Death Valley National Park

Death Valley National Park
IUCN Category II (National Park)
Death Valley National Park
US Locator Blank.svg
Location California & Nevada, USA
Nearest city Pahrump, Nevada
Coordinates
Area 3,367,627.68 acres (13,628 km²) 3,348,928.88 acres (13,553 km²) federal[1]
Established February 11, 1933 (Monument)
October 31, 1994 (National Park)[1]
Visitors 744,440 (in 2006)
Governing body National Park Service

Death Valley National Park is a mostly arid United States National Park located east of the Sierra Nevada mountain range in southern Inyo County and northern San Bernardino County in California, with a small extension into southwestern Nye County and extreme southern Esmeralda County in Nevada. In addition, there is an exclave (Devil's Hole) in southern Nye County. The park covers 5,262 square miles (13,630 km2), encompassing Saline Valley, a large part of Panamint Valley, almost all of Death Valley, and parts of several mountain ranges.[1] Death Valley National Monument was proclaimed in 1933, placing the area under federal protection. In 1994, the monument was redesignated a national park, as well as being substantially expanded to include Saline and Eureka Valleys.[1]

It is the hottest and driest of the national parks in the United States. It also features the second-lowest point in the Western Hemisphere and the lowest point in North America at Badwater, which is 282 feet (86 m) below sea level. It is home to many species of plants and animals that have adapted to this harsh desert environment. Some examples include Creosote Bush, Bighorn Sheep, Coyote, and the Death Valley Pupfish, a survivor of much wetter times. Approximately 95% of the park is designated as wilderness.[2] Death Valley National Park is visited annually by more than 770,000 visitors who come to enjoy its diverse geologic features, desert wildlife, historic sites, scenery, clear night skies and the solitude of the extreme desert environment.[3]

Mining was the primary activity in the area before it was protected. The first known non-Native Americans to enter Death Valley did so in the winter of 1849, thinking they would save time by taking a shortcut to the gold fields of California. They were stuck for weeks and in the process gave the Valley its name, even though only one of their group died there. Several short-lived boom towns sprang up during the late 19th and early 20th centuries to exploit minor local bonanzas of gold. The only long-term profitable ore to be mined, however, was borax, a mineral used to make soap and an important industrial compound. Twenty-mule teams were famously used to transport ore out of the Valley, helping to make it famous and the subject of books, radio programs, television series, and movies.

The natural environment of the area has been profoundly shaped by its geology. The oldest rocks are extensively metamorphosed and at least 1.7 billion years old.[4] Ancient warm, shallow seas deposited marine sediments until rifting opened the Pacific Ocean. Additional sedimentation occurred until a subduction zone formed off the coast. This uplifted the region out of the sea and created a line of volcanoes. Later the crust started to pull apart, creating the current Basin and Range landform. Valleys filled with sediment and, during the wet times of ice ages, with lakes, such as Lake Manly.

Map of the park showing old Monument land (light green) and the expanded Park land (dark green)

Contents

Geographic setting

Within the park there are two major valleys: Death Valley and Panamint Valley, both of which were formed within the last few million years and both bounded by north–south-trending mountain ranges.[5] These and adjacent valleys follow the general trend of Basin and Range topography with one modification: there are parallel strike-slip faults that perpendicularly bound the central extent of Death Valley. The result of this shearing action is additional extension in the central part of Death Valley which causes a slight widening and relatively more subsidence there.

Desert and abandoned radiator water tank near Grapevine

Uplift of surrounding mountain ranges and subsidence of the valley floor are both occurring. The uplift on the Black Mountains is so fast that the alluvial fans (fan-shaped deposits at the mouth of canyons) there are relatively small and steep compared to the huge alluvial fans coming off the Panamint Range. In many places so-called "wine glass canyons" are formed along the Black Mountains front as a result. This type of canyon results from the mountain range's relatively fast uplift which does not allow the canyons enough time to cut a classic V-shape all the way down to the stream bed. Instead a V-shape ends at a slot canyon halfway down with a relatively small and steep alluvial fan on which the stream sediments collect.

