ANALYSIS
OF KREO SUB WATERSHED
IN SEMARANG
BASED ON REMOTE SENSING
AND
GEOGRAPHIC INFORMATION SYSTEMS
- Image Interpretation
Kreo Sub
Watershed administratively located in Semarang District, Kendal District and
Semarang City. Astronomically it located in 1100 18’ 30’’ - 1100 22’ 45’’ East Longitude and 70
1’ 15’’ - 70 11’ 15’’ South Latitude. Kreo Sub Watershed
extend from north to south at Ungaran Mountain north slope.
Kreo Sub Watershed
image aqcuired from Advanced Spaceborne Thermal Emission and
Reflection Radiometer (ASTER) data. ASTER data is an
imaging instrument onboard Terra, the flagship satellite of NASA's Earth
Observing System (EOS) launched in December 1999. ASTER is a cooperative
effort between NASA, Japan's Ministry of Economy, Trade and Industry (METI),
and Japan Space Systems.
ASTER is used to create detailed maps of land surface temperature,
reflectance, and elevation (NASA, 2004).
ASTER image
of Kreo Sub Watershed were classifying in maximum likelihood classification method.
Maximum likelihood considers both the variances
and covariance of the class signatures when assigning each cell to one of the
classes represented in the signature file (Horning,
etc, 2010). With the assumption that the
distribution of a class sample is normal, a class can be characterized by the
mean vector and the covariance matrix. Given these two characteristics for each
cell value, the statistical probability is computed for each class to determine
the membership of the cells to the class. Output results processed in cosmetic operation (Fig.1 and Fig. 2).
Fig. 1. Land Cover of Kreo Sub Watershed
Fig. 2. Land Type of Kreo Sub Watershed
Based on
Fig.1 about land cover of Kreo Sub Watershed, it can be seen that in Upstream
Area, there are smal area of high density vegetation. Downstream Area was full
of building area and lesser in Middle. Land cover of Kreo Sub Watershed was
incompatible for ideal watershed. High increasing in population make
uncomfortable condition in Kreo sub watershed.
On Fig. 2
it’s about land type, Andosols usually found in surrounding volcano mountain
cone and high slope. Latosol mostly come from volcano material, intrusive
igneous rocks. It found in wet climate, elevation between 300-1000 meters.
Mediteran found in slope under 400 meters, mostly fom limestone and volcano
materials.
- Area
Profile
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Fig. 3. Profile of Kreo Sub Watershed
- Short
Description for Development and Disaster
Kreo Sub
Watershed is a part of Garang Watershed. There are Kreo, Kripik and Garang
River which flow became one through Garang River to single outlet. In context
of development and disaster, it’s comphrensive effort to view Kreo Sub
Watershed as a part of Garang Watershed which affect each others.
Fig. 4. Drainage Pattern of Garang Watershed
Shape of
Garang Watershed (Fig 4) like bottle, which bulge in under part and tighten in
neck. In Fig 3. Shown that this watershed have high steep slope. Bottle shape
have consequence, if there is high intensity of rainfall (input) that
accumulate, run off will have high speed and less time to reach the downstream
area. And Infiltration area in upstream decrease each day because of land
opening so there is flood disaster in Semarang City. In case of Kreo Sub
Watershed, which have extended shape, debit was small relative, it make time to
reach downstream slower than in bottleneck shape. Infiltration capacity in Kreo
Sub Watershed highest in forest land use, mixed garden and paddy field
(Setyowati, 2007). Infiltration capacity in forest area is highest than the
other because of coarse land texture and roots of vegetation which deep
penetrate through land and make pores, so water from rainfall easier to
infiltrate. But forest condition in Kreo sub watershed worse each year
(Raharjo, 2009). Nugraha and Cahyadi (2012) analyze that Garang Sub Watershed
was the first priority in case of flood mitigation, followed by Kreo and Kripik
Sub Watershed. Kreo Sub Watershed also have potential for flood, it must be
concern of all stakeholder in Kreo area in their development plans.
In a
development issue, there are distribution in Kendal and Semarang Government.
Cooperation between of them needs to be held, forest agency, non-government organization,
private organization or anything else which related to watershed development must
coordinated. Sometimes there is crash between economic or human right necesity
and conservation. Conservation wants to make “green” everything and not to
disturbance the balance watershed ecosystem especially in upstream area. In the
other hand, human need living area, food source, etc which cause land use
change. Use of remote sesnsing and geographic information system in development
issue can be improve the master plans of development especially in Kreo Sub
Watershed. It can be analyze, forecasting, simulating what the effect of
developments in present so we can prevent the hazard or disaster.
REFERENCE
Horning, N., etc. 2010. Remote
Sensing for Ecology and Conservation. New York: Oxford University Press.
NASA. 2004. Advanced Spaceborne
Thermal Emision and Reflection Radiometer. Acessed from http://asterweb.jpl.nasa.gov/ at
November 29th, 2012.
Nugraha, H., & Cahyadi, A. 2012. Analisis
Morfometri Menggunakan Sistem Informasi Geografis Untuk Penentuan Sub DAS
Prioritas (Studi Kasus Mitigasi Bencana Banjir Bandang di DAS Garang Jawa
Tengah). Conveyed on National Conference of Informatics 2012 UPN Veteran.
Yogyakarta, June 30th, 2012.
Raharjo, P., D. 2009. Perubahan Penggunaan Lahan DAS Kreo Terhadap Debit
Puncak Dengan Aplikasi Penginderaan Jauh. Jurnal
Riset Geologi dan Pertambangan. Jilid 19 No. 2. 69-84
Setyowati, D., L. 2007. Sifat Fisik Tanah dan Kemampuan Tanah Meresapkan
Air Pada Lahan Hutan, Sawah, dan Permukiman. Jurnal Geografi. Volume 4 No. 2
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