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  • Precious coral or red coral (Corallium rubrum)is a species of marine coral. The distinguishing characteristic of precious coral is the durable and intensely colored red or pink skeleton, which is used for making jewelry.  Red corals grow on rocky seabottoms in dark environments—either in the depths or in dark caverns or crevices. The original species, C. rubrum  formerly Gorgonia nobilis. It grows at depths from 10 to 300 meters below sea level.
    red-coral_0051.jpg
  • Precious coral or red coral (Corallium rubrum)is a species of marine coral. The distinguishing characteristic of precious coral is the durable and intensely colored red or pink skeleton, which is used for making jewelry.  Red corals grow on rocky seabottoms in dark environments—either in the depths or in dark caverns or crevices. The original species, C. rubrum  formerly Gorgonia nobilis. It grows at depths from 10 to 300 meters below sea level.
    red-coral_0050.jpg
  • Precious coral or red coral (Corallium rubrum)is a species of marine coral. The distinguishing characteristic of precious coral is the durable and intensely colored red or pink skeleton, which is used for making jewelry.  Red corals grow on rocky seabottoms in dark environments—either in the depths or in dark caverns or crevices. The original species, C. rubrum  formerly Gorgonia nobilis. It grows at depths from 10 to 300 meters below sea level.
    red-coral_0056.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad008comboA.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is130 um.
    180724Rad011comboA.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad013comboA.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad026comboA.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 120 um.
    K19SEMradio180724Rad024comboINV.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is109 um.
    180724Rad006comboB.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad008comboC.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is130 um.
    180724Rad011comboC.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad013comboC.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad018comboB.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad018comboC.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad026comboB.jpg
  • Baculites ("walking stick rock") is a genus of extinct marine animals in the phylum Mollusca and class Cephalopoda. They are a straight-shelled type of  ammonite that lived worldwide in the Late Cretaceous period.   Baculites grew up to two meters long and have long been thought to have lived in a vertical orientation with the head hanging straight down.   This specimen is from South Dakota.
    K08Baculite0024.jpg
  • X-ray of a lobster claws. The lobster is a marine crustacean of the order Decapoda, and is related to shrimps and crabs.
    K08Xlobclaws01C.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is109 um.
    180724Rad006comboA.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is130 um.
    180724Rad011comboD.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad018comboA.jpg
  • Baculites ("walking stick rock") is a genus of extinct marine animals in the phylum Mollusca and class Cephalopoda. They are a straight-shelled type of  ammonite that lived worldwide in the Late Cretaceous period.   Baculites grew up to two meters long and have long been thought to have lived in a vertical orientation with the head hanging straight down.   This specimen is from South Dakota.
    K08Baculite0023.jpg
  • Baculites ("walking stick rock") is a genus of extinct marine animals in the phylum Mollusca and class Cephalopoda. They are a straight-shelled type of  ammonite that lived worldwide in the Late Cretaceous period.   Baculites grew up to two meters long and have long been thought to have lived in a vertical orientation with the head hanging straight down.   This specimen is from South Dakota.
    K08Baculite0012.jpg
  • X-ray of a lobster claws. The lobster is a marine crustacean of the order Decapoda, and is related to shrimps and crabs.
    K08Xlobclaws01D.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad008comboB.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad008comboD.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad013comboB.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 95 um.
    180724Rad013comboD.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is130 um.
    180724Rad011comboB.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 168 um.
    180724Rad020comboBINV2.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 120 um.
    K19SEMradio180724Rad024combo.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is 168 um.
    180724Rad020comboB.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is168 um.
    180724Rad020combo.jpg
  • False color scanning electron micrograph of the internal siliceous skeleton of Radiolaria sp. Radiolaria are amoeboid protozoa. Around the skeleton, in a living organism, is an external layer of protoplasm from which radiate numerous pseudopodia, or false feet. Radiolaria are usually marine and planktonic. This specimen was collected in the Mediterranean ocean off the cost of Sicily Italy.Field of view is168 um.
