Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basin

Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basin

The Yangtze River Basin in China is subject to high inter- and intra-annual variability in its rainfall, leading to challenges in flood protection and for the high-value agricultural activity and large urban populations and infrastructure along its banks. As part of the Climate Science for Services...

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Main Authors: Nicola Golding, Chris Hewitt, Peiqun Zhang, Min Liu, Jun Zhang, Philip Bett
Format: Article
Language:English
Published: Elsevier 2019-01-01
Series:Climate Risk Management
Online Access:http://www.sciencedirect.com/science/article/pii/S2212096318301517
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spelling doaj-7708cb667b234521bb979f0d2a8ec0b02020-11-25T01:01:08ZengElsevierClimate Risk Management2212-09632019-01-01234349Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basinNicola Golding0Chris Hewitt1Peiqun Zhang2Min Liu3Jun Zhang4Philip Bett5Met Office, UK; Corresponding author.Met Office, UKBeijing Climate Centre, China Meteorological Administration, ChinaWuhan Regional Climate Centre, China Meteorological Administration, ChinaChina Three Gorges Corporation, ChinaMet Office, UKThe Yangtze River Basin in China is subject to high inter- and intra-annual variability in its rainfall, leading to challenges in flood protection and for the high-value agricultural activity and large urban populations and infrastructure along its banks. As part of the Climate Science for Services Partnership in China, Chinese and UK scientists, along with key decision makers in this region, are working closely together to understand the needs for climate information, co-develop a seasonal rainfall forecast service aiming to help meet these needs, and evaluate the value or usefulness of this service in supporting decision making to manage risk in the lower Yangtze Basin. We find that there is a range of users reliant on such a service, and that the current service contributes strongly to decision-making for many users. Through close co-operation between providers and users of the service, we also gain a good understanding of the limitations of the current service and outline developments needed to enhance its utility. Keywords: Seasonal forecast, Climate service, User engagement, Co-development, Yangtze Riverhttp://www.sciencedirect.com/science/article/pii/S2212096318301517
collection DOAJ
language English
format Article
sources DOAJ
author Nicola Golding
Chris Hewitt
Peiqun Zhang
Min Liu
Jun Zhang
Philip Bett
spellingShingle Nicola Golding
Chris Hewitt
Peiqun Zhang
Min Liu
Jun Zhang
Philip Bett
Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basin
Climate Risk Management
author_facet Nicola Golding
Chris Hewitt
Peiqun Zhang
Min Liu
Jun Zhang
Philip Bett
author_sort Nicola Golding
title Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basin
title_short Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basin
title_full Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basin
title_fullStr Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basin
title_full_unstemmed Co-development of a seasonal rainfall forecast service: Supporting flood risk management for the Yangtze River basin
title_sort co-development of a seasonal rainfall forecast service: supporting flood risk management for the yangtze river basin
publisher Elsevier
series Climate Risk Management
issn 2212-0963
publishDate 2019-01-01
description The Yangtze River Basin in China is subject to high inter- and intra-annual variability in its rainfall, leading to challenges in flood protection and for the high-value agricultural activity and large urban populations and infrastructure along its banks. As part of the Climate Science for Services Partnership in China, Chinese and UK scientists, along with key decision makers in this region, are working closely together to understand the needs for climate information, co-develop a seasonal rainfall forecast service aiming to help meet these needs, and evaluate the value or usefulness of this service in supporting decision making to manage risk in the lower Yangtze Basin. We find that there is a range of users reliant on such a service, and that the current service contributes strongly to decision-making for many users. Through close co-operation between providers and users of the service, we also gain a good understanding of the limitations of the current service and outline developments needed to enhance its utility. Keywords: Seasonal forecast, Climate service, User engagement, Co-development, Yangtze River
url http://www.sciencedirect.com/science/article/pii/S2212096318301517
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