@Ortho_FL 論文もありますが、素人の私には殆ど解読不能でした😓 Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years https://t.co/8H6veg1VZM
RT @WalterAndriuzzi: (1) Let’s kick off with this absolutely bonkers study that Wired presented as "Mad Scientists Revive 100-Million-Year-…
(1) Let’s kick off with this absolutely bonkers study that Wired presented as "Mad Scientists Revive 100-Million-Year-Old Microbes", which I wouldn't know how to top: https://t.co/HOl6o5Vlyu @kochi_JAMSTEC @JAMSTEC_PR @IkeharaMinoru
l’article si ça en intéresse même si ça m’étonnerait btw : https://t.co/YddH6RWLI1
RT @anshika22_gupta: Day 4- #Dormancy #Microber2021 #Sciartober Today's art is inspired by the recent publication where researchers were a…
Day 4- #Dormancy #Microber2021 #Sciartober Today's art is inspired by the recent publication where researchers were able to revive dormant bacteria from the ocean bed https://t.co/an7aYPhA5O https://t.co/4JOXPz9ZWZ
@RandalRauser thanks found the journal publication if you're interested https://t.co/7qojgNviVe
RT @ajitjohnson_n: Biologists dug into sediment more than 3.5 miles beneath the South Pacific Gyre and uncovered 101.5 million-year-old mic…
@DrShaunaz And then there is this, 100 million year old persisters in sediment. https://t.co/eDzySgrVBU
RT @AliDuhaim1: فريق دولي من علماء من اليابان وأميركا استطاعوا إنعاش ميكروبات صغيرة كانت تعيش في سبات من 100 مليون سنة. الدراسة نشرت في (Na…
Source: Morono et al (2020) — open access https://t.co/v8UIBZL5fK
@riemannzeta @paulg These are all unicellular (mostly bacteria and some archaea). How do you even measure longevity for a unicellular organism - mean time between cell divisions? In some sense it's still the original cell from billions of years ago. http
@thisjackkaido @paulg You mean 5th sentence pointing to the article below, thanks. However these are all unicellular organisms (mostly bacteria and some archaea), hence my point above. https://t.co/oyKnp0g7T7
"A large-scale binding and functional map of human RNA-binding proteins" https://t.co/4j2DsLem1m 7/29/20 refuted the claims from https://t.co/Bxnu9u0JAG 7/28/20 via the patent for naturally occurring light-activated carbon fixation / protonated RNA interfe
Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/rafFIMJeTY
RT @CosmicRami: Today's fav astrobiology paper.... in 2020 biologists found organisms living on the seafloor (Pacific) in organically poor…
RT @CosmicRami: Today's fav astrobiology paper.... in 2020 biologists found organisms living on the seafloor (Pacific) in organically poor…
RT @CosmicRami: Today's fav astrobiology paper.... in 2020 biologists found organisms living on the seafloor (Pacific) in organically poor…
Today's fav astrobiology paper.... in 2020 biologists found organisms living on the seafloor (Pacific) in organically poor sediments that are dated to be 101.5 million years old, and in a state of animation, until these biologists literally woke them up.
Want to read about "oligotrophic calcareous nannofossil ooze?" I thought so. Check out this research paper (https://t.co/JXnzL6hdf8) & the @scinewscom story about it (https://t.co/71sLELrMmG), the topic of today's discussion in my @DixieState 'Biology
RT @Insigni42489865: @stepelka Z fajnych artykułów o bakteriach odgrzebanych głęboko pod ziemią / dnem oceanu. https://t.co/y7Ciig0od3
@stepelka Z fajnych artykułów o bakteriach odgrzebanych głęboko pod ziemią / dnem oceanu. https://t.co/y7Ciig0od3
https://t.co/GKtIO5LwKb @LauraDeming ..and this.
This really seems like a bad plan, but the paper is at https://t.co/fLixAUvTbb They came from the depths of the South Pacific Gyre. https://t.co/4Gv6baBp2y
RT @MicrobiologieFb: Des bactéries retrouvées dans des sédiments et remises en culture après 101.5 million d'années ! Une sacrée sieste !…
RT @ajitjohnson_n: Biologists dug into sediment more than 3.5 miles beneath the South Pacific Gyre and uncovered 101.5 million-year-old mic…
I still can't believe this. Bringing 100 million year old organisms out of a form of stasis. https://t.co/x4U9E7gkY1
RT @WalterAndriuzzi: By the way here is the paper: https://t.co/HOl6o5Vlyu And here is the Scientific American story by @JenniferFrazer th…
RT @WalterAndriuzzi: By the way here is the paper: https://t.co/HOl6o5Vlyu And here is the Scientific American story by @JenniferFrazer th…
Biologists dug into sediment more than 3.5 miles beneath the South Pacific Gyre and uncovered 101.5 million-year-old microbial communities, still capable of reproducing in lab experiments. The abyssal plain was previously believed to be entirely lifeless.
