbá IV HPP, the recovery of riparian zones occupied by agricultural activities resulted in the greatest benefits in sediment retention for the reservoir. The methodology employed in this study can support the prioritization of sectoral efforts for the restoration and conservation of native vegetation, considering the highest returns in benefits perceived by water users affected by sediment input in reservoirs. The study’s results reinforce the importance of conserving vegetation in riparian areas and their surroundings for sediment retention, highlighting the role of these areas as assets in providing water-related ecosystem services. For future developments, it is suggested to assess the interconnections among the energy, water, and food sectors to better understand the barriers and challenges to the maintenance and improvement of water-related ecosystem services in the catchment area of Corumbá IV HPP.

Published

2023

8. Multiscale effects and drivers of landscape heterogeneity for water‐related ecosystem services in urban agglomerations.

Author

Huang, Lie, Chen, Xiaohong, Ye, Changxin, Yuan, Ze, and He, Kunlong

Subjects

URBAN ecology, ECOSYSTEM services, ESTUARIES, LANDSCAPES, REGIONAL development, GROSS domestic product

Abstract

Understanding the multiscale impacts and drivers of urban agglomeration landscape patterns for ecosystem services (ESs), especially water‐related ecosystem services (WESs), is essential for the development of regional ecological management. However, the multiscale impacts and driving mechanisms of urban agglomeration landscape patterns for ESs have not been adequately explained. In this study, multivariate data were employed, and the InVEST model, trend test method, coupled GeoDetector and geographically and temporally weighted regression (GTWR) method were utilized to comprehensively explore the spatial and temporal changes in landscape patterns and WESs in the Pearl River Delta urban agglomeration (PRDUA) at various grid and administrative scales from 1990 to 2020 and to determine the driving mechanisms affecting WESs. The results indicated that the variation characteristics of landscape patterns and WESs in the PRDUA were consistent, forming a binary spatial structure of core and peripheral areas in an inverted "U" shape around the estuary of the Pearl River. The relationship between landscape patterns and WESs weakened with the increase of scale, and the correlation coefficient decreased by approximately 0.10 from 5 km to 10 km grid scale. Additionally, precipitation (PRE) was the main factor controlling WESs changes in the PRDUA, explaining more than 50% of the changes in WESs, and the regression coefficients ranged from 0.0825 to 0.1584. Changes in WESs were the result of the combined effects of natural factors, including PRE, landscape pattern, elevation, slope, and socioeconomic factors, such as population and gross domestic product (GDP). Overall, these findings could contribute to optimizing regional landscape patterns and fostering sustainable development of the ecological environment in urban agglomerations. [ABSTRACT FROM AUTHOR]

Published

2024

9. Effects of Restoration and Conservation of Riparian Vegetation on Sediment Retention in the Catchment Area of Corumbá IV Hydroelectric Power Plant, Brazil.

Author

Fachinelli, Natália Pezzi and Pereira Jr., Amaro Olímpio

Subjects

HYDROELECTRIC power plants, WATERSHEDS, RIPARIAN plants, PLANT conservation, RIPARIAN restoration, CONSERVATION & restoration

Abstract

Vegetation cover and land use are important factors related to the capacity of ecosystems to provide soil loss regulation and sediment retention services, which are highly relevant for sediment management in watersheds draining into reservoirs with multiple water uses. One way to ensure the protection and recovery of vegetation by landowners in Brazil is the implementation of the federal Native Vegetation Protection Law (NVPL), which designates environmentally sensitive areas as Areas of Permanent Preservation (APPs), aiming to conserve water resources and prevent soil erosion. The benefits of riparian vegetation in the catchment of Corumbá IV Hydroelectric Power Plant (HPP), located in the Brazilian Cerrado, were analyzed considering landscape reconfigurations from a baseline condition (year 2011) in order to account for the recovery of riparian vegetation by the agricultural sector, as foreseen in the NVPL. The Sediment Delivery Ratio (SDR) model from the InVEST (Integrated Valuation of Environmental Services and Tradeoffs) package was used to map and quantify variations in sediment export and sediment retention throughout the catchment. The reduction in annual sediment export in the drainage basin of the Corumbá IV reservoir reached −27% in the scenario where the total deficit of riparian APPs occupied by pasture or agriculture in the baseline map (41.000 ha) are recovered. While 14% of riparian APP are occupied by crops versus 86% occupied by pasture in the drainage basin of the Corumbá IV HPP, the recovery of riparian zones occupied by agricultural activities resulted in the greatest benefits in sediment retention for the reservoir. The methodology employed in this study can support the prioritization of sectoral efforts for the restoration and conservation of native vegetation, considering the highest returns in benefits perceived by water users affected by sediment input in reservoirs. The study's results reinforce the importance of conserving vegetation in riparian areas and their surroundings for sediment retention, highlighting the role of these areas as assets in providing water-related ecosystem services. For future developments, it is suggested to assess the interconnections among the energy, water, and food sectors to better understand the barriers and challenges to the maintenance and improvement of water-related ecosystem services in the catchment area of Corumbá IV HPP. [ABSTRACT FROM AUTHOR]