At 282 feet (86 m) below sea level,[4] Badwater on Death Valley's floor is the second-lowest point in the Western Hemisphere (behind Laguna del Carbón in Argentina), while Mount Whitney, only 85 miles (137 km) to the west, rises to 14,505 feet (4,421 m).[5] This topographic relief is the greatest elevation gradient in the contiguous United States and is the terminus point of the Great Basin's southwestern drainage.[4] Although the extreme lack of water in the Great Basin makes this distinction of little current practical use, it does mean that in wetter times the lake that once filled Death Valley (Lake Manly) was the last stop for water flowing in the region, meaning the water there was relatively saturated in dissolved materials. Thus the salt pans in Death Valley are among the largest in the world and are rich in minerals, such as borax and various salts and hydrates.[6] The largest salt pan in the park extends 40 miles (64 km) from the Ashford Mill Site to the Salt Creek Hills, covering some 200 square miles (520 km2) of the Valley floor.[6][note 1] The second-best known playa in the park is the Racetrack, famous for its moving rocks.

Climate

Death Valley is one of the hottest and driest places in North America due to its lack of surface water and its low relief. On July 10, 1913, a record 134 °F (56.7 °C) was measured at the Weather Bureau's observation station at Greenland Ranch (now the site for the Furnace Creek Inn), the highest temperature ever recorded on that continent as of 2007.[7] Daily summer temperatures of 120 °F (49 °C) or greater are common, as well as below freezing nightly temperatures in the winter.[4] July is the hottest month, with an average high of 115 °F (46 °C) and an average low of 88 °F (31 °C).[8] December is the coldest month, with an average high of 65 °F (18 °C) and an average low of 39 °F (4 °C).[8] The record low is 15 °F (−9.4 °C).[8]

A slice through the highest and lowest points in Death Valley National Park

Several of the larger Death Valley springs derive their water from a regional aquifer, which extends as far east as southern Nevada and Utah. Much of the water in this aquifer has been there for many thousands of years, since the Pleistocene ice ages, when the climate was cooler and wetter. Today's drier climate does not provide enough precipitation to recharge the aquifer at the rate at which water is being withdrawn.[9]

The highest range in the park is the Panamint Range with Telescope Peak being its highest point at 11,049 feet (3,368 m).[4] The Death Valley region is a transitional zone in the northernmost part of the Mojave Desert and consists of five mountain ranges removed from the Pacific Ocean. Three of these are significant barriers: the Sierra Nevada, the Argus Range, and the Panamint Range. Air masses tend to lose moisture as they are forced up over mountain ranges, in what climatologists call a rainshadow effect.

Salt shoreline has remodeled the landscape at Devil's Golf Course, as seen from Dante's View

The exaggerated rainshadow effect for the Death Valley area makes it North America's driest spot, receiving about 1.5 inches (38 mm) of rainfall annually at Badwater (some years fail to register any measurable rainfall).[10] Annual average precipitation varies from 1.92 inches (49 mm) overall below sea level to over 15 inches (380 mm) in the higher mountains that surround the Valley.[8] When rain does arrive it often does so in intense storms that cause flash floods which remodel the landscape and sometimes create very shallow ephemeral lakes.

The hot, dry climate makes it difficult for soil to form. Mass wasting, the down-slope movement of loose rock, is therefore the dominant erosive force in mountainous area, resulting in "skeletonized" ranges (literally, mountains with very little soil on them). Sand dunes in the park, while famous, are not nearly as numerous as their fame or the dryness of the area may suggest. One of the main dune fields is near Stovepipe Wells in the north-central part of the Valley and is primarily made of quartz sand. Another dune field is just 10 miles (16 km) to the north but is instead mostly composed of travertine sand.[11] Yet another dune field is near the seldom-visited Ibex Hill in the southernmost part of the park, just south of the Saratoga Springs marshland. Prevailing winds in the winter come from the north, and prevailing winds in the summer come from the south. Thus the overall position of the dune fields remain more or less fixed.

Human history

Early inhabitants and passers-through

Four Native American cultures are known to have lived in the area during the last 10,000 years or so.[4] The first known group, the Nevares Spring People, were hunters and gatherers who arrived in the area perhaps 9,000 years ago (7000 BCE) when there were still small lakes in Death Valley and neighboring Panamint Valley.[12] A much milder climate persisted at that time, and large game animals were still plentiful. By 5,000 years ago (3000 BCE) the Mesquite Flat People displaced the Nevares Spring People.[12] Around 2,000 years ago the Saratoga Spring People moved into the area, which by then was probably already a hot, dry desert.[12][note 2] This culture was more advanced at hunting and gathering and was skillful at handcrafts. They also left mysterious stone patterns in the Valley.

