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Tropical Storm Yagi (Karding)
Tropical Storm Yagi approaching China on August 12, 2018
Meteorological history
FormedAugust 6, 2018
ExtratropicalAugust 15, 2018
DissipatedAugust 16, 2018
Tropical storm
10-minute sustained (JMA)
Highest winds75 km/h (45 mph)
Lowest pressure990 hPa (mbar); 29.23 inHg
Tropical storm
1-minute sustained (SSHWS/JTWC)
Highest winds100 km/h (65 mph)
Lowest pressure983 hPa (mbar); 29.03 inHg
Overall effects
Fatalities7 total
Damage$365 million (2018 USD)
Areas affectedChina, Taiwan, Philippines, Japan, Korea
Part of the 2018 Pacific typhoon season

Tropical Storm Yagi, known in the Philippines as Tropical Storm Karding, was a moderate but damaging tropical cyclone that was part of the 2018 Pacific typhoon season. The storm origninated on July 31 as a tropical disturbance southwest of Iwo To. The system intensified into a tropical depression on August 6 after several days of being over favorable conditions while moving westward, while PAGASA gave it the local name Karding. Though it was disorganized mainly due to moderate vertical wind shear, excellent outflow allowed the storm to intensify, and by August 8, it strengthened into a tropical storm, receiving the name Yagi (ヤギ, "Goat"), which refers to the constellation of Capricornus in Japanese. Yagi moved erraticly before steering northwestward on August 9, as thunderstorms broadened close to the center. As it continued to battle vertical wind shear, the storm deviated and turned west on August 11, before resuming its northwestward path. That day, Yagi attained Maximum sustained winds of 75 km/h (45 mph) and a lowest barometric pressure of 990 hPa (29.23 inHg). While north-northeast of Taipei, Taiwan on August 12, the Joint Typhoon Warning Center assessed that Yagi reached maximum 1-minute winds of 100 km/h (65 mph). The storm then made landfall over Wenling, Zhejiang, leading to rapid weakening from land interaction. Yagi recurved eastward on August 14 into the Bohai Sea, where it transitioned into an extratropical cyclone on August 15, and dissipated the next day.

Meteorological history

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Map plotting the storm's track and intensity, according to the Saffir–Simpson scale
Map key
Saffir–Simpson scale
  Tropical depression (≤38 mph, ≤62 km/h)
  Tropical storm (39–73 mph, 63–118 km/h)
  Category 1 (74–95 mph, 119–153 km/h)
  Category 2 (96–110 mph, 154–177 km/h)
  Category 3 (111–129 mph, 178–208 km/h)
  Category 4 (130–156 mph, 209–251 km/h)
  Category 5 (≥157 mph, ≥252 km/h)
  Unknown
Storm type
triangle Extratropical cyclone, remnant low, tropical disturbance, or monsoon depression

Yagi's origins are traced back to July 31, when it formed as a tropical disturbance near 18°00′N 136°00′E / 18.0°N 136.0°E / 18.0; 136.0.[1] On August 1, the Joint Typhoon Warning Center (JTWC) began monitoring the disturbance that persisted 806 km (501 mi) southwest of Iwo To. The system had a broad area of low level clouds circulating below flaring thunderstorms—or atmospheric convection—possessing adequate divergence aloft and situating over warm sea surface temperatures of 28–29 °C (82–84 °F) and low vertical wind shear—conditions which are favorable for tropical cyclogenesis.[2] At 06:00 UTC, the Japan Meteorological Agency (JMA) recognized it as a low-pressure area, before deeming it too weak early the next day. The JMA then categorized it again on August 4, before last noting it for the second time until August 5 as it was nearly stationary.[1][3] By August 6, the JMA reported that the system had intensified into a tropical depression east of the Philippines and had began moving westward.[4] PAGASA had also began tracking the system as it was within its responsibility area, giving it the local name Karding.[5] At 18:00 UTC of that day, the JTWC designated the system Tropical Depression 18W, though it was characterized as having a poorly-defined center and being unorganized.[6]

