Thông tin khác

Miền Giá trị
Data last updated 12 tháng 11, 2024
Metadata last updated 24 tháng 7, 2025
Được tạo ra 12 tháng 11, 2024
Định dạng PDF
Giấy phép License not specified
Datastore activeFalse
Datastore contains all records of source fileFalse
Has viewsTrue
Id8e15e786-4272-4037-b24e-dfa0734729c4
Mimetypeapplication/pdf
Name translated{'en': 'Climate Change On Rice Production And Adaptation, A Case Study Of Salinity Intrusion In Coastal Areas Of The Mekong Delta Region, Vietnam', 'km': 'Climate Change On Rice Production And Adaptation, A Case Study Of Salinity Intrusion In Coastal Areas Of The Mekong Delta Region, Vietnam', 'lo': 'Climate Change On Rice Production And Adaptation, A Case Study Of Salinity Intrusion In Coastal Areas Of The Mekong Delta Region, Vietnam', 'my_MM': 'Climate Change On Rice Production And Adaptation, A Case Study Of Salinity Intrusion In Coastal Areas Of The Mekong Delta Region, Vietnam', 'vi': 'Climate Change On Rice Production And Adaptation, A Case Study Of Salinity Intrusion In Coastal Areas Of The Mekong Delta Region, Vietnam'}
Package id3fd17dd1-860d-4799-893d-6a2923c1fc5f
Position0
Resource description{'en': 'This study examines how salinity intrusion, driven by climate change, affects rice production in Vietnam’s Mekong Delta. Based on data from 214 farmers, it finds that rice yields may drop dangerously, leading to significant profit losses. The study shows that salinity increases farming costs and reduces productivity. It concludes that adaptation measures like intercropping, salinity monitoring, and water management are needed to sustain rice farming in the region.', 'km': 'This study examines how salinity intrusion, driven by climate change, affects rice production in Vietnam’s Mekong Delta. Based on data from 214 farmers, it finds that rice yields may drop dangerously, leading to significant profit losses. The study shows that salinity increases farming costs and reduces productivity. It concludes that adaptation measures like intercropping, salinity monitoring, and water management are needed to sustain rice farming in the region.', 'lo': 'This study examines how salinity intrusion, driven by climate change, affects rice production in Vietnam’s Mekong Delta. Based on data from 214 farmers, it finds that rice yields may drop dangerously, leading to significant profit losses. The study shows that salinity increases farming costs and reduces productivity. It concludes that adaptation measures like intercropping, salinity monitoring, and water management are needed to sustain rice farming in the region.', 'my_MM': 'This study examines how salinity intrusion, driven by climate change, affects rice production in Vietnam’s Mekong Delta. Based on data from 214 farmers, it finds that rice yields may drop dangerously, leading to significant profit losses. The study shows that salinity increases farming costs and reduces productivity. It concludes that adaptation measures like intercropping, salinity monitoring, and water management are needed to sustain rice farming in the region.', 'vi': 'This study examines how salinity intrusion, driven by climate change, affects rice production in Vietnam’s Mekong Delta. Based on data from 214 farmers, it finds that rice yields may drop dangerously, leading to significant profit losses. The study shows that salinity increases farming costs and reduces productivity. It concludes that adaptation measures like intercropping, salinity monitoring, and water management are needed to sustain rice farming in the region.'}
Size1,2 MiB
Stateactive
Url typeupload
Tên Climate Change On Rice Production And Adaptation, A Case Study Of Salinity Intrusion In Coastal Areas Of The Mekong Delta Region, Vietnam
Sự miêu tả

This study examines how salinity intrusion, driven by climate change, affects rice production in Vietnam’s Mekong Delta. Based on data from 214 farmers, it finds that rice yields may drop dangerously, leading to significant profit losses. The study shows that salinity increases farming costs and reduces productivity. It concludes that adaptation measures like intercropping, salinity monitoring, and water management are needed to sustain rice farming in the region.