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Do Solar Panels Effect Birds And/or Other Animals?Submitted by Charles Frost on Mon, 04/26/2010 - 08:27.
yumyumch: Yes, they do. Solar panels are equipped with a defense mechanism that allows the solar panel to retalliate against birds who defecate on them. They have a touch screen panel that is installed on the surface of the panel and when a turd bombards its surface, the solar panel can then engages its defenses and can retalliate in several ways. Different manufacturers use different means of protection from turd bombs. Some prefer using iodine gas or chlorine gas, both powerful nerve agents used in WWI. However, other Manufacturers use a more direct approach, and install small versions of Boron and Neutron bombs that are powered by miniature Pulse Jets or Scram jets which propel the bomb towards the bird while an electronic tracking system monitors the birds position and velocity, directing the projectile at the doomed bird at speeds reaching mach 2.5 +or- 420 mph. Both means are very effective but can cause damage to surrounding buildings and animals and civilians. A new concept that follows the age old “eye for an eye” ideology is in development at Delphi Rocketry Munitions LLC. This defense neither uses harsh chemicals nor radiation as its defense but instead uses a caustic concoction and simply dishes out what it was served. A small 4.35 ounce canister is attached to the solar panel’s defensive rocket system. The projectile’s canister is filled with egg yolks, dog feces, Tabasco Sauce, Fermented Hollandaise sauce, rock salt, shards of glass, lemon juice, and a defeathering agent made from the abdomens of Guinea fowl. This mixture is first mixed at the factory and allowed to sit. This gives the mixture;s ingredients time to mingle and ferment. After 3.125 days, the canisters are filled and they are then attached to the rockets which are then shipped to the customers who then attach the rockets to the Solar panels side where the rockets are primed and the triggering wires are connected to the solar panels computer, making the panel ready to be poo’ed upon. As stated above, this method is still in testing but proves to be much more effective and SAFE and could possible save the bird’s life, instead of blasting it into a red cloud of feathers. To me, this method seems much more humane. I as well as other developers feel that some birds other than the mocking bird or finch deserve a second chance. I hope this helps. -LP
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Pollution harms birds - Air Pollution Alone is Enough
Submitted by Norm Roulet on Tue, 04/27/2010 - 10:39.
This may seem like a joke... pollution harms birds - Air Pollution Alone is Enough... as explained on realNEO and not very many other places:
Why Do Steel Gulls Mutate? Our gull studies provided clear evidence that steel mills were associated with elevated DNA mutation rates. We hypothesized that chemical contaminants released into the environment during steel production caused the genetic damage we were observing. We were concerned that these contaminants might also affect other wildlife and humans living nearby. The next step was to attempt to determine where the DNA-damaging pollution was coming from. Was the route of exposure through the air, or through a diet of contaminated fish from polluted water? If air pollution was a major route of exposure, it would have the potential to reach many humans living near steel mills all over the world. Because of their potentially complex exposure to environmental contaminants through both air and diet, herring gulls could not be used to answer this question. An Experimental System to Test Airborne Contaminants: Exposing Lab Mice in situ: To address the route of exposure question, we needed a controlled experimental system. Lab mice offered us the chance to expose animals to ambient air conditions while controlling for factors such as genetic background, nutritional status, disease status, and food and water sources. We exposed groups of male and female lab mice to ambient air at two sites in southern Ontario: (1) Hamilton Harbour, 1 km downwind from 2 steel mills, and (2) Freelton, on a private farm in a rural area away from major point sources of pollution. Mice were housed in cages inside of modified utility sheds as shown below. Exposures lasted 10 weeks during the fall of 1999. During that time we gave mice at both sites commercial food and bottled water from the same source. The only difference between groups was the quality of the air they were breathing during the environmental exposure. Six weeks after exposing mice outdoors we bred them, monitored pup development for 5 days, and sampled DNA from complete families. We genetically profiled mouse families from the two exposure sites using DNA fingerprinting in a manner similar to the herring gull studies. The results are published in:
The General Message: Air Pollution Alone is Enough Our genetic analyses of environmentally exposed mice revealed that offspring from the steel site inherited nearly double the frequency of DNA mutations compared to their rural counterparts. Clearly, air pollution near integrated steel mills can induce genetic damage. At this time we cannot identify the class of chemical pollutant responsible, but suggest that polycyclic aromatic hydrocarbons, by-products of coal combustion, are a likely candidate. What Next? The results of our first outdoor mouse exposure have provided us with some very important information: air pollution may be posing a risk to future generations. We are currently investigating HEPA filtration as a way to prevent this problem. In the picture below, we show a subsequent mouse experiment where mice in the Hamilton Harbour utility shed were housed both inside and outside of a chamber receiving HEPA filtered air. It is our hope that removing the bulk of small particles from the air prior to inhalation will reduce mutation induction. We are currently performing genetic analyses to determine whether this is true. We have tested the ability of air pollution to induce heritable mutations, but what about the possibility that a contaminated fish diet is also a factor? We are in the midst of testing that possibility also. To do this, we designed a special diet for mice that included 58% homogenized whole smelt and alewife from Hamilton Harbour. These two fish species represent close to 60% of the diet of herring gulls. Below, an experimental mouse feeds on a gel diet medium containing 58% alewife from Hamilton Harbour. Mice in the fish diet study bred recently, and genetic analyses will begin very soon. Despite their small body size, preliminary contaminant analyses of the smelt and alewife have shown moderate levels of organochlorine pesticides and polychlorinated biphenyls (PCBs). Whether these are sufficient to produce heritable mutations through diet in mice is yet to be determined. Acknowledgements: Disrupt IT
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