THE IMPACT OF LAND USE CHANGES ON EXTRIMITIES IN STREAM DISCHARGE AND WATER SUSTAINABILITY IN THE CISANGKUY WATERSHED-UPSTREAM CITARUM, WEST JAVA
Increasing population growth in the Bandung Regency, especially in the Cisangkuy Watershed area, has led to intensive land use change. Land use change affects runoff flow and discharge, thus impacting the sustainability of the Citarum River's water resources. Increased runoff will cause floo...
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| Format: | Theses |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/80315 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Increasing population growth in the Bandung Regency, especially in the Cisangkuy
Watershed area, has led to intensive land use change. Land use change affects
runoff flow and discharge, thus impacting the sustainability of the Citarum River's
water resources. Increased runoff will cause flooding during the rainy season.
During the dry season, the base flow will decrease, causing a lack of water
infiltration into the soil. These are commonly referred to as the discharge extremity
phenomena. This research was conducted with the aim of assessing the hydrological
function on extrimities in stream discharge as a result of land use change in the
Cisangkuy Watershed. In order to determine the influence of land use on
groundwater conservation, a conservation index analysis was conducted. The
method carried out by scoring to the parameters of rainfall, rock type, soil type,
topography, and land use, each of which has been assessed according to its
influence on the ability to absorb rainwater. Based on the analysis, it is known that
land use change in the period 2012-2022 has decreased the overall conservation
function in the Cisangkuy Watershed area. The declining value of conservation
function is indicated by the reduction of normal conservation criteria by 4.042,41
ha or 11.86%. The discharge extremities can be seen based on the maximum
discharge value that increases in the downstream and the minimum discharge value
that decreases in the upstream. Increasingly extreme discharge cause disruption of
water resources infrastructure in the Cisangkuy Watershed area which is discribed
by a decrease in minimum discharge and an increase in flood discharge in the
period between regime of undeveloped and developed area. The application of
environmental drainage systems and infiltration wells to restore hydrological
function in Hari Residence Pangalengan shows the ability to absorb runoff
discharge in return period 10 to 20 years and appropriated with zero runoff concept
that will not interfere function of macro drainage/river. |
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