Devils Hole pupfish

Last updated

Devils Hole pupfish
Cyprinodon diabolis, males.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Cyprinodontiformes
Family: Cyprinodontidae
Genus: Cyprinodon
Species:
C. diabolis
Binomial name
Cyprinodon diabolis
Wales, 1930

The Devils Hole pupfish (Cyprinodon diabolis) is a critically endangered species of the family Cyprinodontidae (pupfishes) found only in Devils Hole, a water-filled cavern in the US state of Nevada. It was first described as a species in 1930 and is most closely related to C. nevadensis and the Death Valley pupfish (C. salinus). The age of the species is unknown, with differing analyses offering ranges between one thousand and sixty thousand years. It is a small fish, with maximum lengths of up to 30 mm (1.2 in). Individuals vary in coloration based on age and sex: males are bright metallic blue while females and juveniles are more yellow. A defining trait of this species is its lack of pelvic fins. The pupfish consumes nearly every available food resource at Devils Hole, including beetles, snails, algae, and freshwater crustaceans, with diet varying throughout the year. It is preyed on by the predaceous diving beetle species Neoclypeodytes cinctellus , which was first observed in Devils Hole in 1999 or 2000. Reproduction occurs year-round, with spikes in the spring and fall. Females produce few eggs and the survivorship from egg to adult is low. Individuals live 1014 months.

Contents

Devils Hole is more than 130 m (430 ft) deep, though pupfish are only found in the upper 24 m (80 ft). The water is a constant temperature of 33 °C (91 °F) and dissolved oxygen levels are low. A small, shallowly submerged rock shelf provides critical feeding and spawning habitat for the pupfish. [4] Nearby agricultural irrigation in the 1960s and 1970s caused the water to drop in Devils Hole, resulting in less and less of the shelf remaining submerged. Several court cases ensued, resulting in the Supreme Court case Cappaert v. United States, which determined that the preservation of Devils Hole as a National Monument in 1952 implicitly included preservation of adequate groundwater to maintain the scientific value of the pool and its fauna. Other threats faced by the species include flash floods, earthquakes, and vandalism.

Devils Hole Pupfish sign Death Valley National Park sign - The Devils Hole Pupfish (5628756233) (cropped).jpg
Devils Hole Pupfish sign

As its entire native range is a single locality, efforts to create other populations have proceeded since the 1960s and 1970s, most of which have failed. Three refugia were created in 1972, 1973, and 1990, though all were closed by 2007 as a result of maintenance failures, hybridization, and small founder populations. In the early 2010s, an exact replica of the uppermost 6.7 m (22 ft) of Devils Hole was constructed at Ash Meadows Fish Conservation Facility, which was populated with eggs taken from Devils Hole in winter months when development into adults is unlikely. Efforts to conserve the wild population have included removing sediment from the shallow shelf, adding supplemental food, and installing fences and security cameras to keep unauthorized people away. Conservation efforts have been costly and divisive. During the legal battle over ground water in the 1960s and 1970s, bumper stickers were distributed that read "Kill the Pupfish" or "Save the Pupfish". Some have argued that the species should be allowed to go extinct, while others have said this would be akin to "bombing the Louvre to make way for a parking lot". [5] :76

Population counts are conducted twice a year, in the spring and fall, with the fall population usually much larger. Since 1972, population counts have peaked at around 550 individuals. The April 2013 count showed only 35 remaining in the wild, but by September 2022, the count showed a total of 263 observed wild pupfish. [6] [7] [8] The Devils Hole pupfish has been listed as endangered by the US federal government since 1967 and critically endangered by the International Union for Conservation of Nature since 2014.

Taxonomy and evolution

Position of C. diabolis relative to some other members of its genus [9]

The Devils Hole pupfish was described as a new species in 1930 by American ichthyologist Joseph H. Wales. The holotype had been collected by Wales and George S. Myers in March 1930 at Devils Hole in the US state of Nevada. [10] The species name "diabolis" was chosen to allude to the type locality of Devils Hole. [11] Both the species name and the location spell "Devils Hole" without an apostrophe, a relic of the "quirks of government cartographers and scientists". [12] According to genetic analysis, the sister taxon of the Devils Hole pupfish is Cyprinodon nevadensis . Along with the Death Valley pupfish (C. salinus), the three Amargosa River basin species form a clade. [9]

The age of the species is subject to considerable debate, with analyses recovering starkly different figures. Devils Hole was formed around 60,000 years ago, with some researchers assuming the pupfish has existed in isolation for 10,00020,000 years. How it colonized Devils Hole is unknown; hypotheses include arriving via subterranean waters or over dry land. As Native Americans used pupfish species as food, it has been speculated that they introduced the pupfish to Devils Hole, intentionally or not. Its divergence from a common ancestor with C. nevadensis mionectes was estimated at 2172530 years in one study. [13] Two studies, each based on independent genetic datasets, estimated that this species may have first colonized the hole within the past 1,000 years, [14] [15] but another suggested the species is as old as 60,000 years. [16] These estimates depend heavily on knowledge of the mutation rate in this species, which is unknown, but is predicted to be one of the highest for any vertebrate due to its small population size. [17]

Description

Group of Devils Hole pupfish Cyprinodon diabolis FWS 6.jpg
Group of Devils Hole pupfish