Published

2023

10. Predicting water ecosystem services under prospective climate and land-use change scenarios in typical watersheds distributed across China

Author

Chunxue Yu, Xia Huang, Qian Guo, Ying Yang, and Zhihao Xu

Subjects

Water-related ecosystem services, Water yield, Water purification services, InVEST model, Climate change, Land-use change, Ecology, QH540-549.5

Abstract

Water-related ecosystem services (WES) critical to anthropogenic-related water security are being severely degraded, primarily due to climate and land-use change. Clarifying future trends in WES (i.e., water yield and water purification services) will contribute to water resource sustainability. However, most existing studies are single case studies and rarely consider the combined impacts of climate change and land-use change on ecosystem services, resulting in patterns that cannot be adequately summarized. In this study, the “Annual Water Yield” module of the InVEST model was used to estimate water yield and the “Nutrient Delivery Ratio” module was used to analyze water purification services. In order to compare the impacts of different natural conditions and geographic locations on water ecosystem services, 17 typical watersheds throughout China were selected as study areas. Coupled scenarios were also considered when setting climate and land-use scenarios to predict prospective (2020–2100) evolutionary trends in WES. The response of WES under different scenarios was also assessed. Results show that climate change is more likely to affect water yield services than water purification services. The impact of land use on water purification services is more pronounced than its impact on water yield services. Climate change contributed > 90 % to water yields in 15 out of the 17 watersheds, contributed 79.4 % in the Hei River watershed, while only contributing 11.2 % in the Yarkant River watershed. The influence of climate change on total nitrogen (TN) output in eight of the watersheds was greater than that of land-use change, especially in the Min River and Mintuo River watersheds, for which the contribution was > 95 %. Furthermore, water purification services in nine of the watersheds were more affected by land-use change, especially in the Dongting Lake and Hei River watersheds, for which the contribution was > 95 %. The aim of this study is to assist in the planning of sound water resource measures while developing sustainable management strategies to help relevant water resource sectors cope with prospective risks and challenges.

Published

2024

11. Characteristics of urban expansion in megacities and its impact on water-related ecosystem services: A comparative study of Chengdu and Wuhan, China

Author

Di Wu, Liang Zheng, Ying Wang, Jian Gong, Jiangfeng Li, and Qian Chen

Subjects

Urban expansion, Ecosystem services, Water-related ecosystem services, China megacities, Ecology, QH540-549.5

Abstract

The megacity expansion that continues to occur in developing countries is an unavoidable trend at this stage, yet there exists a dearth of knowledge regarding the comprehensive impacts of urban expansion on water-related ecosystem services (WESs) within these areas. Taking Chengdu and Wuhan, two megacities in the upper and middle Yangtze River Economic Belt in China as the study area, this study first compare the magnitude, rate, spatial divergence, and the mode of urban expansion; then evaluate its impact on three typical types of WESs, i.e., water yield (WY), water purification (WP), and habitat quality (HQ) using spatial econometric models and bivariate Moran’s I. The research findings show that Chengdu’s suburbs tend to experience edge-based expansion along rivers, while Wuhan’s city center also spreads outward in edge-based from the river junctions of the Yangtze and Han rivers. Urban expansion negatively impacts all three types of WESs, and its effect in Chengdu is greater than in Wuhan. WY in the suburbs of Wuhan is severely impacted by urban expansion, while WP in the suburbs of Chengdu is as well. HQ in Chengdu’s city center suffers the largest negative impact. The study also reveals a spatial spillover effect of urban expansion, with extensive negative externalities on all WESs in the city centers of both cities and positive externalities on WY and WP in the southwestern suburbs of Chengdu. Based on these results, we suggest that megacities in developing countries should focus on protecting HQ in the city center and limiting cross-regional edge-based expansion in suburbs. Attention should be paid to the water-ecological protection of the suburb rivers. City managers should consider ecological zoning geared toward the conservation of WESs to address the adverse impacts of expansion.

