Live Breaking News & Updates on International Society For Microbial Ecology

Stay updated with breaking news from International society for microbial ecology. Get real-time updates on events, politics, business, and more. Visit us for reliable news and exclusive interviews.

Widespread coral-algae symbioses endured historical climate changes

Widespread coral-algae symbioses endured historical climate changes
A community of Pocillopora corals on a reef in Palau with light micrograph insets of Cladocopium pacificum nov. (left) and Cladocopium latusorum sp. nov. (right), two dinoflagellate symbionts critical to these coral animals health and growth.
Image: Coral photo, Tom Bridge, James Cook University; algae photos, Kira Turnham, Penn State
Widespread coral-algae symbioses endured historical climate changes
May 24, 2021
UNIVERSITY PARK, Pa. One of the most important and widespread reef-building corals, known as cauliflower coral, exhibits strong partnerships with certain species of symbiotic algae, and these relationships have persisted through periods of intense climate fluctuations over the last 1.5 million years, according to a new study led by researchers at Penn State. The findings suggest that these corals and their symbiotic algae may have the capacity to adjust to modern-day increases in ....

Red Sea , Djibouti General , Great Barrier Reef , United States , Jim Maragos , Pacific Ocean , Kira Turnham , Todd Lajeunesse , Eugenia Sampayo , Sun Kim , University Of Hawaii , International Society For Microbial Ecology , University Of Queensland , National Science Foundation , Society Of Systematic Biologists , Southeast Asia , International Society , Pacific Oceans , Coral Triangle , Drew Wham , Penn State , Australian Biological Resources Study , Systematic Biologists , சிவப்பு கடல் , நன்று தடை ரீஃப் , ஒன்றுபட்டது மாநிலங்களில் ,

Widespread coral-algae symbioses endured historical climate changes

E-Mail
UNIVERSITY PARK, Pa. One of the most important and widespread reef-building corals, known as cauliflower coral, exhibits strong partnerships with certain species of symbiotic algae, and these relationships have persisted through periods of intense climate fluctuations over the last 1.5 million years, according to a new study led by researchers at Penn State. The findings suggest that these corals and their symbiotic algae may have the capacity to adjust to modern-day increases in ocean warming, at least over the coming decades.
Cauliflower corals which are in the genus Pocillopora are branching corals that provide critical habitat for one-quarter of the world s fish and many kinds of invertebrates, such as lobsters, sea urchins and giant clams. They are common throughout the Indo-Pacific the region extending from eastern Africa, north to India and Southeast Asia, across Australia and encompassing Hawaii and are capable of long-range dispersal and rapid g ....

Great Barrier Reef , United States , Pacific Ocean , Kira Turnham , Todd Lajeunesse , Eugenia Sampayo , International Society For Microbial Ecology , University Of Queensland , National Science Foundation , Society Of Systematic Biologists , Southeast Asia , International Society , Coral Triangle , Drew Wham , Penn State , Australian Biological Resources Study , Systematic Biologists , நன்று தடை ரீஃப் , ஒன்றுபட்டது மாநிலங்களில் , பெஸிஃபிக் கடல் , டாட் ளஜேஉநெஸ்செ , சர்வதேச சமூகம் க்கு நுண்ணுயிர் சூழலியல் , பல்கலைக்கழகம் ஆஃப் குயின்ஸ்லாந்து , தேசிய அறிவியல் அடித்தளம் , தென்கிழக்கு ஆசியா , சர்வதேச சமூகம் ,

New research could help scientists better estimate Earth's carbon budget

New research could help scientists better estimate Earth s carbon budget
ANI |
Updated: Apr 13, 2021 23:16 IST
Washington [US], April 13 (ANI): A team led by University of Minnesota researchers have discovered that deep-sea bacteria dissolve carbon-containing rocks, releasing excess carbon into the ocean and atmosphere. The findings will allow scientists to better estimate the amount of carbon dioxide in Earth s atmosphere, the main driver of global warming.
The study is published in The ISME Journal: Multidisciplinary Journal of Microbial Ecology, a peer-reviewed scientific journal that is part of the Nature family of publications and the official journal of the International Society for Microbial Ecology (ISME). ....

United States , Jake Bailey , Dalton Leprich , Environmental Sciences , International Society For Microbial Ecology , University Of Minnesota , University Of Minnesota Department Earth , Multidisciplinary Journal , Microbial Ecology , International Society , Minnesota Department , ஒன்றுபட்டது மாநிலங்களில் , ஜேக் பெய்லி , சுற்றுச்சூழல் அறிவியல் , சர்வதேச சமூகம் க்கு நுண்ணுயிர் சூழலியல் , பல்கலைக்கழகம் ஆஃப் மினசோட்டா , பலதரப்பட்ட இதழ் , நுண்ணுயிர் சூழலியல் , சர்வதேச சமூகம் , மினசோட்டா துறை ,

Deep-Sea Bacteria Release Excess Carbon into the Ocean and Atmosphere

Deep-Sea Bacteria Release Excess Carbon into the Ocean and Atmosphere
Written by AZoCleantechApr 13 2021
A team of researchers from the University of Minnesota has found that deep-sea bacteria dissolve carbon-containing rocks and discharge surplus carbon into the air and ocean.
CSE researchers collected samples of carbonate rocks from the Del Mar East methane seep using a submersible watercraft. They discovered that deep-sea bacteria are dissolving these rocks, releasing excess carbon into the ocean and atmosphere. Image Credit: Leprich, et al., Bailey Geobiology Research Group, University of Minnesota.
The study results will enable researchers to better evaluate the amount of carbon dioxide in Earth’s atmosphere, which is a principal driver of global warming. ....

Peter Schroedl , Jake Bailey , Dalton Leprich , Elizabeth Ricci , Jeffery Marlow , Environmental Sciences , Department Of Earth , Bailey Geobiology Research Group , Boston University , National Science Foundation , International Society For Microbial Ecology , University Of Minnesota , University Of Minnesota Department Earth , Harvard University Professor Peter Girguis , Del Mar East , Multidisciplinary Journal , Microbial Ecology , International Society , Study First Author , Phd Student , Study Corresponding Author , Associate Professor , Beverly Flood , Assistant Professor Jeffery Marlow , Harvard University Professor Peter , ஜேக் பெய்லி ,

Environmental News Network - Ocean Bacteria Release Carbon Into the Atmosphere

Ocean Bacteria Release Carbon Into the Atmosphere
Details
Share This
A team led by University of Minnesota researchers has discovered that deep-sea bacteria dissolve carbon-containing rocks, releasing excess carbon into the ocean and atmosphere.
A team led by University of Minnesota researchers has discovered that deep-sea bacteria dissolve carbon-containing rocks, releasing excess carbon into the ocean and atmosphere. The findings will allow scientists to better estimate the amount of carbon dioxide in Earth’s atmosphere, a main driver of global warming.
The study is published in The ISME Journal: Multidisciplinary Journal of Microbial Ecology, a peer-reviewed scientific journal that is part of the Nature family of publications and the official journal of the International Society for Microbial Ecology (ISME). ....

Dalton Leprich , Environmental Sciences , International Society For Microbial Ecology , Bailey Geobiology Research Group , University Of Minnesota , University Of Minnesota Department Earth , Multidisciplinary Journal , Microbial Ecology , International Society , சுற்றுச்சூழல் அறிவியல் , சர்வதேச சமூகம் க்கு நுண்ணுயிர் சூழலியல் , பல்கலைக்கழகம் ஆஃப் மினசோட்டா , பலதரப்பட்ட இதழ் , நுண்ணுயிர் சூழலியல் , சர்வதேச சமூகம் ,