During 2018, landslide dominated natural disasters occurred in Central Java. The Regional Disaster Management Agency (BPBD) of Central Java Province recorded that there were about 2,000 landslides in this area.
Most landslide is preceeded by continuous extreme rainfall for few days, as most of the area isn't located near ground weather station, therefore rainfall records are often not available.
Recent development in opendata allows more access to high resolution climate/weather data and to computing platform that allows users to run geospatial analysis in the cloud. This leads to further exploration like never before.
Open access to 30 mins temporal rainfall data at Google Earth Engine platform provided detail information on rainfall intensity prior to the landslide. Such information help advancing research on rainfall model or identification of threshold for extreme rainfall that could trigger a landslide.
Half hourly IMERG at Earth Engine Data Catalogue - https://developers.google.com/earth-engine/datasets/catalog/NASA_GPM_L3_IMERG_V06
Landslide event in Magelang, Central Java - Indonesia during 2018. Compiled by Department of Environmental Geography, Faculty of Geography - Universitas Gadjah Mada. Available in CSV format with column structure: ID, Lon, Lat, Day, DD, MM, YYYY, TimeWIB. Link: Landslide
The script below describe how to extract 30-minute rainfall from NASA GPM-IMERG, based on points location and convert it into CSV file using Google Earth Engine code editor.
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Script to extract 30-minute rainfall from NASA GPM IMERG, based on points location and convert it into CSV file.
//
// Application: Extract 30-minute rainfall in the last 10-days before landslide occurs in certain point. The data
// will use to develop a model or rainfall threshold for extreme rainfall that could trigger a landslide.
//
// Benny Istanto and Ridwan Mulyadi
// Vulnerability Analysis and Mapping (VAM) unit, WFP Indonesia
//
// Guruh Samodra
// Department of Environmental Geography, Faculty of Geography, Universitas Gadjah Mada.
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// List of coordinates from Landslide events
var LS = ee.FeatureCollection("users/bennyistanto/datasets/table/idn_nhr_ls_3308_magelang_2018_p_example");
// LS = LS.filter(ee.Filter.lte('ID', 2)); // lite version
// Load table to layer
Map.addLayer(LS, {color: "#ff0000"}, "Landlside location", true);
Map.centerObject(LS, 11);
// Import NASA GPM IMERG 30 minute data
var imerg = ee.ImageCollection('NASA/GPM_L3/IMERG_V06');
// Parsing date from CSV
function parseDate(p) {
var d = p.getNumber('DD');
var m = p.getNumber('MM');
var y = p.getNumber('YYYY');
var dt = y.format('%d')
.cat('-').cat(m.format('%02d'))
.cat('-').cat(d.format('%02d'));
return ee.Date(dt);
}
var result = LS.map(function(p) {
var id = p.getNumber('ID');
var point = p.geometry();
var coord = point.coordinates();
var dt = parseDate(p);
var start = dt.advance(-10, 'days'); // 10-days before
var end = dt.advance(1, 'days'); // 1-day after
var precipHH = imerg.filterBounds(point)
.filterDate(start, end)
.select('precipitationCal');
var timeSeries = precipHH.map(function(image) {
var date = image.date().format('yyyy-MM-dd hh:mm');
var value = image
.clip(point)
.reduceRegion({
reducer: ee.Reducer.mean(),
scale: 30
}).get('precipitationCal');
return ee.Feature(null, {
coord_id: id,
lon: coord.get(0),
lat: coord.get(1),
date: date,
value: value
});
});
return timeSeries;
});
var flatResult = ee.FeatureCollection(result).flatten();
// Export the result as CSV in Google Drive
Export.table.toDrive({
collection: flatResult,
description:'landslide_rainfall',
folder:'GEE',
selectors: 'coord_id, lon, lat, date, value',
fileFormat: 'CSV'
});GEE link
GEE script for 1 point simulation available via this link. You need to fill coordinate (line 12) and set the landslide date (line 16)
30-minutes of rainfall that occurred 10-days before landslide. Generated using GEE, link: Landslide Rainfall
This is part of research and development of threshold for extreme rainfall that could trigger a landslide event in Indonesia. Reference: https://wfpidn.github.io/ERM/ls/#extreme-rainfall-triggered-landslide-alert
For further information about Extreme rainfall triggering a Landslide research and development, please contact:
-
Benny Istanto and Ridwan Mulyadi
Vulnerability Analysis and Mapping Unit
UN World Food Programme - Indonesia -
Guruh Samodra, Dr. Eng.
Department of Environmental Geography
Faculty of Geography, Universitas Gadjah Mada.