Beautiful Shetland Sunset

I took this picture earlier at the local cinema and music venue while hiding from a vivacious stag do.  As you can see the sky had gifted us with a glorious few moments of its beauty before the sun retreated behind the hills.  This was a very surreal moment; I felt as if I had stumbled into a holiday advertisement.  More interestingly, the splendour faded after only ten minutes, making me wonder just how fleeting the beautiful sites one often sees in travel ads actually are.  It might seem strange that the refraction and reflection of light can produce such pleasure for us, and I struggle to find an evolutionary advantage to such appreciation.  James Lovelock mused that this pleasure might derive from a subconscious satisfaction that we have an exact place in this perfect world, that we share a deep connection with everything we can sense.

Blog update: for the time being I’ve decided to blog at a pace of roughly three blogs a week, to be loosely published on Mondays, Wednesdays and Saturdays – plus whenever there’s anything particularly pressing to write about.  It’s likely I’ll again change this approximate schedule once I’m at university, but I don’t suppose any of this matters much.  I’m working on the assumption that, like market values, the quality of my blog posts will increase the fewer I write.  We’ll see.



Gaia: Why Mars is Probably Dead

As a tangent to yesterday’s post (and also because discussing bleak prospects for Mars appears popular), there’s another point in James Lovelock’s Gaia: A New Look At Life on Earth that seems relevant for today.  It’s just been announced that NASA will send another rover to Mars in 2020 to compliment the work of the current Curiosity rover in its search for life.  While Curiosity has been generally examining the environment with its hi-tech equipment to see if it could ever have been fit for life, this new rover would focus on studying the planet’s geology.

When writing the book, it was Lovelock’s view that the development of life on a planet inevitably acts to terraform that planet to make it even more fit to harbour life – such as how on Earth life has regulated our atmosphere in the last 3 billion years to keep the temperature constant, despite the fact it ought to be lowering.  If Mars has ever had life on it, then this life should have modified the planet to make it more habitable, thereby leading to more life.  This doesn’t necessarily mean that Mars should still be habitable now if it ever sustained life – some catastrophe could have destroyed the atmosphere, for example – but signs of former life ought to be more obvious.  Certainly, it would suggest with certainty that no life exists now.  In this theory I think it’s still possible that life never developed past basic bacteria before being wiped out, but the chances of such a short lifespan can be considered unlikely.  If this is true then our search for life on Mars is probably in vain.

That’s not to say I don’t think we should be sending rovers to Mars.  Quite the contrary!  There is still so much we can learn from our neighbours whilst developing our own technological capabilities.  I just don’t think we should be getting our hopes up for any big announcements.

Gaia: Shifting of Scientific Consensus

I’ve just finished reading the 1979 book Gaia: A New Look At Life On Earth by James Lovelock.  It’s a good read and I’d highly recommend it, even if it may be a bit outdated.  In it, Lovelock sets out a summary of his ‘Gaia’ theory, a theory of the ‘Organic Earth’.  He visualises life across the planet as, although existing in an array of individual life forms, comprising something greater – a bit like how cells and bacteria in our bodies come together to comprise us.  His evidence and conjecture really are fascinating; he uses the improbable stability of the atmosphere as evidence, for instance, with there being an optimal level of oxygen to support life but not so much that there’s a danger of flammability.  This is an easier example to understand how Gaia works: if the oxygen level gets too high then forest fires would begin breaking out, adding carbon dioxide to the air and also limiting oxygen produced by plants.  If it gets too low in favour of carbon dioxide then plants will prosper, thereby creating an increase of oxygen into the air.  He also discusses the implications of human civilisation on Gaia.

I’m interested at the extent to which his ideas have entered the scientific mainstream opinion.  Lovelock clearly wrote Gaia knowing that parts of it would be perceived as a radical new idea, yet, much of it is familiar to things I recall learning at school.  I can’t name any specifics but the general concept of all life on Earth existing in a mutually-dependent relationship is one which seems obvious to me as a result of my education.  Has the consensus changed that much in just 30 years?  There are other things I noticed that have changed, such as successful steps taken to limit the emission of CFCs to save the ozone layer from depletion (a remarkable feat, in retrospect) which was only beginning when Lovelock wrote the book.  It’s now accepted that this action was well-judged and may have saved us from terrible consequences.