During August 7, the system began forming rainbands into its fully-exposed center, though its convection was displaced to the west by an increase of wind shear. Its motion was influenced by a weak near-equatorial ridge it binded with to the southeast.[7] However, the wind shear was somewhat offset by diffluence in the upper troposphere, allowing deep convection to intensify, as multiple mesovortices in the center were apparent on satellite imagery.[8] As it continued to battle vertical wind shear with equatorward outflow, the system moved erratically in a north-northwestward direction while 948 km (589 mi) south-southeast of Kadena Air Base, Japan.[9] By 00:00 UTC of August 8, the JMA reported that the tropical depression had intensified into a tropical storm, assigning it the name Yagi.[4] The JTWC followed suit in upgrading the system six hours later due to a scatterometer pass, as Yagi turned east-northeast due to being in between the near-equatorial ridge and a subtropical ridge.[10] On August 9, Yagi again turned north-northwestward along the southwestern edge of the subtropical ridge, with thunderstorms beginning to bloom very close to the center.[11] Later on, a dense overcast partially obscures the center over marginal environmental conditions, as outflow continued to improve.[12] Despite sea surface temperatures remaining high, Yagi was over a region of low ocean heat.[13]

On August 10, Yagi briefly became nearly stationary while slowly moving west-southwestward, with convection concentrated over the southwest quadrant,[14] though it resumed its original northwestward track.[15] Nascent thunderstorms then began broadening over the western flank of the storm, despite persistent high wind shear.[16] Moreover, radar imagery revealed fragmented deep banding wrapping into the storm's center as it shifted westward.[17] Around 01:00 UTC on August 11, PAGASA reported that Yagi had exited the Philippine Area of Responsibility.[5] At 12:00 UTC, the JMA reported that Yagi had attained its peak intensity, estimating maximum sustained winds of 75 km/h (45 mph) and the lowest atmospheric pressure of 990 hPa (29.23 inHg).[4] A tropical upper tropospheric trough cell to the north-northwest enhanced poleward outflow, allowing for additional intensification in conjunction with warm waters.[18] At 12:00 UTC in August 12, the JTWC reported that Yagi had attained 1-minute maximum sustained winds of 85 km/h (50 mph) while 285 km (177 mi) north-northeast of Taipei, Taiwan.[19] At 15:35 UTC, Yagi made landfall over the coast of Wenling, Zhejiang, China,[20] prompting the JTWC to issue its final warning at 18:00 UTC.[21] Yagi then began to weaken during August 13 due to land interaction.[22] At 00:00 UTC, Yagi had weaken into a tropical depression, according to the JMA and JTWC.[4][23] The system then recurved eastward on August 14 and entered the Bohai Sea—where it transitioned into an extratropical cyclone at 06:00 UTC of August 15—turning southward and then southwestward before fully dissipating 24 hours later on August 16.[4]

Effects

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China

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Tropical Depression Yagi over East China on August 13

As Yagi approached the Chinese coast, the National Meteorological Center of the China Meteorological Administration (CMA) issued a blue alert—the lowest level in a four-tier warning system.[24] Later that day, the CMA upgraded the signal to a yellow alert, the second lowest level.[25] The National Meteorological Center forecasted that from August 13 to 14, the northeastern East China Sea, southwestern Yellow Sea, the coastal regions of Jiangsu and Shanghai, Hangzhou Bay, northern coastal regions of Zhejiang, the western coastal regions of Guangdong, and eastern coastal regions of Hainan would experience force 7-8 gales. Additionally, heavy rain was expected across southern Shandong, eastern Henan, western Jiangsu, central-northern and southeastern Anhui, northwestern Zhejiang, southern Guangdong, and most of Hainan.[26] About 204,949 people across ten cities including Taizhou, Zhoushan, and Wenzhou in Zhejiang were evacuated. A total of 20,949 fishing boats and 4,526 other vessels returned to their ports for safety.[27] In Shanghai, 20 parks were closed, 100 trains were suspended and 149 flights were canceled at Pudong Airport and 143 were canceled at Hongqiao Airport.[28] In Hong Kong, the region's meteorological agency raised a typhoon signal No. 1, as Yagi neared the region.[29]

