Air Temperatures The following maximum temperatures were recorded across the state of Hawaii Friday:

Lihue, Kauai –                    76
Honolulu airport, Oahu –      80 
Kaneohe, Oahu –                80
Molokai airport –                   82
Kahului airport, Maui –         80 
Kona airport –                     79
Hilo airport, Hawaii –           79

Air Temperatures ranged between these warmest and coolest spots near sea level – and on the highest mountain tops…as of 5pm Friday evening:

Barking Sands, Kauai – 80
Hilo, Hawaii – 71

Haleakala Crater –     39 (near 10,000 feet on Maui)
Mauna Kea summit – 28 (over 13,500 feet on the Big Island)

Here are the 24-hour precipitation totals (inches) for each of the islands as of Friday evening:

3.18     Kilohana, Kauai
3.21     South Fork Kaukonahua, Oahu
0.16     Molokai
0.00     Lanai
0.62     Kahoolawe
2.94     Kaupo Gap, Maui
3.39     Kealakekua, Big Island

Marine WindsHere’s the latest (automatically updated) weather map showing a 1031 millibar high pressure system to the north of Hawaii. Our local trade winds will be moderately strong, locally strong and gusty Saturday…lighter Sunday.

Satellite and Radar Images: To view the cloud conditions we have here in Hawaii, please use the following satellite links, starting off with this Infrared Satellite Image of the islands to see all the clouds around during the day and night. This next image is one that gives close images of the islands only during the daytime hours, and is referred to as a Close-up visible image. This next image shows a larger view of the Pacific…giving perspective to the wider ranging cloud patterns in the Pacific Ocean. Finally, here's a Looping IR satellite image, making viewable the clouds around the islands 24 hours a day. To help you keep track of where any showers may be around the islands, here’s the latest animated radar image.

Hawaii’s MountainsHere’s a link to the live web cam on the summit of near 13,500 foot Mauna Kea on the Big Island of Hawaii. The tallest peak on the island of Maui is the Haleakala Crater, which is near 10,000 feet in elevation. These two web cams are available during the daylight hours here in the islands…and when there’s a big moon shining down during the night at times. Plus, during the nights you will be able to see stars, and the sunrise and sunset too…depending upon weather conditions.

Tropical Cyclone activity in the eastern and central Pacific – Here’s the latest weather information coming out of the National Hurricane Center, covering the eastern north Pacific. You can find the latest tropical cyclone information for the central north Pacific (where Hawaii is located) by clicking on this link to the Central Pacific Hurricane Center. Here’s a tracking map covering both the eastern and central Pacific Ocean. A satellite image, which shows the entire ocean area between Hawaii and the Mexican coast…can be found here. Of course, as we know, our hurricane season ended November 30th here in the central Pacific…and begins again June 1st.

 Aloha Paragraphs

http://www.obrhi.com/hawaii/cabana-waikiki/images/product/oahu-rainbow.jpg
Unsettled weather with showers, some locally heavy…
with isolated thunderstorms. The trade winds will remain
quite strong and gusty, making for rough seas along
our east facing shores…high surf advisory. 
 
 
 
 

Our winds will remain rather breezy and quite gusty through Saturday…then becoming lighter Sunday and turning more southeast into early next week.  Glancing at this weather map, we find a east to west oriented 1030 millibar high pressure system, located to the north of Hawaii…up around 35 degrees north latitude tonight.  The small craft wind advisory remains active across the entire state of Hawaii. The computer models continue to show lighter winds arriving later this weekend into early next week…veering to the southeast. It will likely be a fairly short interruption to the normal trade winds, as they may return back into our area by the middle of the new week…or so.

Our local winds will blow from the trade wind direction…the following numbers represent the strongest gusts, along with directions Friday evening:

32                 Port Allen, Kauai – NE  
30                 Kahuku, Oahu – NE 
33                 Molokai – NE   
40                    Kahoolawe – ESE
33                 Kapalua – NE 
35                 Lanai – NE   
39                 South Point, Big Island – NNE   

We can use the following links to see what’s going on in our area of the north central Pacific Ocean Friday night.  Looking at this NOAA satellite picture we find clouds across all of the islands. At the same time we find towering cumulus and thunderstorms, with their heavier showers to our southwest. We can use this looping satellite image to see a stream of high and middle level clouds just to our south moving quickly eastward, which may overlap the southern islands with time. At the same time we find lots of showery clouds being carried our way on the trade winds…from the east.  Checking out this looping radar image shows areas of heavy showers over the ocean around the islands…with some very generous showers moving over the islands in places too. 

