Scenario simulation of land use change and carbon storage response in Henan Province, China: 1990–2050

Ecological Indicators, Journal Year: 2023, Volume and Issue: 154, P. 110660 - 110660

Published: July 15, 2023

The carbon storage service of terrestrial ecosystems has an veritable impact on the global cycle and, in turn, climate change. Hence, both assessing and predicting land use changes are necessary to reduce emissions mitigate Therefore, using integrated valuation ecosystem services tradeoffs (InVEST) model with remote sensing data, this study systematically analyzes use/cover change (LUCC) response characteristics types Henan Province, China 1990–2020 period. also uses patch-generating simulation (PLUS) predict LUCC Province from 2023 2050 under different scenarios, including Business as Usual (BAU), Ecological Conservation (EC), Urban Development (UD) scenarios. following results noted: (1) mainly comprises conversion farmland construction land. Presently, Province's is found have decreased by 339.72 Tg due LUCC, which characterized "high west low east." (2) Regarding three aforementioned province's predicted increase its greatest extent UD scenario. Under EC scenario, woodland areas will be effectively protected. highest level reserves likely followed that BAU while lowest should seen 312.07 Tg, 233.43 394.49 lower than 2020 BAU, EC, respectively. In sum, provides scientific basis decisions aimed at facilitation low-carbon development, optimal utilization spaces, development ecological civilization Province.

Language: Английский

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Effects of land use/cover change on carbon storage between 2000 and 2040 in the Yellow River Basin, China

Ecological Indicators, Journal Year: 2023, Volume and Issue: 151, P. 110345 - 110345

Published: May 11, 2023

Land use/cover change (LUCC) is the primary source of carbon storage changes in ecosystem. Up to now, there are few studies about impacts and driving mechanisms LUCC for ecosystem at spatial–temporal scales. Characterizing Yellow River Basin (YRB) its role very important necessary elucidate results human activities on ecosystems. The policies address potential future risks should be formulated advance achieve effective development. In paper, we regarded YRB as study area, analyzed during 2000 2020, predicted land use patterns 2040 under scenarios natural trend (NT), ecological degradation (ED), restoration (ER) using Markov model with Patch-generating Use Simulation (PLUS) model, quantified ecosystems over last 20 years according Integrated Valuation Ecosystem Services Tradeoffs (InVEST) model. outcome was follows: (1) During 2040, changed markedly, cropland being transformed into woodland, grassland built-up land; (2) an upward a mean annual increase 1.93×106Mg C, woodland answer increasing storage, while unused could induce decrease; (3) Carbon varied different degrees three scenarios, but premise not causing large-scale damage, conversion means improving greatly enhancing sequestration efficiency capacity YRB. conclusion, environmental management continuously oriented protection low-carbon development, so that basin will able develop benign direction.

Language: Английский

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Land use and land cover changes in Morocco: trends, research gaps, and perspectives

GeoJournal, Journal Year: 2025, Volume and Issue: 90(1)

Published: Feb. 12, 2025

Language: Английский

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Coupling coordination analysis of production, living, and ecological spaces in wetlands: A case study of Xianghai Wetland nature reserve, China

Ecological Indicators, Journal Year: 2024, Volume and Issue: 158, P. 111578 - 111578

Published: Jan. 1, 2024

With the global alterations in ecological conditions and population growth, study of production-living-ecological space (PLES) offers a new perspective balancing land resource utilization with sustainable development society, economy, environment. China has incorporated optimization PLES into its strategy. However, research concerning functions within wetland ecosystems remains notably sparse. Wetlands, distinguished by their unique ecosystem, command special place realm production, living ecology research. Their importance is multifaceted, stemming from roles ecology, socio-cultural dimensions, further accentuated distinct geographical, climatic, biodiversity attributes. In light this, Xianghai Wetland Nature Reserve Jilin, China, was chosen as focal point this to probe coupling coordination degree functions. The commenced thorough analysis changes use types 2000 2020 using transition matrix model. Following customized function assessment framework called LUF-PLE formulated, offering quantitative wetland’s living, shedding on spatiotemporal dynamics. Finally, model (CCDM) employed elucidate evolution wetlands. Key findings revealed that: (1) exhibited pattern decline, stabilizing post-2010, most pronounced dip observed between 2000–2010; (2) production subdued, whereas saw steepest decline. future, strategy should be formulated implemented based trends differentiation production-liveling-ecological local context. This furnishes scientific substantiation serves reference for stewardship preservation

Language: Английский

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Remote Data for Mapping and Monitoring Coastal Phenomena and Parameters: A Systematic Review

Remote Sensing, Journal Year: 2024, Volume and Issue: 16(3), P. 446 - 446

Published: Jan. 23, 2024

Since 1971, remote sensing techniques have been used to map and monitor phenomena parameters of the coastal zone. However, updated reviews only considered one phenomenon, parameter, data source, platform, or geographic region. No review has offered an overview that can be accurately mapped monitored with data. This systematic was performed achieve this purpose. A total 15,141 papers published from January 2021 June 2023 were identified. The 1475 most cited screened, 502 eligible included. Web Science Scopus databases searched using all possible combinations between two groups keywords: geographical names in areas platforms. demonstrated that, date, many (103) (39) (e.g., coastline land use cover changes, climate change, urban sprawl). Moreover, authors validated 91% retrieved parameters, 39 1158 times (88% combined together other parameters), 75% over time, 69% several compared results each available products. They obtained 48% different methods, their 17% GIS model techniques. In conclusion, addressed requirements needed more effectively analyze employing integrated approaches: they data, merged

