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Freediver photographing pelagic gelatinous zooplankton, adrift in the open ocean, Phacellophora camtschatica, San Diego, California Freediving photographer in a cloud of salps, gelatinous zooplankton that drifts with open ocean currents, San Diego, California African gaboon viper camouflage blends into the leaves of the forest floor.  This heavy-bodied snake is one of the largest vipers, reaching lengths of 4-6 feet (1.5-2m).  It is nocturnal, living in rain forests in central Africa.  Its fangs are nearly 2 inches (5cm) long, Bitis gabonica Southern Pacific rattlesnake.  The southern Pacific rattlesnake is common in southern California from the coast through the desert foothills to elevations of 10,000 feet.  It reaches 4-5 feet (1.5m) in length, Crotalus viridis helleri Western diamondback rattlesnake, Crotalus atrox Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Ocean sunfish with mouth for slurping zooplankton, open ocean, Mola mola, San Diego, California Detail within the Mandelbrot set fractal.  This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features.  Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, or the tendency for the details of a shape to appear similar to the shape itself.  Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves.  Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns.  The basic iterative expression for the Mandelbrot set is z = z-squared + c, operating in the complex (real, imaginary) number set, Mandelbrot set Detail within the Mandelbrot set fractal.  This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features.  Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, or the tendency for the details of a shape to appear similar to the shape itself.  Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves.  Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns.  The basic iterative expression for the Mandelbrot set is z = z-squared + c, operating in the complex (real, imaginary) number set, Mandelbrot set Detail within the Mandelbrot set fractal.  This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features.  Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, or the tendency for the details of a shape to appear similar to the shape itself.  Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves.  Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns.  The basic iterative expression for the Mandelbrot set is z = z-squared + c, operating in the complex (real, imaginary) number set, Mandelbrot set Detail within the Mandelbrot set fractal.  This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features.  Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, or the tendency for the details of a shape to appear similar to the shape itself.  Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves.  Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns.  The basic iterative expression for the Mandelbrot set is z = z-squared + c, operating in the complex (real, imaginary) number set, Mandelbrot set Detail within the Mandelbrot set fractal.  This detail is found by zooming in on the overall Mandelbrot set image, finding edges and buds with interesting features.  Fractals are complex geometric shapes that exhibit repeating patterns typified by self-similarity, or the tendency for the details of a shape to appear similar to the shape itself.  Often these shapes resemble patterns occurring naturally in the physical world, such as spiraling leaves, seemingly random coastlines, erosion and liquid waves.  Fractals are generated through surprisingly simple underlying mathematical expressions, producing subtle and surprising patterns.  The basic iterative expression for the Mandelbrot set is z = z-squared + c, operating in the complex (real, imaginary) number set, Mandelbrot set Freediver photographing pelagic gelatinous zooplankton, adrift in the open ocean, Cyclosalpa affinis, San Diego, California Pelagic tunicate reproduction, large single salp produces a chain of smaller salps as it reproduces while adrift on the open ocean, Cyclosalpa affinis, San Diego, California Pelagic tunicate reproduction, large single salp produces a chain of smaller salps as it reproduces while adrift on the open ocean, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Freediver photographing pelagic gelatinous zooplankton, adrift in the open ocean, Cyclosalpa affinis, San Diego, California Freediver photographing pelagic gelatinous zooplankton, adrift in the open ocean, Phacellophora camtschatica, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Freediver photographing pelagic gelatinous zooplankton, adrift in the open ocean, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Diver along chain of pelagic zooplankton, open ocean, underwater, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Pelagic tunicate reproduction, large single salp produces a chain of smaller salps as it reproduces while adrift on the open ocean, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, Cyclosalpa affinis, San Diego, California Kaleidoscope of yellow colors as the lens zooms while taking a photo of aspen leaves in autumn, Populus tremuloides, Rock Creek Canyon, Sierra Nevada Mountains Kaleidoscope of yellow colors as the lens zooms while taking a photo of aspen leaves in autumn, Populus tremuloides, Rock Creek Canyon, Sierra Nevada Mountains Diver along chain of pelagic zooplankton, open ocean, underwater, Cyclosalpa affinis, San Diego, California Fried-egg jellyfish, drifting through the open ocean, Phacellophora camtschatica, San Diego, California Fried-egg jellyfish, drifting through the open ocean, Phacellophora camtschatica, San Diego, California Colonial planktonic pelagic tunicate, adrift in the open ocean, forms rings and chains as it drifts with ocean currents, San Diego, California Zoanthid anemones, Coronado Islands, Coronado Islands (Islas Coronado) Neotropical rattlesnake, Crotalus durissus Neotropical rattlesnake, Crotalus durissus Neotropical rattlesnake, Crotalus durissus Neotropical rattlesnake, Crotalus durissus Neotropical rattlesnake, Crotalus durissus   more ...

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Updated: March 1, 2021