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Soil Moisture vs NDVI.js
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Soil Moisture vs NDVI.js
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// Some test of soil moisture
////////////////////////////////////////////////////////////////////////////
// Preparation //
////////////////////////////////////////////////////////////////////////////
// var worldmap = ee.FeatureCollection('ft:1tdSwUL7MVpOauSgRzqVTOwdfy17KDbw-1d9omPw');//world vector
var usstate = ee.FeatureCollection('ft:1fRY18cjsHzDgGiJiS2nnpUU3v9JPDc2HNaR7Xk8');//us state vector
// var worldmap = ee.FeatureCollection('USDOS/LSIB_SIMPLE/2017'); //not political right,
// var worldmap = ee.FeatureCollection('users/fsn1995/UIA_World_Countries_Boundaries');
var country = ['Spain'];//CHANGE the NAME of country here!
var state = ['California'];//CHANGE the NAME of us state here!
// var countryshape = worldmap.filter(ee.Filter.inList('Country', country));// country
var stateshape = usstate.filter(ee.Filter.inList('Name', state));// us state
// var roi = countryshape.geometry();// country
var roi = stateshape.geometry();// us state
var roiLayer = ui.Map.Layer(roi, {color: 'FF0000'}, 'roi');
// var roiCentroid = roi.centroid();
Map.layers().add(roiLayer);//display roi
// Map.setCenter(roiCentroid);
// study time range
var year_start = 1984;
var year_end = 2018;
var month_start = 3;
var month_end = 10;
var date_start = ee.Date.fromYMD(year_start, 1, 1);
var date_end = ee.Date.fromYMD(year_end, 12, 31);
var years = ee.List.sequence(year_start, year_end);// time range of years
var months = ee.List.sequence(month_start, month_end);// time range of months
// next step is to define the months of ndvi anomal calculation
// var month_anomaly = ee.List.sequence(3,5);// March to May
// var month_upper = 8;// May to July
// var month_lower = 4;
////////////////////////////////////////////////////////////////////////////
// NDVI //
////////////////////////////////////////////////////////////////////////////
// load landsat image
var surfaceReflectance4 = ee.ImageCollection('LANDSAT/LT04/C01/T1_SR')
.filterDate(date_start, date_end)
.filterBounds(roi);
var surfaceReflectance5 = ee.ImageCollection('LANDSAT/LT05/C01/T1_SR')
.filterDate(date_start, date_end)
.filterBounds(roi);
var surfaceReflectance7 = ee.ImageCollection('LANDSAT/LE07/C01/T1_SR')
.filterDate(date_start, date_end)
.filterBounds(roi);
var surfaceReflectance8 = ee.ImageCollection('LANDSAT/LC08/C01/T1_SR')
.filterDate(date_start, date_end)
.filterBounds(roi);
var surfaceReflectance457 = surfaceReflectance4.merge(surfaceReflectance5).merge(surfaceReflectance7);
// // cloud/snow/water mask
// pixel_qa contains fmask information:
// bit 0: fill, bit 1: clear, bit 2: water,
// bit 3: cloud shadow, bit 4: snow/ice bit 5: cloud
// fmask for surfaceReflectance8
var fmaskL8sr = function(image) {
var cloudShadowBitmask = 1 << 3;
var cloudsBitMask = 1 << 5;
var waterBitmask = 1 << 2;
var snowBitmask = 1 << 4;
// QA band pixel value
var qa = image.select('pixel_qa');
// set cloud and shadows to 0
var mask = qa.bitwiseAnd(cloudShadowBitmask).eq(0)
.and(qa.bitwiseAnd(cloudsBitMask).eq(0))
.and(qa.bitwiseAnd(waterBitmask).eq(0))
.and(qa.bitwiseAnd(snowBitmask).eq(0));
return image.updateMask(mask);
};
// fmask for surfaceRflectance457
var fmaskL457 = function(image) {
var qa = image.select('pixel_qa');
// If the cloud bit (5) is set and the cloud confidence (7) is high
// or the cloud shadow bit is set (3), then it's a bad pixel. (GEE example)
var maskband = qa.bitwiseAnd(1 << 5)
.and(qa.bitwiseAnd(1 << 7))
.or(qa.bitwiseAnd(1 << 3))
.and(qa.bitwiseAnd(1 << 2))
.and(qa.bitwiseAnd(1 << 4));
// Remove edge pixels that don't occur in all bands
var mask2 = image.mask().reduce(ee.Reducer.min());
return image.updateMask(maskband.not()).updateMask(mask2);
};
// NDVI computation [-1 1]
var addNDVI457 = function(image) {
var ndvi457 = image.normalizedDifference(['B4', 'B3']).rename('NDVI');
return image.addBands(ndvi457);
};
var addNDVI8 = function(image) {
var ndvi8 = image.normalizedDifference(['B5', 'B4']).rename('NDVI');
return image.addBands(ndvi8);
