Satellite monitoring of the artificial night sky brightness. See Maps of Artificial Night Sky Brightness.
Credit: The World Atlas of the Artificial Night Sky Brightness (Pierantonio Cinzano, Fabio Falchi and Christopher Elvidge, www.inquinamentoluminoso.it). See Defense Meteorological Satellite Program (DMSP).
This Google Earth overlay is available at the Miami Light Pollution Map (ClearDarkSky.com - Miami Clear Sky Clock).
Light Pollution: Any adverse effect of man-made light including sky glow, glare, light trespass, light clutter, decreased visibility at night, and energy waste. [International Dark-Sky Association (IDA)]
The scale shows luminic pollution in 8 colors representing the Bortle Scale.
Credit: Northern Virginia Astronomy Club (NOVAC).
1 - Excellent dark sky
2 - Typical truly dark sky
3 - Dark rural sky
4 - Rural sky
4.5 - Rural/suburban transition sky
5 - Suburban sky
6 & 7 - Bright suburban sky & Suburban/urban transition sky
8 & 9 - City sky & Inner-city sky
The Bortle Dark-Sky Scale:
Class 1: Excellent dark-sky site
The zodiacal light, gegenschein, and zodiacal band are all visible - the zodiacal light to a striking degree, and the zodiacal band spanning the entire sky. Even with direct vision, the galaxy M33 is an obvious naked-eye object. The Scorpius and Sagittarius region of the Milky Way casts obvious diffuse shadows on the ground. To the unaided eye the limiting magnitude is 7.6 to 8.0 (with effort); the presence of Jupiter or Venus in the sky seems to degrade dark adaptation. Airglow (a very faint, naturally occurring glow most evident within about 15 degrees of the horizon) is readily apparent. With a 32-centimeter (12½") scope, stars to magnitude 17.5 can be detected with effort, while a 50-cm (20-inch) instrument used with moderate magnification will reach 19th magnitude. If you are observing on a grass-covered field bordered by trees, your telescope, companions, and vehicle are almost totally invisible. This is an observer's Nirvana!
The zodiacal light is a faint glow of light scattered off the zodiacal dust; it can sometimes be seen under very dark sky conditions, along the horizon, either just after dusk or before sunrise. See zodiacal light - Encyclopedia of Science (David Darling).
The gegenschein is a faint round or oval spot of light, about 20° across, in the midnight sky near the ecliptic and opposite the Sun, best seen under clear, dark conditions in September and October; also called the counterglow (its meaning in German). See gegenschein - Encyclopedia of Science (David Darling).
The zodiacal band is a faint glow of light scattered off the zodiacal dust; it can sometimes be seen under very dark sky conditions, along the ecliptic. See zodiacal band - AMS Glossary of Meteorology.
Class 2: Typical truly dark site
Airglow may be weakly apparent along the horizon. M33 is rather easily seen with direct vision. The summer Milky Way is highly structured to the unaided eye, and its brightest parts look like veined marble when viewed with ordinary binoculars. The zodiacal light is still bright enough to cast weak shadows just before dawn and after dusk, and its color can be seen as distinctly yellowish when compared with the blue-white of the Milky Way. Any clouds in the sky are visible only as dark holes or voids in the starry background. You can see your telescope and surroundings only vaguely, except where they project against the sky. Many of the Messier globular clusters are distinct naked-eye objects. The limiting naked-eye magnitude is as faint as 7.1 to 7.5, while a 32-cm telescope reaches to magnitude 16 or 17.
Class 3: Rural sky
Some indication of light pollution is evident along the horizon. Clouds may appear faintly illuminated in the brightest parts of the sky near the horizon but are dark overhead. The Milky Way still appears complex, and globular clusters such as M4, M5, M15, and M22 are all distinct naked-eye objects. M33 is easy to see with averted vision. The zodiacal light is striking in spring and autumn (when it extends 60 degrees above the horizon after dusk and before dawn) and its color is at least weakly indicated. Your telescope is vaguely apparent at a distance of 20 or 30 feet. The naked-eye limiting magnitude is 6.6 to 7.0, and a 32-cm reflector will reach to 16th magnitude.