Published

2024

12. Assessment of water-related ecosystem services based on multi-scenario land use changes: focusing on the Poyang Lake Basin of southern China

Author

Jinbo Qin, Hui Ye, Kai Lin, Shuhua Qi, Bisong Hu, and Jin Luo

Subjects

Land use change, Water-related ecosystem services, PLUS model, Multi-scenario simulation, Poyang Lake Basin, Ecology, QH540-549.5

Abstract

A scientific understanding of the trends of water-related ecosystem services (WESs) under different scenarios is crucial to improving WESs and maintaining ecological security. However, there is a lack of high-resolution land use simulation and assessment of WESs under the SSP-RCP scenarios, and the impacts of different land-use change (LUC) on WESs are not clear. This study focused on the Poyang Lake Basin (PYLB), utilizing the SSP-RCP scenarios, the PLUS model and the InVEST model to explore the dynamic changes of land use and WESs historically and in the future, and to reveal the impacts of specific LUC on WESs from 2000 to 2020. The results demonstrated that: (1) The forest land increased under both SSP1-2.6 and SSP2-4.5 scenarios but increased first and then decreased under SSP5-8.5 scenarios; Cropland increased significantly under SSP5-8.5 scenarios, and the construction land showed an expansion trend under the three scenarios. (2) From 2000 to 2020, only the water purification capacity decreased, while the rest of the WESs increased. Under the SSP1-2.6 scenario, the overall benefits of the WESs in the PYLB were the highest. (3) Between 2000 and 2020, deforestation in the PYLB brought about the greatest increase in the water yield (+9.06 × 108 m3). The increase in the construction land brought about the most water conservation loss (−18.19 × 108 m3). Additionally, the forest expansion and cropland reduction brought about the largest increase in soil retention (+3.94 × 105 t and +4.79 × 105 t) and enhanced water purification, and the opposite was true for deforestation. The conclusions can provide an important basis for the ecological protection and high-quality development of the PYLB.

Published

2024

13. Spatiotemporal Variation in Water-Related Ecosystem Services during 2000–2020 and Ecological Management Zoning in the Xiangjiang River Basin, China.

Author

Deng, Meirong, Mao, Dehua, Li, Yeye, Wang, Ting, and Hu, Zui

Abstract

Exploring the spatiotemporal distribution and interrelationships among water-related ecosystem services (WESs) and conducting ecological management zoning are crucial for regional sustainable development. Taking the Xiangjiang River Basin (XJRB) as an example, this study first quantified three primary WESs, including water conservation, soil retention, and water purification, from 2000 to 2020. Second, the spatiotemporal variation in the interrelationships among WESs were analyzed using global and local bivariate spatial autocorrelation. Third, a water ecological zoning rule was constructed to divide the watershed into three primary and eight secondary water ecological management zones. The results indicate a strong consistency in the changes in the three WESs throughout the period from 2000 to 2020 in the XJRB. Precipitation patterns and urban expansion were the primary factors affecting alterations in the WESs. Spatial heterogeneity and dependence were evident across these ecosystem services. Both trade-offs and synergies were observed among WESs, with synergies playing a dominant role. Positive synergies occurred primarily in woodlands and grasslands, while negative synergies were observed in cultivated land, water areas, and construction land. Three water ecological management zones, including core water ecological management zones, general management zones, and restoration management zones, were delineated at the grid and country scales according to the aggregation properties of the WESs. Ecological management strategies were proposed for different zones. These findings can offer valuable insights for policy makers in land use planning and water ecological management within the XJRB, and can facilitate similar management endeavors in other regions. [ABSTRACT FROM AUTHOR]

Published

2023

14. A systematic review on the use of remote sensing technologies in quantifying grasslands ecosystem services

Author

Anita Masenyama, Onisimo Mutanga, Timothy Dube, Tsitsi Bangira, Mbulisi Sibanda, and Tafadzwanashe Mabhaudhi