The Devils Hole pupfish is the smallest pupfish species in the genus Cyprinodon , [18] with lengths up to 30 mm (1.2 in). [18] The average length is 23 mm (0.9 in). [19] Males and females differ in coloration. Males are overall dark brown with metallic blue on their sides. The margins of all fins are black, and the back has golden iridescence. Iridescence is particularly pronounced on the opercles (gill covers) which have a violet sheen on their posterior side. The iris is blue and also iridescent. Females and young are more yellow in color than the males. Females have yellowish-brown backs, and the margins of their pectoral and caudal fins are yellow, not black. The dorsal fin has a black margin like the males, however. Females' opercles are metallic green, and their eyes are tinted metallic blue. The young are overall colored as the females, though they have a faint vertical bar on their sides. [20]

Individuals lack pelvic fins, though have been observed to grow them when raised in lower temperatures in captivity. [21] Its dorsal fin has twelve rays, while each pectoral fin has seventeen rays. The caudal fin is convex in appearance and has twenty-eight rays, curving outward at the margin. Its lateral series (the number of scales from the back end of the opercle to the beginning of the tail [22] ) is twenty-seven scales. [20] The scales are ctenoid, or toothed, on the outer margin. [20]

Biology and ecology

Larva of the Devils Hole pupfish Devils hole pupfish larva.png
Larva of the Devils Hole pupfish

The Devils Hole pupfish consumes a variety of food items representing nearly all possible food resources in Devils Hole. [23] Its food resources include inorganic particulate matter; the algae Spirogyra and diatoms; the freshwater crustaceans Hyalella azteca and ostracods; protozoa; the beetle Stenelmis calida ; the flatworm Girardia dorotocephala ; and the freshwater snails Tryonia . The consumption of the various food resources varies seasonally, though inorganic particulate matter had a high frequency of occurrence in stomach contents year-round in one study. The inorganic particulate matter consists of primarily travertine, a form of limestone. The three most common food items for each season by frequency of occurrence were: [23]

As Spirogyra was mostly found undigested in the stomach, the authors hypothesized that it was not important as a food resource, but rather as a foraging substrate. The inorganic particulate matter was thought to be incidentally consumed as well as a result of the fish's foraging strategy of bottom feeding and surface feeding. [23]

Predaceous diving beetle (Neoclypeodytes cinctellus) found in Devils Hole Devils Hole Neoclypeodytes cinctellus.jpg
Predaceous diving beetle (Neoclypeodytes cinctellus) found in Devils Hole

Predators of the Devils Hole pupfish include the diving beetle species Neoclypeodytes cinctellus , which consumes its eggs and juveniles. [24] [25] N. cinctellus likely also preys on some of the same invertebrates as does the Devils Hole pupfish, meaning that it is a competitor as well as a predator. The diving beetle only recently became part of the ecosystem, and was first documented at Devils Hole in 1999 or 2000. [25]

Although spawning year-round, [26] spawning peaks from mid-February to mid-May with a smaller peak from July to September. [27] Devils Hole pupfish females have low fecundity, which is the capacity to create offspring. The average female may only produce four or five mature ova (egg cells) each breeding season. Mature ova represent 10–20% of the total number of ova produced. [28] During each spawn, a mature female is thought to produce only a single egg, [27] which are only 1 mm (0.039 in) in diameter. [29] In addition to its low fecundity, eggs have low hatching success and juveniles have low rates of survival. [30] Individuals have a lifespan of 10–14 months. [31]

Because the rock shelf upon which the fish feed and breed is susceptible to seismic activity, specialized behavior mitigates the impact of earthquakes. When a disturbance such as an earthquake occurs, it causes the fish to flee en masse into the depths, [21] :12:58 and begin a spawning event that may be out of season. [32] [33] During spawning brought upon by a disturbance, several males chase lone females until they become receptive, at which point the female allows one of the males to swim next to her. The female then lays an egg that the male immediately fertilizes. [26]

The Devils Hole pupfish has daily and seasonal movement within the Hole. Around midday, when incoming sunlight is at its maximum intensity on the shallow shelf, the number of fish on the shelf decreases. This tendency to leave the shelf at midday is most pronounced April through September. From December to March, when the shallow shelf receives little if any direct sunlight at midday, the number of fish on the shelf increases as the day advances. In the summer months when the shelf receives the most sunlight, fish are overall less likely to use the shallow shelf. [34]

Having adapted to an environment with low oxygen saturation, the Devils Hole pupfish has developed a behavior known as "paradoxical anaerobism". The fish enters a state of torpor, and has been known to forego breathing oxygen for up to two hours. As a byproduct of this alternate respiration method, the fish produces ethanol. [35] [21] :17:52

Habitat

Nearly the entire natural range of the species is visible in this photo. The equipment is used to monitor the water level. Devils Hole (13987389476).jpg
Nearly the entire natural range of the species is visible in this photo. The equipment is used to monitor the water level.

