Goblin Valley State Park in Utah is known for its remarkable rock formations and stunning scenery. The dramatic geological landscape of the park was created over millions of years, starting with an ancient sea that covered the area until it evaporated about 290 million years ago. From there, a desert landscape developed, and the rocks and sand weathered away to form the peculiar shapes seen today.
Goblin Valley State Park is home to an array of geologic wonders, including hoodoos (tall spires created by wind and water erosion), balancing rocks, and a wide variety of sedimentary formations. The most notable feature in the park is the goblins—mushroom-shaped formations with odd shapes and textures caused by years of weathering. Goblin Valley State Park also features an array of fossils from ancient sea creatures, which have been preserved and can be seen on the park’s trails.
The hoodoos of Goblin Valley State Park are some of the most unique geological formations in the United States. Hoodoos are tall spires formed by years of wind and water erosion. The process begins with sedimentary layers being deposited, then eroded away until a harder layer is exposed. This layer is then sculpted by wind and water erosion, leaving the tall spires standing today.
The hoodoos of Goblin Valley State Park are particularly impressive, as they have been shaped to resemble everything from animals and people to geometric shapes. These unusual formations give the park its unique character, drawing in visitors from all over the world.
Balancing rocks can also be found throughout Goblin Valley State Park. These formations have been created by wind and water erosion, which has sculpted the rocks into unique shapes and sizes. The most impressive balancing rocks in the park are found near Goblin’s Lair, where visitors can see some of the largest and most dramatic rock formations in the state.
Balancing rocks are often seen as a symbol of stability and strength, making them a popular feature of Goblin Valley State Park. Visitors often take photos with the balancing rocks to capture their memories of this unique natural wonder.
Goblin Valley State Park is also home to a wide variety of sedimentary formations. These formations are the result of millions of years of wind and water erosion, forming unique shapes and textures in the rocks. These sedimentary formations can range from smooth, curved surfaces to sharp, angular edges.
One of the most impressive sedimentary formations in Goblin Valley State Park is the “Goblin’s Lair,” which features some of the most intricate shapes and textures in the park. Visitors can also find a wide variety of fossils embedded in sedimentary rocks throughout the park, providing insight into Earth's ancient history.
Visitors can explore these sedimentary formations on their own, or join a ranger-led tour to learn more about the geology of Goblin Valley State Park. These tours are an excellent way to gain a deeper understanding and appreciation for the remarkable geological features of this unique park.
The two dominant rock types in the park are Entrada sandstone and Carmel Formation (also known as Kaibab Limestone). The Entrada sandstone was formed millions of years ago when a vast desert covered the area. The Entrada sandstone is characterized by its cross-bedding, which can be seen in some of the park’s hoodoos and balanced rocks. Entrada sandstone is also responsible for the park’s mushroom-like formations and curious shapes. The Entrada sandstone is composed of quartz, feldspars, and other minerals that have been eroded over time to create the unique features found in Goblin Valley State Park today.
The Carmel Formation was deposited during a different period in geologic time, about 262 million years ago. This formation is composed of limestone and is characterized by its light grayish color. It can be seen in the rock walls of Goblin’s Lair, as well as throughout the park’s trails. The Carmel Formation is also home to an array of fossils, which can be seen on the park’s trails. This formation has been preserved due to its high calcium carbonate content, allowing for a greater diversity of fossilized creatures.