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A6. Large River Basin Organization of Pompengan-Jeneberang

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A6. LARGE RIVER BASIN ORGANIZATION OF POMPENGAN-JENEBERANG Attachment V.110 KALUKKU - KARAMA RIVER BASIN MAP River Basin Code : 05.13.A2 PALU-LARIANG RIVER BASIN POMPENGAN-LARONA RIVER BASIN Legend : Provincial Capital City District Capital City Provincial Boundary District Boundary Attachment V.111 River Basin Code : Names of Watersheds (DAS) : POMPENGAN-LARONA RIVER BASIN MAP 05.14.A2 PARIGI-POSO Legend : RIVER BASIN Provincial Capital City District Capital City Provincial Boundary LAA-TAMBALOKO District Boundary PALU-LARIANG Boundary of Islands within the River Basin RIVER BASIN RIVER BASIN River Basin Boundary Watershed Boundary Coastal Line River KALUKKU-KARAMA Reservoir/Lake RIVER BASIN Dam SADDANG RIVER BASIN TOWARI-LASUSUA RIVER BASIN LASOLO-KONAWEHA Names of Watersheds (DAS) : RIVER BASIN Attachment V.112 SADDANG RIVER BASIN MAP River Basin Code : 05.15.A2 WALANAE- POMPENGAN-LARONA CENRANAE KALUKKU-KARAMA RIVER BASIN RIVER BASIN RIVER BASIN WALANAE-CENRANAE RIVER BASIN Legend : Names of Watersheds (DAS) : Provincial Capital City District Capital City Provincial Boundary District Boundary Boundary of Islands within the River Basin River Basin Boundary Watershed Boundary Coastal Line Attachment V.113 WALANAE-CENRANAE RIVER BASIN MAP River Basin Code : 05.16.A3 POMPENGAN-LARONA RIVER BASIN SADDANG RIVER BASIN TOWARI-LASUSUA RIVER BASIN Legend : Provincial Capital City Names of Watersheds (DAS) : District Capital City Provincial Boundary District Boundary Boundary of Islands within the River Basin River Basin Boundary Watershed Boundary Coastal Line Attachment V.114 JENEBERANG RIVER BASIN MAP River Basin Code : 05.17.A3 Names of Watersheds (DAS) : WALANAE-CENRANAE RIVER BASIN Legend : Provincial Capital City District Capital City Provincial Boundary District Boundary Boundary of Islands within the River Basin River Basin Boundary Watershed Boundary SADDANG Coastal Line RIVER BASIN River Reservoir/Lake Dam LARGE RIVER BASIN ORGANIZATION OF POMPENGAN-JENEBERANG TABLE OF CONTENTS 1. DESCRIPTION OF ORGANIZATION 1.1. General Information 3 1.2. Brief History 3 1.3. Organizational Structure 4 1.4. Human Resources 4 1.5. General Condition of Work Area 5 1.6. Hydrology 8 1.7. Watersheds, Rivers and Tributaries 8 1.8. Budgets of 2010, 2011 and 2012 9 1.9. Issues 9 2. WATER RESOURCES MANAGEMENT 2.1. Water Resources Conservation 12 2.2. Water Resources Utilization 12 2.3. Control of Water Destructive Power 13 2.4. Water Resources Information System 19 2.5. Community Empowerment and Participation 19 3. WATER RESOURCES MANAGEMENT IN THE FUTURE 3.1. Comprehensive Management 20 3.2. Implementation Strategy 20 LIST OF TABLES Table 1 Civil Servant Employees 4 Table 2 Non-Civil Servant Employees 4 Table 3 Locations of Rainfall Stations 8 Table 4 Watersheds and Main Rivers 8 Table 5 Budget Implementation List (DIPA) of BBWS Pompengan-Jeneberang 9 Table 6 Sedimentation Rates of Bili-bili Reservoir 10 Table 7 Coastal Abrasion in Jeneberang River Basin 11 Table 8 Irrigation Water Requirements and Total Water Requirements 12 Table 9 Dams 12 1 LIST OF FIGURES Figure 1 Work Area of BBWS Pompengan-Jeneberang 4 Figure 2 Pompengan-Lorena River Basin 5 Figure 3 kaluku-Karama