Another idea

ByRichard Nissen Reading Time: 2 minutes

I am fascinated in Animal Migration. I have attended very learned arguments about this: they have found that birds have magnets in their beaks for instance. But as you investigate these arguments they just do not work right.

For successful migration you need to know when to go and where to go. Terns for instance fly from their wintering grounds to arrive on the Thames exactly when the Mayflies begin to appear. The weather makes this a different time each year, yet the Terns arrive bang on time.

I think that birds are like dumb terminals. They are hard wired into access to the part of the Logos that they need. This may be by a special frequency. We know that little birds (without parents) know when they have to go and where to (even without any parental influence).

What I think happens is that the birds “feel” the time to go and then they just know where to go to. Dowsers all know that you can ask your rod where something is and it will show you. We all know that we can point to the Magnetic North pole or Lincoln. That is how the Romans did it. If we can do that, all the bird has to do is fly to the destination which they know.. In many cases I think that they do this by seeing a colour cast in their eyes to keep them on track as the fly. . Robins get lost if you filter out the red. Many of the passerines (robins) migrate at night so that they can see the route better. This is just like deviceless dowsing when you feel you are on a line and stop feeling the line when you drift off.

This model explains why birds have a general route but when they get blown off they can still find their way.

Conclusion
Jeffrey Keen covers the science of this much better than I, particularly as to earth energy lines spirals and other physical phenomena. I am particularly interested in the spiritual connection of humanity and animals and as how this too fits in with the work that the physicists as beginning to explore form their word.

Similar Posts

  • Animal Navigation a new theory for 2025

    How animals navigate has been a mystery forever. At present, the prevailing theory is that animal navigation is based on magnetic information. But there are huge problems with this approach. In order to use the Earth’s magnetic field to navigate by, you need to know where you are and where you are going, as well…

  • Magnetic Compass Orientation

    This paper is a very good overview of the thinking about avian migratory navigation and acknowledges that birds use all the cues that are available to them to navigate successfully. Magnetic Compass Orientation in a Palaearctic–Indian Night Migrant, the Red-Headed Bunting Summary The earth’s magnetic field, celestial cues, and retention of geographical cues en route…

  • Dolphins and Bats: Superpower

    Dolphins and bats don’t have much in common, but they share a superpower: Both hunt their prey by emitting high-pitched sounds and listening for the echoes. Now, a study shows that this ability arose independently in each group of mammals from the same genetic mutations. For more reading follow this link: ow.ly/xkfk30nysHa

  • Investigating factors influencing initial orientation in nocturnally fledging seabirds

    Please note that Tom Guildford is a very important Animal Navigation professor working at Oxford University.  Manx Shearwaters have been extensively studied as they have amazing navigational skills but do not seems to rely on magnetism. Richard NissenEditor This is a summary of a paper protected by copyright: Syposz, M., Padget, O., Wynn, J., Gillies, N.,…

  • The hippocampus of rats

    Prof Kate Jeffery has done some very interesting work on how the hippocampus of rats processes navigational information. Scientists are clear that the hippocampus is critical for navigation but believe that it is only one part of a larger system that has many functions including recognising landmarks, computing distances and directions etc. and forming memories….