Petroglyphs above Mesquite Springs

A thousand years ago the nomadic Timbisha (formerly called "Shoshone" and also known as "Panamint" or "Koso") moved into the area and hunted game and gathered mesquite beans along with pinyon pine nuts.[12][4] Because of the wide altitude differential between the valley bottom and the mountain ridges, especially on the west, the Timbisha practiced a vertical migration pattern.[4] Their winter camps were located near water sources in the valley bottoms. As the spring and summer progressed and the weather warmed, grasses and other plant food sources ripened at progressively higher altitudes. November found them at the very top of the mountain ridges where they harvested pine nuts before moving back to the valley bottom for winter.

The California Gold Rush brought the first people of European descent known to visit the immediate area. In December 1849 two groups of California Gold Country-bound white travelers with perhaps 100 wagons total stumbled into Death Valley after getting lost on what they thought was a shortcut off the Old Spanish Trail.[13] Called the Bennett-Arcane Party, they were unable to find a pass out of the valley for weeks; they were able to find fresh water at various springs in the area, but were forced to eat several of their oxen to survive. They used the wood of their wagons to cook the meat and make jerky. The place where they did this is today referred to as "Burned Wagons Camp" and is located near the sand dunes.

After abandoning their wagons, they eventually were able to hike out of the valley. Just after leaving the valley, one of the women in the group turned and said, "Goodbye Death Valley," giving the valley they endured its name.[13][note 3] Included in the party was William Lewis Manly whose autobiographical book Death Valley in '49 detailed this trek and popularized the area (geologists later named the prehistoric lake that once filled the valley after him).

Boom and bust

A twenty-mule team in Death Valley
Historical locomotive for Borax-carrying in the Death Valley (Furnace-Creek-Museum), USA, in June 1993

The ores that are most famously associated with the area were also the easiest to collect and the most profitable: evaporite deposits such as salts, borate, and talc. Borax was found by Rosie and Aaron Winters near Furnace Creek Ranch (then called Greenland) in 1881.[14] Later that same year, the Eagle Borax Works became Death Valley's first commercial borax operation. William Tell Coleman built the Harmony Borax Works plant and began to process ore in late 1883 or early 1884, continuing until 1888.[15] This mining and smelting company produced borax to make soap and for industrial uses.[16] The end product was shipped out of the valley 165 miles (265 km) to the Mojave railhead in 10-ton-capacity wagons pulled by "twenty-mule teams" that were actually teams of 18 mules and 2 horses each.[16] The teams averaged two miles (3 km) an hour and required about 30 days to complete a round trip.[14] The trade name 20-Mule Team Borax was established by Francis Marion Smith's Pacific Coast Borax Company after Smith acquired Coleman's borax holdings in 1890. A memorable advertising campaign used the wagon's image to promote the Boraxo brand of granular hand soap and the Death Valley Days radio and television programs. Mining continued after the collapse of Coleman's empire, and by the late 1920s the area was the world's number one source of borax.[4] Some four to six million years old, the Furnace Creek Formation is the primary source of borate minerals gathered from Death Valley's playas.[14]

Skidoo in 1906

Other visitors stayed to prospect for and mine deposits of copper, gold, lead, and silver.[4] These sporadic mining ventures were hampered by their remote location and the harsh desert environment. In December 1903, two men from Ballarat were prospecting for silver.[17] One was an out-of-work Irish miner named Jack Keane and the other was a one-eyed Basque butcher named Domingo Etcharren. Quite by accident, Keane discovered an immense ledge of free-milling gold by the duo's work site and named the claim the Keane Wonder Mine. This started a minor and short-lived gold rush into the area.[17] The Keane Wonder Mine, along with mines at Rhyolite, Skidoo and Harrisburg, were the only ones to extract enough metal ore to make them worthwhile. Outright shams such as Leadfield also occurred, but most ventures quickly ended after a short series of prospecting mines failed to yield evidence of significant ore (these mines now dot the entire area and are a significant hazard to anyone who enters them). The boom towns which sprang up around these mines flourished during the first decade of the 20th century but soon declined after the Panic of 1907.[15]