Devils Hole and the pupfish are located in the Amargosa Desert ecosystem, in the Amargosa Valley, of southwestern Nevada, US, east of Death Valley and the Funeral Mountains and Amargosa Range. The Amargosa River is part of Devils Hole and the region's aquifer hydrology. [34] Devils Hole is a water-filled cavern extending into a hillside. [36] It is at an elevation of 730 m (2,400 ft) above sea level [34] and the water is a constant temperature of 33 °C (91 °F). [37] The surface area of Devils Hole is about 22 m long by 3.5 m wide (72 ft long by 11.5 ft wide). Its depth is at least 130 m (430 ft). [37] Devils Hole "may be the smallest habitat in the world containing the entire population of a vertebrate species". [37] Approximately 0.3 m (0.98 ft) deep on one end of Devils Hole is a small rock shelf of 3.5 by 5 m (11 by 16 ft). The dissolved oxygen of the water is 2.53.0 ppm up to around 22 m (72 ft) in depth, though the shallow shelf can have dissolved oxygen levels as high as 6.07.0 ppm in June and July. [34]

Although pupfish have been found as deep as 24 metres (80 ft), [38] their numbers are most dense above depths of 15 m (49 ft). [37] They depend on the shallow shelf for spawning as well as for much of their diet which primarily consists of diatoms. Natural threats from flash floods to earthquakes have been known to disrupt this fragile ecosystem, [39] but in the 1960s and 1970s, the major threat was groundwater depletion due to agricultural irrigation. [40]

Research indicates that the annual population fluctuation is in response to the amount of algae on the shallow shelf, which is dependent on incoming solar radiation and nutrient levels. Nutrient availability may peak when the cave is used by barn owls as a roosting or nesting site, as their nutrient-rich pellets fall into the water. [36]

Conservation and status

Threats

Seiche created by a 7.1 M earthquake at Devils Hole on 5 July 2019

The Devils Hole pupfish species is limited to a single site and highly susceptible to disturbance. In the 1970s, the species was threatened with groundwater depletion, as the withdrawal of groundwater lowered the water level of Devils Hole and limited their ability to spawn on the shallow shelf. After the groundwater withdrawal was limited, its population rebounded, but experienced a second decline from 1995 onward. The reasons for the second decline are unknown, but inbreeding depression, the loss of a prey species, changing algal and microbial communities, or shifting sediment dynamics have been hypothesized as potential factors. It could face threats in the future relating to climate change, as warming temperatures in the area are predicted to shorten the period of optimum recruitment, or the time when the next generation is produced and matures. [31] [41]

Large-scale earthquakes, such as the 2012 Guerrero–Oaxaca earthquake, the 2018 Gulf of Alaska earthquake and the 2019 Ridgecrest earthquakes, have caused standing waves known as seiches in Devils Hole, which can lead to an unseasonal spawning event due to the disruption of the pupfishes' environment. [42] [32] [33] The waves caused by earthquakes can scour the algae from the rocks (as well as eggs and larvae), affecting the food supply and spawning grounds. [39] Flash floods also disrupt the algae via debris swept into Devils Hole. [43]

In addition to the indirect threat of groundwater depletion, human actions can impact the pupfish in other ways as well. A 2004 flash flood swept scientific monitoring equipment into Devils Hole, causing the deaths of an estimated eighty pupfish. [44] In April 2016, three men broke into the Devils Hole protected area, destroying scientific equipment and wading onto the shallow shelf of Devils Hole, smashing pupfish eggs and larvae, as well as vomiting into the water. [45] [46]

Isolation over the course of thousands of years has led the Devils Hole pupfish to become what are believed to be one of the most inbred vertebrates on Earth, and the resulting high mutation load and genetic instability remains a potential long-term threat to the species as a whole. [47]

Water level at Devils Hole from 1967-1988. Points represent monthly mean maximums. Triangles on the x-axis correspond to 1) Suit filed in district court and three wells shut down (1971); 2) suit reactivated (1972); 3) preliminary injunction (1973); 4) permanent injunction (1974); 5) US Supreme Court ruling (1976); 6) final water level ordered by district court (1977). Devils hole water level.jpg
Water level at Devils Hole from 19671988. Points represent monthly mean maximums. Triangles on the x-axis correspond to 1) Suit filed in district court and three wells shut down (1971); 2) suit reactivated (1972); 3) preliminary injunction (1973); 4) permanent injunction (1974); 5) US Supreme Court ruling (1976); 6) final water level ordered by district court (1977).

In the late 1940s, ichthyologist Carl Leavitt Hubbs began campaigning for legal protection for Devils Hole and the pupfish. This led to President Harry S. Truman issuing a proclamation in 1952 that made Devils Hole part of Death Valley National Monument (now National Park). In 1956, the United States Geological Survey (USGS) installed the first water level recorder. [5] The fish was officially listed as an endangered species in 1967, [36] [38] making it one of the first species protected under the Endangered Species Act. [48]

In 1967, Spring Meadows, Inc. began purchasing large tracts of Ash Meadows, much from the Bureau of Land Management, in anticipation of developing 48.6 km2 (18.8 sq mi) of irrigated cropland. Many wells were drilled from 19671970, causing a decline of the water at Devils Hole by 1968. The level continued to drop through 1972, causing alarm as a 1969 study had determined that the shallow shelf was virtually the only feeding and spawning habitat available to the fish. Conservationists and public opinion began to rally for preservation of the pupfish, with a 1970 issue of the magazine Cry California stating that allowing it to go extinct would be "comparable to bombing the Louvre to make way for a parking lot". [5] :76 Two organizations were formed in support of the species: the Desert Fishes Council and the Desert Pupfish Task Force. [36]

