Urban–Rural Connectivity for Forest Management and Landslide Risk Reduction: Case of Japan

Landslides have occurred in various places in Indonesia. Likewise with West Java, there were many regions that has experienced repeated landslides. Having many experience of occurrences of landslides, we should have had a good landslide risk reduction program. Indeed, the incidence of landslides depends on many variables. Due to that condition, it may that a region would have different variable with another region. So it is impossible to generalize the implementation of a mitigation technology for all areas prone to landslides. Research of the Cililin's landslide is to anticipate the next disasters that may happen in around the area of 2013 Cililin Landslide. Through observation lithological conditions, water condition, land cover and landscape, as well as consideration of wide dimension of the building footing, the distance of building to the slopes and so forth, it has been determined some efforts of disaster risk reduction in the area around the landslide against the occurrence of potential landslide in the future.Bencana tanah longsor telah terjadi di berbagai tempat di Indonesia. Demikian halnya dengan Jawa Barat, tidak sedikit daerahnya telah berulang kali mengalami longsor. Seharusnya dengan telah banyaknya kejadian longsor, kita mampu mengupayakan program penurunan risiko longsor secara baik. Memang kejadian longsor bergantung pada banyak variabel, dimana dari satu daerah dengan daerah yang lain akan sangat memungkinkan mempunyai variabel yang berbeda, sehingga tidak mungkin kita membuat generalisasi penerapan suatu teknologi mitigasinya untuk semua daerah rawan longsor. Penelitian longsor di Cililin dilakukan untuk mengantisipasi terjadinya bencana di sekitar daerah Longsor Cililin 2013 yang lalu. Melalui pengamatan kondisi litologi, keairan, tutupan lahan dan bentang alam yang ada, serta pertimbangan akan dimensi luas pijakan bangunan, jarak batas bangunan dengan lereng dan lain sebagainya, telah ditentukan beberapa upaya penurunan risiko bencana di daerah sekitar longsor terhadap potensi kejadian longsor dimasa mendatang.Keywords: Landslide, risk reduction, footing of building, Cililin

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LANDSLIDE RISK REDUCTION IN PUERTO RICO: SCIENCE AND RISK COMMUNICATION

10.1130/abs/2019am-340150 ◽

2019 ◽

Author(s):

Lindsay A. Davis ◽

◽

Jonathan W. Godt ◽

Lori A. Peek

Keyword(s):

Puerto Rico ◽

Risk Communication ◽

Risk Reduction ◽

Landslide Risk ◽

Science And Risk ◽

Landslide Risk Reduction

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Community-based landslide risk reduction: a review of a Red Cross soil bioengineering for resilience program in Honduras

Landslides ◽

10.1007/s10346-019-01161-3 ◽

2019 ◽

Vol 16 (9) ◽

pp. 1779-1791 ◽

Cited By ~ 5

Author(s):

Silvia Hostettler ◽

Anton Jöhr ◽

Carlos Montes ◽

Antonio D’Acunzi

Keyword(s):

Risk Reduction ◽

Red Cross ◽

Landslide Risk ◽

Community Based ◽

Soil Bioengineering ◽

Landslide Risk Reduction

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Landslide risk reduction measures: A review of practices and challenges for the tropics

Progress in Physical Geography Earth and Environment ◽

10.1177/0309133316689344 ◽

2017 ◽

Vol 41 (2) ◽

pp. 191-221 ◽

Cited By ~ 24

Author(s):

Jan Maes ◽

Matthieu Kervyn ◽

Astrid de Hontheim ◽

Olivier Dewitte ◽

Liesbet Jacobs ◽

...

Keyword(s):

Risk Assessment ◽

Risk Reduction ◽

Publication Output ◽

Landslide Risk ◽

Population Number ◽

Tropical Countries ◽

Risk Reduction Measures ◽

Number Of Publications ◽

The Tropics ◽

Landslide Risk Reduction

The overall objective of this review is to gain insights into landslide risk reduction measures that are applied or recommended in tropical landslide-prone countries, and the challenges at play. More specifically, this review aims to (i) presenting an overview of recent studies on landslides and landslide risk reduction in these countries, (ii) exploring the factors controlling the publication output on landslides and landslide risk reduction, (iii) reviewing the various landslide risk reduction measures recommended and implemented, and (iv) identifying the bottlenecks for the implementation of these strategies. A compilation of recommended and implemented landslide risk reduction measures in 99 landslide-prone tropical countries was made, based on an extensive review of scientific literature (382 publications). The documented measures are analysed using a scheme of risk reduction measures that combines classifications of the Hyogo Framework for Action and the SafeLand project. Our literature review shows that the factors influencing the number of publications on landslides and landslide risk reduction per country are (in order of importance) the absolute physical exposure of people to landslides, the population number and the Human Development Index of a country. The ratio of publications on landslide risk reduction versus publications on landslides for landslide-prone tropical countries does not vary much between these countries (average: 0.28). A significant fraction (0.30) of all known landslide hazard reduction measures are neither implemented nor recommended according to our review. The most recommended landslide risk reduction component is ‘risk management and vulnerability reduction’ (0.38). However, the most implemented component is ‘risk assessment’ (0.57). Overall, the ratio of implemented versus recommended landslide risk reduction measures in the tropics is low (<0.50) for most landslide risk reduction components, except for ‘risk assessment’ (3.01). The most cited bottlenecks for implementing landslide risk reduction measures are scientific (0.30) and political (0.29) in nature.

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