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

IF 6.9 1区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES Bulletin of the American Meteorological Society Pub Date : 2024-05-02 DOI:10.1175/bams-d-23-0242.1
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
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Abstract

Abstract The future state of the global water cycle and 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, multi-scale 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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全球降水实验--新世界气候研究计划灯塔活动
摘要 全球水循环的未来状况以及对全球人类淡水可用性的预测仍然是气候研究的挑战之一,并且与联合国的几个可持续发展目标相关。全球降水试验(Global Precipitation EXperiment,GPEX)面临的挑战是改进对降水量、降水阶段、降水时间和降水强度的预测,这些特征是复杂的综合系统的产物。为实现这一目标,它将利用世界气候研究计划(WCRP)的现有活动和社区在卫星、地表和机载观测、建模和实验研究方面的能力,并开展重点突出的新活动。该项目于2023年10月启动,是世界气候研究计划的一项灯塔活动。在此,我们将概述 GPEX 科学计划,该计划阐明了与降水测量、过程理解、模型性能和改进以及能力发展计划相关的主要科学问题。GPEX 的中心阶段是为期 2-3 年的 "世界气候研究方案降水年"(WCRP Years of Precipitation),通过协调全球实地活动,重点关注不同地区和季节的不同风暴类型(大气河流、中尺度对流系统、季风和热带气旋等)。计划在三个阶段(降水年之前、期间和之后)开展活动,时间跨度为十年。这些活动包括网格数据评估和开发、高级建模、加强对降水关键过程的了解、跨尺度降水事件的多尺度预测以及能力开发。这些活动将作为 GPEX 实施计划的一部分得到进一步发展。
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来源期刊
CiteScore
9.80
自引率
6.20%
发文量
231
审稿时长
6-12 weeks
期刊介绍: The Bulletin of the American Meteorological Society (BAMS) is the flagship magazine of AMS and publishes articles of interest and significance for the weather, water, and climate community as well as news, editorials, and reviews for AMS members.
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