Class 4: Rural/suburban transition
Fairly obvious light-pollution domes are apparent over population centers in several directions. The zodiacal light is clearly evident but doesn't even extend halfway to the zenith at the beginning or end of twilight. The Milky Way well above the horizon is still impressive but lacks all but the most obvious structure. M33 is a difficult averted-vision object and is detectable only when at an altitude higher than 50 degrees. Clouds in the direction of light-pollution sources are illuminated but only slightly so, and are still dark overhead. You can make out your telescope rather clearly at a distance. The maximum naked-eye limiting magnitude is 6.1 to 6.5, and a 32-cm reflector used with moderate magnification will reveal stars of magnitude 15.5.
Class 5: Suburban sky
Only hints of the zodiacal light are seen on the best spring and autumn nights. The Milky Way is very weak or invisible near the horizon and looks rather washed out overhead. Light sources are evident in most if not all directions. Over most or all of the sky, clouds are quite noticeably brighter than the sky itself. The naked-eye limit is around 5.6 to 6.0, and a 32-cm reflector will reach about magnitude 14.5 to 15.
Class 6: Bright suburban sky
No trace of the zodiacal light can be seen, even on the best nights. Any indications of the Milky Way are apparent only toward the zenith. The sky within 35 degrees of the horizon glows grayish white. Clouds anywhere in the sky appear fairly bright. You have no trouble seeing eyepieces and telescope accessories on an observing table. M33 is impossible to see without binoculars, and M31 is only modestly apparent to the unaided eye. The naked-eye limit is about 5.5, and a 32-cm telescope used at moderate powers will show stars at magnitude 14.0 to 14.5.
Class 7: Suburban/urban transition
The entire sky background has a vague, grayish white hue. Strong light sources are evident in all directions. The Milky Way is totally invisible or nearly so. M44 or M31 may be glimpsed with the unaided eye but are very indistinct. Clouds are brilliantly lit. Even in moderate-size telescopes, the brightest Messier objects are pale ghosts of their true selves. The naked-eye limiting magnitude is 5.0 if you really try, and a 32-cm reflector will barely reach 14th magnitude.
Class 8: City sky
The sky glows whitish gray or orangish, and you can read newspaper headlines without difficulty. M31 and M44 may be barely glimpsed by an experienced observer on good nights, and only the bright Messier objects are detectable with a modest-size telescope. Some of the stars making up the familiar constellation patterns are difficult to see or are absent entirely. The naked eye can pick out stars down to magnitude 4.5 at best, if you know just where to look, and the stellar limit for a 32-cm reflector is little better than magnitude 13.
Class 9: Inner-city sky
The entire sky is brightly lit, even at the zenith. Many stars making up familiar constellation figures are invisible, and dim constellations such as Cancer and Pisces are not seen at all. Aside from perhaps the Pleiades, no Messier objects are visible to the unaided eye. The only celestial objects that really provide pleasing telescopic views are the Moon, the planets, and a few of the brightest star clusters (if you can find them). The naked-eye limiting magnitude is 4.0 or less.
Credit: The Bortle Dark-Sky Scale (John E. Bortle, Sky and Telescope, February '01).
For names of cities and main roads, see the map "Florida Shaded Relief (reference map), JPEG, 2001 (342K)" en Florida Maps - Perry-Castañeda Map Collection - University of Texas Library Online.
One of the main enemies of astronomers is light pollution.
Do not allow light sources under your control to illuminate the sky!
It is a waste of resources that helps nobody, but does hurt many people!
See: Our Vanishing Night, Verlyn Klinkenborg, National Geographic, November 2008.