Subjects

earth observation technologies, grassland ecosystem services, hydrological processes, water-related ecosystem services, Mathematical geography. Cartography, GA1-1776, Environmental sciences, GE1-350

Abstract

The last decade has seen considerable progress in scientific research on vegetation ecosystem services. While much research has focused on forests and wetlands, grasslands also provide a variety of different provisioning, supporting, cultural, and regulating services. With recent advances in remote sensing technology, there is a possibility that Earth observation data could contribute extensively to research on grassland ecosystem services. This study conducted a systematic review on progress, emerging gaps, and opportunities on the application of remote sensing technologies in quantifying all grassland ecosystem services including those that are related to water. The contribution of biomass, Leaf Area Index (LAI), and Canopy Storage Capacity (CSC) as water-related ecosystem services derived from grasslands was explored. Two hundred and twenty-two peer-reviewed articles from Web of Science, Scopus, and Institute of Electrical and Electronics Engineers were analyzed. About 39% of the studies were conducted in Asia with most of the contributions coming from China while a few studies were from the global south regions such as Southern Africa. Overall, forage provision, climate regulation, and primary production were the most researched grassland ecosystem services in the context of Earth observation data applications. About 39 Earth observation sensors were used in the literature to map grassland ecosystem services and MODIS had the highest utilization frequency. The most widely used vegetation indices for mapping general grassland ecosystem services in literature included the red and near-infrared sections of the electromagnetic spectrum. Remote sensing algorithms used within the retrieved literature include process-based models, machine learning algorithms, and multivariate techniques. For water-related grassland ecosystem services, biomass, CSC, and LAI were the most prominent proxies characterized by remotely sensed data for understanding evapotranspiration, infiltration, run-off, soil water availability, groundwater restoration and surface water balance. An understanding of such hydrological processes is crucial in providing insights on water redistribution and balance within grassland ecosystems which is important for water management.

Published

2022

15. Quantifying water-related ecosystem services potential of the Kangchenjunga Landscape in the eastern Himalaya: a modeling approach

Author

Manish Shrestha and Santosh Nepal

Subjects

eastern himalaya, ecosystem services, hydro-ecological modeling, j2000, kangchenjunga landscape, water-related ecosystem services, River, lake, and water-supply engineering (General), TC401-506, Physical geography, GB3-5030

Abstract

Quantifying water-related ecosystem services (WES) helps to secure limited and valuable water resources sustainably. Mainstreaming these ecosystem services into policy and decision-making requires accurate information at the local level. This paper aims to quantify provisioning and regulating freshwater ecosystem services potential in the Kangchenjunga Landscape using a hydro-ecological model. This study is the first to use the J2000 hydrological model to estimate annual and seasonal WES. The model output was validated against snow-cover and river discharge, after conducting a sensitivity analysis of the input parameter. High precipitation and low evapotranspiration resulted in rich water availability in the landscape. It was found that the precipitation amount in the landscape is highly seasonal, resulting in high variation in water availability. Snowfall, accounting for 4% of the total precipitation still plays an important role in regulating water resources. Nearly 100% of the discharge during the dry period originates from groundwater and melt runoff. This study highlights the importance of the presence of snow and glacier to sustain the ecosystem in the landscape. This model-derived information could further be used for decision-making and evaluating the impact of climatic and land use changes. HIGHLIGHTS The study quantified WES potential in the Kangchenjunga Landscape.; The J2000 model provided important insight into the hydrological dynamics at the landscape level.; Potential provisioning and regulating ecosystem services are quantified.; Snow plays a vital role in maintaining ecosystem services in the landscape.;

Published

2022

16. Coupling relationship between urbanization and water-related ecosystem services in China’s Yangtze River economic Belt and its socio-ecological driving forces: A county-level perspective

Author

Yuzhe Bi, Liang Zheng, Ying Wang, Jiangfeng Li, Hui Yang, and Bowen Zhang

Subjects

Water-related ecosystem services, Urbanization, InVEST model, Coupling coordination degree model, Yangtze River Economic Belt, Ecology, QH540-549.5