In 1970, the USGS began a study to determine why the water level was receding at Devils Hole, concluding that a substantial withdrawal of groundwater would negatively affect the water level, and thus, pupfish habitat. In August 1971, the U. S. Department of Justice filed a complaint on behalf of the Department of the Interior, seeking to stop Spring Meadows from using three wells identified as having the greatest impact on Devils Hole. The basis for the argument was that when Devils Hole became part of a National Monument in 1952, sufficient water was thus reserved "to serve the requirements and purposes of the monument". Later that month, Spring Meadows and the federal government made an agreement that they would cease operation of the three identified wells, and not increase withdrawal at their other wells to compensate. [5] Though the water level briefly rose, [5] it once again entered a decline, exposing more than half the shallow shelf by summer 1972. [49] This caused the government to reactivate the suit in 1972. Now, they wanted Spring Meadows to cease using any wells within 4 km (2.5 mi) of Devils Hole for any non-domestic purpose based on the implied reservation doctrine established in Winters v. United States (1908). An injunction in favor of the government was issued in June 1973, which was appealed to the United States Court of Appeals for the Ninth Circuit (upheld in 1974) and the Supreme Court. [5] :79

In the case Cappaert vs. U.S. , decided in 1976, the Supreme Court upheld the injunction and determined that the district court should set the minimum water level necessary to ensure pupfish survival. [5] :79 The Court stated that by making Devils Hole part of a National Monument, the groundwater necessary to sustain the pupfish was implicitly reserved. [49] In 1977 the district court determined that the water level minimum would be 0.82 m (2.7 ft) below a reference point on the wall. [5]

Researchers conducting a population count of the Devils Hole pupfish Devils Hole pupfish counts.jpg
Researchers conducting a population count of the Devils Hole pupfish

In 1980, the U.S. Fish and Wildlife Service (USFWS) designated about 21,000 acres (8,500 ha) as essential habitat where the groundwater most influenced the water level in the Hole. [50] One of the identified goals of the recovery plan was to maintain the aquifer at such levels that the population fluctuates from 300 in winter to 700–900 in late summer. [36] The water source for Devils Hole pupfish were now protected from industrial use, but the rest of Ash Meadows was unprotected. [36] When the USFWS declined to purchase the land from Cappaert Enterprises, Ash Meadows was sold in 1980 to a property development company, Preferred Equities Corporation, who acquired additional nearby land with the intention of creating 33,636 residential parcels altogether. [5] :81–82 As the original injunction limited water with exception to domestic purposes, it was unclear if residents of the proposed subdivision would have to limit water usage in respect to the water level of Devils Hole. [5] :82 In 1982, Secretary of the Interior James Watt approved the emergency listing of two more Ash Meadows fish, the Ash Meadows pupfish (Cyprinodon nevadensis mionectes) and the Ash Meadows speckled dace (Rhinichthys osculus nevadensis). Further development by Preferred Equities would therefore almost certainly violate the Endangered Species Act. [5] :83 After protracted negotiations, The Nature Conservancy (a nonprofit) was able to purchase Ash Meadows for $5.5 million in February 1984, with reimbursement from the U.S. Federal Government of $5 million. By June 1984, Ash Meadows National Wildlife Refuge was established, as The Nature Conservancy transferred the property to the government. [5] :85 [51] By 1986, a recovery plan was drafted for all of Ash Meadows, encompassing Devils Hole. [36]

As of 2014, Devils Hole pupfish is evaluated as a critically endangered species by the IUCN. The species meets the criteria for this designation due to its extremely small extent of occurrence and area of occupancy, both of which are less than 1 km2 (0.39 sq mi). Additionally, the species is found in a single locality and has a very small population, often with fewer than 100 mature individuals. [1] In the state of Nevada, it is considered a protected species that is also endangered. [52]

Recovery actions

In the wild

Shortly after 1956, a locked gate was installed in a rock crevice of Devils Hole to limit public access to the site. [5] By 1970, as the shallow shelf was exposed by groundwater depletion, an artificial shelf was installed at Devils Hole. It was never used by the fish. [36] In 2005, 1.7 m3 (60 cu ft) of sediment was removed from the shallow shelf to encourage feeding and spawning. While the number of larvae appeared to increase as a result, the population still experienced a net decline over the following year. [53] In January 2006, biologists began supplementing the fish's food supply in response to observations of poor health and malnourishment. [54] After vandalism resulted in the death of a pupfish in 2016, the National Park Service added additional barbed wire to the top of the fences surrounding Devils Hole, also installing more motion sensors and video cameras. [55]

Ex situ conservation

Pupfish refuge at School Springs, now defunct Ash Meadows School Springs Refugium 4.jpg
Pupfish refuge at School Springs, now defunct

Due to the fear of extinction in the 1960s and 1970s, several measures were taken to create multiple populations of the pupfish outside of Devils Hole to safeguard the species, which is known as ex situ conservation. Some of these measures, such as transplanting the fish into nearby natural springs, quickly failed. The fish disappeared, though one population at Purgatory Spring was destroyed by biologists, as the fish were misshapen and no longer looked like Devils Hole pupfish. Two attempts were made at this time to establish aquaria populations, one at Steinhardt Aquarium and the other at Fresno State College, though these also failed. [56] A number of artificial "refugia" consisting of concrete tanks approximating conditions in Devils Hole were attempted to ensure the species' survival should the natural population at Devils Hole die out. The Hoover Dam Refugium for Endangered Desert Fish was established in August 1972, with the first twenty-seven pupfish translocated in October 1972. The Hoover Dam Refugium was successfully maintained for several years and reached a population of several hundred, though the sex ratio was highly skewed towards males with as many as three males per female. In 1985 or 1986, a component of the water supply system failed, however, killing many of the fish. Nearly all the remaining fish were killed by October 1986 when an additional failure caused the water temperature to drop drastically. The lone surviving fish was then removed. In 1973, a second refugium was established at Ash Meadows National Wildlife Refuge (AMNWR), the Amargosa Pupfish Station, also known as the School Springs refuge. [56] From the founding population of twenty-five fish, it remained at several dozen individuals until a power failure in August 1984 disrupted the water flow, reducing the population to seven. The population increased to 121 by October 1987. [57] In 1990, a third refugium was constructed, also at AMNWR, called Point of Rocks refuge. [58]