The Fading Milky Way,
Lighting Up the Ecosphere (in Science@NASA),
and Earth Observatory Study: Bright Lights, Big City (NASA).
See The night sky in the World (Istituto di Scienza e Tecnologia dell'Inquinamento Luminoso).
See also Luminic Map of Venezuela and Luminic Map of Europe (in ARVAL).
See also Sky and Telescope - Resources - Saving Dark Skies,
and Earth at Night (Black Marble - City Lights 2012, Suomi National Polar-orbiting Partnership - Suomi NPP).
To help stop light pollution, please visit the International Dark-Sky Association (IDA).
"To preserve and protect the nighttime environment and our heritage of dark skies through quality outdoor lighting."
See Losing the Dark [YouTube 06:26]. Downloads in various video formats and languages (IDA).
Light pollution is also an enemy of the sea turtles that come in the spring to lay their eggs in the beaches of Florida. The sea turtle nesting season in Florida runs from March through October on the Atlantic coast, and from May through October on the Gulf coast.
The mothers get discouraged to come ashore and lay their eggs by the lights shinning on the beaches. Later the hatchlings get disoriented and die when they come out of their nests looking for the ocean.
Threats caused by humans are driving sea turtles to extinction. Today, all sea turtles found in U.S. waters are federally listed as endangered of extinction, except for the "Loggerhead" turtle which is listed as threatened with extinction.
Caribbean Conservation & Sea Turtle Survival League; Saving Sea Turtles & Their Habitats,
Sea Turtle Research (Lohmann Lab, University of North Carolina).
On January 8 '08 the Village Council of Key Biscayne recommended amendments to the Village Code to create regulations in order to protect nesting turtles and their offspring.
The purpose of the ordinance is to reduce the impacts of artificial lighting on threatened and endangered sea turtles that nest on our beach.
Within 6 months of the effective date of this article,
existing artificial light fixtures located East of the Coastal Construction Control Line (CCCL)
shall be repositioned, modified, or removed so that:
The point source of light or any reflective surface of the light fixture is not directly visible from the beach;
Areas seaward of the frontal dune are not directly illuminated;
Areas seaward of the frontal dune are not cumulatively illuminated.
Within one year of the effective date of this article,
the restrictions get stronger and will require, among other actions:
Replacing of nondirectional fixtures with directional fixtures that point down and away from the beach;
Replacing fixtures having transparent or translucent coverings with fixtures having opaque shields covering an arc of at least 180 degrees and extending an appropriate distance bellow the bottom edge of the fixture on the seaward side so that the light source or any reflective surface of the light fixture is not visible from the beach.
Replacing pole lamps with low-profile, low-level luminaries, so that the light source or any reflective surface of the light fixture is not visible from the beach.
See Village of Key Biscayne - Council Meeting Agenda 08-01-15 - TAB 3.
"A public workshop and $20,000 in consulting services will help Village Council members hammer out an acceptable ordinance for protecting endangered sea turtle hatchlings."
.... "the Council approved a consulting package with Coastal Systems International, the Village's beach maintenance advisor, at a Tuesday, March 4, meeting; and tabled a final vote on the sea turtle protection ordinance until after they get input from Coastal Systems and a public workshop. The workshop was held last night ...." [March 12]
"The Council will vote on the ordinance at its meeting Tuesday, March 25 at 7 p.m. in the Village Hall." ....
"Local officials are committed to adopt an ordinance by the end of March."
See next week's Islander News for full coverage of last night's workshop.
The Islander News, Page 7, Thursday, March 13, 2008
The Towers of Key Biscayne Phase-1 building is to the East of the Florida Coastal Construction Control Line, the Phase-2 building is to the West, as can be seen in the Land Boundary Information System (LABINS) [Florida Bureau of Survey and Mapping]. The Towers of Key Biscayne is directly to the North of Bill Baggs Park.
This page was updated in: November 19 '08, December 7 '12, November 13 '13, June 17 '14
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