Your search keyword '"integrated valuation of ecosystem services and tradeoffs (InVEST) model"' showing total 6 results

1. Exploring the Spatiotemporal Changes and Driving Forces of Ecosystem Services of Zhejiang Coasts, China, Under Sustainable Development Goals.

Author

Zhang, Shu, Sun, Chao, Zhang, Yixin, Hu, Ming, and Shen, Xingru

Subjects

*ECOSYSTEM services, *SUSTAINABLE development, *COASTS, *COASTAL changes, *NATURAL resources, *ENVIRONMENTAL degradation

Abstract

Ecosystem services (ESs) refer to the continuous provisioning of ecosystem goods and services that benefit human beings. Over recent decades, rapid urbanization has exerted significant pressure on coastal ecosystems, resulting in biodiversity and habitat loss, environmental pollution, and the depletion of natural resources. In response to these environmental challenges, the Sustainable Development Goals (SDGs) were proposed. Given the pressing need to address these issues, understanding the changes in ESs under the SDGs is crucial for formulating specific ecological strategies. In this study, we first analyzed land use and cover change in the Zhejiang coasts of China during 2000–2020. Then, we investigated the spatiotemporal configuration of ESs by integrating carbon storage (CS), soil retention (SR), habitat quality (HQ) and water yield (WY) using the Integrated Valuation of Ecosystem Services and Tradeoffs (InVEST) model. The driving mechanisms of ESs, which varied by space and time, were also explored using the Geo-detector method. The results revealed that, over the past two decades: 1) the Zhejiang coasts have experienced a significant increase of 2783.72 km2 in built-up land areas and a continuous decrease in farmland areas due to rapid urbanization; 2) owing to higher precipitation, extensive vegetation cover, and reduced anthropogenic disturbances, forests emerge as a crucial land use type for maintaining ecosystem services such as HQ, CS, WY, and SR; 3) ESs have generally declined across the entire Zhejiang coasts, with a significant decrease observed in the northern areas and an increase in the southern areas spatially; 4) the expansion of built-up land areas emerged as the primary factor affecting ecosystem services, while the vegetation factor has been increasingly significant and is expected to become predominant in the near future. Our study provides insights of understanding of ecosystem service theory and emphasizing the importance of preserving biodiversity for long-term sustainable development, and valuable scientific references to support the ecological management decision-making for local governments. [ABSTRACT FROM AUTHOR]

Published

2024

2. Spatiotemporal evolution of habitat quality and its response to landscape patterns in karst mountainous cities: a case study of Guiyang City in China.

Author

Wang, Zhijie, Liu, Shujun, and Su, Yuan

Subjects

CITIES & towns, RESTORATION ecology, KARST, HABITATS, LANDSCAPE changes, ECOSYSTEM services

Abstract

Habitat quality heterogeneity is one of the concrete manifestations of landscape pattern changes caused by human activities, which is of great significance to improve habitat quality by optimizing landscape pattern, thus scientifically protecting biodiversity and promoting ecological civilization construction. The coupling of rapid urbanization and ecological restoration measures has had a significant influence on the habitat quality of fragile and fragmented karst mountainous cities in recent years. In this study, spatiotemporal dynamics and heterogeneity of habitat quality and the impact of landscape patterns on habitat quality are analyzed in Guiyang, a typical karst mountain city in southwest China, mainly using the key methodologies such as the Integrated Valuation of Ecosystem Services and Tradeoffs (InVEST) model, Exploratory Spatial Data Analysis (ESDA), and hierarchical partitioning (HP). We found that the habitat quality index of Guiyang City improved from 0.6643 to 0.6988 during 2000–2019; the distribution of habitat quality has significant spatiotemporal heterogeneity and spatial aggregation effect with the low values or the decreased areas concentrated in and around the built-up areas or urbanization expansion areas. Landscape composition had greater contribution than landscape configuration to habitat quality. The increased areas of natural habitat have had a positive effect on habitat quality. Moreover, each landscape configuration had a significant positive or negative correlation with the habitat quality. Therefore, implementing ecological protection and restoration measures in karst mountainous cities might be an effective strategy to improve habitat quality during rapid urbanization. Furthermore, optimizing habitat patterns, reducing the habitats loss, and protecting the natural habitat integrity are crucial to improving and maintaining biodiversity in the study area. [ABSTRACT FROM AUTHOR]

Published

2023

3. Response of ecosystem carbon storage to land use change from 1985 to 2050 in the Ningxia Section of Yellow River Basin, China

Author

Lin, Yanmin, Hu, Zhirui, Li, Wenhui, Chen, Haonan, Wang, Fang, Nan, Xiongxiong, Yang, Xuelong, and Zhang, Wenjun

Published

2024

4. Evaluation of the water conservation function in the Ili River Delta of Central Asia based on the InVEST model

Author

Cao, Yijie, Ma, Yonggang, Bao, Anming, Chang, Cun, and Liu, Tie

Published

2023

5. Spatio-temporal Changes in Water Conservation Ecosystem Service During 1990–2019 in the Tumen River Basin, Northeast China.