One thing which hasn’t changed is the debate over fossil fuels.  Lovelock seems to hold the position that they are not as great a problem as is often claimed (he even considers whether activities on land could ever truly threaten Gaia as long as the oceans are left intact; I disagree, though his example of the destruction Ice Ages cause is convincing).  He is outspoken in his opposition to renewable energy and even seems in favour of using fossil fuels which is, uh, a strange position for an ecologist to take.  To be fair, Lovelock aside, most scientists are in agreement that the use fossil fuels ought to be limited – it’s largely the public which still grasp on to outdated ideas.

Another idea I found fascinating was Lovelock’s speculation on the ‘purpose’ of humanity for Gaia.  Unlike evolution within a species, changes to Gaia don’t seem to necessarily require being advantageous to it so it’s possible that humanity could simply be an ‘accident’, but it’s interesting to speculate nonetheless.  He wondered whether an intelligent species (intelligence defined as having the ability to store information collectively and add to it throughout successive generations) might act as a kind of guardian of Gaia.  He pointed to a hypothetical asteroid collision with Earth, which in normal circumstances would be a catastrophe for life on Earth.  Humanity’s presence, however, through our development of technology might actually be able to stop this threat to Gaia.  It’s certainly a challenge to the accepted view that humans are nothing more than a cancer to the planet – though Lovelock does warn of the dangers human overpopulation might have for Gaia.

Despite being out of date in places and even despite disagreeing with bits of it, Gaia is still a book well worth reading.  You’ll need a basic understanding of chemistry and biology to understand everything but it is generally written in a readable and often quite poetic style.

To The North!

Through a glacial, U-shaped valley (probably).

Today I traveled to the northernmost part of the UK: the island of Unst at the top of the Shetland Isles.  Despite having lived in Shetland my whole life I don’t recall ever visiting Unst, though apparently I had been before when I was really young.  Getting to Unst is a bit of a stretch; tens of miles of road over the most beautiful, desolate scenery you can find and then two surprisingly comfortable ferries.  It’s a journey which proudly displays the variety of Shetland’s topography and human habitation.  We traveled through hills long ago ravaged by glaciers and watched as pollutant horrors burned on the horizon at the Sullom Voe oil terminal.  Many times, particularly through the island of Yell, it appeared that human civilisation had been left behind completely, so sparse is the landscape.

The Arctic beckons in the north.

Our first stop was the most northern beach in the UK, Skaw Beach.  After passing one of those boat-roof huts tourists seem to rave about, we explored the beach.  The river’s neat path carved into the sand impressed a respect for natural processes – aided by the fact I’m currently reading about Lovelock’s Gaia theory.  Our planet is amazing.  Next was a lovely building which used to have a purpose for the former RAF base, where I drank coffee and ate chocolate cake.

While I’m raving about geography, the geology of Unst is incredible.  I’m not greatly informed about it but I know the island is comprised predominantly of two different kinds of rock.  It shows.  Half of the island is like most of Shetland; moorland of grass or heather, with the occasional rocky outcrop of glacial till.  The other half, however, was a geographical delight.  It was as if the sky had opened up and let loose a barrage of rocks.  Presumably this rock is weaker and was therefore further pulverised by glaciers in the last Ice Age than the other side of the island, though that’s just me guessing.

I’m surfing wrong, aren’t I?

Another fascinating stop was the Muness Castle.  While not as famous nor as large as Scalloway Castle, it had its own charm.  It is very hard to visualise an open, drafty upper floor as once having been the base of powerful comfort.  How soon things decay.  Will our own structures, so seemingly stable today, collapse within another 500 years?

When you live somewhere, you forget how beautiful it really is.  I’m eager to leave Shetland to move on to new things but I am glad to have been brought up in such a great place.

Also, this has to be the best bus-shelter in the country: