AsiaPEX: Challenges and Prospects in Asian Precipitation Research

Toru Terao; Shinjiro Kanae; Hatsuki Fujinami; Someshwar Das; A. P. Dimri; Subashisa Dutta; Koji Fujita; Azusa Fukushima; Kyung Ja Ha; Masafumi Hirose; Jinkyu Hong; Hideyuki Kamimera; Rijan Bhakta Kayastha; Masashi Kiguchi; Kazuyoshi Kikuchi; Hyun Mee Kim; Akio Kitoh; Hisayuki Kubota; Weiqiang Ma; Yaoming Ma; Milind Mujumdar; Masato I. Nodzu; Tomonori Sato; Z. Su; Shiori Sugimoto; Hiroshi G. Takahashi; Yuhei Takaya; Shuyu Wang; Kun Yang; Satoru Yokoi; Peter van Oevelen; Jun Matsumoto

doi:10.1175/BAMS-D-20-0220.1

AsiaPEX: Challenges and Prospects in Asian Precipitation Research

Toru Terao^*, Shinjiro Kanae, Hatsuki Fujinami, Someshwar Das, A. P. Dimri, Subashisa Dutta, Koji Fujita, Azusa Fukushima, Kyung Ja Ha, Masafumi Hirose, Jinkyu Hong, Hideyuki Kamimera, Rijan Bhakta Kayastha, Masashi Kiguchi, Kazuyoshi Kikuchi, Hyun Mee Kim, Akio Kitoh, Hisayuki Kubota, Weiqiang Ma, Yaoming MaMilind Mujumdar, Masato I. Nodzu, Tomonori Sato, Z. Su, Shiori Sugimoto, Hiroshi G. Takahashi, Yuhei Takaya, Shuyu Wang, Kun Yang, Satoru Yokoi, Peter van Oevelen, Jun Matsumoto

^*Corresponding author for this work

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

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Abstract

The Asian Precipitation Experiment (AsiaPEX) was initiated in 2019 to understand terrestrial precipitation over diverse hydroclimatological conditions for improved predictions, disaster reduction, and sustainable development across Asia under the framework of the Global Hydroclimatology Panel (GHP)/Global Energy and Water Exchanges (GEWEX). AsiaPEX is the successor to GEWEX Asian Monsoon Experiment (GAME; 1995-2005) and Monsoon Asian Hydro-Atmosphere Scientific Research and Prediction Initiative (MAHASRI; 2006-16). While retaining the key objectives of the aforementioned projects, the scientific targets of AsiaPEX focus on land-atmosphere coupling and improvements to the predictability of the Asian hydroclimatological system. AsiaPEX was designed for both fine-scale hydroclimatological processes occurring at the land surface and the integrated Asian hydroclimatological system characterized by multiscale interactions. We adopt six approaches including observation, process studies, scale interactions, high-resolution hydrological modeling, field campaigns, and climate projection, which bridge gaps in research activities conducted in different regions. Collaboration with mesoscale and global modeling researchers is one of the core methods in AsiaPEX. We review these strategies based on the literature and our initial outcomes. These include the estimation and validation of highresolution satellite precipitation, investigations of extreme rainfall mechanisms, field campaigns over the Maritime Continent and Tibetan Plateau, areas of significant impact on the entire AsiaPEX region, process studies on diurnal- to interdecadal-scale interactions, and evaluation of the predictabilities of climate models for long-term variabilities. We will conduct integrated observational and modeling initiative, the Asian Monsoon Year (AMY)-II around 2025-28, whose strategies are the subregional observation platforms and integrated global analysis.

Original language	English
Pages (from-to)	E884-E908
Journal	Bulletin of the American Meteorological Society
Volume	104
Issue number	4
DOIs	https://doi.org/10.1175/BAMS-D-20-0220.1
Publication status	Published - Apr 2023

Keywords

Asia
Atmosphere-land interaction
Field experiments
Precipitation
ITC-HYBRID
ITC-ISI-JOURNAL-ARTICLE

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Terao, T., Kanae, S., Fujinami, H., Das, S., Dimri, A. P., Dutta, S., Fujita, K., Fukushima, A., Ha, K. J., Hirose, M., Hong, J., Kamimera, H., Kayastha, R. B., Kiguchi, M., Kikuchi, K., Kim, H. M., Kitoh, A., Kubota, H., Ma, W., ... Matsumoto, J. (2023). AsiaPEX: Challenges and Prospects in Asian Precipitation Research. Bulletin of the American Meteorological Society, 104(4), E884-E908. https://doi.org/10.1175/BAMS-D-20-0220.1