Historical attempts to maintain the refugia populations through traditional methods has been largely ineffective, blamed on the small founder population size of each refugium as well as maintenance failures. [58] The Point of Rocks refuge population unexpectedly had individuals appear with pelvic fins, which are not found in the species. Genetic evidence showed that around three individuals of the closely related C. nevadensis, which do have pelvic fins, invaded Point of Rocks between 1997 and 2005, hybridizing with the Devils Hole pupfish. The C. nevadensis genes quickly became highly prevalent in the gene pool, with researchers concluding, "...we add hybridization to the long list of problems that have conspired against successful propagation of C. diabolis in artificial settings outside of its native habitat". [30] The School Springs population was extirpated in 2003, the Hoover Dam refugia population became extirpated once more in 2006, and the Point of Rocks refuge was extirpated in 2007. [58]

Devils Hole pupfish tank as viewed from above at the Ash Meadows Fish Conservation facility Ash meadows fish conservation facility devils hole pupfish tank.png
Devils Hole pupfish tank as viewed from above at the Ash Meadows Fish Conservation facility

In May through August 2006, two pupfish from Devils Hole and five from the Hoover Dam Refuge were transferred to a Las Vegas Strip casino aquarium at Mandalay Bay with the hope of understanding how to breed the species in aquaria. Propagation efforts at Mandalay Bay failed, and by April 2007 all individuals had died or been transferred. [54] Also in 2006, six younger pupfish were moved from Devils Hole to the Willow Beach National Fish Hatchery in Arizona. [59] [54] Additionally, the eighteen remaining individuals from the Hoover Dam refuge were moved to Willow Beach. While early breeding efforts appeared successful and four larvae survived to adulthood, all individuals had died by December 2006, possibly from a form of leukemia. [53]

In the early 2010s, a full-scale replica of the upper 6.7 m (22 ft) of Devils Hole was built at the new Ash Meadows Fish Conservation Facility (AMFCF), [60] resulting in a 380,000 L (100,000 U.S. gal) tank. Located less than a mile away ( 36°25′25″N116°18′21″W / 36.42361°N 116.30583°W / 36.42361; -116.30583 (Ash Meadows Fish Conservation Facility) ), this refuge closely mimics the natural Devils Hole, including water chemistry, spawning shelf, and natural sunlight. It intentionally differs, however, in temperature and dissolved oxygen content. The temperature is 2–3 °C (3.6–5.4 °F) cooler than that of Devils Hole and the dissolved oxygen content is doubled in attempts to reduce thermal and respiratory stress on the fish. [60]

The population of Devils Hole pupfish at AMFCF was created by taking eggs from Devils Hole. However, eggs are only removed at times of the year when it is unlikely that they would develop into mature adults, such as in the winter. It is thought that egg removal during this time would therefore have the least impact on the population size at Devils Hole. [29] When transferred to AMFCF, the eggs are exposed to anti-fungal, anti-bacterial, and anti-parasite treatments. They are reared in the aquarium until adulthood, at which point they are transferred to the large refuge tank. [61] This procedure is also followed for eggs laid in the refuge tank. [24] While efforts have been made to remove the predaceous beetle Neoclypeodytes cinctellus from the captive population's tank to lessen its depredation on eggs, it has not been removed from Devils Hole. It is unknown how removal of the species could affect the Devils Hole ecosystem, and the number of beetles in Devils Hole is less than in the tank hosting the captive population. [24]

As of 2021, the efforts of the Ash Meadows Fish Conservation Facility have been considered "very successful" [21] :25:10 in maintaining a refuge population. At least fifty captive fish populated the refuge as of 2019, with an additional 10–20 in propagation tanks. [24]

Costs and public opinion

Bumper sticker from the 1960s expressing animosity towards the Devils Hole pupfish Kill the pupfish.jpg
Bumper sticker from the 1960s expressing animosity towards the Devils Hole pupfish

Millions of dollars have been spent conserving the Devils Hole Pupfish. The construction of the Ash Meadows Fish Conservation Facility alone, which opened in 2013, was estimated to cost $4.5 million. [48] Conservation efforts from January 2006 to May 2007 were $750,000. [62] The legal case over the rights to extract groundwater concluded that the Cappaert family, who invested $7 million into opening a ranch in the area, could no longer withdraw the same amount of water. [49] The Cappaert family's attorney decried that the Supreme Court had chosen the interests of a fish over people, and a newspaper editor from nearby Pahrump threatened to dump a pesticide into Devils Hole to kill them all. [55] In response to bumper stickers that read "Save the Pupfish" distributed by the Desert Fishes Council, Nye County Commissioner Robert Rudd produced bumper stickers that said "Kill the Pupfish". [56] The Cappaert family sold the ranch in the late 1970s. [55]