Abstract

“Taking the county as an important carrier to promote urbanization” has been identified as China’s most significant strategic planning for urban development. Exploring the level of coordination among both water-related ecosystem services (WES) and urbanization and analyzing their social and ecological drivers at the county-level can benefit in tackling various environmental challenges that arise as a result of the urbanization. This research examined the spatial and temporal variation of WES (i.e., water provision, soil conservation, and water purification services) in the Yangtze River Economic Belt (YREB) from 2000 to 2018 through the Integrated Valuation of Ecosystem Services and Tradeoffs (InVEST) model, and a quantitative assessment of urbanization level in terms of population, economy, and urban area increase. Then, coupling coordination degree (CCD) model was then used to assess the extent of coordinated growth of WES and urbanization. Finally, the GeoDetector model and the regionally weighted regression model were used to investigate the influence of multiple factors on the CCD The findings indicate that: 1) Each county unit in the YREB had a significantly higher level of urbanization from 2000 to 2018, with hotspots located primarily in the Shanghai, Jiangsu, Zhejiang and in the vicinity of Wuhan and Chengdu. 2) The WES in the YREB varied considerably between years, but exhibited an upward tendency. 3) The CCD of WES and urbanization in the eastern portion of the YREB is higher than that in the western portion. The level of CCD was increasing but overall low. 4) Land use intensity, nighttime light intensity, and NDVI were the primary determinants of the CCD between WES and urbanization, with considerable heterogeneity in the driving forces between locations. To improve the coordination level between WES and urbanization, differentiated urbanization development schemes and ecological protection measures were proposed based on the findings.

Published

2023

17. Scale effects on the relationships of water-related ecosystem services in Guangdong Province, China

Author

Qiongrui Zhang, Xuechao Sun, Jiaojiao Ma, and Songjun Xu

Subjects

Scale, Water-related ecosystem services, Trade-offs, Guangdong province, Urban agglomeration, Physical geography, GB3-5030, Geology, QE1-996.5

Abstract

Study region: Guangdong Province (GD) and the Pearl River Delta urban agglomeration (PRD) in China. Study focus: Scale is a key factor affecting the connections among ecosystem services, but the relationships between water-related ecosystem services (WRESs) at diverse scales remain unclear. This study evaluated spatio-temporal changes in water yield, water purification and soil retention from 2000 to 2020. The InVEST model was used to depict the WRESs, and correlation analysis was used to detect trade-offs in WRESs at different scales. New hydrological insights for the region: i) The proportion of construction land increased most from 2000 to 2020, especially in the PRD, whereas that of cultivated land and forest exhibited downward trends; ii) During the study period, the three WRESs showed an increase in GD, but water purification and soil retention services showed a decrease in the PRD; iii) for the two scales, trade-offs existed between water yield and other WRESs, and synergies between soil retention and water purification; and iv) The correlation coefficients among WRESs in the PRD were greater than in the whole GD, and the correlation coefficients of the two scales changed in different directions with time. This study expands the scale effect on the relationships among ecosystem services, and puts forward suggestions for the sustainable development of WRESs with consideration of land use planning and stakeholders.

Published

2022

18. Quantifying water-related ecosystem services potential of the Kangchenjunga Landscape in the eastern Himalaya: a modeling approach.

Author

Shrestha, Manish and Nepal, Santosh

Subjects

ECOSYSTEM services, RUNOFF, WATER supply, LANDSCAPES, HYDROLOGIC models

Abstract

Quantifying water-related ecosystem services (WES) helps to secure limited and valuable water resources sustainably. Mainstreaming these ecosystem services into policy and decision-making requires accurate information at the local level. This paper aims to quantify provisioning and regulating freshwater ecosystem services potential in the Kangchenjunga Landscape using a hydro-ecological model. This study is the first to use the J2000 hydrological model to estimate annual and seasonal WES. The model output was validated against snow-cover and river discharge, after conducting a sensitivity analysis of the input parameter. High precipitation and low evapotranspiration resulted in rich water availability in the landscape. It was found that the precipitation amount in the landscape is highly seasonal, resulting in high variation in water availability. Snowfall, accounting for 4% of the total precipitation still plays an important role in regulating water resources. Nearly 100% of the discharge during the dry period originates from groundwater and melt runoff. This study highlights the importance of the presence of snow and glacier to sustain the ecosystem in the landscape. This model-derived information could further be used for decision-making and evaluating the impact of climatic and land use changes. [ABSTRACT FROM AUTHOR]

Published

2022

19. Water-related ecosystem services interactions and their natural-human activity drivers: Implications for ecological protection and restoration.

