Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central China

Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central China

Optimizing rural residential areas (RRAs) in environmentally fragile areas such as flood detention basins is of great significance for improving the human–land relationship and achieving sustainable rural development. This study took Xun County in central China as a case study, established a dual mi...

Full description

Saved in:
Bibliographic Details
Main Authors: Enxiang Cai, Shihong Long, Ling Li, Ying Luo, Liling Ge, Weiqiang Chen, Guoquan Li
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Land
Subjects:
rural residential areas
optimization
minimum cumulative resistance
policy regulation
flood detention basin
Online Access:https://www.mdpi.com/2073-445X/13/12/2217
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1846103939449094144
author Enxiang Cai
Shihong Long
Ling Li
Ying Luo
Liling Ge
Weiqiang Chen
Guoquan Li
author_facet Enxiang Cai
Shihong Long
Ling Li
Ying Luo
Liling Ge
Weiqiang Chen
Guoquan Li
author_sort Enxiang Cai
collection DOAJ
description Optimizing rural residential areas (RRAs) in environmentally fragile areas such as flood detention basins is of great significance for improving the human–land relationship and achieving sustainable rural development. This study took Xun County in central China as a case study, established a dual minimum cumulative resistance model (DMCR) that considered the dual factors of natural attributes and policy regulations to evaluate the optimization resistance of RRAs and determined the optimization directions and strategies accordingly. The main results are: (1) RRAs are relatively small and scattered, and there are spatial conflicts with policy regulations such as flood detention basin and urban development boundaries. (2) The spatial difference in optimization resistance of RRAS is higher in the central and northern towns and lower in the western and eastern towns. The factors with significant effects include policy resistance, location resistance, and production resistance. (3) The optimization of RRAs is divided into three directions: annexation or evacuation, consolidation and improvement, and clustering and upgrading, with their respective area proportions of 31.17%, 48.12%, and 20.72%. (4) RRAs in the direction of clustering and upgrading allow for moderate expansion; RRAs in the direction of consolidation and improvement achieve smart reduction through the renovation of homesteads; RRAs in the direction of annexation or evacuation are gradually integrated into the urban area in the suburbs and completely demolished in the outer suburbs.
format Article
id doaj-art-84724c80da2b4dfa8f4fd12d97b5979f
institution Kabale University
issn 2073-445X
language English
publishDate 2024-12-01
publisher MDPI AG
record_format Article
series Land
spelling doaj-art-84724c80da2b4dfa8f4fd12d97b5979f2024-12-27T14:35:30ZengMDPI AGLand2073-445X2024-12-011312221710.3390/land13122217Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central ChinaEnxiang Cai0Shihong Long1Ling Li2Ying Luo3Liling Ge4Weiqiang Chen5Guoquan Li6College of Resources and Environment, Henan Agricultural University, Zhengzhou 450002, ChinaCollege of Resources and Environment, Henan Agricultural University, Zhengzhou 450002, ChinaCollege of Resources and Environment, Henan Agricultural University, Zhengzhou 450002, ChinaSchool of Tourism Management and Exhibition, Henan University of Economics and Law, Zhengzhou 450016, ChinaHenan Provincial Institute of Land and Space Survey and Planning, Zhengzhou 450012, ChinaCollege of Resources and Environment, Henan Agricultural University, Zhengzhou 450002, ChinaCollege of Plant Protection, Henan Agricultural University, Zhengzhou 450002, ChinaOptimizing rural residential areas (RRAs) in environmentally fragile areas such as flood detention basins is of great significance for improving the human–land relationship and achieving sustainable rural development. This study took Xun County in central China as a case study, established a dual minimum cumulative resistance model (DMCR) that considered the dual factors of natural attributes and policy regulations to evaluate the optimization resistance of RRAs and determined the optimization directions and strategies accordingly. The main results are: (1) RRAs are relatively small and scattered, and there are spatial conflicts with policy regulations such as flood detention basin and urban development boundaries. (2) The spatial difference in optimization resistance of RRAS is higher in the central and northern towns and lower in the western and eastern towns. The factors with significant effects include policy resistance, location resistance, and production resistance. (3) The optimization of RRAs is divided into three directions: annexation or evacuation, consolidation and improvement, and clustering and upgrading, with their respective area proportions of 31.17%, 48.12%, and 20.72%. (4) RRAs in the direction of clustering and upgrading allow for moderate expansion; RRAs in the direction of consolidation and improvement achieve smart reduction through the renovation of homesteads; RRAs in the direction of annexation or evacuation are gradually integrated into the urban area in the suburbs and completely demolished in the outer suburbs.https://www.mdpi.com/2073-445X/13/12/2217rural residential areasoptimizationminimum cumulative resistancepolicy regulationflood detention basin
spellingShingle Enxiang Cai
Shihong Long
Ling Li
Ying Luo
Liling Ge
Weiqiang Chen
Guoquan Li
Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central China
Land
rural residential areas
optimization
minimum cumulative resistance
policy regulation
flood detention basin
title Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central China
title_full Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central China
title_fullStr Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central China
title_full_unstemmed Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central China
title_short Optimization of Rural Residential Areas in Flood Detention Basins Based on Dual Minimum Accumulation Resistance Model: A Case Study of Xun County in Central China
title_sort optimization of rural residential areas in flood detention basins based on dual minimum accumulation resistance model a case study of xun county in central china
topic rural residential areas
optimization
minimum cumulative resistance
policy regulation
flood detention basin
url https://www.mdpi.com/2073-445X/13/12/2217
work_keys_str_mv AT enxiangcai optimizationofruralresidentialareasinflooddetentionbasinsbasedondualminimumaccumulationresistancemodelacasestudyofxuncountyincentralchina
AT shihonglong optimizationofruralresidentialareasinflooddetentionbasinsbasedondualminimumaccumulationresistancemodelacasestudyofxuncountyincentralchina
AT lingli optimizationofruralresidentialareasinflooddetentionbasinsbasedondualminimumaccumulationresistancemodelacasestudyofxuncountyincentralchina
AT yingluo optimizationofruralresidentialareasinflooddetentionbasinsbasedondualminimumaccumulationresistancemodelacasestudyofxuncountyincentralchina
AT lilingge optimizationofruralresidentialareasinflooddetentionbasinsbasedondualminimumaccumulationresistancemodelacasestudyofxuncountyincentralchina
AT weiqiangchen optimizationofruralresidentialareasinflooddetentionbasinsbasedondualminimumaccumulationresistancemodelacasestudyofxuncountyincentralchina
AT guoquanli optimizationofruralresidentialareasinflooddetentionbasinsbasedondualminimumaccumulationresistancemodelacasestudyofxuncountyincentralchina

Similar Items