SM2RAIN–ASCAT (2007–2018): global daily satellite rainfall data from ASCAT soil moisture observations

Brocca, Luca; Filippucci, Paolo; Hahn, Sebastian; Ciabatta, Luca; Massari, Christian; Schüller, Lothar; Bojkov, Bojan; Wagner, Wolfgang

doi:10.5194/essd-11-1583-2019

Cited by 179 publications

(134 citation statements)

References 48 publications

(71 reference statements)

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“…However, SM2RAIN‐ASCAT and other three datasets have shown significant variations over Himalayan regions, Jammu & Kashmir and North‐East India regions, which could be attributed to limited density of precipitation gauges in these regions. Therefore, the satellite‐based precipitation such as TRMM, CHIRPS and soil moisture based generated precipitation datasets such as SM2RAIN‐ASCAT (Brocca et al ., ) could be the useful sources in the absence of gauge data to fulfil these gaps. The quantitative and qualitative comparisons of all datasets focusing on extreme events have been done in the next sections.…”

Section: Resultsmentioning

confidence: 99%

“…A new global precipitation dataset, obtained from satellite‐based soil moisture data through the SM2RAIN algorithm, has been produced at 12.5 km × 12.5 km scale /daily spatio‐temporal resolution by Brocca et al . (). This dataset is available from January 2007 to December 2018 and downloaded from the web source https://zenodo.org/record/2591215#.XX550CgzZPY (Brocca et al ., ).…”

Section: Methodsmentioning

confidence: 97%

“…(). This dataset is available from January 2007 to December 2018 and downloaded from the web source https://zenodo.org/record/2591215#.XX550CgzZPY (Brocca et al ., ). The datasets were downloaded at 12.5 km × 12.5 km resolution (about 0.125° × 0.125° scale); therefore, we applied the nearest neighbour interpolation method (Linsay, ; Singh and Xiaosheng, , ) and brought the data at 0.25° × 0.25° scale to compare it with the IMD precipitation dataset.…”

Section: Methodsmentioning

confidence: 99%

“…The evaluation of SM2RAIN‐ASCAT precipitation dataset has been performed at global scale by Brocca et al . (), but their evaluation in India (at smaller scales) has been explored in this study.…”

Section: Methodsmentioning

confidence: 99%

“…Different global datasets are available based on satellite measurements such as Tropical Rainfall Measuring Mission (TRMM) (Chen et al ., ), Global Precipitation Measurement (GPM) (Xu et al ., ), Climate Hazards Group InfraRed Precipitation (CHIRPS) (Funk et al ., ; Prakash, ), Soil Moisture to Rain (SM2RAIN‐ASCAT) (Brocca et al ., ), outputs from various climate models (Katiraie‐Boroujerdy et al ., ) and gauge observations (Singh et al ., ). However, each dataset has its own advantages and limitations.…”

Section: Introductionmentioning

confidence: 99%

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An assessment of global satellite‐based precipitation datasets in capturing precipitation extremes: A comparison with observed precipitation dataset in India

Gupta

Jain

Singh

et al. 2019

Intl Journal of Climatology

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The availability of global satellite‐based precipitation datasets provides an asset to accomplish precipitation dependent analysis where gauge based precipitation datasets are not available or limited. In this study, we have taken three most popular and globally accepted satellite‐based daily gridded (0.25° × 0.25°) precipitation datasets such as Climate Hazards Group InfraRed Precipitation with Station data (CHIRPS), Satellite Soil Moisture to Rain (SM2RAIN‐ASCAT) and Tropical Rainfall Measuring Mission (TRMM now available as Global Precipitation Measurement [GPM]) for 10 years (2007–2016) time‐series durations to test their reliability across India. The India Meteorological Department (IMD) observed daily gridded (0.25° × 0.25°) precipitation data have been taken as reference data to compare the other three satellite‐based gridded precipitation datasets by developing standard extreme precipitation indices (SEPIs). The precipitation extremity has been tested in the wet season (June–July–August–September) and throughout the year. We have also analysed the extreme behaviour of precipitation (in both upper and lower tails) using quantile‐quantile (Q–Q) regression analysis after selecting 33 random precipitation grids across India. The overall analysis results showed that all satellite‐based datasets have significant spatial heterogeneity in estimating precipitation extremes accurately which varies across India. Among all satellite‐precipitation datasets, TRMM found closer to IMD than SM2RAIN‐ASCAT and CHIRPS. The frequency based SEPIs showed that CHIRPS, TRMM and SM2RAIN‐ASCAT have similarities to IMD precipitations. The intensity‐based SEPIs show that TRMM and CHIRPS have significant similarities with IMD precipitations. The wet season‐based analysis results showed that TRMM and CHIRPS are closer to IMD precipitations than SM2RAIN‐ASCAT satellite‐precipitations. Overall TRMM and CHIRPS datasets performed well across most regions in India, while SM2RAIN‐ASCAT dataset has performed poorly in India, especially for extreme precipitation cases. Q–Q plots show that each satellite‐based precipitation dataset captured most of extreme cases in different quantile intervals with respect to IMD precipitation; however, SM2RAIN‐ASCAT has slightly under‐performed at many regions in India.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 97%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

An assessment of global satellite‐based precipitation datasets in capturing precipitation extremes: A comparison with observed precipitation dataset in India

Gupta

Jain

Singh

et al. 2019

Intl Journal of Climatology

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Unpacking some of the linkages between uncertainties in observational data and the simulation of different hydrological processes using the Pitman model in the data scarce Zambezi River basin

Hughes

Farinosi

2021

Hydrological Processes

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The main objective of this study was to use an uncertainty version of a widely used monthly time step, semi-distributed model (the Pitman model) to explore the equifinalities in the way in which the main hydrological processes are simulated and any identifiable linkages with uncertainties in the available observational data. The study area is the Zambezi River basin and 17 gauged sub-basins have been included in the analyses. Unfortunately, it is not generally possible to quantify some of the observational uncertainties in such a data scarce area and mostly we are limited to identifying where these data are clearly deficient (i.e., erroneous or non-representative). The overall conclusion is that the equifinalities in the model are hugely dominant in terms of the uncertainties in the relative occurrence of different runoff generating processes, although water use uncertainties in the semi-arid parts of the basin can contribute to these uncertainties. The identification of landscape features that suggest the occurrence of saturation excess surface runoff provides some information to constrain the model. Improved independent estimates of groundwater recharge is also identified as a key source of observational data that would help a great deal in constraining the model parameter space and therefore reducing some of the model equifinality.

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Visualization‐driven hydrologic assessment using Gridded Precipitation Products

Tran,

Lakshmi

2024

Hydrological Processes

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SM2RAIN–ASCAT (2007–2018): global daily satellite rainfall data from ASCAT soil moisture observations

Cited by 179 publications

References 48 publications

An assessment of global satellite‐based precipitation datasets in capturing precipitation extremes: A comparison with observed precipitation dataset in India

An assessment of global satellite‐based precipitation datasets in capturing precipitation extremes: A comparison with observed precipitation dataset in India

Unpacking some of the linkages between uncertainties in observational data and the simulation of different hydrological processes using the Pitman model in the data scarce Zambezi River basin

Visualization‐driven hydrologic assessment using Gridded Precipitation Products

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