During landfall, Yagi brought force 10 gales or 102 km/h (63 mph) at its center.[27] Affecting a population of approximately 237,300, Yagi produced rainfall up to 100–200 mm (3.9–7.9 in) over eastern and northern Zhejiang, northeastern Anhui, northwest Jiangsu, central west Shandong, and southern and easter Hebei. 250–380 mm (9.8–15.0 in) of rain poured over Lu'an and Anqing of Anhui, Xuzhou of Jiangsu, Weifang of Shandong, and Cangzhou of Hebei. In Jiawang District, 443 mm (17.4 in) of rain was recorded. Force 7-9 gusts on the Beaufort scale swept along the eastern coast of China, with Yagi's remnants also producing gusts of the same strength along the coast of Bohai Bay, northeastern Shandong, eastern Hebei, and southern Liaoning. The flooding overflowed the Zhuxi River and the river network of Hangja Lake, Shuihe River, and nine other medium and small rivers, including the Dayang and Biliu Rivers.[20] Jinshan City Beach sustained serious damage, leading to its closure for at least two weeks. Heavy winds and storm surge caused around 90% of the beach's structures and facilities to be damaged.[30] A signboard fell off a shop in East Nanjing Road due to strong winds, killing three people and injuring six.[31] Sixteen people lifted the sign off of the victims.[32] Yagi produced a tornado outbreak, the first ever in modern Chinese history, of 11 tornadoes, after dry air and an approaching mid-latitude trough in the middle troposphere created conditions favorable for tornadogenesis, producing high convective available potential energy.[33] In Shandong, the tornadoes inflicted EF0/EF1 damage on the Enhanced Fujita scale upon Jianglou, Binzhou, and Yanwo, while Dongying suffered EF2 damage, damaging buildings, breaking trees, and ruining crops.[34] Direct economic losses due to Yagi totaled up to CN¥2.51 billion.[20]

Philippines

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Due to the enhancement of the southwest monsoon by Yagi (Karding), orange rainfall alerts—the second highest alert indicating possible rainfall of 15 to 30 mm (0.59 to 1.18 in) per hour—were issued for Metro Manila and Rizal on August 11, before they were upgraded to red rainfall alerts—the highest alert indicating possible rainfall of over 30 mm (1.2 in) per hour. Orange rainfall alerts were then raised across Zambales, Bataan, Bulacan, and Pampanga that same day, and extended to Batangas and Cavite on August 12.[35][36] A total of 435 cities or municipalities across Metro Manila, the Ilocos Region, Central Luzon, and Calabarzon suspended classes. About 143,833 people sheltered across 487 evacuation centers.[35] With waves expecting to reach 2.6 m (8.5 ft) to 4.5 m (15 ft), a gale waring was issued for Batanes, the Calayan Group of Islands, the Babuyan Group of Islands, Ilocos Norte, Ilocos Sur, La Union, Pangasinan, Zambales, Bataan, Cavite, the western coast of Batangas, Occidental Mindoro, and northern Palawan. PAGASA noted that sea travel was risky in the western seaboard of Luzon.[37] Additionally, the agency released nine severe weather bulletins and 17 warnings for ships. No Tropical Cyclone Wind Signals were issued throughout the storm's lifespan.[5] The DSWD provided 9,700 food packs and 6,000 sleeping kits in Marikina.[35]

