chemosynthetic's examples

  • DEEP BACKGROUND: The chemosynthetic 'seep communities' of the Gulf of Mexico In all cases, chemosynthetic forms were shown to harbor huge numbers of bacteria in their bodies and to possess various anatomical and. — “DEEP BACKGROUND: The chemosynthetic 'seep communities' of the”,
  • Chemosynthetic microbes provide the foundation for biological Chemosynthetic microbes live on or below the seafloor, and even within the bodies of. — “Chemosynthesis”,
  • chemosynthetic. Definition from Wiktionary, the free dictionary. Jump to: navigation, search chemosynthetic (comparative more chemosynthetic, superlative most chemosynthetic). — “chemosynthetic - Wiktionary”,
  • Such an environment is referred to as a chemosynthetic ecosystem. A special characteristic of a chemosynthetic ecosystem is its large biomass, despite its location in the deep sea. — “The basics of a chemosynthetic ecosystem”,
  • Many chemosynthetic microorganisms are consumed by other organisms in the ocean, and symbiotic associations between chemosynthesizers and respiring Large populations of animals can be supported by chemosynthetic primary production at hydrothermal vents, methane clathrates, cold seeps, and. — “Chemosynthesis - Wikipedia, the free encyclopedia”,
  • Comparative genomics of vesicomyid clam (Bivalvia: Mollusca) chemosynthetic symbionts it is the closest sequenced relative of the chemosynthetic symbionts and provides us with some perspective as. — “BioMed Central | Full text | Comparative Genomics of”,
  • The setae, or bristles, are full of chemosynthetic bacteria, which may possibly be a source of food for the They support chemosynthetic communities based on bacterial food production much like the. — “Biosphere as Place-Ocean: Benthic Biomes Two”, morning-
  • Chemosynthetic autotrophs are a necessary part of the nitrogen cycle. Many chemosynthetic microorganisms are consumed by other organisms in the ocean, and symbiotic associations. — “chemosynthesis: Definition from ”,
  • Difficulties With the Chemosynthetic Theory. Like all theories, the chemosynthetic theory of the origin of life is a speculative explanation based upon thought and As with any theory about the origin of life, the chemosynthetic theory is basically impossible to conclusively prove. — “Astrobiology: The Living Universe - Chemosynthetic Theory”,
  • (1) ChEssBase: Geo- and bio-referenced relational online database (available on the ChEss website and integrated with OBIS) for all species from deep water chemosynthetic ecosystems. The InterRidge Biological Database has been merged with ChEssBase. — “Biogeography of Deep-Water Chemosynthetic Ecosystems (ChEss”,
  • Chemosynthetic bacteria definition, bacteria that synthesize organic compounds, using energy derived from the oxidation of organic or inorganic materials without the aid of lig See more. — “Chemosynthetic bacteria | Define Chemosynthetic bacteria at”,
  • Definition of chemosynthetic in the Online Dictionary. Meaning of chemosynthetic. Pronunciation of chemosynthetic. Translations of chemosynthetic. chemosynthetic synonyms, chemosynthetic antonyms. Information about chemosynthetic in the free. — “chemosynthetic - definition of chemosynthetic by the Free”,
  • Welcome to Deep-water chemosynthetic species (CoML ChEss Project) This shall be the future home of Deep-water chemosynthetic species (CoML ChEss Project) where participants will edit and maintain their classification, upload images, maintain bibliographic resources, among other activities. — “Deep-water chemosynthetic species (CoML ChEss Project)”,
  • Definition of chemosynthetic from Webster's New World College Dictionary. Meaning of chemosynthetic. Pronunciation of chemosynthetic. Definition of the word chemosynthetic. Origin of the word chemosynthetic. — “chemosynthetic - Definition of chemosynthetic at”,
  • Chemosynthetic communities are remarkable in that they use a carbon source independent of In addition to the different biochemical strategies and other unique requirements chemosynthetic. — “A Teacher's Companion!”,
  • Do Larval Supply and Recruitment Vary among Chemosynthetic Environments of the Deep Sea? Across different chemosynthetic habitats, recruitment rate of bivalves is much more variable than that of gastropods and polychaetes. — “PLoS ONE: Do Larval Supply and Recruitment Vary among”,
  • chemosynthetic organisms from deep-sea environments are bacteria or. Archaea, and these microbes often are the basis of complex food webs. If students are not familiar with the concept of electron transport. chains, you may want to show the animation:. — “The Chemosynthetic Cafe”,
  • Chemosynthetic endosymbioses occur ubiquitously at. oxic–anoxic interfaces in marine environments. In these as deep-sea hydrothermal vents, chemosynthetic sym- bioses dominate the biomass, contributing substantially. — “Chemosynthetic endosymbioses: adaptations to oxic–anoxic”,
  • Conservation of Deep-Sea Chemosynthetic Ecosystems | Hydorthermal Vents and Cold Seeps These chemosynthetic systems differ fundamentally from other deep-sea ecosystems, such as abyssal nodule fields and seamounts, for which spatially based environmental protection strategies have been formulated. — “Conservation of Deep-Sea Chemosynthetic Ecosystems”,
  • Chemosynthetic communities. Chemosynthetic communities are associated with cold seeps. Chemosynthetic communities in the northern part of Gulf Of Mexico around cold seeps known. — “Cold seep”,
  • Encyclopedia article about chemosynthetic. Information about chemosynthetic in the Columbia Encyclopedia, Computer Desktop Encyclopedia, computing dictionary. — “chemosynthetic definition of chemosynthetic in the Free”, encyclopedia2
  • Chemosynthetic: Photosynthesis resources and information at . — “Chemosynthetic”,