Language: Английский

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Assessing carbon storage and sequestration benefits of urban greening in Nador City, Morocco, utilizing GIS and the InVEST model

Sustainable Futures, Journal Year: 2024, Volume and Issue: 7, P. 100171 - 100171

Published: Feb. 21, 2024

In the 21st century, tackling climate change is an important challenge, and absorption of CO2 via urban greening employing photosynthesis offers a potential answer to issue. Within this work, city Nador chosen as case study. The initiative in question proposes enhanced technique focused on estimating advantages terms carbon storage sequestration. This combines use Geographic Information Systems (GIS) tools InVEST model, enabling study land cover (LULC) scenarios within location. These contain numerous alternatives, ranging from adoption intense extensive green roofs establishment gardens woodland areas. modeling depends exploitation maps, reinforced by bibliographic examination key reservoirs. analysis results biophysical indicates considerable increase over 45.36% compared existing condition when option chosen. setting roofs, rise reaches rate 64.20%. Furthermore, restoration Gourougou forest north leads 70.30%. diverse combinations, such integration with vegetation, greatly helps further enhancing storage. From financial perspective, additional value can range $2,012,825.16 $3,601,025.53, depending scenario. assessment highlights possible that might be converted into credits return for emission reduction, partially offsetting expenses associated each solution. Ultimately, these findings give chance planners architecture professionals perform in-depth planning analyses.

Language: Английский

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Spatiotemporal Evolution and Future of Carbon Storage in Resource-Based Chinese Province: A Case Study from Shanxi Using PLUS–InVEST Model Prediction

Sustainability, Journal Year: 2024, Volume and Issue: 16(11), P. 4461 - 4461

Published: May 24, 2024

Resource exploitation markedly alters land use and ecological carbon storage, posing risks to sinks food security. This study analyzes land-use change from 1990 2020 in the resource-based province of Shanxi, China. By introducing a mineral resource driver, PLUS model was used predict four scenarios: natural development (ND), cropland protection (CP), (EP), dual ecology (DP). The spatial temporal evolutions storage were then analyzed using InVEST model. Forests predominantly distributed mountainous areas, with croplands southerly central flat construction lands around cities, mining sporadically across Shanxi. From 2020, grasslands decreased, while forest, construction, increased. Carbon decreased continuously, total loss 15.1 × 106 t. High-value areas Lüliang, Taihang, Taiyue Mountains, low-value more populous southern regions. predicted decline by 2035 under ND CP scenarios exceed that EP DP scenarios. scenario projected an increase 4.93 t 2035. realizes maintains security, providing theoretical reference for achieving neutrality high-quality sustainable Shanxi Province.

Language: Английский

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Evolution and Simulation of Terrestrial Ecosystem Carbon Storage and Sustainability Assessment in Karst Areas: A Case Study of Guizhou Province

International Journal of Environmental Research and Public Health, Journal Year: 2022, Volume and Issue: 19(23), P. 16219 - 16219

Published: Dec. 4, 2022

Against the background of "carbon neutrality" and sustainable development goals, it is great significance to assess carbon storage changes sustainability terrestrial ecosystems in order maintain coordinated regional ecological economies balance ecosystems. In this study, ecosystem Guizhou from 2010 2020 was assessed with InVEST model. Using PLUS model, distribution by 2030 2050 predicted. The current level evaluated after establishing an index system based on SDGs. results showed following: (1) From 2020, decreased 1106.68 × 10

Language: Английский

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Spatiotemporal changes of coastal land use land cover and its drivers in Shanghai, China between 1989 and 2015

Ocean & Coastal Management, Journal Year: 2023, Volume and Issue: 244, P. 106802 - 106802

Published: Sept. 1, 2023

Language: Английский

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Multi-Temporal Change of LULC and Its Impact on Carbon Storage in Jiangsu Coastal, China

Land, Journal Year: 2023, Volume and Issue: 12(10), P. 1943 - 1943

Published: Oct. 20, 2023

Coastal is the coupling of socio-economic and fragile ecosystems area existing development protection problems, with lots reserve land resources (i.e., bottomland tidal flats). Analyzing predicting carbon storage changes caused by use/land cover (LULC) on Jiangsu coast were critical for revealing potential problems surface sustainable development. Then, we utilized single dynamic degree transfer in/out contribution, exploring characteristics LULC change in study from 1980 to 2018. Using InVEST model, PLUS-LEAS PLUS-Markov chain module, assessed spatiotemporal at county level reveal strategy driving factor as well composition 2036. The results show that structure significantly changed 2018, which flat high coverage grassland decreased 552.84 km2 383.71 while reservoir ponds urban residential increased 1210.69 101.70 km2. major has shifted a single-factor multi-factor coupling, influence contribution human activity 6.73%, especially population. areas showed significant decrease trend during 1980–2010, followed slight increase 2010–2018. High-density was mainly distributed Lianyungang Nantong presented decreasing along coastline extending inland. dry are main types 2036, 2.39 × 108 t. In addition, more than decades will part or all use process trends, high-covered grasslands, so suggest 10-year analyze coastal flats bottomlands. Therefore, this can provide reference theoretical guidance ecologically future evolution cities.

Language: Английский

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