Population surveys of the Devils Hole pupfish began in 1972. [54] Population counts since then have been conducted using the same methods, with scuba diving researchers counting fish starting at depths of 30 m (100 ft) while researchers above the water count the individuals on the shallow shelf. [63] Surveys are carried out twice a year, once during the spring season and once during fall. [64]

From 1970 through 1996, the average population was 324. [38] Population highs were recorded in 1980, 1990, and 1995 at counts of 541548 individuals. [27] Since 2005, the population at Devils Hole has been below 200 individuals, although the population fluctuates depending on the season. [65] Low algae growth and other winter conditions cause spring populations to be 35–65% of the autumn population. [38] The reasons for the decline of the population are unclear. [38] [66] A 2014 study ascertained that the Devils Hole pupfish had a 2633% chance of becoming extinct in the next twenty years. [27]

In November 2005, divers counted just 84 individuals in the Devils Hole population, the same as the spring population, despite observations of egg-laying and juvenile fish during the summer. In 2007, between 38 and 42 fish were left in Devils Hole. [67]

The pupfish count rose in the autumn of 2008 to 126, the first steady increase in more than 10 years. [68] As of April 2013 U.S. Fish and Wildlife reported only 35 fish remain in their natural habitat, but increased to 92 when measured again in 2014. [38] As of spring 2016, a periodic count found 115 of the fish living in the waters. [69] In spring 2019, the pupfish population reached 136, the highest springtime population since 2003. [70]

Population counts were suspended in 2020 due to the COVID-19 pandemic; however, egg collection for ex situ cultivation continued. Observers noted encouraging signs of population growth, [71] and during the next count in April 2022, 175 pupfish were observed. [7] The population has continued to grow, with 263 observed pupfish in September 2022. [6] In spring 2024 the population was 191 individuals, the highest springtime count in 25 years. Increased nutrients for algae growth, swept into Devils Hole by runoff from Hurricane Hilary in 2023, may have contributed to the pupfish's proliferation. [64]

See also

Many of the various surviving local Cyprinodon species and subspecies (pupfish), including the Devils Hole pupfish, are on the IUCN Red List of threatened species:

Related Research Articles

<span class="mw-page-title-main">Mojave Desert</span> Desert in the southwestern United States

The Mojave Desert is a desert in the rain shadow of the southern Sierra Nevada mountains and Transverse Ranges in the Southwestern United States. Named for the indigenous Mohave people, it is located primarily in southeastern California and southwestern Nevada, with small portions extending into Arizona and Utah.

<span class="mw-page-title-main">Death Valley pupfish</span> Small endangered fish native to Death Valley, California

The Death Valley pupfish, also known as Salt Creek pupfish, is a small species of fish in the family Cyprinodontidae found only in Death Valley National Park, California, United States. There are two recognized subspecies: C. s. salinus and C. s. milleri. The Death Valley pupfish is endemic to two small, isolated locations and currently classified as endangered.

<span class="mw-page-title-main">Amargosa River</span> River in Nevada and California, United States

The Amargosa River is an intermittent waterway, 185 miles (298 km) long, in southern Nevada and eastern California in the United States. The Amargosa River is one out of two rivers located in the California portion of the Mojave Desert with perennial flow. It drains a high desert region, the Amargosa Valley in the Amargosa Desert northwest of Las Vegas, into the Mojave Desert, and finally into Death Valley where it disappears into the ground aquifer. Except for a small portion of its route in the Amargosa Canyon in California and a small portion at Beatty, Nevada, the river flows above ground only after a rare rainstorm washes the region. A 26-mile (42 km) stretch of the river between Shoshone and Dumont Dunes is protected as a National Wild and Scenic River. At the south end of Tecopa Valley the Amargosa River Natural Area protects the habitat.

<span class="mw-page-title-main">Tecopa pupfish</span> Extinct subspecies of fish

The Tecopa pupfish is an extinct subspecies of the Amargosa pupfish. The small, heat-tolerant pupfish was endemic to the outflows of a pair of hot springs in the Mojave Desert of Inyo County, California. Habitat modifications, the introduction of non-native species and hybridization with the related Amargosa River pupfish led to its extinction around 1979.

<span class="mw-page-title-main">Shoshone pupfish</span> Subspecies of fish

The Shoshone pupfish is a subspecies of Amargosa pupfish from California in the United States. They are spring-dwelling fish, endemic to Shoshone Springs on the outskirts of Shoshone, Inyo County, California. In 1969, the Shoshone pupfish was declared extinct until their eventual rediscovery by a team of biologists during a survey of Shoshone Springs in 1986. Currently, they are listed as endangered by the American Fisheries Society and are a species of special concern according to the California Department of Fish and Wildlife. Several stocks of the fish are being cultivated in captivity at the University of Nevada, Las Vegas and University of California, Davis for reintroduction into the Shoshone Spring. Today, people pass through the town of Shoshone to visit the spring site and view the rare pupfish, where some infographics and signs educate visitors about them.

<span class="mw-page-title-main">Ash Meadows National Wildlife Refuge</span> Protected area in the Amargosa Valley of southern Nye County, Nevada

The Ash Meadows National Wildlife Refuge is a protected wildlife refuge located in the Amargosa Valley of southern Nye County, in southwestern Nevada. It is directly east of Death Valley National Park, and is 90 mi (140 km) west-northwest of Las Vegas.