This evening I'll go see a new film in Kahului, after grabbing a little dinner along the way. There's not that many films that are interesting to me, although I've seen the trailer for the new one called Fast Five, starring Vin Diesel, Paul Walker and Dwayne Johnson…among others. This film is about three guys who get behind the wheel in the latest installment of this blockbuster auto action series. It will be wild and fast paced, full of action galore. My mood isn't exactly up for such a film, although I didn't see anything else that pulled me strongly either. I'll be sure to let you know my impression in the morning, oh yeah, the critics are giving this film a B- grade, while the viewers are giving it an A-…which encourages me to some degree. Here's the trailer for you, just in case you had the slightest interest in seeing what I'll be sitting through.

Sunset Commentary: The main ingredients in our local weather circumstances now include cold air above, with warm moist air below, keeping our overlying atmosphere unstable and shower prone. At the same time a moderately strong, trade wind producing high pressure system is located directly north of our Hawaiian Islands. These features will work together in such a way as to keep the threat of rainfall in the forecast through this Mother’s Day weekend. The colder than normal air aloft will prompt warm moist air to rise up through it, with rain making clouds roaming through the islands. We could easily find flooding periods on any of the islands, night or day…which will likely stick around into the first part of the new work week ahead.

The trade winds will remain active, with the NWS issued small craft wind advisory covering the entire island chain, both coasts and channels. Winds will gust up into the 30+ mph range in many areas, certainly those that are exposed to the trade winds. These winds are forecast to weaken and veer to the southeast later this weekend, on into early in the new week. Southeast winds can carry volcanic haze up from the Big Island vents, and put the smaller islands in a wind shadow as well. Lighter winds this time of year [under the warm sunshine of spring] cause muggy conditions, with the focus for precipitation becoming more towards the leeward upslope areas…during the afternoon and early evening hours when light winds prevail.

Ok, I'm outta here, after a long work week, Lots of stuff happened during the last seven day out in the world…pretty interesting I'd say! I'll catch up with you in the morning, I hope you have a great Friday night until then! Aloha for now…Glenn.

Interesting: Know thyself. That was Socrates' advice, and it squares with conventional wisdom. "It's a natural tendency to think we know ourselves better than others do," says Washington University in St. Louis assistant professor Simine Vazire.

But a new article by Vazire and her colleague Erika N. Carlson reviews the research and suggests an addendum to the philosopher's edict: Ask a friend. "There are aspects of personality that others know about us that we don't know ourselves, and vice-versa," says Vazire.

"To get a complete picture of a personality, you need both perspectives." The paper is published in Current Directions in Psychological Science, a journal of the Association for Psychological Science. It's not that we know nothing about ourselves. But our understanding is obstructed by blind spots, created by our wishes, fears, and unconscious motives — the greatest of which is the need to maintain a high (or if we're neurotic, low) self-image, research shows.

Even watching ourselves on videotape does not substantially alter our perceptions — whereas others observing the same tape easily point out traits we're unaware of. Not surprisingly, our intimates and those who spend the most time with us know us best.

But even strangers have myriad cues to who we are: clothes, musical preferences, or Facebook postings. At the same time, our nearest and dearest have reasons to distort their views. After all, a boorish spouse or bullying child says something to the other spouse or parent.

"We used to collect ratings from parents — and we've mostly stopped, because they're useless," notes Vazire. What such data would show: Everyone's own child is brilliant, beautiful, and charming. Interestingly, people don't see the same things about themselves as others see. Anxiety-related traits, such as stage fright, are obvious to us, but not always to others.

On the other hand, creativity, intelligence, or rudeness is often best perceived by others. That's not just because they manifest themselves publicly, but also because they carry a value judgment — something that tends to affect self-judgment.

But the world is not always the harsher critic. Others tend to give us higher marks for our strengths than we credit ourselves with. Why doesn't all this information add up to better personal and mutual understanding? People are complex, social cues are many, perceptions of others are clouded by our own needs and biases, studies show. Plus, the information isn't easy to access.

"It's amazing how hard it is to get direct feedback," Vazire notes, adding that she isn't advocating brutal frankness at any cost. There are good reasons for reticence. The challenge, then, is to use such knowledge for the good. "How can we give people feedback, and how can that be used to improve self-knowledge?" Vazire asks.

"And how do we use self-knowledge to help people be happier and have better relationships?" The first answer to these questions may be the most obvious, but not the easiest to practice: Listen to others. They may know more than you do — even about yourself.

