Surface Tension

Writer, artist and musician Rob St. John (who contributed to our Random Spectacular No. 2 journal) has announced details of his latest project, Surface Tension.

In summer 2014, Ben Fenton, project manager of the ‘Fixing Broken Rivers’ campaign run by London freshwater conservation charity Thames 21, got in touch with Rob. Ben had an unusual commission in mind: could Rob design a project drawing from both art and science to creatively explore and document pollution along London’s River Lea?

Almost a year later, and the project – Surface Tension – is finished, resulting in an album of new music and field recordings taken along the Lea; a book of writing and photographs documenting the Lea Valley and the creative processes in Surface Tension; and an exhibition of film photographs from the project at Stour Space, Hackney Wick, London (E3 2PA) throughout April 2015.

In late summer, Rob walked most of the length of the Lea – one of Britain’s most polluted rivers – wearing holes into the soles of his shoes as he made field recordings with binaural microphones (which look like cheap headphones, but capture a 360 degree soundscape around your head), underwater hydrophones and contact mics. At the same time, he took film photographs on both a vintage 120 camera and a 35mm pinhole camera made from a Lesney toy matchbox (the Lesney factory was on the river at Hackney Wick).

Rob’s work has always had a foot in both art and science: working with sound, photography and natural processes in ways that are both experimental and accessible. In 2011 he released a critically acclaimed LP ‘Weald’; in 2013 the Water of Life collaboration with Tommy Perman; in 2014 the Bastard Mountain LP; and in 2015 Surface Tension and a sound installation Concrete Antenna at Edinburgh Sculpture Workshop.

Surface Tension is released in April on limited edition CD, housed in a beautiful book of Rob’s photographs and writing, designed by Tommy Perman.

Find out more about the project and order a copy of the limited edition CD.

st1

st2

st3

st4