Postscript
Writing after recording
t.ly/NAri
2021
Trauma Response
Group show at Duplex
Curated by Judith Hofer
Lisbon Nov 12 – Dec 03
2021
Hacking IG
PMX32-3DU
rbgy/r0sleg
no follower
no post
2021
Plant Spirit Organisation
Forum for plant communication
2021
Plant Data, Beyond our Understanding
of Plant Communication, Alice Bonnot
Pub. Jul–22 Contemporary Hum
2021
Plant Spirit at Museu História Natural
MHNC-UP Porto Jun 06 – Jul 04
2021
Plant Data at Museu História Natural
MHNC–UP Porto Jun 06 – Jul 04
2020–21
A-I-R Plant Intelligence
Faculty of Science Dept. of Biology
FC–UP Porto
2020
AE Interpretation Data
Laboratory of Plant Ecology, Belgium
2020
A-I-R Mobility + Research
Cripta747 Studio programme
Turin, Italy
2019
respublica.tube
Open-source everything
Hacked webcam
2019
Omega
Y.A. + Xavier Paes
Making noise
Work
Essay
PMX32-3DU
Res Publica
YouTube
Y.A.
yotaayaan (@) gmail.com
Based in Porto
register to mail list
by sending an email
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Essay
PMX32-3DU
Res Publica
YouTube
Y.A.
yotaayaan (@) gmail.com
Based in Porto
register to mail list
by sending an email
with subject 'news'
( = )
The use of acoustic emissions (AE) in physiological research dates back to the year 1966, when it was discovered that petioles of leaves under drought stress emit audible vibrations. The vibrations were recorded by audio sound transducers. The past couple of years have resulted in rapid developments in microelectronics leading to new advancements in the AE technique applied to plants. High performance acquisition systems are now available that can record and store waveforms from multiple channels at high sample frequencies. — Adapted from “From hydraulics to acoustics in drought-induced cavitation in plants” by Niels Baerdemaeker, PhD thesis supervised by Kathy Steppe, University of Ghent, 2018.
The use of acoustic emissions (AE) in physiological research dates back to the year 1966, when it was discovered that petioles of leaves under drought stress emit audible vibrations. The vibrations were recorded by audio sound transducers. The past couple of years have resulted in rapid developments in microelectronics leading to new advancements in the AE technique applied to plants. High performance acquisition systems are now available that can record and store waveforms from multiple channels at high sample frequencies. — Adapted from “From hydraulics to acoustics in drought-induced cavitation in plants” by Niels Baerdemaeker, PhD thesis supervised by Kathy Steppe, University of Ghent, 2018.