According to the NDRRMC, the southwest monsoon enhanced by Yagi killed three people and left two missing. About 1.756 million people were affected, with 257,591 of them displaced. The storm affected 111 road sections and one bridge, with 95 of them remaining passable. As of 23 August 2018, a total of 75 areas experieneced power outages, with 65 of them having power restored. About 3,379 homes were damaged across the Ilocos Region, Central Luzon, Calabarzon, and the Cordillera Region, with 515 of them being totally destroyed. Damage to infrastructure reached ₱996.001 million (US$18.913 million) and damage to agriculture reached ₱43.711 million (US$830,043.46).[35]

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Elsewhere

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The Okinawa Meteorological Observatory forecasted that rainfall of up to 30 mm (1.2 in) per hour would occur over Okinawa Island. In the Daitō Islands, winds of 90 km/h (56 mph) and gusts of 110 km/h (67 mph) were expected, as well as strong northwesterly winds over the Sakishima Islands.[38] The highest rainfall was recorded over Miyakojima at 282.5 mm (11.12 in), with the highest 24-hour total being 257.5 mm (10.14 in) at Gusukube. Winds of 63 km/h (39 mph) swept Shimoji-shima.[39] According to the Miyakojima Regional Meteorological Observatory, some areas in the city experienced "once-in-50-years" rainfall.[40] Flights from Taiwan-based airlines heading towards the Ryukyu Islands were disrupted.[41]

The Korea Meteorological Administration predicted that Yagi would make landfall along the China–North Korea border, bringing much needed rain to alleviate a heat wave that had killed over 40 in South Korea.[42] The agency expected rainfall of 5–55 mm (0.20–2.17 in) throughout the nation, with Jeju Island expected to receive over 80 mm (3.1 in) of rain. However, Yagi turned away from the Korean Peninsula and headed back towards Shanghai, China. A strong wind advisory was issued for the Korean Sea far south of Jeju Island.[43] Additionally, a storm surge warning was issued for the west coast of Gyeonggi Province.[44]

