Climate change scenarios over Southeast Asia

ລາຍລະອຽດຊຸດຂໍ້ມູນ:

Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and droughts, larger populations, higher dependency on...

ແຫຼ່ງທີ່ມາ: Climate change scenarios over Southeast Asia

ຂໍ້ມູນເພີ່ມເຕີມ

ຊ່ອງຂໍ້ມູນ	ມູນຄ່າ
ການອັບເດດຂໍ້ມູນລ່າສຸດ	21 ຕຸລາ 2025
Metadata ອັບເດດຫຼ້າສຸດ	27 ມັງກອນ 2026
ສ້າງ	21 ຕຸລາ 2025
ຮູບແບບ	website
ໃບອານຸຍາດ	Creative Commons Attribution Non Commercial 4.0
Datastore active	False
Datastore contains all records of source file	False
Has views	False
Id	08f9a0ef-b645-47ef-8571-8643f522aa28
Name translated	{'en': 'Climate change scenarios over Southeast Asia', 'km': 'Climate change scenarios over Southeast Asia', 'lo': 'Climate change scenarios over Southeast Asia', 'my_MM': 'Climate change scenarios over Southeast Asia', 'vi': 'Climate change scenarios over Southeast Asia'}
Package id	bd551201-9d28-4480-9364-78dfecf8299b
Position	0
Resource description	{'en': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n', 'km': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n', 'lo': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n', 'my_MM': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n', 'vi': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n'}
State	active
ຊື່	Climate change scenarios over Southeast Asia
ຄຳອະທິບາຍ	Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and droughts, larger populations, higher dependency on agriculture for the economic sector, and low resilience of communities. Therefore, a study on how future climate change will affect this region has been conducted, and the results are provided in this paper. Projected surface temperatures and total precipitation from the baseline period of 2013 up to 2100 for Southeast Asia were investigated using the Global Climate Model (GCM) and the Weather Research Forecast (WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future climate scenarios. The results showed that future temperatures were projected to increase under both climate scenarios RCP4.5 and RCP8.5; however, precipitation was projected to decrease. The temperature was projected to increase by 0.93◦C and 2.50◦C under RCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the RCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons. We conclude that the change in climate variables, particularly the temperature and precipitation, could potentially increase the vulnerability of this region.

ຊ່ອງຂໍ້ມູນ

ມູນຄ່າ

ການອັບເດດຂໍ້ມູນລ່າສຸດ

21 ຕຸລາ 2025

Metadata ອັບເດດຫຼ້າສຸດ

27 ມັງກອນ 2026

ສ້າງ

21 ຕຸລາ 2025

ຮູບແບບ

website

ໃບອານຸຍາດ

Creative Commons Attribution Non Commercial 4.0

Datastore active

False

Datastore contains all records of source file

False

Has views

False

08f9a0ef-b645-47ef-8571-8643f522aa28

Name translated

{'en': 'Climate change scenarios over Southeast Asia', 'km': 'Climate change scenarios over Southeast Asia', 'lo': 'Climate change scenarios over Southeast Asia', 'my_MM': 'Climate change scenarios over Southeast Asia', 'vi': 'Climate change scenarios over Southeast Asia'}

Package id

bd551201-9d28-4480-9364-78dfecf8299b

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Resource description

{'en': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n', 'km': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n', 'lo': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n', 'my_MM': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n', 'vi': 'Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and\r\ndroughts, larger populations, higher dependency on agriculture for\r\nthe economic sector, and low resilience of communities. Therefore,\r\na study on how future climate change will affect this region has been\r\nconducted, and the results are provided in this paper. Projected\r\nsurface temperatures and total precipitation from the baseline\r\nperiod of 2013 up to 2100 for Southeast Asia were investigated using\r\nthe Global Climate Model (GCM) and the Weather Research Forecast\r\n(WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future\r\nclimate scenarios. The results showed that future temperatures\r\nwere projected to increase under both climate scenarios RCP4.5\r\nand RCP8.5; however, precipitation was projected to decrease. The\r\ntemperature was projected to increase by 0.93◦C and 2.50◦C under\r\nRCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the\r\nRCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons.\r\nWe conclude that the change in climate variables, particularly\r\nthe temperature and precipitation, could potentially increase the\r\nvulnerability of this region.\r\n'}

State

active

ຊື່

Climate change scenarios over Southeast Asia

ຄຳອະທິບາຍ

Southeast Asia is one of the world’s regions most vulnerable to climate change impacts with low-lying land, more severe floods and droughts, larger populations, higher dependency on agriculture for the economic sector, and low resilience of communities. Therefore, a study on how future climate change will affect this region has been conducted, and the results are provided in this paper. Projected surface temperatures and total precipitation from the baseline period of 2013 up to 2100 for Southeast Asia were investigated using the Global Climate Model (GCM) and the Weather Research Forecast (WRF) v3.9.1.1 modelling systems under RCP4.5 and RCP8.5 future climate scenarios. The results showed that future temperatures were projected to increase under both climate scenarios RCP4.5 and RCP8.5; however, precipitation was projected to decrease. The temperature was projected to increase by 0.93◦C and 2.50◦C under RCP4.5 and 8.5. Meanwhile, precipitation greatly varied under the RCP4.5 and RCP8.5 climate scenarios in both monsoonal seasons. We conclude that the change in climate variables, particularly the temperature and precipitation, could potentially increase the vulnerability of this region.

ລາຍ​ລະ​ອຽດ​ຊຸດ​ຂໍ້​ມູນ​:

ຂໍ້ມູນເພີ່ມເຕີມ

ລາຍລະອຽດຊຸດຂໍ້ມູນ: