Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia
The data scarcity and poor availability of observed daily rainfalls over Southeast Asia has limited the possibility to a wider range of studies in light of impacts from climate change and extreme hydro-meteorological processes such as floods, droughts, and other watershed management practices. To fi...
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sg-ntu-dr.10356-1514352021-07-09T02:50:12Z Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia Singh, Vishal Qin, Xiaosheng School of Civil and Environmental Engineering Engineering::Civil engineering Rainfall Data Assimilation Rainfall Analysis The data scarcity and poor availability of observed daily rainfalls over Southeast Asia has limited the possibility to a wider range of studies in light of impacts from climate change and extreme hydro-meteorological processes such as floods, droughts, and other watershed management practices. To fill such a gap, data assimilation was carried out in this study to construct a long-term gridded daily (0.50° × 0.50°) rainfall time series (1951–2014) over Southeast Asia. In rainfall data assimilation, the available and globally accepted high resolution gridded datasets viz. Southeast Asia observed (SA-OBS) (1981–2014), APHRODITE (1951–2007), TRMM (1998–2018), PRINCETON (1951–2008) along with limited rain gauges-based rainfalls were utilized. In this study, eight gap filling methods were employed and tested at 20 selected rainfall grids to fill the long gaps presented in the SA-OBS gridded dataset. The strength of each method and associated uncertainties were evaluated in the computed rainfalls utilizing multiple functions at missing grids. The accuracy of each method, in case of extreme rainfalls, was tested by quantile–quantile (Q–Q) plots at different quantile intervals. The distance power method based on the Pearson correlation coefficient and the multiple linear regression method performed satisfactorily and produced minimum uncertainties in filling rainfall gaps. To test the accuracy and compatibility of gap-filled SA-OBS gridded dataset with other sources of datasets, the seasonality analysis and rainfall indices comparison were carried out. Results showed that the gap-filled SA-OBS dataset was better comparable to other sources of rainfalls. For the construction of the long-term rainfall time series (1951–2014), quantile mapping was adopted for bias correction and the quality of the final merged dataset was evaluated. Nanyang Technological University This project was supported by Start-Up Grant (M4081327.030) from School of Civil and Environmental Engineering, Nanyang Technological University, Singapore. We acknowledge the SA-OBS dataset and the data providers in the SACA&D project (http://saca-bmkg.knmi.nl). We are also thankful for the providers of PRINCETON (http://hydrology.princeton.edu/data.pgf.php) rainfall product, TRMM rainfall data products (https://pmm.nasa.gov/dataaccess/downloads/trmm) and APHRODITE (http://www.chikyu.ac.jp/precip/english/products.html) rainfalls dataset. Please note the data from this study will be made available upon request. 2021-07-09T02:50:12Z 2021-07-09T02:50:12Z 2019 Journal Article Singh, V. & Qin, X. (2019). Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia. Climate Dynamics, 53(5-6), 3289-3313. https://dx.doi.org/10.1007/s00382-019-04703-6 0930-7575 0000-0003-3187-7561 https://hdl.handle.net/10356/151435 10.1007/s00382-019-04703-6 2-s2.0-85062787269 5-6 53 3289 3313 en M4081327.030 Climate Dynamics © 2019 Springer-Verlag GmbH Germany, part of Springer Nature. All rights reserved. |
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Engineering::Civil engineering Rainfall Data Assimilation Rainfall Analysis Singh, Vishal Qin, Xiaosheng Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia |
| description |
The data scarcity and poor availability of observed daily rainfalls over Southeast Asia has limited the possibility to a wider range of studies in light of impacts from climate change and extreme hydro-meteorological processes such as floods, droughts, and other watershed management practices. To fill such a gap, data assimilation was carried out in this study to construct a long-term gridded daily (0.50° × 0.50°) rainfall time series (1951–2014) over Southeast Asia. In rainfall data assimilation, the available and globally accepted high resolution gridded datasets viz. Southeast Asia observed (SA-OBS) (1981–2014), APHRODITE (1951–2007), TRMM (1998–2018), PRINCETON (1951–2008) along with limited rain gauges-based rainfalls were utilized. In this study, eight gap filling methods were employed and tested at 20 selected rainfall grids to fill the long gaps presented in the SA-OBS gridded dataset. The strength of each method and associated uncertainties were evaluated in the computed rainfalls utilizing multiple functions at missing grids. The accuracy of each method, in case of extreme rainfalls, was tested by quantile–quantile (Q–Q) plots at different quantile intervals. The distance power method based on the Pearson correlation coefficient and the multiple linear regression method performed satisfactorily and produced minimum uncertainties in filling rainfall gaps. To test the accuracy and compatibility of gap-filled SA-OBS gridded dataset with other sources of datasets, the seasonality analysis and rainfall indices comparison were carried out. Results showed that the gap-filled SA-OBS dataset was better comparable to other sources of rainfalls. For the construction of the long-term rainfall time series (1951–2014), quantile mapping was adopted for bias correction and the quality of the final merged dataset was evaluated. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Singh, Vishal Qin, Xiaosheng |
| format |
Article |
| author |
Singh, Vishal Qin, Xiaosheng |
| author_sort |
Singh, Vishal |
| title |
Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia |
| title_short |
Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia |
| title_full |
Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia |
| title_fullStr |
Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia |
| title_full_unstemmed |
Data assimilation for constructing long-term gridded daily rainfall time series over Southeast Asia |
| title_sort |
data assimilation for constructing long-term gridded daily rainfall time series over southeast asia |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151435 |
| _version_ |
1705151284376502272 |