Developing flood risk curves of agricultural economic damage under climate change in the Lower Chao Phraya River Basin, Thailand

Rice is a major agricultural crop in Thailand, while paddy fields near river lines are exposed to high flood risk. This study assesses rice exposure and economic flood risk under future climate in the Lower Chao Phraya River Basin, Thailand. To encompass various flood events, this study estimates th...

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Published inJournal of flood risk management Vol. 17; no. 4
Main Authors Budhathoki, Aakanchya, Tanaka, Tomohiro, Tachikawa, Yasuto
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.12.2024
John Wiley & Sons, Inc
Wiley
Subjects
agricultural damage
Agricultural production
Agriculture
agriculture exposure
agriculture risk
climate
Climate change
Crop production
crops
cultivation area
d4PDF
Damage
Damage assessment
data collection
Decision making
Developing countries
Economics
Environmental risk
Exposure
Flood damage
Flood risk
Flooding
Floods
Fragility
Future climates
issues and policy
LCPRB
LDCs
paddies
Rice
Rice fields
Risk
Risk assessment
risk management
River basin development
River basins
Rivers
Sustainable development
Thailand
watersheds
Southeast Asia
Vietnam
Thailand
Chao Phraya River
Indonesia
Online AccessGet full text
ISSN1753-318X
1753-318X
DOI10.1111/jfr3.13031

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Abstract Rice is a major agricultural crop in Thailand, while paddy fields near river lines are exposed to high flood risk. This study assesses rice exposure and economic flood risk under future climate in the Lower Chao Phraya River Basin, Thailand. To encompass various flood events, this study estimates the frequency of rice economic damage by employing a large ensemble climate projection dataset based on database for Policy Decision making for Future climate change (d4PDF). Results show that, in the 4‐K warmer climate, the 100‐year exposed cultivation area and duration will increase approximately by 1.2–1.4 and 1.1–1.2 times, respectively. Decreased rice production is evaluated as monetary damage through several fragility curves. The economic damage by the 2011 flooding is estimated as 11.25 billion Thai Baht, while the estimation varies from the fragility curves employed. In the 4 K warmer climate, regardless of the fragility curves, 100‐year rice damage is projected to increase by 1.2–1.4 times. The 2011 flooding is larger than all 3000‐year simulations in the past climate, whereas extreme events in the 4 K warmer climate showed higher damage than the 2011 flooding, indicating that agricultural damage corresponding to the 2011 flooding may occur more frequently in the future climate.
AbstractList Rice is a major agricultural crop in Thailand, while paddy fields near river lines are exposed to high flood risk. This study assesses rice exposure and economic flood risk under future climate in the Lower Chao Phraya River Basin, Thailand. To encompass various flood events, this study estimates the frequency of rice economic damage by employing a large ensemble climate projection dataset based on database for Policy Decision making for Future climate change (d4PDF). Results show that, in the 4‐K warmer climate, the 100‐year exposed cultivation area and duration will increase approximately by 1.2–1.4 and 1.1–1.2 times, respectively. Decreased rice production is evaluated as monetary damage through several fragility curves. The economic damage by the 2011 flooding is estimated as 11.25 billion Thai Baht, while the estimation varies from the fragility curves employed. In the 4 K warmer climate, regardless of the fragility curves, 100‐year rice damage is projected to increase by 1.2–1.4 times. The 2011 flooding is larger than all 3000‐year simulations in the past climate, whereas extreme events in the 4 K warmer climate showed higher damage than the 2011 flooding, indicating that agricultural damage corresponding to the 2011 flooding may occur more frequently in the future climate.
Abstract Rice is a major agricultural crop in Thailand, while paddy fields near river lines are exposed to high flood risk. This study assesses rice exposure and economic flood risk under future climate in the Lower Chao Phraya River Basin, Thailand. To encompass various flood events, this study estimates the frequency of rice economic damage by employing a large ensemble climate projection dataset based on database for Policy Decision making for Future climate change (d4PDF). Results show that, in the 4‐K warmer climate, the 100‐year exposed cultivation area and duration will increase approximately by 1.2–1.4 and 1.1–1.2 times, respectively. Decreased rice production is evaluated as monetary damage through several fragility curves. The economic damage by the 2011 flooding is estimated as 11.25 billion Thai Baht, while the estimation varies from the fragility curves employed. In the 4 K warmer climate, regardless of the fragility curves, 100‐year rice damage is projected to increase by 1.2–1.4 times. The 2011 flooding is larger than all 3000‐year simulations in the past climate, whereas extreme events in the 4 K warmer climate showed higher damage than the 2011 flooding, indicating that agricultural damage corresponding to the 2011 flooding may occur more frequently in the future climate.
Author Tachikawa, Yasuto
Budhathoki, Aakanchya
Tanaka, Tomohiro
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Snippet Rice is a major agricultural crop in Thailand, while paddy fields near river lines are exposed to high flood risk. This study assesses rice exposure and...
Abstract Rice is a major agricultural crop in Thailand, while paddy fields near river lines are exposed to high flood risk. This study assesses rice exposure...
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SubjectTerms agricultural damage
Agricultural production
Agriculture
agriculture exposure
agriculture risk
climate
Climate change
Crop production
crops
cultivation area
d4PDF
Damage
Damage assessment
data collection
Decision making
Developing countries
Economics
Environmental risk
Exposure
Flood damage
Flood risk
Flooding
Floods
Fragility
Future climates
issues and policy
LCPRB
LDCs
paddies
Rice
Rice fields
Risk
Risk assessment
risk management
River basin development
River basins
Rivers
Sustainable development
Thailand
watersheds
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Title Developing flood risk curves of agricultural economic damage under climate change in the Lower Chao Phraya River Basin, Thailand
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