Flooding in Jakarta
Flooding in Jakarta occurs on the northwest coast of Java, at the mouth of the Ciliwung River on Jakarta Bay, which is an inlet of the Java Sea and has happened recently in 1996, 2002, 2007, 2013, and 2020. Sections of Jakarta are constantly flooded now.
Jakarta geography
The area of the Jakarta Special District is 662 km2 of land area and 6,977 km2 of sea area.Jakarta lies in a low, flat basin, averaging above sea level; 40% of Jakarta, particularly the northern areas, is below sea level, while the southern parts are comparatively hilly.
Rivers flow from the Puncak highlands to the south of the city, across the city northwards towards the Java Sea; the Ciliwung River, divides the city into the western and eastern principalities. Other rivers include the Pesanggrahan, and Sunter high sea tides.
Other contributing factors include clogged sewage pipes and waterways that service an increasing population, in addition to deforestation near rapidly urbanizing Bogor and Depok in Jakarta's hinterland.
Jakarta is an urban area with complex socio-economic problems that indirectly contribute to triggering a flood event.
1960 floods
In February 1960, flooding occurred in the new suburb of Grogol. Despite the flood-proof planning of Grogol suburb, the area was flooded to knee and waist height. This was the first crisis for Governor Soemarno who was installed only days before the floods began.1996 floods
Major floods occurred in 1996 when 5,000 hectares of land were flooded.2007 floods
Major floods also occurred in 2007. Losses from infrastructure damage and state revenue were at least 5.2 trillion rupiah and at least 190,000 people have fallen ill due flood related illnesses. Approximately 70% of Jakarta's total area was flooded with water up to four meters deep in parts of the city. 80 people were killed in the floods.2013 floods
On January 15, 2013, a serious flood affected downtown Jakarta, as well as several other areas surrounding the city, such as West Java and Banten, as a result of heavy rain and waterways clogged with garbage and other kinds of debris. A 30-meter-long section of Jakarta's West Flood Canal dike on Jalan Johannes Latuharhary in Menteng collapsed, which quickly caused flooding in nearby areas. Military personnel, the Jakarta public works agency, and public order officers joined forces to quickly replace the collapsed dike section with a temporary retaining wall made of rocks and sandbags. Workers finished rebuilding a section of a canal dike. Flooding was reported at the presidential palace, forcing the postponement of a meeting between President Susilo Bambang Yudhoyono and his visiting Argentine counterpart, Cristina Fernandez. There were 47 deaths being reported. Evacuations were carried out in parts of Jakarta. An estimated 20,000 people were evacuated as of 17 January 20132020 floods
Floods occurred throughout Jakarta, Bogor, Tangerang, and Bekasi on the early hours of January 1, 2020, due to the overnight rain which dumped nearly 15 inches of rainwater — more than 3 times the average amount. The massive downpour caused the Ciliwung and Cisadane river to overflow. Multiple floodgates were assigned emergency status due to the high water levels after the rainfall.At least 48 deaths had been reported, due to landslides, hypothermia, drowning, and electrocution. Many parts of the city had been left without power, as the power was switched off for safety reasons.
Multiple transportation networks were disrupted including light rail transit, taxis, trains, toll roads, and an airport. Sukarno-Hatta Airport and the Mass Rapid Transit lines were operating as per normal.
Halim Perdanakusuma Airport was closed early in the morning due to the airport runways being submerged. Air traffic was temporarily redirected to Sukarno-Hatta Airport. Halim Perdanakusuma was reopened a couple of hours later.
From 6pm on January 1 until 12pm on January 2, 2020, the government temporarily waived all toll road fees in Jakarta.
At many parts of the city, water levels reached 30 to 200 cm. At some places, such as Cipinang Melayu, East Jakarta, water levels peaked at 4 meters. More than 19,000 residents had been evacuated to higher grounds. The government had designated schools and government buildings as temporary shelters. In several areas, evacuation efforts were hampered by rushing waters and blackouts.
On 25 February 2020, Jakarta witnessed another flood.
Pollution issues
In May 2011, the Jakarta Environmental Management Agency categorized all rivers in Jakarta as polluted; 71% of them were heavily polluted, 20% were partly polluted and 9% were lightly polluted.Remedies
Flood canals
in eastern Jakarta was a national project which began in 2003 and late 2009 reached the Java sea and will be accomplished in 2011. It was 23.5 kilometers length which linking five rivers: Cipinang, Sunter, Buaran, Jati Kramat and Cakung. It will reduce flood and hope as a 2 kilometers rowing sport venue too. To ease from flood, Jakarta Emergency Dredging Initiative phase-2 will make underground canal from Ciliwung river to Cipinang river and then go through to East Flood Canal. It will lower floods at Cawang, Kampung Melayu, Bukit Duri and Kebun Baru. The length is one kilometer and is finished in 2016.Using participatory mapping for disaster preparedness in Jakarta
For managing risk effectively, it needs extensive data for making decisions on investments in preparedness, mitigation, and response. Until recently, detailed information on disaster situation was hardly available at local level. A pilot project in Jakarta, led by the Province of Jakarta's Disaster Management Agency collected high-resolution data to inform flood preparedness and contingency. Later, the data, which was accessible by the community and the general public, was used in 2011/2012 Jakarta contingency emergency planning exercise. The risk information it produced was very useful for decision makers in preparedness, development and investment planning.Petabencana.id can now be consulted and it contains a flood map.
Some additional info may be found at OpenStreetMap. It is an online, open-source platform, which relies on participatory mapping conducted by local communities, private and public actors who collect the detailed information about a given area and share it, meet the needs in disaster situation.
Continuing issues
Jakarta sinking
Alongside flooding from rivers, Jakarta is also sinking about 5 to 10 centimeters each year and up to 20 centimeters in northern Jakarta mainland. From 2000 to 2050, the potential coastal flood extent is estimated to increase by 110.5 km2 due to both land subsidence and sea level rise. Land subsidence in Jakarta is mainly caused by the overuse of groundwater. At the same time, the groundwater has lost its capacity to recharge due to the lack of watershed areas and overpopulation in the capital. Without any groundwater regulation in place, buildings in Jakarta are drawing water from the ground at an unprecedented rate. For households, especially those at the bottom of the economic pyramid, access to piped water is considered a luxury. Not only must the customer pay for the tariff, which is higher than other Indonesian cities, the installment fees often burden the poor households to connect to the tap.In addition, residents consider piped water quality in Jakarta to be of poor quality, thus explaining why only 28 percent of Jakarta households drink piped water and groundwater compared to 95 percent in 2000. It is important to note that apart from drinking, people in Jakarta still use groundwater, and to some extent piped water and wended water. Such hydrological behaviour has led to the overuse of groundwater, thus contributing to the land subsidence.
In an effort to solve the problem, the Netherlands will give $4 million for a feasibility study to build a dike on Jakarta Bay. The ring dike will be provided with pumping system and retention area, would regulate and control seawater and would also be used as an additional toll road. The project will be built by 2025. Construction of an 8 km sea wall along the coast was officially launched on October 9, 2014.