River Basin 6 Figure 4 Saddang River Basin 6 Figure 5 Walanae-Cenranae River Basin 7 Figure 6 Jeneberang River Basin 7 Figure 7 Floods in Moncongloe, Manggala and Biringkanayasub-regencies, January 2012 9 Figure 8 Collapsed Caldera 11 Figure 9 Bili-bili Dam 13 Figure 10 Sediment Control Model of Mount Bawakaraeng 13 Figure 11 Sediment Control Scheme of Mount Bawakaraeng 14 Figure 12 Direct and Indirect Sediment Control 15 Figure 13 Sabo Dam 7-1 and 7-2 15 LARGE RIVER BASIN ORGANIZATION OF POMPENGAN-JENEBERANG Figure 14 Sabo Dam 7-5 and 7-7 15 Figure 15 Consolidation Weir 16 Figure 16 KD-1 and KD-2 that also function as bridges 16 Figure 17 CD-2 and CD-3 equipped with Bridges 16 Figure 18 SP-5 before Mount Bawakaraeng Landslide 17 Figure 19 SP-5 after Mount Bawakaraeng Landslide 17 Figure 20 Flood and Landslide Monitoring Station in Lengkese Village and Clean Water Infrastructure for the Residents of Tamalate Village, Gowa 18 Figure 21 Distribution of Sediments Caused By Mount BawakaraengLandslide 18 Figure 22 Socialization and Workshop on Water Resources Information System 19 Figure 23 GN-KPA Work Group Secretariat 20 2 LARGE RIVER BASIN ORGANIZATION OF POMPENGAN-JENEBERANG 1. DESCRIPTION OF ORGANIZATION Attachment IV.26 SOUTH SULAWESI PROVINCE RIVER BASIN MAP Map Of River Basins In South Sulawesi Province : Legend : Provincial Capital City 05.08.A2 PALU-LARIANG RIVER BASIN District Capital City 05.13.A2 KALUKKU-KARAMA RIVER BASIN Provincial Boundary 05.14.A2 POMPENGAN-LARONA RIVER BASIN District Boundary Boundary of Islands within the River Basin 05.15.A2 SADDANG RIVER BASIN River Basin Boundary 05.16.A3 TOWARI-LASUSUA RIVER BASIN Watershed Boundary Coastal Line 05.17.A3 WALANAE-CENRANAE RIVER BASIN Scale 1 : 2.500.000 Reservoir/Lake 05.18.A2 JENEBERANG RIVER BASIN Figure 1: Work Area of BBWS Pompengan-Jeneberang 1.1. General Information Name : Balai Besar Wilayah Sungai Pompengan-Jeneberang Address : Jl. Sekolah Guru Perawat No. 3 Municipality : Makassar - 90222 Telephone : (0411) 868 781; 868 792 Facsimile : (0411) 868 781; 868 792 Website : http://www.bbws-pompenganjeneberang.org E-mail : [email protected] Legal Basis : Regulation of Minister of Public Works Number 23/ PRT/M/2008 Work Area : 3 Name of River Basin Code Classification Kaluku-Karama River Basin 05.13.A2 Cross-provincial Pompengan-Lorena River Basin 05.14.A2 Cross-provincial Saddang River Basin 05.15.A2 Cross-provincial Walanae-Cenranae River Basin 05.16.A3 National Strategic Jeneberang River Basin 05.17.A3 National Strategic 1.2. Brief History 1986 : Jeneberang River Improvement Project 1998 : Master Project for Jeneberang River 2007 : Balai Besar Wilayah Sungai Pompengan-Jeneberang (Large River Basin Organization of Pompengan-Jeneberang) LARGE RIVER BASIN ORGANIZATION OF POMPENGAN-JENEBERANG 1.3. Organizational Structure The Balai Besar Wilayah Sungai (BBWS) Pompengan-Jeneberang is categorized as a type-A large river basin organization which organizational structure consists of: 1) Administration Department 2) Program and Evaluation Division 3) Water Source Network Implementation Division 4) Water Utilization Implementation Division 5) Water Resources Operation and Maintenance Division There are 5 (five) work units in the implementation of the organization’s operational budget, namely: 1) Work Unit of BBWS Pompengan-Jeneberang 2) Non-Vertical