By the way here is the paper: https://t.co/HOl6o5Vlyu And here is the Scientific American story by @JenniferFrazer that drove Stephen to madness: https://t.co/1QB6pM4czm
@GottaBernNow I read the original article, aka: https://t.co/ejSSYOf5A7
Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years https://t.co/bCIUNn2lQ9
RT @J_MartinezFrias: Es del año pasado, pero la exploración del antiguo lago marciano de #Jezero me lo ha recordado y podría ser de interés…
RT @J_MartinezFrias: Es del año pasado, pero la exploración del antiguo lago marciano de #Jezero me lo ha recordado y podría ser de interés…
Es del año pasado, pero la exploración del antiguo lago marciano de #Jezero me lo ha recordado y podría ser de interés astrobiológico para @NASAPersevere. Estamos hablando de bacterias y 100 millones de años @IGeociencias @REDESPA1 @geo_planet_sge https://
RT @manuelacasasoli: Bacteria may be effectively immortal 100-Million-Year-Old bacteria quickly revived, with some food! #Science #Biology…
RT @manuelacasasoli: Bacteria may be effectively immortal 100-Million-Year-Old bacteria quickly revived, with some food! #Science #Biology…
RT @manuelacasasoli: Bacteria may be effectively immortal 100-Million-Year-Old bacteria quickly revived, with some food! #Science #Biology…
RT @manuelacasasoli: Bacteria may be effectively immortal 100-Million-Year-Old bacteria quickly revived, with some food! #Science #Biology…
Bacteria may be effectively immortal 100-Million-Year-Old bacteria quickly revived, with some food! #Science #Biology #bacteria #microbiology ⏯️Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years https://t.co/X2Yri7KU9i
@christo71213435 Should have been linked to in article. I will check and fix if not, but here it is https://t.co/ovUIE4FSGx
In case anyone doubted that microbes rule the earth, read this! https://t.co/3vUAmFyPlb
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @GretaReintjes: Amazing bacterial life in sediment that is millions of years old.
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @subhash353: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/…
Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/jh4cZq1uvb
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
Amazing bacterial life in sediment that is millions of years old.
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
File under... https://t.co/TTiyzjiWHF
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
RT @Th_Mock: Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8…
Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years | Nature Communications https://t.co/5G8J15RDg4
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
Année 2345 dans une maison en banlieue parisienne. -quelqu’un veut de la pizza ? Moi:
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
C'est peut-être pas la meilleure idée pour 2021...
C'est une bonne idée : ranimons de vieux microbes auxquels nous n'avons peut-être jamais été exposés. Que peut-il nous arriver ? 🤷♂️😬
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
Attend c’est quoi le but??
RT @NorbertExplique: Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être pré…
😥😥👀👀👀👀👀👀👀👇
Si ça se trouve le pangolin est innocent 👀
Des microbes enfermés dans des sédiments depuis plus de 100 millions d'années ont pu être ranimés (99,1% pour être précis) quand ils ont été mis en contact avec de la nourriture. https://t.co/o7GbbFxwzg
Ancient Bacteria 'Wakes Up' After 100 Million Years Under the Seafloor.. the probability of microbial life persisting under Mars' surface, or existing under the ice of Europa or Enceladus now seems pretty high.. See also paper: https://t.co/TtBWw2Ncz1 ht
If you look closely, Venus has valleys filled in with basalt from lava flows. Valleys that were likely made billions of years ago by rivers of liquid water https://t.co/WtHTqa3HK8 #BedtimeScience https://t.co/qyzmLtysSN
A beautifully designed experiment to demonstrate culture viability of 100myo microbes. Stable isotope probing & nano-SIMS 📊 - TWIM have a podcast out on this too. #nanoSIMS #microbiology #stableisotopeprobing #Nature https://t.co/V2vbqMEarZ
RT @Victagua: 🧫Este 2020 se obtuvieron microbios obtenidos en sedimentos marinos con unos 101 millones de años. Era una comunidad formada p…