related videos for chemosynthetic

  • Can biological communities be effected when you exploit gas hydrates? Tina Treude, Biological Oceanographer from IFM-GEOMAR providing insights on methane gas hydrates as part of the UNEP Global Outlook on Methane Gas Hydrates project.
  • Vailulu'u 2005: Nafanua Submarine Volcano "Eel City" The Crevices at 708 meters (2323 feet) of a hydrothermal vent site are occupied by thriving aggregations of cutthroat (synaphobranchid) eels. These eels, which have now been identified as Dysommina rugosa, are known from trawl samples in both the Atlantic and Pacific oceans, but have never before been studied in their natural habitat. The only common metazoan (multicellular) animals occupying these low-temperature hydrothermal vents, preliminary work indicates that they use the vent only as a place to live. They seem to feed not on chemosynthetic bacteria, but on crustaceans that pass by Nafanua's summit in the currents. Video courtesy of of UCSD/Scripps, Univ. of Oregon, WHOI, NOAA-HURL, NOAA-OE. Please visit source:
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  • WWW.GOODNEWS.WS Census of Marine Life Explorers report deep sea teeming with species that have never known light; Describing all new species in a cup of deep seafloor mud a daunting challenge; Discovered jumbo Dumbo octopod and its new-to-science cousin; Historic 1st global ocean Census: Oct. 2010. Census of Marine Life scientists have inventoried an astonishing abundance, diversity and distribution of deep sea species that have never known sunlight creatures that somehow manage a living in a frigid black world down to 5000 meters (three miles) below the ocean waves. Revealed via deep-towed cameras, sonar and other vanguard technologies, animals known to thrive in an eternal watery darkness now number 17650, a diverse collection of species ranging from crabs to shrimp to worms. Most have adapted to diets based on meager droppings from the sunlit layer above, others to diets of bacteria that break down oil, sulfur and methane, the sunken bones of dead whales and other implausible foods. Five of the Census 14 field projects plumb the ocean beyond light, each dedicated to the study of life in progressively deeper realms from the continental margins (project COMARGE: Continental Margins Ecosystems) to the spine-like ridge running down the mid-Atlantic (MAR-ECO: Mid-Atlantic Ridge Ecosystem Project), the submerged mountains rising from the seafloor (CenSeam: Global Census of Marine Life on Seamounts), the muddy floor of ocean plains (CeDAMar: Census of Diversity of Abyssal Marine Life), and the vents ...
  • Using technology to help explore the hydrothermal vents in the deep sea
  • Ice Oceans of Europa Europa is commonly believed to be Jupiter's second moon but actually, it is the sixth. It is the second Galilean moon (ie discovered by Galileo), but there are four smaller inner moons and one Galilean moon, Io (pronounced --eye-oh-), that precede it. Because Europa's orbit is not perfectly circular, it is subject to flexing forces from the giant energy sink, Jupiter. To a much smaller extent, it is also subject to resonance flexing from other Jovian moons. This kneads Europa's interior and generates enormous amounts of heat energy. A more visible example of this is the Jovian moon Io which is a seething cauldron of volcanic activity due to its much closer proximity to Jupiter. Additionally, Europa has a network of surface features, which clearly demonstrate cracking of the surface ice and upwelling of liquid water. Many such features have similar counterparts on our own planet. The overwhelming consensus, therefore, is that Europa has a global ocean beneath the ice. Scientific opinion differs (with good reasons on all sides) as to how thick the surfacial ice crust is before liquid water is encountered. The different models for the estimation of the ice shell thickness give values between a few kilometers and tens of kilometers. This leads to a volume of Europa's oceans of slightly more than two times the volume of Earth's oceans. This seems incredible since Europa is of a size comparable to our own moon. The reason it is possible, however, is due to the ...
  • Will Alexander reads at Skylight Books, 10-11-09 From "The Bedouin Ark" (Published in THE SRI LANKAN LOXODROME, 2009) Repetition as de-existence as condoned & re-spun vapour which continues to post-exist as mirages across an ark as lucid underwater scent an ark with its compression of oars with its one simultaneous ascent over & above the simultaneous movement its obliterated form where the body of the captain reappears & disappears eruptive with schisms & salts eruptive with cobias blanquillos & starfish extrinsic & solstitial to any fore-warned destination to any leprosy or rupture or fragment an ark at the same time betrayed & withdrawn through an index of phantoms like a squall beneath a stunning alabaster tide invigoured by pre-existing persons within its