Global Precipitation Experiment—A New World Climate Research Programme Lighthouse Activity

Xubin Zeng; Lincoln Alves; Marie Amélie Boucher; Annalisa Cherchi; Charlotte DeMott; A. P. Dimri; Andrew Gettelman; Edward Hanna; Takeshi Horinouchi; Jin Huang; Chris Lennard; L. Ruby Leung; Yali Luo; Meloth Thamban; Hindumathi Palanisamy; Sara C. Pryor; Marion Saint-Lu; Stefan P. Sobolowski; Detlef Stammer; Jakob Steiner; Bjorn Stevens; Stefan Uhlenbrook; Michael Wehner; Paquita Zuidema

doi:10.1175/BAMS-D-23-0242.1

Global Precipitation Experiment—A New World Climate Research Programme Lighthouse Activity

Xubin Zeng
, Lincoln Alves
, Marie Amélie Boucher
, Annalisa Cherchi
, Charlotte DeMott
, A. P. Dimri
, Andrew Gettelman
, Edward Hanna
, Takeshi Horinouchi
, Jin Huang
, Chris Lennard
, L. Ruby Leung
, Yali Luo
, Meloth Thamban
, Hindumathi Palanisamy
, Sara C. Pryor
, Marion Saint-Lu
, Stefan P. Sobolowski
, Detlef Stammer
, Jakob Steiner

Bjorn Stevens, Stefan Uhlenbrook, Michael Wehner, Paquita Zuidema

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The future state of the global water cycle and the prediction of freshwater availability for humans around the world remain among the challenges of climate research and are relevant to several United Nations Sustainable Development Goals. The Global Precipitation Experiment (GPEX) takes on the challenge of improving the prediction of precipitation quantity, phase, timing, and intensity, characteristics that are products of a complex integrated system. It will achieve this by leveraging existing World Climate Research Programme (WCRP) activities and community capabilities in satellite, surface-based, and airborne observations, modeling, and experimental research and by conducting new and focused activities. It was launched in October 2023 as a WCRP Lighthouse Activity. Here, we present an overview of the GPEX Science Plan that articulates the primary science questions related to precipitation measurements, process understanding, model performance and improvements, and plans for capacity development. The central phase of GPEX is the WCRP Years of Precipitation for 2–3 years with coordinated global field campaigns focusing on different storm types (atmospheric rivers, mesoscale convective systems, monsoons, and tropical cyclones, among others) over different regions and seasons. Activities are planned over the three phases (before, during, and after the Years of Precipitation) spanning a decade. These include gridded data evaluation and development, advanced modeling, enhanced understanding of processes critical to precipitation, multiscale prediction of precipitation events across scales, and capacity development. These activities will be further developed as part of the GPEX Implementation Plan.

Original language	English (US)
Pages (from-to)	E408-E418
Journal	Bulletin of the American Meteorological Society
Volume	106
Issue number	2
DOIs	https://doi.org/10.1175/BAMS-D-23-0242.1
State	Published - Feb 2025

Keywords

Climate change
Databases
Hydrologic cycle
Numerical analysis/ modeling
Numerical weather prediction/ forecasting
Precipitation

ASJC Scopus subject areas

Atmospheric Science

Access to Document

10.1175/BAMS-D-23-0242.1

Cite this

Zeng, X., Alves, L., Boucher, M. A., Cherchi, A., DeMott, C., Dimri, A. P., Gettelman, A., Hanna, E., Horinouchi, T., Huang, J., Lennard, C., Leung, L. R., Luo, Y., Thamban, M., Palanisamy, H., Pryor, S. C., Saint-Lu, M., Sobolowski, S. P., Stammer, D., ... Zuidema, P. (2025). Global Precipitation Experiment—A New World Climate Research Programme Lighthouse Activity. Bulletin of the American Meteorological Society, 106(2), E408-E418. https://doi.org/10.1175/BAMS-D-23-0242.1

Zeng, X, Alves, L, Boucher, MA, Cherchi, A, DeMott, C, Dimri, AP, Gettelman, A, Hanna, E, Horinouchi, T, Huang, J, Lennard, C, Leung, LR, Luo, Y, Thamban, M, Palanisamy, H, Pryor, SC, Saint-Lu, M, Sobolowski, SP, Stammer, D, Steiner, J, Stevens, B, Uhlenbrook, S, Wehner, M & Zuidema, P 2025, 'Global Precipitation Experiment—A New World Climate Research Programme Lighthouse Activity', Bulletin of the American Meteorological Society, vol. 106, no. 2, pp. E408-E418. https://doi.org/10.1175/BAMS-D-23-0242.1