Author

Liu, Jiamin, Pei, Xiutong, Zhu, Wanyang, and Jiao, Jizong

Subjects

*ECOSYSTEM services, *RESTORATION ecology, *ARID regions, *RANK correlation (Statistics), *OCEAN zoning, *SOIL moisture, *FOREST restoration

Abstract

Sustainable development faces the crucial challenge of safeguarding water-related ecosystem services, particularly in arid regions. However, scale-dependent interactions and their influencing factors remain unclear. This study addresses this local gap on the regional level by focusing on ecologically vulnerable mountain areas, employing a comprehensive quantitative and spatial analysis approach, utilizing Spearman coefficient, trade-off/synergy index, and trade-off/synergy criterion, to examine water-related ecosystem services interactions across scales in arid area. Additionally, a Geographical detector was used to identify dominant natural and human activity factors. Finally, we determined ecologically optimal and worst areas and proposed spatial planning and management recommendations for ecological protection and restoration. Key results indicate that: (1) From 1995 to 2015, water yield and nutrient delivery ratio exhibited a declining trend, while soil retention showed an increasing trend, with the weakest nutrient delivery ratio function in the reserve. (2) At the grid scale, there were 2 trade-offs among water-related ecosystem services in 1995, which decreased to 1 trade-off in 2005 and 2015. The synergistic was most prominent near Qinghai Lake, while the trade-off was most obvious in the western mountainous areas. Conversely, the county scale demonstrated synergy. (3) NDVI, slope, and precipitation dominantly influence the spatial heterogeneity patterns of soil retention_water yield, soil retention_nutrient delivery ratio, and water yield_nutrient delivery ratio, respectively, with natural factors outweighing human activities in impacting water-related ecosystem services. This study contributes to the improvement and optimization of ecological environment management decisions. • Examines trade-offs among water-related ecosystem services at varying scales. • County scale may obscure trade-offs observable at raster scale. • Stronger correlations among water-related ecosystem services with larger scales. • Significant trade-off is identified between soil retention_nutrient delivery ratio. • Natural factors drive dominant water-related ecosystem services variations. [ABSTRACT FROM AUTHOR]

Published

2024

20. Network analysis of water-related ecosystem services in search of solutions for sustainable catchment management: A case study in Sutlej-Beas River systems, India.

Author

Yu, Shuying, Peng, Jian, Xia, Pei, Wang, Qi, Grabowski, Robert C, Azhoni, Adani, Bala, Brij, Shankar, Vijay, and Meersmans, Jeroen

Abstract

• Six different water-related ecosystem service networks were identified based on synergies. • Compared with other water-related ecosystem services, soil retention tended to be less centralized within networks. • Land use intensity was found to greatly influence the ES networks. Hydrological processes and ecosystem interactions are instrumental in sustaining local populations by providing various water-related ecosystem services (ES). Numerous studies gave priority to the theories and methods of building networks that emphasized different stakeholders. However, little study has examined the complex relationships among water-related ES themselves and how relevant human activities affect ES networks. To narrow this gap, in this study we quantified four critical water-related ES (flood mitigation, hydropower production, soil retention, and water conservation), set up six ES network types based on the synergy relationship, and further explored the effect of human activities on these networks. The results showed that among six ES network categories, networks with four fully linked ES occupied a large percentage of 23.20% while the network with one central ES linking two others accounted for the lowest percentage (9.28%). Compared with other ES, soil retention tended to be less centralized within the networks. In addition, land use intensity was found to greatly influence the ES networks compared with other indicators, especially for less complex networks. Our results highlighted the importance of network analysis in searching solutions for sustainable catchment management. [ABSTRACT FROM AUTHOR]

Published

2023

21. Exploring interactions in water-related ecosystem services nexus in Loess Plateau.

Author

Wang, Yixin, Wang, Huimin, Zhang, Jingxuan, Liu, Gang, Fang, Zhou, and Wang, Dandan