};
// add cloud masked ndvi band
var L8ndvi = surfaceReflectance8
.filter(ee.Filter.calendarRange(month_start, month_end, 'month'))
.map(fmaskL8sr)
.map(addNDVI8);
var L457ndvi = surfaceReflectance457
.filter(ee.Filter.calendarRange(month_start, month_end, 'month'))
.map(fmaskL457)
.map(addNDVI457);
// merge L8 L457 NDVI
var landsatndvi = L8ndvi.merge(L457ndvi);
// var NDVI = landsatndvi.filterDate(date_start, date_end)
// .sort('system:time_start', false)
// .select('NDVI');
// // get the list of image dates
// var date_all = NDVI.map(function(image) {
// return image.set('date', image.date());
// });
// print(date_all);
// var datelist = date_all.aggregate_array('date');
// print(datelist);
// monthly average NDVI
// sytstem time is set as 1st of each month
var NDVI_monthlyave = ee.ImageCollection.fromImages(
years.map(function (y) {
return months.map(function(m) {
var vi = landsatndvi.select('NDVI')
.filter(ee.Filter.calendarRange(y, y, 'year'))
.filter(ee.Filter.calendarRange(m, m, 'month'))
.mean()
.log()
.rename('NDVIm');
return vi.set('year', y)
.set('month', m)
.set('system:time_start', ee.Date.fromYMD(y, m, 1));
});
}).flatten()
);
// var NDVIfiltered = NDVI_monthlyave.filterMetadata('month','less_than',month_upper)
// .filterMetadata('month','greater_than',month_lower);
// print(NDVI_monthlyave);
//////////////////////////////////////////////////////////////////////
// This part will prepare the water balance from NOAH Global //
// land assimulation system //
//////////////////////////////////////////////////////////////////////
// Alternative: GLDAS NOAH data
// var climate1 = ee.ImageCollection('NASA/GLDAS/V20/NOAH/G025/T3H')
// .select(['Rainf_f_tavg','Evap_tavg'])
// .filter(ee.Filter.date(date_start, date_end))
// .filterBounds(roi);
// var climate2 = ee.ImageCollection('NASA/GLDAS/V021/NOAH/G025/T3H')
// .select(['Rainf_f_tavg','Evap_tavg'])
// .filter(ee.Filter.date('2011-01-01', '2018-12-31'))
// .filterBounds(roi);
// var climate = climate1.merge(climate2)
// .filter(ee.Filter.date(date_start, date_end));
var climate = ee.ImageCollection("NASA/FLDAS/NOAH01/C/GL/M/V001")
.select('SoilMoi10_40cm_tavg')
.filter(ee.Filter.date(date_start, date_end))
.filterBounds(roi);
// .rename('sm');
var addSM_mm = function(image) {
var SM_mm = image.expression(
'b1 / 997 * 86400 / 8 * 100',// unit coversion
{
b1: image.select('SoilMoi10_40cm_tavg')
}
).rename('SM_mm');
return image.addBands(SM_mm);
};
var sm = climate.map(addSM_mm);
var sm_month = ee.ImageCollection.fromImages(
years.map(function (y) {
return months.map(function(m) {
var vi = sm.select('SM_mm')
.filter(ee.Filter.calendarRange(y, y, 'year'))
.filter(ee.Filter.calendarRange(m, m, 'month'))
.sum()
.rename('sm');
return vi.set('year', y)
.set('month', m)
.set('system:time_start', ee.Date.fromYMD(y, m, 1));
});
}).flatten()
);
// print(rain_monthlysum);
var monthlink = ee.Join.saveFirst({
matchKey: 'match',
});
//////////////////////////////////////////////////////////////////////
// Mapping and charting //
//////////////////////////////////////////////////////////////////////
var monthfilter = ee.Filter.equals({
leftField: 'system:time_start',
rightField: 'system:time_start',
});
var NDVI_SM = ee.ImageCollection(monthlink.apply(NDVI_monthlyave.select('NDVIm'),
sm_month.select('sm'),monthfilter))
.map(function(image) {
return image.addBands(image.get('match'));
});
var corrmap = NDVI_SM.reduce(ee.Reducer.pearsonsCorrelation()).clip(roi);
// .addBands(lucc.select('landcover')
// .rename('lucc'));
var corrParams = {min: -1, max: 1, palette: ['red','white', 'green']};
Map.addLayer(corrmap.select('correlation'), corrParams, 'Correlation Map');
Export.image.toDrive({
image: corrmap,
description: 'Correlation map of monthly NDVI and water balance',
scale: 1000,
// region: roi
});
// var options = {
// // lineWidth: 1,
// // pointSize: 2,
// hAxis: {title: 'R and P value'},
// vAxis: {title: 'Correlation Coefficient'},
// title: 'Correlation map average'
// };
// var chart = ui.Chart.image.byClass(
// corrmap, 'lucc', roi, ee.Reducer.mean(), 1000, lucc.get('landcover_class_names')
// ).setOptions(options);
// print(chart);