Interesting2: El Niño and its partner La Niña, the warm and cold phases in the eastern half of the tropical Pacific, play havoc with climate worldwide. Predicting El Niño events more than several months ahead is now routine, but predicting how it will change in a warming world has been hampered by the short instrumental record.

An international team of climate scientists has now shown that annually resolved tree-ring records from North America, particularly from the US Southwest, give a continuous representation of the intensity of El Niño events over the past 1100 years and can be used to improve El Niño prediction in climate models.

The study, spearheaded by Jinbao Li, International Pacific Research Center, University of Hawai'i at Manoa, is published in the May 6 issue of Nature Climate Change. Tree rings in the US Southwest, the team found, agree well with the 150-year instrumental sea surface temperature records in the tropical Pacific.

During El Niño, the unusually warm surface temperatures in the eastern Pacific lead to changes in the atmospheric circulation, causing unusually wetter winters in the US Southwest, and thus wider tree rings; unusually cold eastern Pacific temperatures during La Niña lead to drought and narrower rings.

The tree-ring records, furthermore, match well existing reconstructions of the El Niño-Southern Oscillation and correlate highly, for instance, with δ18O isotope concentrations of both living corals and corals that lived hundreds of years ago around Palmyra in the central Pacific.

"Our work revealed that the towering trees on the mountain slopes of the US Southwest and the colorful corals in the tropical Pacific both listen to the music of El Niño, which shows its signature in their yearly growth rings," explains Li.

"The coral records, however, are brief, whereas the tree-ring records from North America supply us with a continuous El Niño record reaching back 1100 years." The tree rings reveal that the intensity of El Niño has been highly variable, with decades of strong El Niño events and decades of little activity.

The weakest El Niño activity happened during the Medieval Climate Anomaly in the 11th century, whereas the strongest activity has been since the 18th century. These different periods of El Niño activity are related to long-term changes in Pacific climate.

Cores taken from lake sediments in the Galapagos Islands, northern Yucatan, and the Pacific Northwest reveal that the eastern-central tropical Pacific climate swings between warm and cool phases, each lasting from 50 to 90 years.

During warm phases, El Niño and La Niña events were more intense than usual. During cool phases, they deviated little from the long-term average as, for instance, during the Medieval Climate Anomaly when the eastern tropical Pacific was cool.

"Since El Niño causes climate extremes around the world, it is important to know how it will change with global warming," says co-author Shang-Ping Xie. "Current models diverge in their projections of its future behavior, with some showing an increase in amplitude, some no change, and some even a decrease. Our tree-ring data offer key observational benchmarks for evaluating and perfecting climate models and their predictions of the El Niño-Southern Oscillation under global warming."

Interesting3: Chimpanzees are self-aware and can anticipate the impact of their actions on the environment around them, an ability once thought to be uniquely human, according to a study released Wednesday. The findings, reported in the Proceedings of the Royal Society B, challenge assumptions about the boundary between human and non-human, and shed light on the evolutionary origins of consciousness, the researchers said.

Earlier research had demonstrated the capacity of several species of primates, as well as dolphins, to recognize themselves in a mirror, suggesting a fairly sophisticated sense of self. The most common experiment consisted of marking an animal with paint in a place — such as the face — that it could only perceive while looking at its reflection.

If the ape sought to touch or wipe off the mark while facing a mirror, it showed that the animal recognized itself. But even if this test revealed a certain degree self-awareness, many questions remained as to how animals were taking in the information. What, in other words, was the underlying cognitive process?

To probe further, Takaaki Kaneko and Masaki Tomonaga of the Primate Research Institute in Kyoto designed a series of three experiments to see if chimps, our closest cousins genetically, to some extent "think" like humans when they perform certain tasks.

Interesting4: Renewable energy sources like solar and wind only generate electricity when the wind blows or the sun is out and that isn't always when customers need power. Batteries large enough to hold megawatts of electricity are prohibitively expensive but another potential source of battery storage is fast emerging: electric vehicles. Vehicle-to-grid (V2G) storage allows the smart grid to use EVs (and even hybrids) as a distributed network of batteries that can store power at off-peak times and help power the grid when demand peaks.

Here’s how it works:

1. Power is generated from a renewable source, like wind, and transferred to the grid.

2. Electricity flows from the grid to EV batteries when there is excess capacity (e.g. when the wind blows in predawn hours). The power flow is reversed when demand on the grid is higher.

3. Customers can control when the smart grid can access battery power from their EVs, which can put out enough power to run 10 houses, and even control how far the battery is discharged.