Early tourism

Scotty's Castle under construction

The first documented tourist facilities in Death Valley were a set of tent houses built in the 1920s where Stovepipe Wells is now located. People flocked to resorts built around natural springs thought to have curative and restorative properties. In 1927, Pacific Coast Borax turned the crew quarters of its Furnace Creek Ranch into a resort, creating the Furnace Creek Inn and resort.[18] The spring at Furnace Creek was harnessed to develop the resort, and as the water was diverted, the surrounding marshes and wetlands started to shrink.[9]

Soon the Valley was a popular winter destination. Other facilities started off as private getaways but were later opened to the public. Most notable among these was Death Valley Ranch, better known as Scotty's Castle. This large ranch home built in the Spanish Revival style became a hotel in the late 1930s and, largely due to the fame of Death Valley Scotty, a tourist attraction. Death Valley Scotty, whose real name was Walter Scott, was a gold miner who pretended to be owner of "his castle", which he claimed to have built with profits from his gold mine. Neither claim was true, but the real owner, Chicago millionaire Albert Mussey Johnson, encouraged the myth. When asked by reporters what his connection was to Walter Scott's castle, Johnson replied that he was Mr. Scott's banker.[19]

Protection and later history

Civilian Conservation Corps workers in Death Valley

President Herbert Hoover proclaimed a national monument in and around Death Valley on February 11, 1933, setting aside almost two million acres (8,000 km²) of southeastern California and small parts of westernmost Nevada.[3] Twelve companies worked in Death Valley using Civilian Conservation Corps workers during the Great Depression and on into the early 1940s. They built barracks, graded 500 miles (800 km) of roads, installed water and telephone lines, and erected a total of 76 buildings.[20] Trails in the Panamint Range were built to points of scenic interest, and an adobe village, laundry and trading post were constructed for Shoshone Indians. Five campgrounds, restrooms, an airplane landing field and picnic facilities were also built.

Creation of the monument resulted in a temporary closing of the lands to prospecting and mining. However, Death Valley was quickly reopened to mining by Congressional action in June of the same year. As improvements in mining technology allowed lower grades of ore to be processed, and new heavy equipment allowed greater amounts of rock to be moved, mining in Death Valley changed. Gone were the days of the "single-blanket, jackass prospector" long associated with the romantic west. Open pit and strip mines scarred the landscape as international mining corporations bought claims in highly visible areas of the national monument. The public outcry that ensued led to greater protection for all national park and monument areas in the United States.

Inside an abandoned mine at Leadfield

In 1976 Congress passed the Mining in the Parks Act, which closed Death Valley National Monument to the filing of new mining claims, banned open-pit mining and required the National Park Service to examine the validity of tens of thousands of pre-1976 mining claims.[15] Mining was allowed to resume on a limited basis in 1980 with stricter environmental standards.[15] The park's Resources Management Division monitors mining within park boundaries and continues to review the status of 125 unpatented mining claims and 19 patented claim groups, while ensuring that federal guidelines are followed and the park's resources are protected. As of 2003, the only active mining operation in Death Valley National Park is the Billie Mine, an underground borax mine located along the road to Dante's View.

Death Valley National Monument was designated a biosphere reserve in 1984.[1] On October 31, 1994, the Monument was expanded by 1.3 million acres (5,300 km²) and redesignated a national park by passage of the Desert Protection Act.[1] This made it the largest national park in the contiguous United States.

Many of the larger cities and towns within the boundary of the regional ground water flow system that the park and its plants and animals rely upon are experiencing some of the fastest growth rates of any place in the United States. Notable examples within a 100-mile (160 km) radius of Death Valley National Park include Las Vegas and Pahrump, Nevada. In the case of Las Vegas, the local Chamber of Commerce estimates that 6,000 people are moving to the city every month. Between 1985 and 1995, the population of the Las Vegas Valley increased from 550,700 to 1,138,800.[9]

Geologic history

Main article: Geology of the Death Valley area
The deep Death Valley basin is filled with sediment (light yellow) eroded from the surrounding mountains. Black lines show some of the major faults that created the valley.

The park has a diverse and complex geologic history. Since its formation, the area that comprises the park has experienced at least four major periods of extensive volcanism, three or four periods of major sedimentation, and several intervals of major tectonic deformation where the crust has been reshaped. Two periods of glaciation (a series of ice ages) have also had effects on the area, although no glaciers ever existed in the ranges now in the park.