    180724Rad020comboBINV.jpg
  • An X-Ray of a fighting conch (Strombus alatus) shell  collected in Florida.
    x07-Fighting-Conch1neg.jpg
  • An X-ray of a Porcupine Puffer (Diodon Holacanthus) inflated for defense.
    pufferfishFC.jpg
  • X-ray of an American Lobster (Homarus americanus)
    K15Xfull-lobster004.jpg
  • X-ray of a Smooth Butterfly Ray (Gymnura micrura).Common English names for this species include: lesser butterfly ray, diamond skate, butterfly ray, short-tailed lesser butterfly ray, and skeete.  The smooth butterfly ray is found in the western and eastern Atlantic Ocean and in the Gulf of Mexico. In the western Atlantic it occurs from Maryland to Brazil. It occurs in the Gulf of Mexico and northern South America to Brazil. It also occurs in the eastern Atlantic off the coasts of Senegal, Gambia, Sierra Leone, Cameroon and Democratic Republic of the Congo.
    K15X-butterflyray-blue.jpg
  • X-ray of a starfish.
    K12X-sea-starsJC-010.jpg
  • X-ray of a starfish.
    K12X-sea-starsJ2-A.jpg
  • X-ray of a Deep Water Crab
    K12X-deep-crab001A2.jpg
  • X-ray of a large pink murex (Murex brassica) shell.
    x07-thick-shell1neg.jpg
  • X-ray of a Chambered Nautilus (Nautilus pompilius) shell.
    x07-nautalus1lvneg.jpg
  • X-ray of an American Lobster (Homarus americanus)
    K15X-HE-full-lobster-2015C.jpg
  • X-ray of a starfish.
    K12X-sea-starsJD-001.jpg
  • X-ray of a Deep Water Crab
    K12X-deep-crab005C.jpg
  • X-ray of a Deep Water Crab
    K12X-deep-crab004A.jpg
  • X-ray of an American Lobster (Homarus americanus)
    K15X-HE-full-lobster-2015.jpg
  • X-ray of an American Lobster (Homarus americanus)
    K15Xfull-lobster005.jpg
  • X-ray of an American Lobster (Homarus americanus)
    K15Xfull-lobster002.jpg
  • X-ray of a Smooth Butterfly Ray (Gymnura micrura).Common English names for this species include: lesser butterfly ray, diamond skate, butterfly ray, short-tailed lesser butterfly ray, and skeete.  The smooth butterfly ray is found in the western and eastern Atlantic Ocean and in the Gulf of Mexico. In the western Atlantic it occurs from Maryland to Brazil. It occurs in the Gulf of Mexico and northern South America to Brazil. It also occurs in the eastern Atlantic off the coasts of Senegal, Gambia, Sierra Leone, Cameroon and Democratic Republic of the Congo.
    K15X-butterflyray-whiteBW.jpg
  • X-ray of a starfish.
    K12X-sea-starsJD-001B.jpg
  • X-ray of a starfish.
    K12X-sea-starsJD-001A.jpg
  • X-ray of a starfish.
    K12X-sea-starsJ004.jpg
  • X-ray of a starfish.
    K12X-sea-starsJ002.jpg
  • X-ray and optical image of a Deep Water Crab.  The left side of the image is an X-ray, while the right side is a visible light photograph.
