Tuesday, June 18, 2013

Halos, Fog Bows, and Light Pillars.

The long winters provide one with plenty of opportunities to observe objects created by various types of ice crystals in the atmosphere.  Some close to the ground, others high above.   I will cover some of the more common ice halos I have seen and filmed, but if you are interested in more detail on these and the much rarer ones I suggest  checking out some of the excellent web sites that  cover atmospheric optics.

Fog Bows:

Fog bows are also called white bows, mist bows, or cloud bows and are usually formed when the fog layer is dissipating and the sun is starting to shine through.  Rain bow colors and size  are affected by the size of the drops in which they form.   Rain drops that are 0.1mm or less are almost colorless and are found in fog and clouds,  and while fog bows are smaller in diameter than rain bows they tend to be wider.  You can also have a lunar fog bow, but they are much rarer.   The very small October_Bow_7368water droplets do not freeze at zero Celsius  and so unlike a rainbow, you can have fog bows forming in temperatures below freezing.

 

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Photo on the left is a sunlight fog bow in early October arcing over our Homestead.

The second photo on the right shows a lunar fog bow with a hint of aurora borealis in the night sky.

 

Sun & Light Pillars:IMG_5644

Sun Pillars are created by reflection of sunlight through  ice plate crystals  as they fall towards the Ruby-Antlers-Sunset_0742ground with their bases horizontal.  This acts like a microscopic mirror reflecting the sun's image up or down depending on which side of the sun the crystals are.   Light Pillars are formed from the same ice crystals as those creating a sun pillar, but from an artificial light source on the ground.

 

Both photos show the setting sun with a tall light beam shinning above it.  The picture on the right also has a faint tangent arc which is covered in more detail below.

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These Two photos show the different colors that develop from an  artificial light source. 

 

 

Atmospheric Halos:

Ice Halos.........ice halos are formed by tiny ice crystals that create rings and different arcs depending on the hexagonal shape of the crystal, which can be narrow columns or thin plates.  Both shapes refract and reflect the sun or moon light creating rings and at times various arcs around them.

The most common ice halo is the 22 degree one, but if the cloud cover isn't complete or gets too thick,  you may only see part of the halo.   If conditions are right for a bright halo it will have a red tinge to the inner part of the circle facing the sun.  The halo is caused by refraction of sun or moonlight as it passes through the small hexagonal ice crystals, and will be fainter in the moon light.

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This is a photo of a 22 degree lunar halo, also visible is a lower and upper tangent arc.

 

 

 

 

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A 22 degree halo developed as the sun was about to set in the south in early winter.

 

Some of the rarer arcs seen in conjunction with a halo are tangent arcs, parhelia, parhelic circle, and the circumzenithal arc.

Parhelia.....also called sun dogs are bright patches seen near the edge of a 22 degree halo.  They are caused by refraction of hexagonal crystals and can be seen with out a halo or just one bright patch may be visible and is called a parhelion.  If the source of light is from the moon they are called parselena or moon dogs.
Parhelic Circle........at times one may see a colorless band parallel to the horizon and level with the sun, this is called the parhelic circle.  In rare instances it can form a complete circle opposite to the direction of the sun.
Tangent Arc ... When the sun is low a colored arc can form at the top of the halo, looking like a bird in silhouette, or short spikes.  They can also form at the bottom of the halo as the sun increases in elevation, and they are called either a upper or lower tangent arc.
Circumzenithal Arc .. the circumzenithal arc is formed from the same type of crystal as the parhelia, but tend to be brighter with more color than parhelia.  In fact they can rival a rainbow for color and brightness, but they differ in that these arcs are on the same side as the sun with the red color closest to the sun with the curve up not down as in a bow.

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Setting sun with parhelia/sun dogs on the edge of the 22 degree halo.

 

 

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This photo shows the white parhelic circle passing through the sun and extending out past the halo. There also weak sun dogs at the edge of the halo.

 

 

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Here is a good view of a upper tangent arc.

 

 

 

 

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Here we have the bright circumzenithal arc, which is seen above the 22 degree halo and upper tangent if visible.

Saturday, June 15, 2013

Spring Flooding 2013

 

Our winter wasn’t as cold as last years, but we had more snow which set us up for serious flooding if the right conditions were met.  Winter did not want to leave and we were still  having very cold temperatures into the month of May. Usually we experience a few days of melting at the end of April or beginning  of May, not this year.  On the first of May the night time temperature dropped to –20F/ –29C  and  it wasn’t until after the middle of May before we had temperatures getting above freezing.  On the 1st of May I took the monthly ice thickness in the Colville River by our house and even with 17 inches/43cm of snow on top of the ice it was still  68 inches/172.7cm thick.

                                                     Standing on snow machine to start the drilling operation to get through the   thick ice.

The early arriving Greater White-fronted Geese had a rough two weeks before there was much melting providing water and bare ground for feeding.  Our Snow Buntings were three weeks later  than the yearly average with the first male showing up at the feeder on May 6th.

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   Male Snow Buntings waiting out a  breezy snow squall.

 

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A group of Black Brant with a pair of Snow Geese feeding in a small patch of melted out tundra before breakup.

 

When the weather finally turned warm at the end of May it stayed warm, not even freezing at night so the spring runoff  was rapid and this led to our second worst flood in the past two decades.  We live on a island in the Colville Delta and over 85%   of the island was covered in water.  Several of the waterfowl nesting areas were flooded with several feet of water and many of the early nesters lost their nests. 

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      Brant flying over a white landscape.

 

 

 

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River starting to flood its banks with a small group of King eiders resting on a small pan of river ice.

 

 

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   Local breeding Brant flocking up on some of the last high ground during this years flood.

 

 

June 5 Flood

 

View showing water around some of the buildings and flooded runway in the center of the photo.

 

 

King Eiders Flood waters

 

    A flock of King Eiders in the edge of the flooded lake by our house.

 

 

 

Fortunately most were just starting and were able to continue once the water levels receded, although many of the clutch were smaller than in a normal  year. 

Black Brant and Nest

         A female Brant starting her second attempt to lay eggs this spring.  She now has two eggs and is starting to add down from her breast to help insulate the eggs  while incubating.  She also covers the eggs with the down when she leaves the nest to go bath and feed for short periods several times a day.  The down will keep the eggs warm for several hours.

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I will end with a photo showing our island and lake when it is dry and green.

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Arctic Smoke Signals by James W. Helmericks is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 United States License.