<span class="mw-page-title-main">Amargosa Desert</span> Desert in Nevada and California, United States

The Amargosa Desert is located in Nye County in western Nevada, United States, along the California–Nevada border, comprising the northeastern portion of the geographic Amargosa Valley, north of the Ash Meadows National Wildlife Refuge.

<span class="mw-page-title-main">Pupfish</span> Family of fishes

Pupfish are a group of small killifish belonging to ten genera of the family Cyprinodontidae of ray-finned fish. Pupfish are especially noted for being found in extreme and isolated situations. They are primarily found in North America, South America, and the Caribbean region. As of August 2006, 120 nominal species and 9 subspecies were known. Several pupfish species are extinct and most extant species are listed. In the U.S., the most well-known pupfish species may be the Devils Hole pupfish, native to Devils Hole on the Nevada side of Death Valley National Park. Since 1995 the Devils Hole pupfish has been in a nearly steady decline, where it was close to extinction at 35–68 fish in 2013.

<span class="mw-page-title-main">Devils Hole</span> Spring in Nye County, Nevada, United States

Devils Hole is a geologic formation located in a detached unit of Death Valley National Park and surrounded by the Ash Meadows National Wildlife Refuge, in Nye County, Nevada, in the Southwestern United States.

<i>Cyprinodon</i> Genus of fishes

Cyprinodon is a genus of pupfishes found in waters that range from fresh to hypersaline. The genus is primarily found in Mexico, the Caribbean Islands and southern United States, but C. variegatus occurs as far north as Massachusetts and along the entire Gulf of Mexico coastline, and C. dearborni and C. variegatus are found in northern South America. Many species have tiny ranges and are highly threatened, in some cases already extinct. Cyprinodon are small; the largest reaches 10 cm (3.9 in) in length and most other species only reach about half that size.

Robert Rush Miller was an important figure in American ichthyology and conservation from 1940 to the 1990s.

<span class="mw-page-title-main">Comanche Springs pupfish</span> Species of fish

The Comanche Springs pupfish is a species of pupfish in the family Cyprinodontidae. It is endemic to Texas, and is now found only in spring-fed pools near Balmorhea, a small town in West Texas.

<span class="mw-page-title-main">Owens pupfish</span> Species of fish

The Owens pupfish is a rare species of fish in the family Cyprinodontidae, the pupfish. It is endemic to California in the United States, where it is limited to the Owens Valley. It is a federally listed endangered species of the United States. This pupfish is up to 5 centimetres long, the largest males sometimes longer. The male is blue-gray, turning bright blue during spawning. The female is greenish brown with a silvery or whitish belly.

<span class="mw-page-title-main">Catarina pupfish</span> Species of fish

The Catarina pupfish was a diminutive species of fish in the family Cyprinodontidae, first described in 1972. It was endemic to a spring in Nuevo León, Mexico. In an attempt of saving the rapidly declining species, some were brought into captivity in the late 1980s and early 1990s, but it proved very difficult to maintain. In 1994 it became extinct in the wild. Gradually the captive populations also perished. The last male died in 2014 and the species became extinct.

<span class="mw-page-title-main">Desert pupfish</span> Species of fish

The desert pupfish is a rare species of bony fish in the family Cyprinodontidae. It is a small fish, typically less than 7.62 cm (3 in) in length. Males are generally larger than females, and have bright-blue coloration, while females and juveniles are silvery or tan. A notable attribute of the desert pupfish is their ability to survive in environments of extreme salinity, pH, and temperature, and low oxygen content. The desert pupfish mates in a characteristic fashion, wherein compatible males and females will come in contact and collectively jerk in an s-shape. Each jerk typically produces a single egg that is fertilized by the male and deposited in his territory. Breeding behavior includes aggressive arena-breeding and more docile consort-pair breeding.

<span class="mw-page-title-main">Sonoyta pupfish</span> Species of fish

The Sonoyta pupfish or Quitobaquito pupfish is an endangered species of pupfish from Sonora in Mexico and Arizona in the United States.

The Death Valley freshwater ecoregion is a freshwater ecoregion in the western United States. It consists of endorheic rivers, lakes, and springs in the drainages of the Owens, Amargosa, and Mojave Rivers, in central-eastern California and southwestern Nevada.

The Saratoga Springs pupfish is a subspecies of the Amargosa pupfish of the family Cyprinodontidae. The native population is endemic to Saratoga Springs, a small wetland in Death Valley National Park in the United States.

<i>Cyprinodon nevadensis</i> Species of fish

Cyprinodon nevadensis is a species of pupfish in the genus Cyprinodon. The species is also known as the Amargosa pupfish, but that name may also refer to one subspecies, Cyprinodon nevadensis amargosae. All six subspecies are or were endemic to very isolated locations in the Mojave Desert of California and Nevada.