    K12X-deep-crab-half-half005A.jpg
  • X-ray of a Deep Water Crab
    K12X-deep-crab005B.jpg
  • X-ray of a Deep Water Crab
    K12X-deep-crab005A.jpg
  • X-ray of a Deep Water Crab
    K12X-deep-crab004B.jpg
  • X-ray of a Deep Water Crab
    K12X-deep-crab001A3.jpg
  • X-ray of an American Lobster (Homarus americanus)
    K15Xfull-lobster003.jpg
  • X-ray of a Smooth Butterfly Ray (Gymnura micrura).Common English names for this species include: lesser butterfly ray, diamond skate, butterfly ray, short-tailed lesser butterfly ray, and skeete.  The smooth butterfly ray is found in the western and eastern Atlantic Ocean and in the Gulf of Mexico. In the western Atlantic it occurs from Maryland to Brazil. It occurs in the Gulf of Mexico and northern South America to Brazil. It also occurs in the eastern Atlantic off the coasts of Senegal, Gambia, Sierra Leone, Cameroon and Democratic Republic of the Congo.
    K15X-butterflyray-whiteBW2.jpg
  • X-ray of a starfish.
    K12X-sea-starsJC-010B.jpg
  • X-ray of a starfish.
    K12X-sea-starsJ001.jpg
  • X-ray of a Deep Water Crab
    K12X-deep-crab001A.jpg
  • X-ray of a large pink murex (Murex brassica) shell.
    x07-thick-shell1blue.jpg
  • X-ray of a Chambered Nautilus (Nautilus pompilius) shell.
    x07-nautalus2.jpg
  • X-ray of an American Lobster (Homarus americanus)
    K15X-HE-full-lobster-2015B.jpg
  • X-ray of a Smooth Butterfly Ray (Gymnura micrura).Common English names for this species include: lesser butterfly ray, diamond skate, butterfly ray, short-tailed lesser butterfly ray, and skeete.  The smooth butterfly ray is found in the western and eastern Atlantic Ocean and in the Gulf of Mexico. In the western Atlantic it occurs from Maryland to Brazil. It occurs in the Gulf of Mexico and northern South America to Brazil. It also occurs in the eastern Atlantic off the coasts of Senegal, Gambia, Sierra Leone, Cameroon and Democratic Republic of the Congo.
    K15X-butterflyray-white.jpg
  • X-ray of a starfish.
    K12X-sea-stars-large015.jpg
  • X-ray of a Chambered Nautilus (Nautilus pompilius) shell.
    x07-nautalus2negFC.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818-30C.jpg
  • An x-ray of unidentified seaweed with false color.  This specimen was collected on the North Shore of Puerto Rico in the summer f 2015.
    K15Xseaweed10.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed22C.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed6D.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed20.jpg
  • An x-ray of sargassum seaweed (Sargassum fluitans) with false color.
    15X-sargasso-001B.jpg
  • Fluorescent Coral in Long Wave UV light. A close up image of Favia sp. Coral. This species of coral glows brightly when illuminated in long wave ultra-violet (UV) light.  Favia is a genus of reef building stony corals in the family Faviidae.  This image is part of a series showing the identical specimen in white light and UV light.
    K12UVcorals042.JPG
  • An image of Cycloseris erosa coral in Short wave UV Light showing green Fluorescence.  This species of coral will glow brightly when illuminated in ultra-violet(UV) light.  Corals in the genus Cycloseris are mostly solitary and free living, some attaining 10 centimetres in diameter. The discs are either round or oval and the central mouth, which is surrounded by tentacles, may be a slit. The polyp sits in a calcareous cup, the corallite, and only extends its tentacles to feed at night. It is thought the glow may attract symbiotic algae, or protect the coral from the intense ultraviolet light of the Sun in shallow water. This image is part of a series showing the identical specimen in white light and UV light.
    K12UVcorals033.JPG
  • An image of Pectinia species coral in Long wave UV Light showing green Fluorescence.  This species of coral will glow brightly when illuminated in ultra-violet(UV) light.  Each head of coral is formed by a colony of genetically identical polyps which secrete a hard skeleton of calcium carbonate; this makes them important coral reef builders. It is thought the glow may attract symbiotic algae, or protect the coral from the intense ultraviolet light of the Sun in shallow water. This image is part of a series showing the identical specimen in white light and UV light.