Basement and Pahrump Group

Little is known about the history of the oldest exposed rocks in the area due to extensive metamorphism (alteration of rock by heat and pressure). Radiometric dating gives an age of 1,700 million years for the metamorphism (during the Proterozoic: See bottom of the geologic timeline).[4] About 1,400 million years ago a mass of granite now in the Panamint Range intruded this complex.[21] Uplift later exposed these rocks to nearly 500 million years of erosion.[21]

On these basement rocks was deposited the sedimentary formation of the Pahrump Group. This occurred after uplift-associated erosion removed whatever rocks covered the Proteozoic-aged rocks. The Pahrump is composed of arkose conglomerate (quartz clasts in a concrete-like matrix) and mud stone in its lower part, followed by dolomite from carbonate banks topped by algal mats in stromatolites, and finished with basin-filling sediment derived from the above, including possible glacial till from the hypothesized Snowball Earth glaciation.[22] The very youngest rocks in the Pahrump Group are from basaltic lava flows.

Rifting and deposition

The Noonday Dolomite was formed from a carbonate shelf after the break-up of Rodinia

A rift opened and subsequently flooded the region as part of the breakup of the supercontinent Rodinia in the Neoproterozoic (by about 755 million years ago) and the creation of the Pacific Ocean. A shoreline similar to the present Atlantic Ocean margin of the United States lay to the east. An algal mat-covered carbonate bank was deposited, forming the Noonday Dolomite.[23] Subsidence of the region occurred as the continental crust thinned and the newly formed Pacific widened, forming the Ibex Formation. An angular unconformity (an uneven gap in the geologic record) followed.

A true ocean basin developed to the west, breaking all the earlier formations along a steep front. A wedge of clastic sediment then began to accumulate at the base of the two underwater precipices, starting the formation of opposing continental shelfs.[24] Three formations developed from sediment that accumulated on the wedge. The region's first known fossils of complex life are found in the resulting formations.[24] Notable among these are the Ediacara fauna and trilobites, both part of the Cambrian Explosion of life.

The sandy mudflats gave way about 550 million years ago to a carbonate platform (similar to the one around the present-day Bahamas), which lasted for the next 300 million years of Paleozoic time (refer to the middle of the timescale image). Death Valley's position was then within ten or twenty degrees of the Paleozoic equator. Thick beds of carbonate-rich sediments were periodically interrupted by periods of emergence. Although details of geography varied during this immense interval of time, a north-northeasterly trending coastline generally ran from Arizona up through Utah. The resulting eight formations and one group are 20,000 feet (6 km) thick and underlay much of the Cottonwood, Funeral, Grapevine, and Panamint ranges.[24]

Compression and uplift

In the early- to mid-Mesozoic the western edge of the North American continent was pushed against the oceanic plate under the Pacific Ocean, creating a subduction zone.[24] A subduction zone is a type of contact between different crustal plates where heavier crust slides below lighter crust. Erupting volcanoes and uplifting mountains were created as a result, and the coastline was pushed to the west. The Sierran Arc started to form to the northwest from heat and pressure generated from subduction, and compressive forces caused thrust faults to develop.

A long period of uplift and erosion was concurrent with and followed the above events, creating a major unconformity, which is a large gap in the geologic record. Sediments worn off the Death Valley region were carried both east and west by wind and water.[25] No Jurassic- to Eocene-aged sedimentary formations exist in the area, except for some possibly Jurassic-age volcanic rocks (see the top of the timescale image).[25]

Erosion over many millions of years created a relatively featureless plain. Thirty-five million years ago, sluggish streams migrated laterally over its surface. Several other similar formations were also laid down.

Stretching and lakes

The Lake Manly lake system as it might have looked during its last maximum extent 22,000 years ago[26] (USGS image)

Basin and Range-associated stretching of large parts of crust below southwestern United States and northwestern Mexico started around 16 million years ago and the region is still spreading.[4] This stretching began to effect the Death and Panamint valleys area by 3 million years ago.[27]. Before this, rocks now in the Panamint Range were on top of rocks that would become the Black Mountains and the Cottonwood Mountains. Lateral and vertical transport of these blocks was accomplished by movement on normal faults. Right-lateral movement along strike-slip faults that run parallel to and at the base of the ranges also helped to develop the area.[28] Torsional forces, probably associated with northwesterly movement of the Pacific Plate along the San Andreas Fault (west of the region), is responsible for the lateral movement.[27]

Igneous activity associated with this stretching occurred from 12 million to 4 million years ago.[28] Sedimentation is concentrated in valleys (basins) from material eroded from adjacent ranges. The amount of sediment deposited has roughly kept up with this subsidence, resulting in retention of more or less the same valley floor elevation over time.

