PENGARUH RENCANA POLA RUANG TERHADAP PROSPEK PENERAPAN INFRASTRUKTUR HIJAU DI SUB-DAS CIKAPUNDUNG
Green infrastructure as a conservation network of interconnected soil hydrological systems between green areas and corridors can be viewed as water catchment optimization areas that function in absorbing surface water runoff. The incidence of floods or puddles and land subsidence in the Cikapundu...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/37688 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Green infrastructure as a conservation network of interconnected soil
hydrological systems between green areas and corridors can be viewed as water
catchment optimization areas that function in absorbing surface water runoff. The
incidence of floods or puddles and land subsidence in the Cikapundung Subwatershed
area occurred due to the reduced water catchment area, for maintaining
water catchment function in the Cikapundung sub-watershed area can be applied
green infrastructure. Changes in land use or spatial patterns become watertight
may affect the prospects for application of green infrastructure in the Cikapundung
Sub-catchment area. The purpose of this study was to identify the effect of spatial
pattern plan on the prospect of applying green infrastructure in Cikapundung Subwatershed
area.
The method of analyzing the potential application of green infrastructure
used under the SUSTAIN model criteria issued by the US Environmental Protection
Agency (EPA) is the United States Environmental Protection Agency, analysis
using ArcMap 10.3 software. To estimate the ratio of absorption capacity of runoff
by green infrastructure under different spatial conditions, Soil Conservation
Service (SCS).
The result of analysis shows that the plan of spatial pattern of Cikapundung
sub-watershed area in 2036 can reduce the prospect of applying potential green
infrastructure to spatial pattern in 2011, which can reduce potential green
infrastructure in 2011 by 35.60% or 7.026.09 Ha and reduce absorption run-off
capacity by the green infrastructure by 13.23% or 1,185,510.23 m3. |
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