Air Temperatures – The following high temperatures (F) were recorded across the state of Hawaii Friday…along with the low temperatures Friday:
76 – 63 Lihue, Kauai
82 – 71 Honolulu, Oahu
78 – 69 Molokai
76 – 64 Kahului AP, Maui
80 – 71 Kona Int’l AP
83 – 68 Hilo AP, Hawaii
Here are the latest 24-hour precipitation totals (inches) for each of the islands as of Friday evening:
0.21 Kokee, Kauai
0.61 Kamehame, Oahu
1.02 Molokai
0.00 Lanai
0.00 Kahoolawe
0.85 Haiku, Maui
0.60 Saddle Quarry, Big Island
The following numbers represent the strongest wind gusts (mph) as of Friday evening:
18 Poipu, Kauai
22 Makua Range, Oahu
20 Molokai
20 Lanai
22 Kahoolawe
23 Kapalua, Maui
20 PTA Range 17, Big Island
Hawaii’s Mountains – Here’s a link to the live webcam on the summit of our tallest mountain Mauna Kea (nearly 13,800 feet high) on the Big Island of Hawaii. This webcam is available during the daylight hours here in the islands, and at night whenever there’s a big moon shining down. Also, at night you will be able to see the stars — and the sunrise and sunset too — depending upon weather conditions.
Aloha Paragraphs
A weak cold front passing through the state…remains our main weather focus
Clear to partly cloudy…cloudy areas along the front
The frontal cloud band is located over Maui County and the Big Island…with another weak cloud band following in its wake
Just a few showers – Looping radar image
Celebrating St. Patrick’s Day!
~~~ Hawaii Weather Narrative ~~~
Broad brush overview: Clouds and showers associated with a weak cold front will move southeastward across the Big Island tonight into early Saturday. North and northeast facing slopes will see most of these clouds and showers, with no heavy rainfall expected. A trade wind weather pattern will begin to move in as the front departs…becoming firmly established by next week.
Details: A surface low pressure system far northeast of the main Hawaiian Islands, is moving rapidly to the northeast. An associated cold front extends southwest from the low, and is crossing the eastern islands. This front is rather weak, with the frontal band consisting of stable low clouds. Satellite and radar show the cloud band extends across Maui County and the Big Island, then during the day Saturday…will be east of the state.
Computer forecast models show mid and upper level high pressure will be firmly in place across the islands Saturday. Moisture remains rather limited however, and the atmosphere has become a bit more stable since yesterday afternoon. This suggests there shouldn’t be more than light rainfall…as the cold front passes over the rest of the state. Frontal rainfall will favor north and northeast sections of the state, with the leeward areas receiving fewer showers.
Looking ahead: Cooler and drier air will push eastward across the islands…as the front departs. Winds in the wake of the cold front will strengthen to moderate levels and shift northeasterly this weekend. We can expect a relatively dry and stable trade wind weather pattern to continue through much of next week.
Here’s a wind profile of the Pacific Ocean – Closer view of the islands / Here’s the vog forecast animation / Here’s the latest weather map
Marine environment details: A northerly swell will remain active today through the weekend. This swell will eventually shift out of the north-northwest, becoming north and north-northeast Saturday into Sunday.
A large storm, located a couple hundred miles west of the state, will produce a new west-northwest swell arriving late Saturday, peaking Sunday night into Monday. This swell will likely produce advisory level surf for the exposed north and west facing shores…Sunday into Monday for the smaller islands. Island shadowing will also be a factor with this swell, due to its westerly nature. The western shores of the Big Island will likely see advisory level surf, to possibly warning level surf Sunday night into Monday night.
A series of small south swells will continue to produce small surf along the leeward shores. An increase in trade winds over the next few days will also produce choppy surf along east facing shores.
Trade winds are forecast to increase into the weekend. A Small Craft Advisory for winds (25 knots) will likely be needed by Sunday for the typically windier waters around the Big Island and Maui County. The west-northwest swell combined with the wind waves from the increasing trades will likely produce near Small Craft Advisory seas Sunday and Monday.
A weak cold front will bring just a few clouds and showers to the eastern islands
Southern California Weather Summary: Overnight fog and low clouds at the coast…otherwise partly cloudy into this weekend. A cooling trend will start Saturday. Then a low pressure system will bring possible precipitation from Monday into Wednesday night. On Thursday, a high pressure system may build in on for a warming trend into Friday. Yet another storm system should approach by next weekend.
The clouds associated with a marked change in weather…is approaching from the west
Low clouds and fog along the coast and offshore…high cirrus clouds at upper altitudes
World-wide tropical cyclone activity
>>> Atlantic Ocean: The 2017 hurricane season begins June 1st
Here’s a satellite image of the Atlantic Ocean
>>> Caribbean: The 2017 hurricane season begins June 1st
>>> Gulf of Mexico: The 2017 hurricane season begins June 1st
Here’s a satellite image of the Caribbean Sea…and the Gulf of Mexico
Here’s the link to the National Hurricane Center (NHC)
>>> Eastern Pacific: The 2017 hurricane season begins May 15th
Here’s the NOAA 2016 Hurricane Season Summary for the Eastern Pacific Basin
Here’s a wide satellite image that covers the entire area between Mexico, out through the central Pacific…to the International Dateline.
