The last few times I passed by Bujwa Bay, on my way downriver from Berowra Waters, it was shrouded in mist.
But last Sunday, in the golden light of late afternoon, there was a revelation.
I’m familiar with the Hawkesbury’s sculpture parks and sandstone art galleries. But the fact that Berowra Creek had well preserved fragments of an ancient Moorish fortress – well, that was news to me.
When I went home and told RB I’d seen something very like the famous stucco inscriptions of the Alhambra on a estuarine cliffside at the end of Berowra Waters Road, his comment was “You’re barking!”. And he’s probably right.
After all, the Alhambra is an artistic jewel, a masterwork of European Islam, preserved over the centuries after the Moors themselves were driven first into the mountains and then out of Spain altogether. Its delicate carved plasterwork miraculously survived Christian conquerors, dodgy architectural restorers, squatters and tourists. And the sandstone of Bujwa Bay is just, you know, rock.
But I’ve been reading about “thing power” and it’s given me a whole new angle on inanimate objects. “Thing Power!” – sounds like a killer bathroom cleaner that will sort out all the disturbing life-forms, named and unnameable, in your shower cubicle.
But according to Jane Bennett, its “a creative not-quite-human force capable of producing the new [that] buzzes within the history of the term ‘nature’ ” (2010, 118). Electrons, microbes, minerals, waste, all busily making and shaping things, inside, around, through, against and despite humans and their fancy-pants plans. She reckons things and people rub along or against each other in a pattern that’s “not random or unstructured, but conforms to the strange logic of vortices, spirals and eddies” (2010, 118).
Kooky as it sounds, this is not a bad description of how the Bujwa Bay Alhambra came into the world, according to a paper coauthored, in a way that pleases my penchant for magical thinking, by a geologist from Granada, home of the famous palace.
Honeycomb weathering like this happens in all sorts of porous rocks, around the world – from Antarctica to Jordan – and maybe even on the surface of Mars. It might seem like hollows would form in weaknesses in the rock, but it’s not necessarily so. Blistering heat, frost, chemical weathering and rain are all in the frame – with maybe a little help from the odd patch of algae or lichen. But mostly it’s about salt and wind.
Salty water – in this case from seaspray – seeps into the rock and crystallises, making tiny fractures. If there’s plenty of water, salt crystals forms on the outside surface to form efflorescence, a mineral flowers blooming on a cliffside or a cellar wall or a garden fence. But the real damage is done deep in the rock.
According to Rodriguez and friends, once a depression is formed in the rockface, wind eddies and swirls inside the concave parts of the stone. Faster breezes mean more evaporation and a super-saturated salt solution, meaning more salt crystals and more fretted stone. Eventually the rockface becomes lacework, without any intervention by a rock lacemaker.
The other name for honeycombed rock is alveoli. It’s stone with lungs. Made of mineral flowers. Not alive (or mostly not alive – sorry algae) but doing complicated and beautiful things.
Not immortal, invisible, unfathomable. In fact, as fathomable as the waters of Bujwa Bay at low tide, that is, knee deep to a heron. Just exceedingly hard to grasp.
And that’s not just me banging my head against a corroding brick wall of “Salt weathering: a selective review” – the geologists are still bickering over exactly how it works. In Bennett’s (possibly slightly loopy) words, it’s vital matter, “hard to discern… and, once discerned, hard to keep focused on. It is too close and too fugitive, as much wind as thing” (119). Or perhaps, in this instance, both wind and thing.
Jane Bennett 2010 Vibrant Matter, Duke University Press
Eric Doehne (2002) “Salt Weathering: a selective review” from Natural Stone, Weathering Phenomena, Conservation Strategies and Case Studies. Vol 205, 51-64, Geological Society Special Publication
Carlos Rodriguez-Navarro, Eric Doehne,Eduardo Sebastian (1999) Origins of honeycomb weathering: The role of salts and wind, GSA Bulletin; August 1999; v. 111, no. 8; p. 1250–1255
Huinink, H. Pel, L, Kopinga, K. 2004 “Simulating the growth of tafoni” Earth Surface Processes and Landforms 29 1225-33