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title = "AsiaPEX: Challenges and Prospects in Asian Precipitation Research",

abstract = "The Asian Precipitation Experiment (AsiaPEX) was initiated in 2019 to understand terrestrial precipitation over diverse hydroclimatological conditions for improved predictions, disaster reduction, and sustainable development across Asia under the framework of the Global Hydroclimatology Panel (GHP)/Global Energy and Water Exchanges (GEWEX). AsiaPEX is the successor to GEWEX Asian Monsoon Experiment (GAME; 1995-2005) and Monsoon Asian Hydro-Atmosphere Scientific Research and Prediction Initiative (MAHASRI; 2006-16). While retaining the key objectives of the aforementioned projects, the scientific targets of AsiaPEX focus on land-atmosphere coupling and improvements to the predictability of the Asian hydroclimatological system. AsiaPEX was designed for both fine-scale hydroclimatological processes occurring at the land surface and the integrated Asian hydroclimatological system characterized by multiscale interactions. We adopt six approaches including observation, process studies, scale interactions, high-resolution hydrological modeling, field campaigns, and climate projection, which bridge gaps in research activities conducted in different regions. Collaboration with mesoscale and global modeling researchers is one of the core methods in AsiaPEX. We review these strategies based on the literature and our initial outcomes. These include the estimation and validation of highresolution satellite precipitation, investigations of extreme rainfall mechanisms, field campaigns over the Maritime Continent and Tibetan Plateau, areas of significant impact on the entire AsiaPEX region, process studies on diurnal- to interdecadal-scale interactions, and evaluation of the predictabilities of climate models for long-term variabilities. We will conduct integrated observational and modeling initiative, the Asian Monsoon Year (AMY)-II around 2025-28, whose strategies are the subregional observation platforms and integrated global analysis.",

keywords = "Asia, Atmosphere-land interaction, Field experiments, Precipitation, ITC-HYBRID, ITC-ISI-JOURNAL-ARTICLE",

author = "Toru Terao and Shinjiro Kanae and Hatsuki Fujinami and Someshwar Das and Dimri, {A. P.} and Subashisa Dutta and Koji Fujita and Azusa Fukushima and Ha, {Kyung Ja} and Masafumi Hirose and Jinkyu Hong and Hideyuki Kamimera and Kayastha, {Rijan Bhakta} and Masashi Kiguchi and Kazuyoshi Kikuchi and Kim, {Hyun Mee} and Akio Kitoh and Hisayuki Kubota and Weiqiang Ma and Yaoming Ma and Milind Mujumdar and Nodzu, {Masato I.} and Tomonori Sato and Z. Su and Shiori Sugimoto and Takahashi, {Hiroshi G.} and Yuhei Takaya and Shuyu Wang and Kun Yang and Satoru Yokoi and {van Oevelen}, Peter and Jun Matsumoto",

note = "Publisher Copyright: {\textcopyright} 2023 American Meteorological Society.",

year = "2023",

month = apr,

doi = "10.1175/BAMS-D-20-0220.1",

language = "English",

volume = "104",

pages = "E884--E908",

journal = "Bulletin of the American Meteorological Society",

issn = "0003-0007",

publisher = "American Meteorological Society",

number = "4",

}

Terao, T, Kanae, S, Fujinami, H, Das, S, Dimri, AP, Dutta, S, Fujita, K, Fukushima, A, Ha, KJ, Hirose, M, Hong, J, Kamimera, H, Kayastha, RB, Kiguchi, M, Kikuchi, K, Kim, HM, Kitoh, A, Kubota, H, Ma, W, Ma, Y, Mujumdar, M, Nodzu, MI, Sato, T, Su, Z, Sugimoto, S, Takahashi, HG, Takaya, Y, Wang, S, Yang, K, Yokoi, S, van Oevelen, P & Matsumoto, J 2023, 'AsiaPEX: Challenges and Prospects in Asian Precipitation Research', Bulletin of the American Meteorological Society, vol. 104, no. 4, pp. E884-E908. https://doi.org/10.1175/BAMS-D-20-0220.1

TY - JOUR

T1 - AsiaPEX

T2 - Challenges and Prospects in Asian Precipitation Research

AU - Terao, Toru

AU - Kanae, Shinjiro

AU - Fujinami, Hatsuki

AU - Das, Someshwar

AU - Dimri, A. P.