hull spawned by a runic simoom calendric by "fields of gnarled lava" predacious orange-brown spider crabs feeding in diametrical coldness the ark now again visible to itself amidst volcanic flamelets fanning anonymous blades of crushing underwater jade the wind around its hull a void of pusillanimous optometry a shell of scorched bottoms a mechanics exponentially concussive like a solitary benzene or an earthquake phylum or a riddled scorpion typhoon because this ark captained by scaleless ghosts scripting their foundations from methane from a sound with a stinging pottery of nerves like murmurs from a hatchet well scribbling maps inducing subtractive protein on chemosynthetic shock waves of vertigo so in the depths a bioluminescence a void a glassy conduit of ore ...
  • Evolution Deep Sea Vents and Life's Origins Bacteria found deep in the ocean in the volcanic regions of mid-ocean ridges suggest a possible scenario for the beginning of life on earth. Ocean water seeps into cracks created by sea-floor spreading at the mid-ocean ridges and is heated by magma from inside the earth. Water in these hydrothermal vents reaches temperatures of 375 degrees C and higher and is rich in dissolved minerals. The hot water rises from the vents in geysers and meets cold ocean water, causing minerals to precipitate out of solution as the water cools. In some places compounds of iron and sulfides form "chimneys" on top of the vents. Such an extreme environment seemed unlikely to support life given the conditions of temperature, pressure, and absence of light for photosynthesis.
  • Tevnia, EPR Clusters of Tevnia jerichonana. Hydrothermal vents at East Pacific Rise (EPR)
  • Lec 17 | MIT 7.014 Introductory Biology, Spring 2005 Carbon and Energy Metabolism (Prof. Penny Chisholm) View the complete course: License: Creative Commons BY-NC-SA More information at More courses at
  • Methane Mussels & Beneath the Gulf of Mexico is an ancient ocean basin full of salt domes and fractures in the earth's crust at over 2132 ft in water depth. Salty brines and methane bubble up to the sea floor and marine life abounds in unusual chemosynthetic communities. In this video, hagfish and eels attack a methane mussel; in turn, the eels and the hagfish fight over their prey at this brine pool site surrounded by mussel beds. The eel, unfortunately, gets covered in hagfish mucus and appears to suffocate. This video was taken under the auspices of the Shelf-and-Slope Taphonomic Initiative (NOAA, NSF Earth Science, NURP); Craig Caddigan, Senior Submersible Pilot, Johnson-Sea-Link Submersibles, Harbor Branch Oceanographic took the video; Dr. Karla Parsons-Hubbard, Oberlin College, Chief Scientist, edited the video; Dr. Sally E. Walker, University of Georgia, added text and edited the vid for QuickTime/YouTube.
  • Lophelia II 2009: DeSoto Canyon 453 $ Scientists peer through the lens of the Jason II remotely operated vehicle at 2500 meter depth near the DeSoto Canyon. Submarine canyons are steep-sided features that cut through the continental slope. At this site, an exposed rock bed juts from the abyssal plain, providing substrate for bamboo and black corals, a chemosynthetic mussel community, and a deep-sea octopus. This was the deepest dive of Lophelia II 2009 at 2500 m (8200 ft) depth. Video courtesy Lophelia II 2009: Reefs, Rigs, and Wrecks Expedition, sponsored by Minerals Management Service and NOAA's Office of Ocean Exploration and Research. Music is "Winter Reflections" by Kevin MacLeod,
  • earth_sand: RT @MBARI_News: How #Deep-Sea Wood Falls Sustain #Chemosynthetic Life @PLOSONE
  • Abe_ntc: RT @MBARI_News: How #Deep-Sea Wood Falls Sustain #Chemosynthetic Life @PLOSONE
  • RosieeJohnsonn: @c_buckley150 about nitrogen-fixing bacteria and chemosynthetic bacteria but I've worked it out hahaha
  • WordCraftWriter: RT @MBARI_News: How #DeepSea Wood Falls Sustain #Chemosynthetic Life @PLOSONE #ocean
  • MBARI_News: How #Deep-Sea Wood Falls Sustain #Chemosynthetic Life @PLOSONE
  • jujulevine: kalau chemosynthetic guna chemical reaction ahhh nama pun chemosynthetic
  • jujulevine: ada two types : 1) photosyhnthetic 2) chemosynthetic
  • Madgico: RT @expeditionlog: Nice paper in @PLOSONE reporting experimental work on how deep-sea wood falls sustain chemosynthetic life -
  • massibot: RT @expeditionlog: Nice paper in @PLOSONE reporting experimental work on how deep-sea wood falls sustain chemosynthetic life -
  • PLOSONE: RT @expeditionlog: Nice paper in @PLOSONE reporting experimental work on how deep-sea wood falls sustain chemosynthetic life -
  • expeditionlog: Nice paper in @PLOSONE reporting experimental work on how deep-sea wood falls sustain chemosynthetic life -
  • DrJCThrash: #PLOSONE: How Deep-Sea Wood Falls Sustain Chemosynthetic Life
  • cubismwonder: PLOS ONE: How Deep-Sea Wood Falls Sustain Chemosynthetic Life
  • mikedelic: @exiledsurfer yah there are all teh things like that. chemosynthetic based food chains pretty cool stuff imo