Here’s the link to the National Hurricane Center (NHC)
>>> Central Pacific: The 2017 hurricane season begins June 1st
Here’s the NOAA 2016 Hurricane Season Summary for the Central Pacific Basin
Here’s a link to the Central Pacific Hurricane Center (CPHC)
>>> Northwest Pacific Ocean: No active tropical cyclones
>>> North and South Indian Oceans / Arabian Sea: No active tropical cyclone
Here’s a link to the Joint Typhoon Warning Center (JTWC)
Interesting: China’s Severe Winter Haze Tied to Climate Change – China’s severe winter air pollution problems may be worsened by changes in atmospheric circulation prompted by Arctic sea ice loss and increased Eurasian snowfall…both caused by global climate change.
Modeling and data analysis done by researchers at the Georgia Institute of Technology suggest that sea ice and snowfall changes have shifted China’s winter monsoon, helping create stagnant atmospheric conditions that trap pollution over the country’s major population and industrial centers. Those changes in regional atmospheric conditions are frustrating efforts to address pollution through emission controls.
“Emissions in China have been decreasing over the last four years, but the severe winter haze is not getting better,” said Yuhang Wang, a professor in Georgia Tech’s School of Earth and Atmospheric Sciences. “Mostly, that’s because of a very rapid change in the high polar regions where sea ice is decreasing and snowfall is increasing. This perturbation keeps cold air from getting into the eastern parts of China where it would flush out the air pollution.”
Reported March 15 in the journal Science Advances, the research was sponsored by the National Science Foundation and Environmental Protection Agency. The paper presents a clear example of how large-scale perturbations caused by global climate change can have significant regional impacts, and is believed to be the first to link sea ice and snowfall levels to regional air pollution.
Haze problems in the East China Plains – which include the capital Beijing – first gained worldwide attention during the winter of 2013 when an instrument at the U.S. embassy recorded extremely high levels of PM 2.5 particles. The haze prompted the Chinese government to institute strict targets for reducing emissions from industry and other sources.
Though these emission controls appear to be working, the haze during December and January continues. So Wang and colleagues Yufei Zou, Yuzhong Zhang and Ja-Ho Koo wondered if other factors may be playing a role.
Long-term air quality measurements aren’t available in China, so the researchers had to piece together estimates based on visibility measures and satellite data. To analyze the historical records, they created a new Pollution Potential Index (PPI) that used air temperature gradient anomalies and surface wind speeds as a proxy for ventilation conditions over eastern China.
“Once we generated the PPI and combined it with the visibility data, it was obvious that January 2013 was well beyond anything that had ever been seen before going back at least three decades,” said Wang. “But in that month emissions had not changed, so we knew there had to be another factor.”
The East China Plains consist of interconnected basins surrounded by mountain ranges to the west and the ocean to the east, a mirror image of the polluted Southern California. Pollution generated by industry and vehicles can be removed effectively only by horizontal dispersion or by vertical mixing in winter, and when those processes fail to move out stagnant air, pollution builds up. It seemed likely that something was preventing the ventilation that would have kept the air cleaner.
The researchers next looked at climate features such as sea ice, snowfall, El Niños, and Pacific Oscillations. They conducted principal component and maximum covariance analyses and found correlations of stagnant air conditions over China to Arctic sea ice – which reached a record low in the fall of 2012 – and snowfall in the upper latitudes of Siberia, which had reached a record high earlier in the winter. They then used atmospheric model simulations to study how those factors change large-scale atmospheric circulation patterns and pollution ventilation over eastern China.
“The reductions in sea ice and increase in snowfall have the effect of damping the climatological pressure ridge structure over China,” Wang said. “That flattens the temperature and pressure gradients and moves the East Asian Winter Monsoon to the east, decreasing wind speeds and creating an atmospheric circulation that makes the air in China more stagnant.”
The results of the model were consistent with observations that Korea and Japan had been unusually cold that winter, while eastern China had been unusually warm – both suggesting that the cold center had moved.
The winter of 2017 saw the same factors, with low levels of Arctic sea ice in September 2016, high snowfall – and severe haze. Wang says those factors are likely to continue as the global climate change disrupts the normal structure of the atmosphere.
“Despite the efforts to reduce emissions, we think that haze will probably continue for the future,” he said. “This is partly climate-driven now, so it probably won’t get much better in the winter. Emissions are no longer the only driver of these conditions.”
Wang hopes to continue the study using new data from China’s air quality monitoring network. The impact of global climate change, he said, may be unique to China because of its geography and sensitivity to changes in atmospheric circulation structure. Though the problem is now manifested in air pollution, he said the results of the study should encourage the nation to continue addressing climate change.
“The very rapid change in polar warming is really having a large impact on China,” he said. “That gives China an incentive to not only follow through on air pollutant emission reductions, and also to look at the potential for reducing greenhouse gas emissions. Our research shows that cutting greenhouse gases would help with the winter haze problem.”
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