The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014

The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014

Rainfall gauges are always sparse in the arid and semi-arid areas of Northwest China, which makes it difficult to precisely study the characteristics of drought at a large scale in this region and similar areas. This study used the TRMM (The Tropical Rainfall Measuring Mission) multi-satellite preci...

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Main Authors: Qi Zhao, Qianyun Chen, Mengyan Jiao, Pute Wu, Xuerui Gao, Meihong Ma, Yang Hong
Format: Article
Language:English
Published: MDPI AG 2018-05-01
Series:Remote Sensing
Subjects:
drought
TRMM precipitation data
SPI index
Grain-for-Green Project
The Loess Plateau
Online Access:http://www.mdpi.com/2072-4292/10/6/838
id doaj-bbf67603726c4f08a45a7807f3e61a84
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spelling doaj-bbf67603726c4f08a45a7807f3e61a842020-11-24T23:07:38ZengMDPI AGRemote Sensing2072-42922018-05-0110683810.3390/rs10060838rs10060838The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014Qi Zhao0Qianyun Chen1Mengyan Jiao2Pute Wu3Xuerui Gao4Meihong Ma5Yang Hong6College of water Resources and Architectural Engineering, Northwest A&F University, Yangling 712100, ChinaCollege of water Resources and Architectural Engineering, Northwest A&F University, Yangling 712100, ChinaCollege of water Resources and Architectural Engineering, Northwest A&F University, Yangling 712100, ChinaInstitute of Soil and Water Conservation, Northwest A&F University, Yangling 712100, ChinaInstitute of Soil and Water Conservation, Northwest A&F University, Yangling 712100, ChinaSchool of Geographic and Environmental Sciences, Tianjin Normal University, Tianjin 300387, ChinaSchool of Earth and Space Sciences, Peking University, Beijing 100871, ChinaRainfall gauges are always sparse in the arid and semi-arid areas of Northwest China, which makes it difficult to precisely study the characteristics of drought at a large scale in this region and similar areas. This study used the TRMM (The Tropical Rainfall Measuring Mission) multi-satellite precipitation data to study the spatial-temporal evolution of drought in the Loess Plateau based on the SPI (Standardized Precipitation Index) drought index for the period of 1998–2014. The results indicate that the monthly TRMM precipitation data are well matched with the observed precipitation, indicating that this remotely sensed data set can be reliably used to calculate the SPI drought index. Based on the study findings, the average precipitation in the Loess Plateau is showing a significant increasing trend at the rate of 4.46 mm/year. From the spatial perspective, the average annual precipitation in the Southeast is generally greater than that in the Northwest. However, the annual precipitation in the Southeast area is showing a decreasing trend, whereas, the annual precipitation in the northwest areas is showing an increasing trend. Through the SPI analysis, the 3-month SPI and 12-month SPI were both showing an increasing trend, which indicates that the drought severity in the Loess Plateau was a generally declining trend at a seasonal to annual time scale. From the spatial perspective, the SPI values in the Central and Northwest of the Loess Plateau were significantly increasing, whereas, the SPI values in the southern area of the Loess Plateau were slightly decreasing. From the seasonal characteristics, the high-risk area for drought in the spring was concentrated in the northeast and southwest part, and in the summer and autumn, the high-risk area was transferred to the south part. Through this study, it is concluded that the Loess Plateau was likely getting wetter during the time period since the Grain-for-Green Project (1999–2012) was implemented, which replaced much farmland with forestry. This is a positive signal for vegetation recovery and ecological restoration in the near future.http://www.mdpi.com/2072-4292/10/6/838droughtTRMM precipitation dataSPI indexGrain-for-Green ProjectThe Loess Plateau
collection DOAJ
language English
format Article
sources DOAJ
author Qi Zhao
Qianyun Chen
Mengyan Jiao
Pute Wu
Xuerui Gao
Meihong Ma
Yang Hong
spellingShingle Qi Zhao
Qianyun Chen
Mengyan Jiao
Pute Wu
Xuerui Gao
Meihong Ma
Yang Hong
The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014
Remote Sensing
drought
TRMM precipitation data
SPI index
Grain-for-Green Project
The Loess Plateau
author_facet Qi Zhao
Qianyun Chen
Mengyan Jiao
Pute Wu
Xuerui Gao
Meihong Ma
Yang Hong
author_sort Qi Zhao
title The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014
title_short The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014
title_full The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014
title_fullStr The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014
title_full_unstemmed The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014
title_sort temporal-spatial characteristics of drought in the loess plateau using the remote-sensed trmm precipitation data from 1998 to 2014
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2018-05-01
description Rainfall gauges are always sparse in the arid and semi-arid areas of Northwest China, which makes it difficult to precisely study the characteristics of drought at a large scale in this region and similar areas. This study used the TRMM (The Tropical Rainfall Measuring Mission) multi-satellite precipitation data to study the spatial-temporal evolution of drought in the Loess Plateau based on the SPI (Standardized Precipitation Index) drought index for the period of 1998–2014. The results indicate that the monthly TRMM precipitation data are well matched with the observed precipitation, indicating that this remotely sensed data set can be reliably used to calculate the SPI drought index. Based on the study findings, the average precipitation in the Loess Plateau is showing a significant increasing trend at the rate of 4.46 mm/year. From the spatial perspective, the average annual precipitation in the Southeast is generally greater than that in the Northwest. However, the annual precipitation in the Southeast area is showing a decreasing trend, whereas, the annual precipitation in the northwest areas is showing an increasing trend. Through the SPI analysis, the 3-month SPI and 12-month SPI were both showing an increasing trend, which indicates that the drought severity in the Loess Plateau was a generally declining trend at a seasonal to annual time scale. From the spatial perspective, the SPI values in the Central and Northwest of the Loess Plateau were significantly increasing, whereas, the SPI values in the southern area of the Loess Plateau were slightly decreasing. From the seasonal characteristics, the high-risk area for drought in the spring was concentrated in the northeast and southwest part, and in the summer and autumn, the high-risk area was transferred to the south part. Through this study, it is concluded that the Loess Plateau was likely getting wetter during the time period since the Grain-for-Green Project (1999–2012) was implemented, which replaced much farmland with forestry. This is a positive signal for vegetation recovery and ecological restoration in the near future.
topic drought
TRMM precipitation data
SPI index
Grain-for-Green Project
The Loess Plateau
url http://www.mdpi.com/2072-4292/10/6/838
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