    K12UVcorals012.JPG
  • An image of Acanthastrea lordhowensis coral in Long wave UV Light showing orange Fluorescence.  This species of coral will glow brightly when illuminated in ultra-violet(UV) light.  Each head of coral is formed by a colony of genetically identical polyps which secrete a hard skeleton of calcium carbonate; this makes them important coral reef builders. It is thought the glow may attract symbiotic algae, or protect the coral from the intense ultraviolet light of the Sun in shallow water. This image is part of a series showing the identical specimen in white light and UV light..
    K12UVcorals007.JPG
  • X-Ray of a naso tang (Naso lituratus).
    x07-fish-naso-tangBL.jpg
  • An X-ray of a Purple sea urchin.
    sea-Urchinblue.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed81803-26A.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818CYAN.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818-20C.jpg
  • An x-ray of sargassum seaweed (Sargassum fluitans) with false color.
    K15Xseaweed3B.jpg
  • Fluorescent Coral in Short Wave UV light. A close up image of Favia sp. Coral. This species of coral glows brightly when illuminated in short wave ultra-violet (UV) light.  Favia is a genus of reef building stony corals in the family Faviidae.  This image is part of a series showing the identical specimen in white light and UV light.
    K12UVcorals043.JPG
  • An image of Cycloseris erosa coral in Long wave UV Light showing green Fluorescence.  This species of coral will glow brightly when illuminated in ultra-violet(UV) light.  Corals in the genus Cycloseris are mostly solitary and free living, some attaining 10 centimetres in diameter. The discs are either round or oval and the central mouth, which is surrounded by tentacles, may be a slit. The polyp sits in a calcareous cup, the corallite, and only extends its tentacles to feed at night. It is thought the glow may attract symbiotic algae, or protect the coral from the intense ultraviolet light of the Sun in shallow water. This image is part of a series showing the identical specimen in white light and UV light.
    K12UVcorals036.JPG
  • An image of Acanthastrea lordhowensis coral in white light.  This species of coral will glow brightly when illuminated in ultra-violet(UV) light.  Each head of coral is formed by a colony of genetically identical polyps which secrete a hard skeleton of calcium carbonate; this makes them important coral reef builders. It is thought the glow may attract symbiotic algae, or protect the coral from the intense ultraviolet light of the Sun in shallow water. This image is part of a series showing the identical specimen in white light and UV light.
    K12UVcorals008.JPG
  • An image of Favites pentagona coral in Long wave UV Light showing green and orange Fluorescence.  This species of coral will glow brightly when illuminated in ultra-violet(UV) light.  Each head of coral is formed by a colony of genetically identical polyps which secrete a hard skeleton of calcium carbonate; this makes them important coral reef builders. It is thought the glow may attract symbiotic algae, or protect the coral from the intense ultraviolet light of the Sun in shallow water. This image is part of a series showing the identical specimen in white light and UV light.
    K12UVcorals006.JPG
  • Fluorescent Coral in White Light. An image of Pectinia species coral in white light. This species of coral will grow brightly when illuminated in ultra-violet(UV) light.  Each head of coral is formed by a colony of genetically identical polyps which secrete a hard skeleton of calcium carbonate; this makes them important coral reef builders. This image is part of a series showing the identical specimen in white light and UV light..
    K12UVcorals001.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed81803-26CYAN.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed81803-26C.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818B.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818-30A.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818-20D.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818-20B.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818-20A.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818-04CYAN.jpg
  • An x-ray of X-ray of Rockweed Seaweed (Ascophyllum nodosum) with false color.  This specimen was collected on the shores of Block Island, Rhode Island in May of 2015.  Ascophyllum nodosum is a large, common brown alga (Phaeophyceae) in the family Fucaceae, being the only species in the genus Ascophyllum. It is seaweed of the northern Atlantic Ocean, also known as rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack. It is common on the north-western coast of Europe and the north-eastern coast of North America.
    K15XRIseaweed818-04A.jpg
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Ted Kinsman

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