ELECROMAGNETIC ACTIVITY AND DEAD ANIMALS

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ELECROMAGNETIC ACTIVITY AND DEAD ANIMALS

http://julieking.htmlplanet.com/custom.html

 

Reflecting on the many incidents this year relating to the great numbers of

dead or dying seals, sharks, dolphins, Whales and more recently bids, I

thought it may be of importance to compile the below short succinct article.

One must also bear in mind the recent electromagnetic activity we are

experiencing, both natural and man made, some under most dubious

circumstances involving HAARP, Brookhaven which seem to be altering the

magnetic frequency and vibrational level on a global scale.

 

SHARKS. Let us deal with the recent number of dead sharks found recently.

 

Sharks, unlike dolphins and whales that are mammals, are fish and mainly

cold blooded. Sharks are also related to rays. The cerebellum is in charge

of body movement; the hindbrain processes most sensory information and moves

the head; the tectum integrates sensory information; the olfactory lobes are

for the sense of smell; the diencephalon regulates hormones and some

behaviours; the forebrain coordinates sensory information. They can also

sense electricity and vibrations in the water.

 

A shark's primary sense is a keen sense of smell. It can detect one drop of

blood in a million drops of water (25 gallons or 100 liters) and can smell

blood 0.25 mile (4 km) away. Sharks can also detect electric fields, which

is emitted in small amounts by every living animal, but it is important to

note that sharks may be more sensitive to electric fields than any other

animal. Sharks have a special network of jelly-filled canals in their head

called the ampullae of Lorenzini that detect these electric fields. This

lets the shark pick up weak electrical stimuli from the muscle contractions

of animals. It may also serve to detect magnetic fields, which some sharks

may use in navigation.

 

Sharks can sense vibrations in the water using the lateralis system. The

" lateral line " system is a network of neuromasts, which are fine,

fluid-filled vessels that run along a shark's body under the skin along the

length of a shark. Many small pores open up on the skin, detecting the

intensity and direction of vibrations in the water Sharks are very sensitive

to low frequency sounds and have good directional hearing.

 

Based on the above information, one can see how easy it would be for sharks

to be affected by any disruption in a magnetic or electrical change in the

surrounding environment.

 

Birds. We will now briefly look at the avian problem in light of the recent

bird deaths. I would also like to add a note here of the incident of the

person whose chickens started to moult and stopped laying. Chickens, like

most other bird and other animals, rely on the regular patterns of lunar and

solar cycles, any disruption in this cycle will throw their own life cycles

out completely. Such as pre season moult, and the occurrence of a solar

eclipse which affects the female utera system, and in turn affecting egg

production etc. It may also be of note to mention that many years ago it was

discovered to rid Chicken houses of Northern fowl mite, a great nuisance to

egg production, a system of copper poles laid around the house eradicated

the problem. This method affected the â?oelectric fieldâ? in the immediate

area, thus causing disorientation in the mite that scuttled off!

 

Birds rely heavily on the North-South pole configuration, which actually

varies somewhat and in fact over a few million years can reverse its

configuration. If this â?oelectromagneticâ? field is disrupted in any shape

or form, birds would be the first to be affected. If it is a sudden change,

and one that warrants sufficient strength (as we have seen of late) then the

input would scramble their brains like a microwave, thus leaving literally

thousands of what I call â?osudden avian deathâ? syndrome (SAD). There

would be no physical outward sign to demonstrate the cause, and even a

Post-mortem may not reveal any signs unless you knew exactly what you are

looking for. And going on personal experience having post mortared thousands

of birds in my time, this is not an easy task! The main routes bird use in

migration conforms very closely to major topographical features when these

happen to lie in the general direction of the travel to be performed. It

happens to work out nicely in North America where the coasts, mountain

chains and come of the larger rivers do not depart from a north-and-south

alignment. Maps of these routes may be seen at

http://nuthatch.birdnature.com/flyways.html

 

In addition I thought readers may be interested in the following data,

reference is at end of article. Now it is known that the earth's north

magnetic pole lies in the Baffin Islands of Canada, a little north of

Northwest Territories. This is nearly

800 miles from the geographic pole. In the Southern Hemisphere, the magnetic

pole lies even further from the geographic pole.

