MSWEP

Over the years, many gridded precip­i­tation products have been developed, but MSWEP stands out as the only one that merges gauge, satellite, and model precip­i­tation estimates, which enhances its perfor­mance in densely gauged, convection-dominated, and frontal-dominated regions, respec­tively. Furthermore, MSWEP incor­po­rates daily (in addition to monthly) gauge obser­va­tions and accounts for gauge reporting times, reducing temporal mismatches between satellite-model estimates and gauge data. With its high hourly 0.1° resolution, global coverage, historical data starting from 1979, and near real-time updates, MSWEP consis­tently outper­forms other precip­i­tation products (see the “Proven Perfor­mance” section on this page).

The ‘Past’ and ‘Past_nogauge’ variants represent the historical satellite-model merged data, with the ‘Past’ variant including gauge correc­tions and the ‘Past_nogauge’ variant excluding them. The ‘NRT’ variant extends the historical record to near real-time, with a latency of approx­i­mately 3 hours. For perfor­mance evalu­a­tions using gauge obser­va­tions, we recommend the ‘Past_nogauge’ variant, while the ‘Past’ variant is more suitable for general use. For more details, see the documentation.

• Download the appro­priate Rclone binary for your operating system from the Rclone website.
• Extract the files into a folder on your hard drive.
• Open a terminal or command prompt and navigate to the folder using the cd command.
• Configure Rclone by running: rclone config
• Press n to create a new remote.
• Enter the name GoogleDrive.
• For the storage type, enter drive (for Google Drive).
• Press Enter to accept the default choices (client_id, client_secret, scope, and service_account_file).
• Press n for advanced config.
• Press y to use web browser.
• Authen­ticate Rclone using your web browser.
• Press n for Shared Drive (Team Drive).
• Press y to keep the remote.
• Press q to exit the config­u­ration menu.
• Access the MSWEP shared Google Drive folder by clicking the link in the email.
• To confirm that Rclone can locate the shared folder, run: rclone lsd --drive-shared-with-me GoogleDrive:
• To download daily and monthly MSWEP data from the shared folder to your local drive, use: rclone sync -v --exclude 3hourly/ --exclude Hourly/ --drive-shared-with-me GoogleDrive:/MSWEP_V315_test c:/temp/MSWEP_V315_test

We have not corrected gauge under-catch in the latest version of MSWEP (V3) for two main reasons: (i) users typically prefer precip­i­tation estimates that align closely with rain gauge obser­va­tions, and (ii) under-catch correc­tions often come with consid­erable uncer­tainty. For a bias-corrected version of MSWEP, partic­u­larly useful for hydro­logical modeling, we recommend using GloH2O’s PBCOR product.

MSWEP V3 intro­duces a cutting-edge machine learning algorithm for merging and bias-correcting satellite and model data. Along with this new algorithm, V3 includes additional data sources, reduces drizzle overes­ti­mation, and minimizes peak under­es­ti­mation compared to V2. For a complete overview of version history, file naming conven­tions, and data formats, please refer to the documentation.

Daily precip­i­tation evalu­a­tions should consider gauge reporting times (i.e., the end time of daily accumu­la­tions) to avoid temporal mismatches between the product and the gauge data. Ignoring reporting times can skew evalu­ation results. To mitigate this, sub-daily data can be used to compute new daily accumu­la­tions that align with the gauges’ reporting times. Alter­na­tively, evalu­a­tions conducted over a 3‑day period can help reduce the impact of these mismatches. For more details, see the global reporting time map in Wang et al. (in prep),

Currently, noncom­mercial users can download MSWEP exclu­sively via Rclone, as outlined in the email received upon requesting access. Alter­native download methods, such as FTP and API access, are available only to commercial users.