Work Unit for Particular Purpose (SNVT) for Water Source Network Implementationin South Sulawesi 3) Non-Vertical Work Unit for Particular Purpose (SNVT) for Water Source Network Implementation in West Sulawesi 4) Non-Vertical Work Unit for Particular Purpose (SNVT) for Water Utilization Implementation in South Sulawesi 5) Non-Vertical Work Unit for Particular Purpose (SNVT) for Water Utilization Implementation in West Sulawesi 1.4. Human Resources BBWS Pompengan-Jeneberang has 684 employees, which consist of 515Civil Servants and the rest are Non-Civil Servants. Table 1: Civil Servant Employees Educational Level Technical Non- Technical Total S2 (Master’s Degree) 43 5 48 S1 (Bachelor’s Degree) 57 109 166 D3 (3-year Associate Degree) 19 5 24 Senior High School 64 171 235 4 Junior High School - 19 19 Elementary School - 23 23 Total 183 332 515 Table 2: Non-Civil Servant Employees Educational Level Technical Non- Technical Total S2 (Master’s Degree) - - 0 S1 (Bachelor’s Degree) 17 27 44 D3 (3-year Associate Degree) 2 2 4 Senior High School 12 58 70 Junior High School - 22 22 Elementary School - 29 29 Total 31 138 169 LARGE RIVER BASIN ORGANIZATION OF POMPENGAN-JENEBERANG 1.5. General Condition of Work Area The work area of BBWS Pompengan-Jeneberang extends to 62,482 km², with a population of 7,520,204 persons (data as per June 2006, www.sulsel.go.id). The work area consists of: 1) Three Provinces, namely: (1) South Sulawesi Province, (2) West Sulawesi Province, and (3) Southeast Sulawesi Province. 2) Eighteen Regencies, namely: (1) Bantaeng (10) Maros (2) Barru (11) Pangkajene Islands (3) Bone (12) Pinrang (4) Bulukumba (13) Sinjai (5) Enrekang (14) SidenrengRappang (6) Gowa (15) Soppeng (7) Jeneponto (16) Takalar (8) Luwu (17) TanaToraja (9) North Luwu (18) Wajo 3) Three Municipalities, namely: (1) The Municipality of Makassar (2) The Municipality of Palopo (3) The Municipality of Pare-pare 4) Five River Basins, consisting of three cross-provincial river basins and two national strategic river basins, namely: a) Pompengan-Larona River Basin Figure 2: Pompengan-Larona River Basin The Pompengan-Larona River Basin is a river basin that crosses two provinces, namely the South Sulawesi Province and the Southeast Sulawesi Province. This river basin covers an area of 11,253 km², and consists of 27 watersheds. 5 The main rivers are the Balease River (length 95 km; area of watershed 995 km²), Kalaena River (length 85 km; area of watershed 1,900 km²), Larona River (length 120 km; area of watershed 4,600 km²), Pompengan River (length 71 km; area of watershed 439 km²). Other rivers which watersheds cover an area of more than 100 km² are: (1) Angkona River Area of watershed: 385 km² (2) Kebo River Area of watershed: 185 km² (3) Rongkong River Area of watershed: 1.646 km² (4) Bangkudu River Area of watershed: 116 km² LARGE RIVER BASIN ORGANIZATION OF POMPENGAN-JENEBERANG b) Kaluku-Karama River Basin Figure 3: Kaluku-Karama River Basin The Kaluku-Karama River Basin is a river basin that crosses three provinces, namely the West Sulawesi Province, South Sulawesi Province and Central Sulawesi Province. This river basin covers an area of 12.107 km², and consists of 24 watersheds. The main rivers are the Karama River (length 150 km; area of watershed 5,574 km²), Budong-Budong River (length 100 km; area of watershed 2,000 km²).