Pleistocene ice ages started 2 million years ago, and melt from alpine glaciers on the nearby Sierra Nevada Mountains fed a series of lakes that filled Death and Panamint valleys and surrounding basins (see the top of the timescale image). The lake that filled Death Valley was the last of a chain of lakes fed by the Amargosa and Mojave Rivers, and possibly also the Owens River. The large lake that covered much of Death Valley's floor, which geologists call Lake Manly, started to dry up 10,500 years ago.[29] Saltpans and playas were created as ice age glaciers retreated, thus drastically reducing the lakes' water source. Only faint shorelines are left.

Biology

During very wet periods, the Amargosa River can flow at the surface, as it did in Death Valley during the wet winter of 2005. Wildflowers also peak during wetter years.

Habitat varies from saltpan at 282 feet (86 m) below sea level to the sub-alpine conditions found on the summit of Telescope Peak, which rises to 11,049 feet (3,368 m).[30] Vegetation zones include Creosote Bush, Desert Holly, and mesquite at the lower elevations and sage up through shadscale, blackbrush, Joshua Tree, pinyon-juniper, to Limber Pine and Bristlecone Pine woodlands.[30] The saltpan is devoid of vegetation, and the rest of the valley floor and lower slopes have sparse cover, although where water is available, an abundance of vegetation is usually present. These zones and the adjacent desert support a variety of wildlife species, including 51 species of native mammals, 307 species of birds, 36 species of reptiles, 3 species of amphibians, and 2 species of native fish.[31]

Small mammals are more numerous than large mammals, such as Bighorn Sheep, Coyotes (image), Bobcats, Kit Foxes, Cougars, and Mule Deer.[31] Mule Deer are present in the pinyon/juniper associations of the Grapevine, Cottonwood, and Panamint ranges.[31] Bighorn Sheep are a rare species of mountain sheep that exist in isolated bands in the Sierra and in Death Valley. These are highly adaptable animals and can eat almost any plant. They have no known predators, but humans and burros compete for habitat.

Death Valley Pupfish spawning in Salt Creek

The ancestors of the Death Valley Pupfish swam to the area from the Colorado River via a long-since dried-up system of rivers and lakes (see Lake Manly). They now live in two separate populations: one in Salt Creek and another in Cottonwood Marsh.

Death Valley is one of the hottest and driest places in North America, yet it is home to over 1,000 species of plants; 23 of which are not found anywhere else.[30] Adaptation to the dry environment is key. For example, creosote bush and mesquite have tap-root systems that can extend 50 feet (15 m) down in order to take advantage of a year-round supply of ground water. The diversity of Death Valley's plant communities results partly from the region's location in a transition zone between the Mojave Desert, the Great Basin Desert and the Sonoran Desert.

Sphinx Moth on Rock Nettle in Mosaic Canyon

This location, combined with the great relief found within the Park, supports vegetation typical of three biotic life zones: the lower Sonoran, the Canadian, and the Arctic/Alpine in portions of the Panamint Range. Based on the Munz and Keck (1968) classifications, seven plant communities can be categorized within these life zones, each characterized by dominant vegetation and representative of three vegetation types: scrub, desert woodland, and coniferous forest. Microhabitats further subdivide some communities into zones, especially on the valley floor.

Unlike more typical locations across the Mojave Desert, many of the water-dependent Death Valley habitats possess a diversity of plant and animal species that are not found anywhere else in the world.[9] The existence of these species is due largely to a unique geologic history and the process of evolution that has progressed in habitats that have been isolated from one another since the Pleistocene epoch.

Activities

See also: Places of interest in the Death Valley area

Sightseeing is available by personal automobile, four-wheel drive, bicycle, mountain bike (on established roadways only), and hiking. State Route 190, the Badwater Road, the Scotty's Castle Road, and paved roads to Dante's View and Wildrose provide access to the major scenic viewpoints and historic points of interest. More than 350 miles (560 km) of unpaved and four-wheel-drive roads provide access to wilderness hiking, camping, and historical sites.[32] All vehicles must be licensed and street legal. There are hiking trails of varying lengths and difficulties, but most backcountry areas are accessible only by cross-country hiking. There are literally thousands of hiking possibilities. The normal season for visiting the park is from October 15 to May 15 due to summer extremes in temperature. A costumed living history tour of the historic Death Valley Scotty's Castle is conducted for a fee.

