FEAT - Interview with Špela Petrič and MihaTuršič: https://www.spelapetric.org/
Nonhuman Agents - Petrič:
FEAT - Interview with Špela Petrič and MihaTuršič: https://www.spelapetric.org/
Nonhuman Agents - Petrič:
Maartje Dros http://maartjedros.nl
Dutch designers convert algae into bioplastic for 3D printing: https://www.dezeen.com/2017/12/04/dutch-designers-eric-klarenbeek-maartje-dros-convert-algae-biopolymer-3d-printing-good-design-bad-world/
Interview Eric Klarenbeek et Maartje Dros:
Living design for local production - talk by Eric Klarenbeek: http://www.ericklarenbeek.com/
Eric Klarenbeek talks about his chair made of 3D-printed mushrooms
Mycelium Project - Designers of the unusual - Time lapse of growing process
Stéphane Douady: http://www.lps.ens.fr/~douady/ https://fr.wikipedia.org/wiki/St%C3%A9phane_Douady
Caption Sand dunes acoustics research. Microphones and a modelling apparatus being used to study the acoustics of sand dunes. Known as 'singing sand', this phenomenon is produced by wind passing over and around the dunes. It is thought that the factors affecting the sound include humidity and the size of the sand grains. This study was carried out by CNRS (French) researcher Stephane Douady. Photographed in 2010.
Le chant des dunes présenté par Stéphane Douady.
Ambio, bacterial lamp by Teresa van Dongen: http://www.teresavandongen.com/
In the muddy soil of rivers and lakes one can find micro-organisms that continuously excrete electrons in their metabolism. Teresa van Dongen explores these specific bacteria as a means to generate electricity for domestic use.
Designing Nature - talk by Dr. Alexandra Daisy Ginsberg (The Conference 2018)
Resurrecting the Sublime: https://www.daisyginsberg.com/work/resurrecting-the-sublime
David Rejeski: The Synthetic Biology Startup Ecosystem in the US: https://www.slideshare.net/Ennakointi/david-rejeski-the-synthetic-biology-startup-ecosystem-in-the-us
Computational modeling of biological networks at multiple scales: http://biocircuits.ucsd.edu/ http://biocircuits.ucsd.edu/people
Biodynamics Lab
Engineering methods in the theoretical design and experimental construction of synthetic gene regulatory networks. http://biodynamics.ucsd.edu/
Programmed cycles of bacterial drug delivery
Single-cell expression dynamics in S. cerevisiae
E. Coli Supernova: Quorum-triggered oscillations in a growing population
Adrianus Kalmijn: The Electric and Magnetic Sense of Sharks, SkaS, and Rays (1974):
http://www.uvm.edu/rsenr/wfb232/Kalmijn.pdf
The physical nature of life - by Adrianus Kalmijn (2002): https://www.ncbi.nlm.nih.gov/pubmed/14692484 http://sci-hub.tw/https://www.ncbi.nlm.nih.gov/pubmed/14692484
Bioelectric Fields in Sea Water and the Function of the Ampullae of Lorenzini in Elasmobranch Fishes - by Adrianus Kalmijn (1972): https://www.amazon.com/Bioelectric-Function-Ampullae-Lorenzini-Elasmobranch/dp/B00B06RCIQ
A biological function for electroreception in sharks and rays - Carl D. Hopkins:
http://jeb.biologists.org/content/213/7/1005
Sharks: Ocean spies of the future?: https://www.bu.edu/sjmag/scimag2005/features/spysharks.htm
The Shark's Electric Sense. Sensitive detector of electric fields helps sharks zero in on prey:
http://depa.fquim.unam.mx/amyd/archivero/Electrosensores_en_accion_21561.pdf
Brain Waves - Neuroscience News, by R. Douglas Fields:
https://rdouglasfields.wordpress.com
Sharks Use ESP: https://rdouglasfields.wordpress.com/2014/08/30/sharks-use-esp/
Dimitri Deheyn: https://scripps.ucsd.edu/labs/deheyn/
https://www.researchgate.net/profile/Dimitri_Deheyn
How Millions of Microscopic Fibers Are Ending Up in Our Bodies:
https://www.onenewspage.com/video/20181105/11005469/How-Millions-of-Microscopic-Fibers-Are-Ending-Up.htm
Nature's Glowing Slime:
Editorial: An international meeting exploring biophotonics: https://www.researchgate.net/publication/318299102_Editorial_An_international_meeting_exploring_biophotonics http://sci-hub.tw/https://www.sciencedirect.com/science/article/pii/S2214785317306740
Glow-In-The-Dark Sharks:
Can Organisms Sense via Radio Frequency? - A team of UC San Diego researchers awarded grant to find out: https://www.scripps.ucsd.edu/news/can-organisms-sense-radio-frequency
DARPA to brief industry on RadioBio program to communicate biologically using radio waves: https://www.militaryaerospace.com/rf-analog/article/16726429/darpa-to-brief-industry-on-radiobio-program-to-communicate-biologically-using-radio-waves
“Researchers in Europe were able to demonstrate that biological cells produce RF in the gigahertz range, which is what your radio or your cellphone works at,” said UC San Diego’s Scripps Institution of Oceanography marine biologist Dimitri Deheyn, the project’s lead investigator. “Those discoveries were made in cells that are cultured in petri dishes, and so the big question that the RadioBio program wants to assess and that we will try to answer through this grant is: Are such frequencies biologically relevant? Can we measure them from organisms?”
Biomagnetism: https://en.wikipedia.org/wiki/Biomagnetism
If plants generate magnetic fields, they’re not sayin’: https://news.berkeley.edu/2011/04/07/if-plants-generate-magnetic-fields-they’re-not-sayin’/
Plant Biomagnetism: https://www.enn.com/articles/42570-plant-biomagnetism
Search for plant biomagnetism with a sensitive atomic magnetometer - by Mark Prouty, CTO of http://www.geometrics.com/: https://www.academia.edu/8200044/Search_for_plant_biomagnetism_with_a_sensitive_atomic_magnetometer
Cleve Backster - Primary Perception: https://en.wikipedia.org/wiki/Cleve_Backster
Evidence of a Primary Perception In Plant Life (full e-book):
http://rebprotocol.net/clevebaxter/Evidence%20of%20a%20Primary%20Perception%20In%20Plant%20Life%2023pp.pdf
Plant perception:
https://en.wikipedia.org/wiki/Plant_perception_%28paranormal%29
https://psi-encyclopedia.spr.ac.uk/articles/cleve-backster
OpenPlant - Synthetic Biology Research Centre: https://www.openplant.org/
Sharing tools for a sustainable future: Synthetic Biology offers the prospect of reprogrammed biological systems for improved and sustainable bioproduction. While early efforts in the field have been directed at microbes, the engineering of plant systems provides even greater potential benefits. In contrast to microbes, plants are already globally cultivated at extremely low cost, harvested on the giga-tonne scale, and routinely used to produce the widest range of biostuffs, from fibres, wood, oils, sugar, fine chemicals, drugs to food. Plants are genetically facile, and GM plants are currently grown on the >100 million hectare scale. Plant systems are ripe for synthetic biology, and any improvement in the ability to reprogram metabolic pathways or plant architecture will have far-reaching consequences.
OpenPlant Reports
OpenPlant Funds: https://www.openplant.org/fund