See also

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References

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  1. ^ a b Young, Steve (September 5, 2018). "Monthly Global Tropical Cyclone Tracks July 2018". Australian Severe Weather. Retrieved March 4, 2025.
  2. ^ Significant Tropical Weather Advisory for the Western and South Pacific Oceans 06Z 1 August 2018 (Report). Pearl Harbor, Hawaii: Joint Typhoon Warning Center. August 1, 2018. Archived from the original on May 23, 2024. Retrieved March 4, 2025.
  3. ^ Warning and Summary 051800 (TXT) (Report). Tokyo, Japan: Japan Meteorological Agency. August 5, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  4. ^ a b c d e Annual Report on the Activities of the RSMC Tokyo - Typhoon Center 2018 (PDF) (Report). Tokyo, Japan: Japan Meteorological Agency. 2019. Retrieved November 21, 2023.
  5. ^ a b c d Duran, Samuel F.; Galang, Juanito S.; Gile, Robb P.; Reyes, Sheilla Mae R.; Tolentino, Jerome T. (June 2020). DOST-PAGASA Annual Report on Philippine Tropical Cyclones 2018 (PDF) (Report). Quezon City, Philippines: Government of the Republic of the Philippines Department of Science and Technology: Philippine Atmospheric, Geophysical, and Astronomical Services Administration. p. 58. ISSN 2672-3190. Retrieved November 21, 2023.
  6. ^ Prognostic Reasoning for Tropical Depression 18W (Eighteen) Warning No. 1 (TXT) (Report). Pearl Harbor, Hawaii: Joint Typhoon Warning Center. August 6, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  7. ^ Prognostic Reasoning for Tropical Depression 18W (Eighteen) Warning No. 2 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 7, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  8. ^ Prognostic Reasoning for Tropical Depression 18W (Eighteen) Warning No. 3 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 7, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  9. ^ Prognostic Reasoning for Tropical Depression 18W (Eighteen) Warning No. 5 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 7, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  10. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 7 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 8, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  11. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 10 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 9, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  12. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 12 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 9, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  13. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 13 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 9, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  14. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 15 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 10, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  15. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 17 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 10, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  16. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 18 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 11, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  17. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 19 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 11, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  18. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 20 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 11, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  19. ^ Prognostic Reasoning for Tropical Storm 18W (Yagi) Warning No. 24 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 12, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  20. ^ a b c Member Report [China] ESCAP/WMO Typhoon Committee 13th Integrated Workshop (PDF) (Report). Chiang Mai, Thailand: ESCAP/WMO Typhoon Committee. November 5–9, 2018. Retrieved March 11, 2025.
  21. ^ Tropical Storm 18W (Yagi) Warning No. 25 (TXT) (Report). Pearl Harbor: Joint Typhoon Warning Center. August 12, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  22. ^ Reasoning No. 24 for TS 1814 Yagi (1814) (TXT) (RSMC Tropical Cyclone Prognostic Reasoning). Tokyo, Japan: Japan Meteorological Agency. August 13, 2018. Retrieved March 11, 2025 – via Iowa Environmental Mesonet.
  23. ^ Chu, J. H.; Levine, A.; Daida, S.; Schiber, D.; Fukada, E.; Sampson, C. R. 2018 Western North Pacific Ocean Best Track Data (Report). Pearl Harbor, Hawaii: Joint Typhoon Warning Center. Retrieved April 9, 2024.
  24. ^ https://watchers.news/2018/08/11/tropical-storm-yagi-heading-toward-southeast-china-landfall-expected-august-12/
  25. ^ http://www.xinhuanet.com/english/2018-08/12/c_137385238.htm
  26. ^ https://www.cma.gov.cn/en2014/news/News/201808/t20180813_475792.html
  27. ^ a b http://en.people.cn/n3/2018/0813/c90000-9490199.html
  28. ^ https://archive.shine.cn/metro/public-services/Yagi-brings-rain-cool-air-but-heat-relief-wont-last/shdaily.shtml
  29. ^ https://www.scmp.com/news/hong-kong/health-environment/article/2159271/hong-kong-observatory-considers-typhoon-signal-no
  30. ^ https://www.thatsmags.com/shanghai/post/24603/jinshan-city-beach-closed-due-to-damage-from-typhoon-yagi
  31. ^ https://www.ecns.cn/news/society/2018-08-13/detail-ifywwxaw2293880.shtml
  32. ^ https://www.abs-cbn.com/overseas/08/14/18/falling-shanghai-signboard-kills-3-injures-6
  33. ^ https://doi.org/10.1175/WAF-D-23-0083.1
  34. ^ https://d.wanfangdata.com.cn/periodical/sdqx201904003
  35. ^ a b c d https://ndrrmc.gov.ph/attachments/article/4153/10_NDRRMC_SWM_enhanced_by_KARDING_2018.pdf
  36. ^ https://www.spot.ph/newsfeatures/trending/86841/rainfall-alert-levels-pagasa-a4362-20210721?s=ilqfskcf93tro4fjks4cgp05sa
  37. ^ https://www.rappler.com/philippines/weather/209306-tropical-storm-karding-pagasa-forecast-august-10-2018-11pm/
  38. ^ https://ryukyushimpo.jp/news/entry-780108.html
  39. ^ https://agora.ex.nii.ac.jp/cgi-bin/dt/dsummary.pl?id=201814&basin=wnp&lang=en
  40. ^ https://weathernews.jp/s/topics/201808/120025/
  41. ^ https://focustaiwan.tw/business/201808100022
  42. ^ https://koreatimes.co.kr/www/nation/2025/03/281_253686.html
  43. ^ https://www.chosun.com/site/data/html_dir/2018/08/12/2018081200202.html
  44. ^ https://www.chosun.com/english/national-en/2018/08/13/YXCRWTJTOPXM3GK4TYWWNBDH3U/
[edit]
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