In 1845, Michael Faraday introduced the concept of the electromagnetic field. Nowadays electromagnetic fields are known to be omnipresent, even in so-called empty space, and atomic particles are conceived of as 'excitations of fields' rather than as the indivisible and independently-existent point-particles (or atoms) of pre-modern science.

This leads me to a further question: what if there are types of fields other than electromagnetic? There is, for instance, the theory of morphogentic fields which is contested, but which is still being considered (e.g. Morphogenic fields: A coming of age.) These are related to, but not the same as, Sheldrake's controversial 'morphic fields' theory (and please spare me the obligatory Sheldrake-bashing.)

But there are many other examples. Consider the case of Frank Brown, a US scientist who situated oysters in an isolated environment in Evanston Illinois, in the middle of the continental US, and was amazed to find that they gradually synchronised their opening and closing times with the high tides adjusted for their location, even though they were completely isolated from external world. The linked article says that Frank Brown was more or less ostracised for theorising that oysters could somehow sense the time, with the preferred explanation being that they must have some kind of organic chronometer on a biomolecular level (but according to that extract, the point remains moot).

Morphogenetic field effects in biology are invoked to explain how amphibians, for example, can re-grow exact copies of amputated limbs. Then of course there are the very well-documented travels of migratory birds who return to their home grounds thousands of kilometers from their feeding grounds and eels who migrate thousands of kilometers to breed. It is nowadays thought that these creatures can navigate by electromagnetic fields or possibly orient themselves with respect to the sun. Likewise the phenomenon of horses and other herd animals who panic and show strange behaviours prior to earthquakes (ref). They too are thought to detect subtle changes in the electromagnetic field - but what if the field they're detecting is not actually electromagnetic at all?

So the question this brings up is - what if fields of other kinds - mental or biological - are ubiquitous, in the same way that electromagnetic fields are? And then even if they were, how could they be detected? In the case of electromagnetism Faraday and his successors were able to demonstrate electromagnetic effects with great precision - but these are just the kinds of effects which the physics, and the instruments, were able to detect and predict. If there were such things as biological or mental fields, they may not be detectable by electronic instruments at all. (After all, persons with metal detectors will generally only ever unearth metal artefacts, but this doesn't prove that "all artefacts are metal").

All of this kind of speculation tends to be taboo in science - Sheldrake is regarded as a crank or at least maverick, Frank Brown was professionally shunned, and so on. The mainstream consensus is that oysters, for instance, have no known way of sensing the tides table, so there must be some molecular mechanism which accounts for their actions. Yet I can't help but sense the resonance with Einstein's rejection of 'spooky action at a distance', one of the apparent implications of quantum mechanics, and a rare case in which Einstein's intuitions were later shown to have been wrong by the Alain Aspect experiments.

I'm interested in any sources for these kinds of ideas - for instance the Frank Brown research was reported in this book which I feel a strong urge to add to my already-groaning bookshelves. (And if anyone is able to download a copy of that paper I'd be most obliged, as I don't have institutional login privleges.)