Blogs & Forum
blogs and forums about chemosynthetic

  • “Blog pick of the month is changing hands. New CoML Collection and Taxonomy within Deep-sea Chemosynthetic Environments. Tags #oilspill article-level metrics bacteria Blog Pick of the Month Blogs bluefin”
    — EveryONE " Blog Pick of the Month – September 2009,

  • “The Reef Tank - Community of reef and salt water aquarists Deep Sea News is the most trafficked marine science blog out there by several measures and is respected by our colleagues”
    — Deep Sea Adventures,

  • “Netlog is a youth community where users can keep in touch with and extend their social network. On Netlog, you can create your own web page with a blog, upload pictures, watch videos, find events and play games”
    — 'Aquatic ecosystem', kyawzinlatt2's blog message on Netlog,

  • “Archives of animal science blog - From These animal communities are unique because they only exist near these seeps, and because the bacteria at the base of the food chain are "chemosynthetic," or grow without sunlight”
    — Archives of animal science blog, biology-

  • “A continuously growing collection of photos,,, photography about weather, travel, nature and concerts a never ending stream of images reefs; and hydrothermal vents (where chemosynthetic sulfur bacteria form the food base)”
    — | float,

  • “Census of Marine Life scientists have inventoried an astonishing abundance, diversity and distribution of deep sea species that have never known sunlight -- creatures that somehow manage a living in a frigid black world down to 5,000 meters (~3”
    — Strange Creatures in the Deep,

  • “Chemosynthetic phosphorylation is apparently phosphorylation due to utilize of some unusuall chemicals as hydrogen etc. Users browsing this forum: No registered users and 0 guests”
    — Types of phosphorylation ? - Biology-Online, biology-

  • “Creative conservative minds producing political satire. Cold Seeps and Chemosynthetic Communities. 42,336,000 gallons of crude oil naturally leak into the Gulf of Mexico EVERY year”
    — " Blog Archive " Government Report Says Much,

  • “Chemosynthetic Critter. No replies. April 22, 2008 - 5:37pm. Maggie With the big algae bloom happening and then burning itself out in such a short period of”
    Chemosynthetic Critter | PolarTREC,

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