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Antarctica: as remote as it gets on Earth. Concordia research station is a collaboration between the French Polar Institute and the Italian Antarctic programme. It is one of only three bases that is inhabited all year long, and is located at the mountain plateau called Dome C. Pictured in this image is the astronomical observatory near the base.
As well as offering around nine months of complete isolation, Concordia’s location at 3233 m altitude means the crew experience chronic hypobaric hypoxia – lack of oxygen in the brain. During the Antarctic winter, the crew of up to 15 people also endure four months of complete darkness: the sun disappears from May and is not seen again until late August. Temperatures can drop to –80°C in the winter, with a yearly average of –50°C.
As a station set in Earth’s harshest space, Concordia is an ideal stand-in for studying the human psychological and physiological effects of extreme cold, isolation and darkness.
Credits: IPEV/PNRA–S. Guernier
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
Lindau, Germany,30.06.2014. 64th Lindau Nobel Laureate Meeting, Medicine/Physiology.
Discussion: Young Scientists with Laureate Jules A. Hoffmann.
Picture/Credit: Rolf Schultes/Lindau Nobel Laureate Meetings
Baden-Württemberg boat trip to Mainau Island
Picture/Credit: Christian Flemming/Lindau Nobel Laureate Meetings
Baden-Württemberg boat trip to Mainau Island
Picture/Credit: Christian Flemming/Lindau Nobel Laureate Meetings
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
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A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
Panel Discussion: Large Data and Hypothesis-Driven Science in the Era of Post-Genomic Biology
Bruce A. Beutler, J. Michael Bishop, Moderator Stefan H.E. Kaufmann, Brian Schmidt and Jules A. Hofmann
Picture/Credit: Christian Flemming/Lindau Nobel Laureate Meetings
Lindau, Germany, 01.07.2014. 64th Lindau Nobel Laureate Meeting, Medicine/Physiology.
Journalists during the Lecture Rolf Zinkernagel
Picture/Credit: Rolf Schultes/Lindau Nobel Laureate Meetings
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
Photos in the field with the Shark Stress Physiology research team. The research team uses a technique involving longlines with eight separate baited gangions. Each gangion is set up with a trigger, that once tripped, will start recording video via GoPro and record time-on-line and tension. Once a specimine is caught, the team spends approximately 10 minutes or less taking blood samples, tagging, and noting visual characteristics of each shark. On this particular outing off the Atlantic side of Cape Eleuthera the research group set their line parallel with the wall of the Exuma Sound. The caught and tagged two reef sharks - one juvinile and one adolescent.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
Panel Discussion: Large Data and Hypothesis-Driven Science in the Era of Post-Genomic Biology
young researchers listeningPicture/Credit: Christian Flemming/Lindau Nobel Laureate Meetings
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
From the looks of it, this room has been used to quarantine something else before. Now it is rabies. Hmmm
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
Free download under CC Attribution (CC BY 4.0). Please credit the artist and rawpixel.com.
Vintage fish illustrations from Ichtyologie, ou, Histoire naturelle, générale et particulière des poissons (1785–1797) by Marcus Elieser Bloch (1723–1799), the German physician and naturalist. Bloch was the most influential ichthyologist of the 18th century who consistently devoted himself to natural objects, anatomy, and physiology. This collection showcases his devotion to ichthyology, illustrating more than 400 various types of fish. We have digitally enhanced these richly colored public domain illustrations in high-resolution printable quality. Free to download under the CC0 license.
Higher resolutions with no attribution required can be downloaded: https://www.rawpixel.com/board/938140/ichtyologie-ou-histoire-naturelle-generale-et-particuliere-des-poissons?sort=curated&mode=shop&page=1
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
A revolution in phenomic is taking place, using non-invasive technologies based on spectral reflectance from plant tissue.
Photo by Alfonso Cortés/CIMMYT.
68th Lindau Nobel Laureate Meeting, 26.06.2018, Lindau, Germany, Picture/Credit: Christian Flemming/Lindau Nobel Laureate Meetings