AU - Dutta, Subashisa

AU - Fujita, Koji

AU - Fukushima, Azusa

AU - Ha, Kyung Ja

AU - Hirose, Masafumi

AU - Hong, Jinkyu

AU - Kamimera, Hideyuki

AU - Kayastha, Rijan Bhakta

AU - Kiguchi, Masashi

AU - Kikuchi, Kazuyoshi

AU - Kim, Hyun Mee

AU - Kitoh, Akio

AU - Kubota, Hisayuki

AU - Ma, Weiqiang

AU - Ma, Yaoming

AU - Mujumdar, Milind

AU - Nodzu, Masato I.

AU - Sato, Tomonori

AU - Su, Z.

AU - Sugimoto, Shiori

AU - Takahashi, Hiroshi G.

AU - Takaya, Yuhei

AU - Wang, Shuyu

AU - Yang, Kun

AU - Yokoi, Satoru

AU - van Oevelen, Peter

AU - Matsumoto, Jun

PY - 2023/4

Y1 - 2023/4

N2 - The Asian Precipitation Experiment (AsiaPEX) was initiated in 2019 to understand terrestrial precipitation over diverse hydroclimatological conditions for improved predictions, disaster reduction, and sustainable development across Asia under the framework of the Global Hydroclimatology Panel (GHP)/Global Energy and Water Exchanges (GEWEX). AsiaPEX is the successor to GEWEX Asian Monsoon Experiment (GAME; 1995-2005) and Monsoon Asian Hydro-Atmosphere Scientific Research and Prediction Initiative (MAHASRI; 2006-16). While retaining the key objectives of the aforementioned projects, the scientific targets of AsiaPEX focus on land-atmosphere coupling and improvements to the predictability of the Asian hydroclimatological system. AsiaPEX was designed for both fine-scale hydroclimatological processes occurring at the land surface and the integrated Asian hydroclimatological system characterized by multiscale interactions. We adopt six approaches including observation, process studies, scale interactions, high-resolution hydrological modeling, field campaigns, and climate projection, which bridge gaps in research activities conducted in different regions. Collaboration with mesoscale and global modeling researchers is one of the core methods in AsiaPEX. We review these strategies based on the literature and our initial outcomes. These include the estimation and validation of highresolution satellite precipitation, investigations of extreme rainfall mechanisms, field campaigns over the Maritime Continent and Tibetan Plateau, areas of significant impact on the entire AsiaPEX region, process studies on diurnal- to interdecadal-scale interactions, and evaluation of the predictabilities of climate models for long-term variabilities. We will conduct integrated observational and modeling initiative, the Asian Monsoon Year (AMY)-II around 2025-28, whose strategies are the subregional observation platforms and integrated global analysis.

AB - The Asian Precipitation Experiment (AsiaPEX) was initiated in 2019 to understand terrestrial precipitation over diverse hydroclimatological conditions for improved predictions, disaster reduction, and sustainable development across Asia under the framework of the Global Hydroclimatology Panel (GHP)/Global Energy and Water Exchanges (GEWEX). AsiaPEX is the successor to GEWEX Asian Monsoon Experiment (GAME; 1995-2005) and Monsoon Asian Hydro-Atmosphere Scientific Research and Prediction Initiative (MAHASRI; 2006-16). While retaining the key objectives of the aforementioned projects, the scientific targets of AsiaPEX focus on land-atmosphere coupling and improvements to the predictability of the Asian hydroclimatological system. AsiaPEX was designed for both fine-scale hydroclimatological processes occurring at the land surface and the integrated Asian hydroclimatological system characterized by multiscale interactions. We adopt six approaches including observation, process studies, scale interactions, high-resolution hydrological modeling, field campaigns, and climate projection, which bridge gaps in research activities conducted in different regions. Collaboration with mesoscale and global modeling researchers is one of the core methods in AsiaPEX. We review these strategies based on the literature and our initial outcomes. These include the estimation and validation of highresolution satellite precipitation, investigations of extreme rainfall mechanisms, field campaigns over the Maritime Continent and Tibetan Plateau, areas of significant impact on the entire AsiaPEX region, process studies on diurnal- to interdecadal-scale interactions, and evaluation of the predictabilities of climate models for long-term variabilities. We will conduct integrated observational and modeling initiative, the Asian Monsoon Year (AMY)-II around 2025-28, whose strategies are the subregional observation platforms and integrated global analysis.

KW - Asia

KW - Atmosphere-land interaction

KW - Field experiments

KW - Precipitation

KW - ITC-HYBRID

KW - ITC-ISI-JOURNAL-ARTICLE

U2 - 10.1175/BAMS-D-20-0220.1

DO - 10.1175/BAMS-D-20-0220.1

M3 - Article

AN - SCOPUS:85153532653

SN - 0003-0007

VL - 104

SP - E884-E908

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 4

ER -

AsiaPEX: Challenges and Prospects in Asian Precipitation Research

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