Subjects

*ECOSYSTEM services, *SIMULTANEOUS equations, *PANEL analysis, *LAND use

Abstract

Scientific understanding of the driving relationship between water-related ecosystem services (WESs) and influencing factors, as well as the trade-off and synergy relationship between WESs and WESs, is the premise of reasonably bringing them into management decisions. However, the existing research often separates the above-mentioned two relationships and conducts independent research, which leads to the conflict of research conclusions and cannot be well adopted by managers. Therefore, based on the panel data of Loess Plateau in 2000–2019, this paper uses the simultaneous equation model to combine the two kinds of relationships existing between WESs and influencing factors, establish a feedback loop, and reveal the interactions mechanism of WESs nexus. The results show that: (1) The fragmentation of land use leads to the uneven spatial-temporal distribution of WESs. (2) Vegetation factors and land factors are the main driving factors that affect WESs, and the impact of climate factors on WESs is decreasing year by year. (3) The increase of water yield ecosystem services will lead to the obvious increase in soil export ecosystem services, and there is a synergistic relationship between soil export ecosystem services and nitrogen export ecosystem services. The conclusion can provide an important reference for implementing the strategy of ecological protection and high-quality development. • Water-related ecosystem services (WESs) showed obvious spatial heterogeneity. • A set of simultaneous equations of WESs nexus is constructed. • The interactions mechanism of WESs nexus is revealed. • Key driving factors of WESs nexus in the Loess Plateau are determined. [ABSTRACT FROM AUTHOR]

Published

2023

22. Contrasting effects of native and exotic vegetation on soil infiltrability in the Sonoran Desert.

Author

Leite, Pedro A.M., Castellanos, Alejandro E., Wilcox, Bradford P., Vega-Puga, Masuly, Martínez, Enrique, Dennis, Sara, Choza, Sofía, and Acuña-Acosta, Delia M.

Published

2022

23. Identification of priority areas for water ecosystem services by a techno-economic, social and climate change modeling framework.

Author

Zhu, Ziqian, Wang, Kang, Lei, Manqin, Li, Xin, Li, Xiaodong, Jiang, Longbo, Gao, Xiang, Li, Shuai, and Liang, Jie

Subjects

*CLIMATE change models, *ECOSYSTEM services, *SOCIAL change, *BODIES of water, *GROSS domestic product, *CLIMATE change

Abstract

• Water-related ecosystem services (WES) were integrated into priority area selection. • The hydrological/hydrochemical/hydroecological related WES varied by climate change. • Conservation efficiencies of priority areas decreased as climate change accelerated. • Factors impacting priority area selection changed in upper, middle, and down basins. Water scarcity and quality deterioration often occur in economically developing regions, particularly during crises related to climate change or increasing human activities. The assignment of priority areas is considered a suitable strategy for stakeholders to mitigate water crises and cope with water stress. However, most studies focused on protecting water bodies in priority areas and did not consider the hydrological/hydrochemical/hydroecological interaction between aquatic and terrestrial ecosystems. We divided a watershed into manageable areas to select priority areas for multiple water-related ecosystem services (WES-priority areas), considering the aquatic-terrestrial interactions to predict the effects of climate change and human activities. The proposed novelty framework couples the soil and water assessment tool and maximum entropy models with a systematic conservation planning tool. It uses the gross domestic product as the economic cost to assess dynamic changes and social-environmental driving forces. A case study is conducted in the Xiangjiang River basin, a modified watershed of the main tributary of the Yangtze River, China. Results revealed that most of the WES-priority areas were located in the southern and southeastern regions of the upper reaches in all climatic scenarios. The conservation efficiency of the WES-priority areas decreased from 1.264 to 0.867 in 50 years, indicating that the level of protection declined as climate change accelerated. The precipitation was positively correlated with the WES-priority area selection in all climate scenarios. The temperature was only negatively correlated with the WES-priority areas when it exceeded 20 °C, and this effect became more pronounced as the temperature increased. The topographic factors had the most crucial impacts on the upstream priority areas selection. The water flow regulation service played a leading role in identifying WES-priority areas in the middle reaches because the priority areas' distribution here was closely related to the water yield, and its proportion decreased with the acceleration of global warming. The number of WES-priority areas was relatively low in the lower reaches. It was positively associated with the gross domestic product and the amount of built-up land. The proposed framework for WES-priority areas identification enables a sound trade-off between environmental protection and economic development. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022