 

Anyone who uses topographic maps is aware of the fact there are corrections

that need to be taken into account when using a magnetic compass. Over the

greater part of Alaska, this correction varies from around 20 to 30

degrees--a relatively large amount compared with the rest of the world. In

addition, there is a small annual drift. World-wide, this averages about

0.2 degrees per year. Surprisingly, over most of Alaska, the annual

correction needed is essentially nil. Not only do the poles change their

position, the magnetic field itself changes in strength. In the early 1800s,

the field was about 6 percent greater than it is now. Around AD1600 it was

50 percent greater, but 5,500 years ago it was only about one-half the

present value. http://dogbert.gi.alaska.edu/ScienceForum/ASF5/582.html

 

Also to â?oback upâ? a few statements here are a few interesting and

relevant sections from the Journal of Experimental Biology

 

Magnetic orientation in birds Wolfgang Wiltschko and Roswitha Wiltschko

Volume 199 (1) 1996 The journal of Experimental Biology

 

The magnetic field of the earth is an omnipresent, reliable source of

orientational information. A magnetic compass has been demonstrated in 18

species of migrating birds. In all species studied with regard to its

functional properties, it was found to be an 'inclination compass', i. e.

the birds derive directional information from the inclination of the field

lines, and thus distinguish between 'poleward' and 'equatorward' rather than

'north' and 'south'. Such a mechanism means that birds from the northern and

southern hemisphere may rely on the same migratory programme. Long-distance

migrants, however, face the problem that their magnetic compass gives

bimodal information at the magnetic equator. Transfers of information

between the magnetic field and celestial sources of directional information

have been demonstrated; the two systems interact in a complex way.

 

Volume 194 (1) 1994 MELATONIN IS CRUCIAL FOR THE MIGRATORY ORIENTATION OF

PIED FLYCATCHERS

(FICEDULA HYPOLEUCA PALLAS) Thomas Schneider, Hans-Peter Thalau, Peter Semm

and Wolfgang Wiltschko This indicates that melatonin is involved in

migratory orientation, either in the processes of expressing the genetically

encoded information on the migratory course as a direction with respect to

the geomagnetic field or in the time programme controlling the specific

migratory direction at a given time.

 

Volume 203 (7) 2000

 

Infrasound and the avian navigational map Jonathan T. Hagstrum US Geological

Survey, Menlo Park, 345 Middlefield Road, MS 937, CA 94025, USA

 

Here, it is shown that in four recent pigeon races in Europe and the

northeastern USA the birds encountered infrasonic (low-frequency acoustic)

shock waves from the Concorde supersonic transport. An acoustic avian map is

proposed that consists of infrasonic cues radiated from steep-sided

topographic features; the source of these signals is microseisms

continuously generated by interfering oceanic waves. Atmospheric processes

affecting these infrasonic map cues can explain perplexing experimental

results from pigeon releases

 

Dolphins: Without going into too great a detail at this point, it may be

worth remembering our great cousin the dolphin. As our nearest warm-blooded

relation, dolphins would also feel the affects of any disruption in the EM

fields especially when it is sonar based (bats would be another mammal that

would be affected). Dolphins and whales are of the CETACEA family.

 

I attach an interesting article below with the relevant link.

 

Dolphins, Whales, and other sea life are being killed by Low Frequency

Active Sonar

 

http://www.dreamweaving.com/lfas/index.html

 

Also included is the report on The Surveillance Towed Array Sonar System

(SURTASS) Low Frequency Active (LFA) Where Sonar is an extraordinarily

powerful system the Navy seeks to deploy in 80% of the world's oceans.

 

Howard Middleton-Jones Ambilac October 2000