Time Reverse – TIRAMISU
Tea’N’Tea is a project which looks closely to one of the research area of applications of organic polymers – detecting the aromatic molecules of TNT, DNT, DNB and RDX.
An independent artistic research about land mine situation in Europe, during the Homeland War and especially, in the post-war period in Republic of Croatia. While the scientific research is specialized in the chemistry and fabrication of organic polymer sensory detectors the artist tackles areas of botany, agriculture, forester, ecology, land use, land cover, military surveillance and reconnaissance.
In humanitarian de-mining it is necessary to achieve complete removal of explosive ordinance before land is released back to the local community.
The project critically explores the existing problem with land mines in Europe and the controversy of the peace time situation. The Art work generated of Art and Science collaboration will be a case study of a project called TIRAMISU (Toolbox Implementation for the Removal of Anti personnel Mines, Sub munitions and Unexploded Ordnance) which run between a Mine action community in Croatia and a research group in Organic Semiconductor Centre (OSC), University of St. Andrews, Scotland, UK.
‘We all need Vitamins’
Arabidopsis Thaliana is a screen plant for biological research. Its life spam [seed to seed] is ~6 week and I am hoping to use the seeds of the mature plants over time and to trace visible particularities that could be associated with the presence of explosives in their metabolic system.
Therefore, I am burying explosive material into drilled with holes boxes and/or directely mixed with the soil. Over time my ‘mines’ will release small amount of nitrogen and other molecules which then will be absorbed by the plants with the water.
I expect this ‘extras’ to trigger changes in the plant’s shape, size, colour, spectral response, etc due to its susceptibility to the contamination.
MICROscopy series of the germination of Arabidopsis Thaliana in 72 hours and EX-Plosives, find more images in post Inverted MICROscopy
Plants are dependent on light for their photosynthesis and morpohogenesis and therefore had developed light absorbing pigments, organs and a light tracking mechanism (phototropism) to harvest maximum light from the environment . Under a microscope a newly germinates seed shows etiolated hypocotyls, coleoptiles and roots, photo receptors that act as optical fibers and make the light and plant to meet.
some relevant topics and useful links
Why and what for the leaves are yellow in autumn?
Plants as light traps
Distinguishing nitrogen fertilization levels
The red edge of plant leaf reflectance
Response of leaf spectral reflectance to plant stress
I have bee recording time lapse video of the germination process of Arabodpsis Thaliana
image: Nedyalka Panova, Arabodopsis first steps into this world
image: Nedyalka Panova, Arabodopsis 2 weeks old
image: Nedyalka Panova, Arabidopsis’s imaginary life
After series of observations and focusing at different depth of field the subject cease to be a plant and turn into abstract image shimmering on the display floating in a pink fluid of polarized light.