The Decrease in Lake Numbers and Areas in Central Asia Investigated Using a Landsat-Derived Water Dataset

<b>:</b><b> </b>Although Central Asia has a strong continental climate with a constant moisture deficit and low relative humidity, it is covered by thousands of lakes that are critical to the sustainability of ecosystems and human welfare in the region. Vulnerability to clima...

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Main Authors: Xianghong Che, Min Feng, Qing Sun, Joseph O. Sexton, Saurabh Channan, Jiping Liu
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Remote Sensing
Subjects:
Online Access:https://www.mdpi.com/2072-4292/13/5/1032
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spelling doaj-fcf7d9ceb3a248d6ab41b180b2e8694a2021-03-10T00:02:06ZengMDPI AGRemote Sensing2072-42922021-03-01131032103210.3390/rs13051032The Decrease in Lake Numbers and Areas in Central Asia Investigated Using a Landsat-Derived Water DatasetXianghong Che0Min Feng1Qing Sun2Joseph O. Sexton3Saurabh Channan4Jiping Liu5Research Center of Government Geographic Information System, Chinese Academy of Surveying & Mapping, Beijing 100830, ChinaNational Tibetan Plateau Data Center, Key Laboratory of Tibetan Environmental Changes and Land Surface Processes, Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing 100101, ChinaState Key Laboratory of Severe weather (LASW), Chinese Academy of Meteorological Sciences, Beijing 100081, ChinaTerraPulse, Inc., North Potomac, MD 20878, USATerraPulse, Inc., North Potomac, MD 20878, USAResearch Center of Government Geographic Information System, Chinese Academy of Surveying & Mapping, Beijing 100830, China<b>:</b><b> </b>Although Central Asia has a strong continental climate with a constant moisture deficit and low relative humidity, it is covered by thousands of lakes that are critical to the sustainability of ecosystems and human welfare in the region. Vulnerability to climate change and anthropogenic activities have contributed to dramatic inter-annual and seasonal changes of the lakes. In this study, we explored the high spatio–temporal dynamics of the lakes of Central Asia using the terraPulse™ monthly Landsat-derived surface water extent dataset from 2000 to 2015 and the HydroLAKES dataset. The results identified 9493 lakes and significant linear decreasing trends were identified for both the number (rate: −85 lakes/year, R<sup>2</sup>:0.69) and area (rate: −1314.1 km<sup>2</sup>/year, R<sup>2</sup>: 0.84) of the lakes in Central Asia between 2000 and 2015. The decrease rate in lake area accounted for 1.41% of the total lake area. About 75% of the investigated lakes (7142 lakes), mainly located in the Kazakh steppe (especially in the north) and the Badghyz and Karabil semi-desert terrestrial ecological zones, experienced a decrease in the water area. Lakes with increasing water area were mainly distributed in the Northern Tibetan Plateau–Kunlun Mountains alpine desert and Qaidam Basin semi-desert zones in the east-south corner of Central Asia. The possible driving factors of lake decreases in Central Asia were explored for the Aral Sea and Tengiz Lake on yearly and monthly time scales. The Aral Sea showed the greatest decrease in the summer months because of increased evaporation and massive irrigation, while the largest decrease for Tengiz Lake was observed in early spring and was linked to decreasing snowmelt.https://www.mdpi.com/2072-4292/13/5/1032lake dynamicsLandsatsurface waterCentral AsiaAral Sea
collection DOAJ
language English
format Article
sources DOAJ
author Xianghong Che
Min Feng
Qing Sun
Joseph O. Sexton
Saurabh Channan
Jiping Liu
spellingShingle Xianghong Che
Min Feng
Qing Sun
Joseph O. Sexton
Saurabh Channan
Jiping Liu
The Decrease in Lake Numbers and Areas in Central Asia Investigated Using a Landsat-Derived Water Dataset
Remote Sensing
lake dynamics
Landsat
surface water
Central Asia
Aral Sea
author_facet Xianghong Che
Min Feng
Qing Sun
Joseph O. Sexton
Saurabh Channan
Jiping Liu
author_sort Xianghong Che
title The Decrease in Lake Numbers and Areas in Central Asia Investigated Using a Landsat-Derived Water Dataset
title_short The Decrease in Lake Numbers and Areas in Central Asia Investigated Using a Landsat-Derived Water Dataset
title_full The Decrease in Lake Numbers and Areas in Central Asia Investigated Using a Landsat-Derived Water Dataset
title_fullStr The Decrease in Lake Numbers and Areas in Central Asia Investigated Using a Landsat-Derived Water Dataset
title_full_unstemmed The Decrease in Lake Numbers and Areas in Central Asia Investigated Using a Landsat-Derived Water Dataset
title_sort decrease in lake numbers and areas in central asia investigated using a landsat-derived water dataset
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2021-03-01
description <b>:</b><b> </b>Although Central Asia has a strong continental climate with a constant moisture deficit and low relative humidity, it is covered by thousands of lakes that are critical to the sustainability of ecosystems and human welfare in the region. Vulnerability to climate change and anthropogenic activities have contributed to dramatic inter-annual and seasonal changes of the lakes. In this study, we explored the high spatio–temporal dynamics of the lakes of Central Asia using the terraPulse™ monthly Landsat-derived surface water extent dataset from 2000 to 2015 and the HydroLAKES dataset. The results identified 9493 lakes and significant linear decreasing trends were identified for both the number (rate: −85 lakes/year, R<sup>2</sup>:0.69) and area (rate: −1314.1 km<sup>2</sup>/year, R<sup>2</sup>: 0.84) of the lakes in Central Asia between 2000 and 2015. The decrease rate in lake area accounted for 1.41% of the total lake area. About 75% of the investigated lakes (7142 lakes), mainly located in the Kazakh steppe (especially in the north) and the Badghyz and Karabil semi-desert terrestrial ecological zones, experienced a decrease in the water area. Lakes with increasing water area were mainly distributed in the Northern Tibetan Plateau–Kunlun Mountains alpine desert and Qaidam Basin semi-desert zones in the east-south corner of Central Asia. The possible driving factors of lake decreases in Central Asia were explored for the Aral Sea and Tengiz Lake on yearly and monthly time scales. The Aral Sea showed the greatest decrease in the summer months because of increased evaporation and massive irrigation, while the largest decrease for Tengiz Lake was observed in early spring and was linked to decreasing snowmelt.
topic lake dynamics
Landsat
surface water
Central Asia
Aral Sea
url https://www.mdpi.com/2072-4292/13/5/1032
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