Garibaldi in kelp forest.
Species: Garibaldi, Hypsypops rubicundus
Location: San Clemente Island, California
Image ID: 03453
Species: Garibaldi, Hypsypops rubicundus
Location: San Clemente Island, California
Image ID: 03453
Garibaldi swimming over surfgrass in kelp forest.
Species: Garibaldi, Hypsypops rubicundus, Macrocystis pyrifera, Phyllospadix
Location: San Clemente Island, California
Image ID: 06274
Species: Garibaldi, Hypsypops rubicundus, Macrocystis pyrifera, Phyllospadix
Location: San Clemente Island, California
Image ID: 06274
The Mandelbrot Fractal. 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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10368
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10368
The Mandelbrot Fractal. 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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10369
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10369
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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10375
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10375
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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10378
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10378
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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10383
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10383
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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10391
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10391
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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10395
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 10395
The Mandelbrot Fractal. 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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18729
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18729
The Mandelbrot Fractal. 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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18731
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18731
Fractal design. 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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18732
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18732
The Mandelbrot Fractal. 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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18737
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18737
The Mandelbrot Fractal. 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.
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18739
Species: Mandelbrot fractal, Mandelbrot set
Image ID: 18739
Garibaldi.
Species: Garibaldi, Hypsypops rubicundus
Location: Catalina Island, California
Image ID: 02506
Species: Garibaldi, Hypsypops rubicundus
Location: Catalina Island, California
Image ID: 02506
Garibaldi.
Species: Garibaldi, Hypsypops rubicundus
Location: Catalina Island, California
Image ID: 02507
Species: Garibaldi, Hypsypops rubicundus
Location: Catalina Island, California
Image ID: 02507
Garibaldi and kelp forest.
Species: Garibaldi, Hypsypops rubicundus, Macrocystis pyrifera
Location: San Clemente Island, California
Image ID: 02509
Species: Garibaldi, Hypsypops rubicundus, Macrocystis pyrifera
Location: San Clemente Island, California
Image ID: 02509
Garibaldi, Coronado Islands.
Species: Garibaldi, Hypsypops rubicundus
Location: Coronado Islands (Islas Coronado), Baja California, Mexico
Image ID: 02511
Species: Garibaldi, Hypsypops rubicundus
Location: Coronado Islands (Islas Coronado), Baja California, Mexico
Image ID: 02511
Juvenile garibaldi and purple urchins, Coronado Islands.
Species: Garibaldi, Hypsypops rubicundus, Strongylocentrotus purpuratus
Location: Coronado Islands (Islas Coronado), Baja California, Mexico
Image ID: 02513
Species: Garibaldi, Hypsypops rubicundus, Strongylocentrotus purpuratus
Location: Coronado Islands (Islas Coronado), Baja California, Mexico
Image ID: 02513
Garibaldi with a tiny bit of juvenile blue coloration.
Species: Garibaldi, Hypsypops rubicundus
Location: California
Image ID: 02514
Species: Garibaldi, Hypsypops rubicundus
Location: California
Image ID: 02514
Diver and garibaldi.
Species: Garibaldi, Hypsypops rubicundus
Location: Catalina Island, California
Image ID: 02989
Species: Garibaldi, Hypsypops rubicundus
Location: Catalina Island, California
Image ID: 02989
Swallowtail damselfish.
Species: Swallowtail damselfish, Azurina hirundo
Location: Guadalupe Island (Isla Guadalupe), Baja California, Mexico
Image ID: 05064
Species: Swallowtail damselfish, Azurina hirundo
Location: Guadalupe Island (Isla Guadalupe), Baja California, Mexico
Image ID: 05064
Garibaldi.
Species: Garibaldi, Hypsypops rubicundus
Location: San Clemente Island, California
Image ID: 05075
Species: Garibaldi, Hypsypops rubicundus
Location: San Clemente Island, California
Image ID: 05075
Trumpetfish camouflages itself among the branches of a gorgonian coral (also known as sea rods).
Species: Trumpetfish (atlantic), Aulostomus maculatus, Plexaurella
Location: Bahamas
Image ID: 05210
Species: Trumpetfish (atlantic), Aulostomus maculatus, Plexaurella
Location: Bahamas
Image ID: 05210
Diver and garibaldi, Catalina.
Species: Garibaldi, Hypsypops rubicundus
Location: Catalina Island, California
Image ID: 01969
Species: Garibaldi, Hypsypops rubicundus
Location: Catalina Island, California
Image ID: 01969
Garibaldi swims over a kelp covered reef.
Species: Garibaldi, Hypsypops rubicundus
Location: San Clemente Island, California
Image ID: 10192
Species: Garibaldi, Hypsypops rubicundus
Location: San Clemente Island, California
Image ID: 10192
A garibaldi fish (orange), surf grass (green) and palm kelp (brown) on the rocky reef -- all appearing blurred in this time exposure -- are tossed back and forth by powerful ocean waves passing by above. San Clemente Island.
Species: Surfgrass, Hypsypops rubicundus, Phyllospadix
Location: San Clemente Island, California
Image ID: 10238
Species: Surfgrass, Hypsypops rubicundus, Phyllospadix
Location: San Clemente Island, California
Image ID: 10238
Aerial Photo of Swamis Marine Conservation Area. Swamis State Marine Conservation Area (SMCA) is a marine protected area that extends offshore of Encinitas in San Diego County.
Location: Encinitas, California
Image ID: 30574
Location: Encinitas, California
Image ID: 30574
Hiker, Paradise Meadows.
Location: Paradise Meadows, Mount Rainier National Park, Washington
Image ID: 13900
Location: Paradise Meadows, Mount Rainier National Park, Washington
Image ID: 13900