FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2069776130> ?p ?o ?g. }

• W2069776130 abstract "The balance between overall economic growth and protection of the environment is an important research topic of urban sustainable development. In 2005, Shenzhen promulgated the regulations, Administrative Regulations of Shenzhen Municipality on the Essential Area for Protecting Ecology [abbreviated as essential area policy (EAP)], which limited development to protect ecology. In order to evaluate the effects of this policy, a computer model was used to simulate land-use change based on a land-use change survey dataset of Shenzhen, a typical rapid urbanization area, under four scenarios. The writers aimed at developing a clear understanding of not only the effects of land protection policies for urban ecosystems but of a well-grounded prospect for regionally coordinated development as well. Five landscape structure metrics were chosen to describe the landscape pattern, including (1) number of patches, (2) mean patch area, (3) landscape shape index, (4) aggregation index, and (5) contagion index. In calculating and comparing these landscape metrics, the results support the conclusion that facing pressure from urban sprawl, agroecological land, water, and other nature-dominated areas shrink to high-altitude regions, and many small landscape patches disappear altogether, especially in the mixed periurban region in each scenario. The rapid growth of construction zones causes landscape fragmentation and renders the shape of the urban landscape more regular and smooth. However, EAP can keep small land patches from being developed into built-up areas; improve the percentage of agroecological land, water, and other nature-dominated areas within protected zones; and impel the relocation of these kinds of land-use from outside to inside the zone. The EAP affects the landscape pattern by increasing the mean area of each patch and the number of patches. If EAP were implemented in 2008, the number of patches and the landscape shape index would be relatively higher, whereas the aggregation and contagion indices would be lower than those resulting from nonimplementation. If EAP were implemented in 2008 but abolished in 2013, the number of patches and the landscape shape index would decrease, while the aggregation and contagion indices would increase. In contrast, if EAP were implemented in 2013, the number of patches and the landscape shape index would increase, while the aggregation and contagion indices would decrease. Delimitation of the boundary of an essential area is a critical factor in designing an effective policy. This paper enables land planners to understand the effects of EAP and highlights its importance as a tool for policymakers and stakeholders." @default.
• W2069776130 created "2016-06-24" @default.
• W2069776130 creator A5021653380 @default.
• W2069776130 creator A5058194298 @default.
• W2069776130 creator A5064231139 @default.
• W2069776130 creator A5078474085 @default.
• W2069776130 date "2015-12-01" @default.
• W2069776130 modified "2023-09-23" @default.
• W2069776130 title "Environmental Policy Simulation and Assessment under Rapid Urbanization: Case Study of Essential Area Policy in Shenzhen, China" @default.
• W2069776130 cites W1492652135 @default.
• W2069776130 cites W1968885079 @default.
• W2069776130 cites W1970065559 @default.
• W2069776130 cites W1970916308 @default.
• W2069776130 cites W1973137284 @default.
• W2069776130 cites W1984304562 @default.
• W2069776130 cites W1985038224 @default.
• W2069776130 cites W1992050944 @default.
• W2069776130 cites W1996748744 @default.
• W2069776130 cites W2001728655 @default.
• W2069776130 cites W2002368034 @default.
• W2069776130 cites W2003187416 @default.
• W2069776130 cites W2005630222 @default.
• W2069776130 cites W2008817322 @default.
• W2069776130 cites W2011751105 @default.
• W2069776130 cites W2015932103 @default.
• W2069776130 cites W2016581285 @default.
• W2069776130 cites W2018773489 @default.
• W2069776130 cites W2030983679 @default.
• W2069776130 cites W2031041917 @default.
• W2069776130 cites W2034715863 @default.
• W2069776130 cites W2037823182 @default.
• W2069776130 cites W2039982163 @default.
• W2069776130 cites W2044083094 @default.
• W2069776130 cites W2045491940 @default.
• W2069776130 cites W2047568705 @default.
• W2069776130 cites W2051512952 @default.
• W2069776130 cites W2052001120 @default.
• W2069776130 cites W2056471298 @default.
• W2069776130 cites W2057454049 @default.
• W2069776130 cites W2059282622 @default.
• W2069776130 cites W2060431007 @default.
• W2069776130 cites W2061640970 @default.
• W2069776130 cites W2061935177 @default.
• W2069776130 cites W2064045645 @default.
• W2069776130 cites W2065387409 @default.
• W2069776130 cites W2070177719 @default.
• W2069776130 cites W2072443144 @default.
• W2069776130 cites W2076251604 @default.
• W2069776130 cites W2077070908 @default.
• W2069776130 cites W2080772800 @default.
• W2069776130 cites W2088262821 @default.
• W2069776130 cites W2089892649 @default.
• W2069776130 cites W2096613375 @default.
• W2069776130 cites W2097205878 @default.
• W2069776130 cites W2099397890 @default.
• W2069776130 cites W2100428405 @default.
• W2069776130 cites W2120000166 @default.
• W2069776130 cites W2123852650 @default.
• W2069776130 cites W2129426812 @default.
• W2069776130 cites W2135328819 @default.
• W2069776130 cites W2141376108 @default.
• W2069776130 cites W2149483163 @default.
• W2069776130 cites W2151389381 @default.
• W2069776130 cites W2152167972 @default.
• W2069776130 cites W2153622281 @default.
• W2069776130 cites W2155349182 @default.
• W2069776130 cites W2164777277 @default.
• W2069776130 cites W2171730709 @default.
• W2069776130 cites W2265414043 @default.
• W2069776130 cites W2312585688 @default.
• W2069776130 cites W4232895012 @default.
• W2069776130 cites W4239788681 @default.
• W2069776130 cites W4254732352 @default.
• W2069776130 doi "https://doi.org/10.1061/(asce)up.1943-5444.0000259" @default.
• W2069776130 hasPublicationYear "2015" @default.
• W2069776130 type Work @default.
• W2069776130 sameAs 2069776130 @default.
• W2069776130 citedByCount "5" @default.
• W2069776130 countsByYear W20697761302019 @default.
• W2069776130 countsByYear W20697761302020 @default.
• W2069776130 countsByYear W20697761302022 @default.
• W2069776130 countsByYear W20697761302023 @default.
• W2069776130 crossrefType "journal-article" @default.
• W2069776130 hasAuthorship W2069776130A5021653380 @default.
• W2069776130 hasAuthorship W2069776130A5058194298 @default.
• W2069776130 hasAuthorship W2069776130A5064231139 @default.
• W2069776130 hasAuthorship W2069776130A5078474085 @default.
• W2069776130 hasConcept C107826830 @default.
• W2069776130 hasConcept C118518473 @default.
• W2069776130 hasConcept C122690726 @default.
• W2069776130 hasConcept C136764020 @default.
• W2069776130 hasConcept C166957645 @default.
• W2069776130 hasConcept C185933670 @default.
• W2069776130 hasConcept C18903297 @default.
• W2069776130 hasConcept C191935318 @default.
• W2069776130 hasConcept C199360897 @default.
• W2069776130 hasConcept C205649164 @default.
• W2069776130 hasConcept C2777382242 @default.
• W2069776130 hasConcept C2779019381 @default.
• W2069776130 hasConcept C2780648208 @default.

• next