Author

Zhang, Peng, Liu, Xiaoping, Zhu, Weihong, Li, Chunjing, Jin, Ri, Yan, Hengqi, Gu, Chengyang, and Wang, Jingzhi

Subjects

*WATER conservation, *WATER management, *ECOSYSTEM services, *WATERSHEDS, *WATER security, *WATER shortages, *ENVIRONMENTAL security

Abstract

The water conservation (WC) function of ecosystems is related to regional ecological security and the sustainable development of water resources, and the assessment of WC and its influencing factors is crucial for ecological and water resource management. The Tumen River Basin (TRB) is located in the core of the Northeast Asian ecological network and has been experiencing severe ecological crises and water shortages in recent years due to climate change and human activities. However, these crises have not been fully revealed to the extent that corresponding scientific measures are lacking. This study analyzed the spatial and temporal evolution characteristics and drivers of WC in the TRB from 1990 to 2019 based on the water yield module of the Integrated Valuation of Ecosystem Services and Tradeoffs (InVEST) model. The results showed that: 1) under the combined effect of nature and socioeconomics, the WC depth of the TRB has slowly increased at a rate of 0.11 mm/yr in the past 30 years, with an average WC depth of 36.14 mm. 2) The main driving factor of the spatial variation in WC is precipitation, there is a significant interaction between precipitation and velocity, the interaction between each factor is higher than the contribution of a single factor, and the interactions between factors all have nonlinear enhancement and two-factor enhancement. 3) Among the seven counties and municipalities in the study area, the southern part of Helong City and the southeastern part of Longjing City are extremely important areas for WC (> 75 mm), and they should be regarded as regional water resources and ecological priority protection areas. It is foreseen that under extreme climate conditions in the future, the WC of the watershed is under great potential threat, and protection measures such as afforestation and forestation should begin immediately. Furthermore, the great interannual fluctuations in WC depth may place more stringent requirements on the choice of time scales in the ecosystem service assessment process. [ABSTRACT FROM AUTHOR]

Published

2023

6. Assessing and Characterizing Carbon Storage in Wetlands of the Guangdong–Hong Kong–Macau Greater Bay Area, China, During 1995–2020

Author

Yawen Deng, Weiguo Jiang, Zhifeng Wu, Kaifeng Peng, Ziyan Ling, Zhuo Li, and Xiaoya Wang

Subjects

Google Earth Engine (GEE), integrated valuation of ecosystem services and tradeoffs (InVEST) model, remote sensing (RS), wetland carbon storage, wetland change types, Ocean engineering, TC1501-1800, Geophysics. Cosmic physics, QC801-809

Abstract

Wetland carbon storage plays an essential role in the global carbon cycle. However, in recent decades, intensive human activities and rapid urbanization have reduced wetland C stocks in the Guangdong–Hong Kong–Macau Greater Bay Area (GBA). Long-term assessment of carbon storage in the wetland ecosystems of the GBA is needed for promoting regional sustainable development. Therefore, we proposed a framework integrating the integrated valuation of ecosystem services and tradeoffs (InVEST) model and water inundation frequency, which was retrieved via multiple index water detection rule based on Google Earth Engine platform, to estimate yearly carbon storage in wetlands across the GBA at a 30-m spatial resolution during 1995–2020. The incorporation of water inundation frequency in estimating carbon storage in wetlands presents features of long time series and higher temporal frequency. The results showed that: first, the carbon storage of wetlands estimated by the InVEST model decreased from 33.38 to 16.64 Tg·C between 1995 and 2020 in the GBA, mainly owning to the loss of paddy fields. Second, there is a significant exponentially decreasing relationship between water inundation frequency and carbon storage density within the potential wetland extent, with the R2 reaching 0.998, which denotes huge potential for estimating wetland carbon storage; third, annual wetland carbon storage estimated were divided into three main stages: a rapidly increasing period (1995–2004), a falling period (2005–2013), and a slightly fluctuating period (2015–2020). This research may provide references for supporting decision-making in implementing wetland-related sustainable development and carbon-neutrality policies in the GBA.

Published

2022