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Close-up of the larva (tadpole) of a glass frog hatching from its egg, 19 days after it was laid.
Glass frogs lay their eggs on leaves overhanging water, into which the newly-hatched tadpoles fall. They are named for their translucent skin, through which internal organs can be seen. Glass frogs inhabit moist tropical forests in...
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Spawn of a glass frog (family Centrolenidae) stuck to a leaf surface. Glass frogs inhabit cloud forests and rainforests in Central and northern South America.
They stick their eggs to a leaf above running water, so that the tadpoles fall into the water after they emerge from their eggs. Glass frogs are known for their translucent skin, through which internal organs are visible. Filmed in the...
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Soft coral (Xenia macrospiculata). This fast colonizing species covers dead coral and reduces the recruitment of hard coral species. Filmed in the Red Sea
Soft coral (Xenia macrospiculata). This fast colonizing species covers dead coral and reduces the recruitment of hard coral species. Filmed in the Red Sea
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Close-up of a glass frog larva (tadpole) developing in its egg, twelve days after being laid.
The glass frog is so named due to its translucent skin, through which internal organs can be seen. Glass frogs lay their eggs on leaves overhanging water, so that when the tadpoles hatch they fall into it. They inhabit moist tropical...
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Mating glass frogs (family Centrolenidae) in the characteristic amplexus position, with the male grasping the female from behind.
Glass frogs are named for their translucent skin, which allows internal structures to be seen. The female's yellow eggs are prominent here. Glass frogs live in the moist tropical forests of Central and northern South America. Filmed in...
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Two micro organisms - zoom in
Two micro organisms - zoom in (microscopic view, magnification 200X)
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Soft coral (Xenia macrospiculata). This fast colonizing species covers dead coral and reduces the recruitment of hard coral species. Filmed in the Red Sea
Soft coral (Xenia macrospiculata). This fast colonizing species covers dead coral and reduces the recruitment of hard coral species. Filmed in the Red Sea
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Mating glass frogs (family Centrolenidae) in the characteristic amplexus position, with the male grasping the female from behind.
Glass frogs are named for their translucent skin, which allows internal structures to be seen. Glass frogs live in the moist tropical forests of Central and northern South America. Filmed in the Ecuadorian Amazon rainforest
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Mating glass frogs (family Centrolenidae) in the characteristic amplexus position, with the male grasping the female from behind.
Glass frogs are named for their translucent skin, which allows internal structures to be seen. Glass frogs live in the moist tropical forests of Central and northern South America. Filmed in the Ecuadorian Amazon rainforest
Getty Images
Mating glass frogs (family Centrolenidae) in the characteristic amplexus position, with the male grasping the female from behind.
Glass frogs are named for their translucent skin, which allows internal structures to be seen. Glass frogs live in the moist tropical forests of Central and northern South America. Filmed in the Ecuadorian Amazon rainforest
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Microscopic view of Flagellates and Euglena sp.(Euglena is classed as both an animal and an alga due to is ability to both move and photosynthesise) Differential Interference Contrast
Microscopic view of Flagellates and Euglena sp.(Euglena is classed as both an animal and an alga due to is ability to both move and photosynthesise) Differential Interference Contrast
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A 3D animation depicts the muscular, skeletal and nervous systems of dinosaurs.
A 3D animation depicts the muscular, skeletal and nervous systems of dinosaurs.
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A 3D animation depicts a dinosaur's sense of smell.
A 3D animation depicts a dinosaur's sense of smell.
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A vampire bat backs away from a beam of light in a cave.
A vampire bat backs away from a beam of light in a cave.
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Caenorhabditis elegans wild type feeding on bacteria (E.coli OP50). Olympus BH-2 microscope, 60x S-Plan Apochromat objective, NFK .67 photoeyepiece, Differential Interference Contrast, horizontal field of view 200 microns.
Caenorhabditis elegans wild type feeding on bacteria (E.coli OP50). Olympus BH-2 microscope, 60x S-Plan Apochromat objective, NFK .67 photoeyepiece, Differential Interference Contrast, horizontal field of view 200 microns.
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Caenorhabditis elegans eggs at different stages of development. Olympus BH-2 microscope, 60x S-Plan Apochromat objective, NFK 3.3 photoeyepiece, Differential Interference Contrast, horizontal field of view 90 microns. Time Lapse: 1 frame/second
Caenorhabditis elegans eggs at different stages of development. Olympus BH-2 microscope, 60x S-Plan Apochromat objective, NFK 3.3 photoeyepiece, Differential Interference Contrast, horizontal field of view 90 microns. Time Lapse: 1...
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Groupe of Paramecium Caudatums
Groupe of Paramecium Caudatums - (microscopic view, magnification 200X)