A tourist sliding down Star Dune in the Mesquite Flat Dune field

There are nine designated campgrounds within the park, and overnight backcountry camping permits are available at the Visitor Center.[33] Xanterra Parks & Resorts owns and operates a private resort, the Furnace Creek Inn and Ranch Resort, [3] which comprises two separate and distinct hotels: the Furnace Creek Inn is a four-star historic hotel, and the Furnace Creek Ranch is a three-star ranch-style property reminiscent of the mining and prospecting days. Xanterra also operates the Stovepipe Wells Village motel. The Furnace Creek Inn and Ranch and the Stovepipe Wells Village are the only inns located inside Death Valley proper. There are a few motels near various entrances to the park, in Shoshone, Death Valley Junction, and Panamint Springs.

The visitor center is located in the Furnace Creek resort area on State Route 190. A 12-minute introductory slide program is shown every 30 minutes.[34] During the winter season—November through April—rangers offer interpretive tours and a wide variety of walks, talks, and slide presentations about Death Valley cultural and natural history. The visitor center has displays dealing with the park's geology, climate, wildlife and natural history. There are also specific sections dealing with the human history and pioneer experience. The Death Valley Natural History Association maintains a bookstore specifically geared to the natural and cultural history of the park.

Death Valley National Park is a popular location for stargazing as it has one of the darkest night skies in the United States. Despite Death Valley's remote location, its air quality and night visibility are threatened by civilization. In particular, light pollution is introduced by nearby Las Vegas.[35]

See also

Notes

  1. Badwater, the Devils Golf Course, and Salt Creek are all part of the Death Valley Saltpan.
  2. The last known lake to exist in Death Valley likely dried up 3,000 years ago.
  3. In fact only one member of the Death Valley '49ers died in Death Valley, an elderly man named Culverwell, who was half dead already when he entered it.

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 National Park Index (2001–2003), p. 26
  2. NPS website, "Backcountry Roads"
  3. 3.0 3.1 3.2 NPS Visitor Guide
  4. 4.00 4.01 4.02 4.03 4.04 4.05 4.06 4.07 4.08 4.09 4.10 4.11 Wright and Miller 1997, p. 611
  5. 5.0 5.1 Sharp 1997, p. 1
  6. 6.0 6.1 Wright and Miller 1997, p. 625
  7. NPS website, "Weather and Climate"
  8. 8.0 8.1 8.2 8.3 USGS weather
  9. 9.0 9.1 9.2 9.3 USGS 2004, p. "Furnace Creek"
  10. Wright and Miller 1997, pp. 610–611
  11. Kiver 1999, p. 283
  12. 12.0 12.1 12.2 12.3 Wallace 1978
  13. 13.0 13.1 Kiver 1999, p. 277
  14. 14.0 14.1 14.2 USGS 2004, p. "Harmony Borax Works"
  15. 15.0 15.1 15.2 15.3 NPS website, "Mining"
  16. 16.0 16.1 NPS website, "Twenty Mule Teams"
  17. 17.0 17.1 NPS website, "People"
  18. NPS website, "Furnace Creek Inn"
  19. NPS website, "Johnson and Scotty Build a Castle"
  20. NPS website, "Civilian Conservation Corps"
  21. 21.0 21.1 Wright and Miller 1997, p. 631
  22. Wright and Miller 1997, pp. 631–632
  23. Wright and Miller 1997, p. 632
  24. 24.0 24.1 24.2 24.3 Wright and Miller 1997, p. 634
  25. 25.0 25.1 Wright and Miller 1997, p. 635
  26. Kiver 1999, p. 281
  27. 27.0 27.1 Kiver 1999, p. 278
  28. 28.0 28.1 Wright and Miller 1997, p. 616
  29. Sharp 1997, p. 41
  30. 30.0 30.1 30.2 NPS website, "Plants"
  31. 31.0 31.1 31.2 NPS website, "Animals"
  32. NPS 2002, p. 55
  33. NPS website, "Campgrounds"
  34. NPS website, "Ranger Programs"
  35. NPS website, "Lightscape / Night Sky"

Bibliography

This article incorporates public domain text from websites or documents published by the National Park Service.USGS logo.pngThis article incorporates text from the websites of the U.S. Geological Survey (USGS), with content in the public domain.

External links