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abstract = "The future state of the global water cycle and the prediction of freshwater availability for humans around the world remain among the challenges of climate research and are relevant to several United Nations Sustainable Development Goals. The Global Precipitation Experiment (GPEX) takes on the challenge of improving the prediction of precipitation quantity, phase, timing, and intensity, characteristics that are products of a complex integrated system. It will achieve this by leveraging existing World Climate Research Programme (WCRP) activities and community capabilities in satellite, surface-based, and airborne observations, modeling, and experimental research and by conducting new and focused activities. It was launched in October 2023 as a WCRP Lighthouse Activity. Here, we present an overview of the GPEX Science Plan that articulates the primary science questions related to precipitation measurements, process understanding, model performance and improvements, and plans for capacity development. The central phase of GPEX is the WCRP Years of Precipitation for 2–3 years with coordinated global field campaigns focusing on different storm types (atmospheric rivers, mesoscale convective systems, monsoons, and tropical cyclones, among others) over different regions and seasons. Activities are planned over the three phases (before, during, and after the Years of Precipitation) spanning a decade. These include gridded data evaluation and development, advanced modeling, enhanced understanding of processes critical to precipitation, multiscale prediction of precipitation events across scales, and capacity development. These activities will be further developed as part of the GPEX Implementation Plan.",

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AU - Dimri, A. P.

AU - Gettelman, Andrew

AU - Hanna, Edward

AU - Horinouchi, Takeshi

AU - Huang, Jin

AU - Lennard, Chris

AU - Leung, L. Ruby

AU - Luo, Yali

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AU - Palanisamy, Hindumathi

AU - Pryor, Sara C.

AU - Saint-Lu, Marion

AU - Sobolowski, Stefan P.

AU - Stammer, Detlef

AU - Steiner, Jakob

AU - Stevens, Bjorn

AU - Uhlenbrook, Stefan

AU - Wehner, Michael

AU - Zuidema, Paquita

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N2 - The future state of the global water cycle and the prediction of freshwater availability for humans around the world remain among the challenges of climate research and are relevant to several United Nations Sustainable Development Goals. The Global Precipitation Experiment (GPEX) takes on the challenge of improving the prediction of precipitation quantity, phase, timing, and intensity, characteristics that are products of a complex integrated system. It will achieve this by leveraging existing World Climate Research Programme (WCRP) activities and community capabilities in satellite, surface-based, and airborne observations, modeling, and experimental research and by conducting new and focused activities. It was launched in October 2023 as a WCRP Lighthouse Activity. Here, we present an overview of the GPEX Science Plan that articulates the primary science questions related to precipitation measurements, process understanding, model performance and improvements, and plans for capacity development. The central phase of GPEX is the WCRP Years of Precipitation for 2–3 years with coordinated global field campaigns focusing on different storm types (atmospheric rivers, mesoscale convective systems, monsoons, and tropical cyclones, among others) over different regions and seasons. Activities are planned over the three phases (before, during, and after the Years of Precipitation) spanning a decade. These include gridded data evaluation and development, advanced modeling, enhanced understanding of processes critical to precipitation, multiscale prediction of precipitation events across scales, and capacity development. These activities will be further developed as part of the GPEX Implementation Plan.

AB - The future state of the global water cycle and the prediction of freshwater availability for humans around the world remain among the challenges of climate research and are relevant to several United Nations Sustainable Development Goals. The Global Precipitation Experiment (GPEX) takes on the challenge of improving the prediction of precipitation quantity, phase, timing, and intensity, characteristics that are products of a complex integrated system. It will achieve this by leveraging existing World Climate Research Programme (WCRP) activities and community capabilities in satellite, surface-based, and airborne observations, modeling, and experimental research and by conducting new and focused activities. It was launched in October 2023 as a WCRP Lighthouse Activity. Here, we present an overview of the GPEX Science Plan that articulates the primary science questions related to precipitation measurements, process understanding, model performance and improvements, and plans for capacity development. The central phase of GPEX is the WCRP Years of Precipitation for 2–3 years with coordinated global field campaigns focusing on different storm types (atmospheric rivers, mesoscale convective systems, monsoons, and tropical cyclones, among others) over different regions and seasons. Activities are planned over the three phases (before, during, and after the Years of Precipitation) spanning a decade. These include gridded data evaluation and development, advanced modeling, enhanced understanding of processes critical to precipitation, multiscale prediction of precipitation events across scales, and capacity development. These activities will be further developed as part of the GPEX Implementation Plan.

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KW - Databases

KW - Hydrologic cycle

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KW - Numerical weather prediction/ forecasting

KW - Precipitation

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Global Precipitation Experiment—A New World Climate Research Programme Lighthouse Activity

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