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  • Sediment layers are visible in the badland hills of bluish bentonite clay in an area known as the Blue Mesa in Petrified Forest National Park, Arizona.
    AZ_Petrified-Forest_Blue-Mesa_Detail...jpg
  • Mudcracks in a variety of shapes and sizes are visible in the sediment at the base of Harris Wash in Utah. Mudcracks, also known as desiccation cracks, result when the top layer of sediment dries before lower layers. When the water in the top layer evaporates, the thin layer separates from the layers below. The loss of moisture also causes the layer to shrink somewhat, causing a strain that results in the cracks.
    UT_Mudcracks_HarrisWash_4278.jpg
  • Mudcracks in a variety of shapes and sizes are visible in the sediment at the base of Harris Wash in Utah. Mudcracks, also known as desiccation cracks, result when the top layer of sediment dries before lower layers. When the water in the top layer evaporates, the thin layer separates from the layers below. The loss of moisture also causes the layer to shrink somewhat, causing a strain that results in the cracks.
    UT_Mudcracks_HarrisWash_4276.jpg
  • Mudcracks in a variety of shapes and sizes are visible in the sediment at the base of Harris Wash in Utah. Mudcracks, also known as desiccation cracks, result when the top layer of sediment dries before lower layers. When the water in the top layer evaporates, the thin layer separates from the layers below. The loss of moisture also causes the layer to shrink somewhat, causing a strain that results in the cracks.
    UT_Mudcracks_HarrisWash_4264.jpg
  • Mudcracks in a variety of shapes and sizes are visible in the sediment at the base of Harris Wash in Utah. Mudcracks, also known as desiccation cracks, result when the top layer of sediment dries before lower layers. When the water in the top layer evaporates, the thin layer separates from the layers below. The loss of moisture also causes the layer to shrink somewhat, causing a strain that results in the cracks.
    UT_Mudcracks_HarrisWash_4282.jpg
  • Mudcracks in a variety of shapes and sizes are visible in the sediment at the base of Harris Wash in Utah. Mudcracks, also known as desiccation cracks, result when the top layer of sediment dries before lower layers. When the water in the top layer evaporates, the thin layer separates from the layers below. The loss of moisture also causes the layer to shrink somewhat, causing a strain that results in the cracks.
    UT_Mudcracks_HarrisWash_4280.jpg
  • The top layer of sediment peels away at the base of Harris Wash near Escalante, Utah. Mudcracks, also known as desiccation cracks, result when the top layer of sediment dries before lower layers. When the water in the top layer evaporates, the thin layer separates from the layers below. The loss of moisture also causes the layer to shrink somewhat, causing a strain that results in the cracks.
    UT_Mudcracks_HarrisWash_Peeling_4267.jpg
  • Sediment layers are visible in the badland hills of bluish bentonite clay in an area known as the Blue Mesa in Petrified Forest National Park, Arizona.
    AZ_Petrified-Forest_Blue-Mesa_6618.jpg
  • The badlands of the Petrified Forest National Park, Arizona, are turned red by the setting sun. Badlands are a type of dry terrain where clay or soft sedimentary rock have been heavily eroded by rain and wind and where vegetation is scarce.
    AZ_Petrified-Forest_Badlands_Sunset_...jpg
  • Several erosion patterns are visible on the steep exposed hillside of Rucker Hill in Everett, Washington, near where Pigeon Creek empties into Puget Sound. At the top of the frame, a blackberry branch swings back and forth like a pendulum, carving a semicircle into the hillside.
    WA_Rucker-Hill_Erosion_7166.jpg
  • Sedimentary layers are visible in this section of the Calico Hills in the Red Rock Canyon Conservation Area in Nevada. The Calico Hills are made up of Aztec Sandstone, fossilized sand dunes that were laid down during the early Jurrasic Period 180-190 million years ago.
    NV_Red-Rock-Canyon_Sedimentary-Layer...jpg
  • Erosion debris from petrified logs and the bentonite clay hills collects at the base of the badlands of the Blue Mesa in Petrified Forest National Park, Arizona.
    AZ_Petrified-Forest_Blue-Mesa_Erosio...jpg
  • The Ringold Formation, a series of bluffs overlooking the Columbia River near Pasco, Wasington, preserves fossils dating back to the Neogene period and is part of the Hanford Reach National Monument.
    Hanford-Reach_Ringold_6668.jpg
  • Cirrus clouds, turned red by the setting sun, frame the crescent moon as it shines over sand dunes in Discovery Park, Seattle, Washington. Discovery Park is Seattle's largest remaining green space and the sand is sediment dropped by glaciers during the last ice age.
    WA_Discovery-Park_Sand-Dunes_Sunset_...jpg
  • A cross-section of petrified wood displays a wide spectrum of colors in the Rainbow Forest of Petrified Forest National Park in Arizona. The petrified wood in the park is made up of almost solid quartz and the colors are the result of impurities in the quartz, such as iron, carbon and manganese. It formed more than 200 million years ago when logs washed into an ancient river system. The logs were quickly buried by sediment, which slowed decay. Over time, minerals, including silica, were absorbed into the porous wood, replacing the original organic material over hundreds of thousands of years.
    AZ_Petrified-Forest_Petrified-Wood_D...jpg
  • Fragrant water lilies (Nymphaea odorata) grow up from the bottom of Lake Washington in this underwater view from the wetlands of the Washington Park Arboretum, Seattle, Washington. The fragrant water lily's leaves float on the water surface and the plant itself is rooted in mucky or silty sediment up to six to seven feet (2 meters) deep.
    WaterLilies_Underwater_Arboretum_F00...jpg
  • A close-up of a a cross-section of petrified wood reveals colors in abstract patterns in the Petrified Forest National Park in Arizona. The petrified wood in the park is made up of almost solid quartz and the colors are the result of impurities in the quartz, such as iron, carbon and manganese. It formed more than 200 million years ago when logs washed into an ancient river system. The logs were quickly buried by sediment, which slowed decay. Over time, minerals, including silica, were absorbed into the porous wood, replacing the original organic material over hundreds of thousands of years.
    AZ_Petrified-Forest_Petrified-Wood_A...jpg
  • A pseudocrater is rendered in silhouette against a volanic cone at sunset in Mývatn in northern Iceland. Mývatn is a lake that was formed approximately 2,300 years ago during a volanic period. The shorter hill is a pseudocrater, also known as a rootless vent. While it resembles a volcanic cinder cone, it formed through a different process. As basaltic lava flowed over soggy lake sediments, it flash heated the moisture into vapor, causing it to blast through the lava. Mývatn means lake with midge flies; the lake is infested with them during the summer months.
    Iceland_Myvatn_Pseudocrater-Silhouet...jpg
  • A pseudocrater is rendered in silhouette against a volanic cone at sunset in Mývatn in northern Iceland. Mývatn is a lake that was formed approximately 2,300 years ago during a volanic period. The shorter hill is a pseudocrater, also known as a rootless vent. While it resembles a volcanic cinder cone, it formed through a different process. As basaltic lava flowed over soggy lake sediments, it flash heated the moisture into vapor, causing it to blast through the lava. Mývatn means lake with midge flies; the lake is infested with them during the summer months.
    Iceland_Myvatn_Pseudocrater-Silhouet...jpg
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