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    82 Tjampakasari and Wahid Med J Indones Water quality of Angke River: Microbiological point of view Conny Riana Tjampakasari, Mardiastuti H Wahid Abstrak Penelitian ini merupakan bagian dari penelitian multidisiplin di Kali Angke. Tujuan dilakukannya penelitian ini adalah untuk mengetahui kualitas air sungai ditinjau dari aspek mikrobiologik di beberapa lokasi sepanjang Kali Angke. Lokasi yang diteliti meliputi: Duri Kosambi, Pesing Poglar, Teluk Gong, Pantai Indah Kapuk dan Muara (4 titik). Pemeriksaan dilakukan berdasarkan petunjuk standar Departemen Kesehatan, Republik Indonesia dan hasilnya disimpulkan sesuai Peraturan Pemerintah Republik Indonesia. Parameter yang digunakan dalam uji mikrobiologi adalah most probable number (MPN) dari total dan fecal coliform, yang dilakukan dalam 2 langkah: uji presumtif dan uji konfirmasi. Uji lengkap dilakukan untuk mengkonfirmasi adanya E.coli dan bakteri lain dalam air. Hasil yang didapat menunjukkan bahwa mutu air Kali Angke kurang baik dan tidak dianjurkan sebagai air minum. Berdasarkan parameter mikrobiologik, kualitas air sungai ini dikategorikan sebagai kelas 2 yang artinya hanya dapat digunakan untuk rekreasi air, pembudidayaan ikan air tawar, peternakan, mengairi pertanaman dan atau peruntukkan lain yang memper syaratkan mutu air yang sama dengan kegunaan tersebut. Most probable number dari total coliform di daerah Pantai Indah Kapuk dan bagian luar daerah Muara lebih rendah dari daerah lainnya. Masyarakat yang tinggal di Pantai Indah Kapuk memiliki tingkat ekonomi yang lebih tinggi, dengan demikian dapat diasumsikan bahwa masyarakat ini memiliki tingkat pendidikan yang lebih tinggi dan memiliki kesadaran tentang kebersihan lingkungan yang lebih baik. Selanjutnya, air di daerah paling luar dari Muara memiliki kadar garam yang tinggi sehingga dapat membunuh bakteri-bakteri patogen. Akhir kata, kualitas air di sepanjang Kali Angke adalah air kelas dua yang tidak layak minum kecuali di daerah Pantai Indah Kapuk dan Muara yang layak minum sesudah dididihkan.
  • Metal Speciation in Sediment from Muara Angke, Jakarta Bay Using of BCR Sequential Extraction Procedure

    Metal Speciation in Sediment from Muara Angke, Jakarta Bay Using of BCR Sequential Extraction Procedure

    ILMU KELAUTAN: Indonesian Journal of Marine Sciences March 2019 Vol 24(1):23-30 ISSN 0853-7291 Metal Speciation in Sediment from Muara Angke, Jakarta Bay Using of BCR Sequential Extraction Procedure Lestari* and Fitri Budiyanto Research Centre for Oceanography, Indonesia Institute of Science Jl. Pasir Putih I Ancol Timur Jakarta Utara 14430, Indonesia Email: [email protected] Abstract The assessment of the biological availability of metals is rarely used only by knowing the total concentration of the metal. Therefore, six sediment samples from Muara Angke, Teluk Jakarta were assessed the chemical speciation of heavy metals. This study aims to determine metal speciation using the BCR sequential extraction procedure and to determine metal speciation to evaluate bioavailability in the sediments of Muara Angke, Jakarta Bay. In sediment from Muara Angke, the ability to move sequence of heavy metals studied was Pb>Zn>Cu>Ni. The mostly accumulated in the non-residual fraction of the total concentrations are Cu, Ni, Pb and Zn which indicated that the mobility and anthropogenic inputs of these metals in Muara Angke were quite high. The Risk Assessment Code (RAC) reveal that Zn and Ni at almost station exist in exchangeable and a fraction of carbonate-bound and therefore high-risk category. Most of the Cu at most of the station is in the oxidizable fraction, except a small portion found at all station is in the exchangeable fraction and fraction of carbonate-bound thus posing a low risk for the waters environment. The patterns of Pb speciation show no to low risk to the waters environment.