References

  1. 1 2 NatureServe (2014). "Cyprinodon diabolis". IUCN Red List of Threatened Species . 2014: e.T6149A15362335. doi: 10.2305/IUCN.UK.2014-3.RLTS.T6149A15362335.en . Retrieved 19 November 2021.
  2. "Devils Hole pupfish (Cyprinodon diabolis)". Environmental Conservation Online System. U.S. Fish & Wildlife Service. Retrieved 17 April 2023.
  3. 32 FR 4001
  4. Greenfieldboyce, Nell (7 July 2023). "Against all odds, the rare Devils Hole pupfish keeps on swimming". NPR News.
  5. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Deacon, James E.; Deacon Williams, Cynthia (2017). "Ash Meadows and the Legacy of the Devils Hole pupfish". In Minckley, W. L.; Deacon, James E. (eds.). Battle Against Extinction: Native Fish Management in the American West. University of Arizona Press. pp. 69–80. ISBN   9780816537822.
  6. 1 2 "Devils Hole pupfish population at 19-year high". U.S Fish and Wildlife Service. United States Fish and Wildlife Service. 30 September 2022. Retrieved 4 October 2022.
  7. 1 2 "Devils Hole Pupfish Spring Season Population Count Highest in 22 Years". National Park Service. 12 April 2022. Retrieved 10 May 2022.
  8. "The Devil's Hole pupfish has paddled back from the brink in a hellish desert domain". Los Angeles Times. 4 May 2022. Retrieved 10 May 2022.
  9. 1 2 Echelle, Anthony A. (2008). "The western North American pupfish clade (Cyprinodontidae:Cyprinodon): Mitochondrial DNA divergence and drainage history". In Reheis, Marith C.; Hershler, Robert; Miller, David M. (eds.). Late Cenozoic Drainage History of the Southwestern Great Basin and Lower Colorado River Region: Geologic and Biotic Perspectives. Geological Society of America. pp. 27–35. ISBN   9780813724393.
  10. Wales, Joseph H. (1930). "Biometrical Studies of Some Races of Cyprinodont Fishes, from the Death Valley Region, with Description of Cyprinodon diabolis, n. Sp". Copeia. 1930 (3): 61–70. doi:10.2307/1437054. JSTOR   1437054.
  11. La Rivers, Ira (1994). Fishes and Fisheries of Nevada. University of Nevada Press. p. 509. ISBN   9780874172560.[ permanent dead link ]
  12. Archibold, Randal C. (22 August 2008). "Devils Hole Pupfish, Saved by Court in '76, Is at Brink in '08". The New York Times. Archived from the original on 15 October 2019. Retrieved 15 October 2019.
  13. Reed, J. M.; Stockwell, C. A. (2014). "Evaluating an icon of population persistence: the Devil's Hole pupfish" (PDF). Proceedings of the Royal Society B: Biological Sciences. 281 (1794): 20141648. doi:10.1098/rspb.2014.1648. PMC   4211452 . PMID   25232135. Archived (PDF) from the original on 13 August 2016. Retrieved 25 June 2016.
  14. Martin, Christopher H.; Crawford, Jacob E.; Turner, Bruce J.; Simons, Lee H. (27 January 2016). "Diabolical survival in Death Valley: recent pupfish colonization, gene flow and genetic assimilation in the smallest species range on earth". Proceedings of the Royal Society B: Biological Sciences. 283 (1823): 20152334. doi:10.1098/rspb.2015.2334. PMC   4795021 . PMID   26817777.
  15. Martin, Christopher H.; Höhna, Sebastian (2018). "New evidence for the recent divergence of Devil's Hole pupfish and the plausibility of elevated mutation rates in endangered taxa". Molecular Ecology. 27 (4): 831–838. Bibcode:2018MolEc..27..831M. doi: 10.1111/mec.14404 . PMID   29148600.
  16. Sağlam, İsmail K.; Baumsteiger, Jason; Smith, Matt J.; Linares-Casenave, Javier; et al. (2016). "Phylogenetics supports an ancient common origin of two scientific icons: Devils Hole and Devils Hole pupfish". Molecular Ecology. 25 (16): 3962–73. Bibcode:2016MolEc..25.3962S. doi:10.1111/mec.13732. PMID   27314880. S2CID   21832372.
  17. Lynch, Michael (1 August 2010). "Evolution of the mutation rate". Trends in Genetics. 26 (8): 345–352. doi:10.1016/j.tig.2010.05.003. ISSN   0168-9525. PMC   2910838 . PMID   20594608.
  18. 1 2 Froese, Rainer; Pauly, Daniel (eds.). "Species in genus Cyprinodon". FishBase . June 2019 version.
  19. Froese, Rainer; Pauly, Daniel (eds.). "Cyprinodon diabolis". FishBase . December 2019 version.
  20. 1 2 3 Sigler, John W. (2016). Fishes of the Great Basin: A Natural History. University of Nevada Press. pp. 306–307. ISBN   9780874170139.
  21. 1 2 3 4 Halverson, Anders; Gumm, Jennifer (24 October 2021). "Dr. Jennifer Gumm talks Devils Hole pupfish, one of the rarest and most remarkable fish in the world". The Fisheries Podcast (Podcast). Retrieved 7 December 2021.
  22. "Fish Glossary". Sea Grant University of Wisconsin. 11 September 2018. Archived from the original on 15 October 2019. Retrieved 15 October 2019.
  23. 1 2 3 Minckley, C. O.; Deacon, James E. (1975). "Foods of the Devil's Hole Pupfish, Cyprinodon diabolis (Cyprinodontidae)". The Southwestern Naturalist. 20 (1): 105–111. doi:10.2307/3670016. JSTOR   3670016.
  24. 1 2 3 4 Bittel, Jason (1 March 2019). "Brutal beetles kept world's rarest fish from breeding—until now". National Geographic. Archived from the original on 11 October 2019. Retrieved 10 October 2019.
  25. 1 2 Feher, Karly (2019). Winter dynamics in mountain lakes and impacts of an introduced species to the endangered Devils Hole pupfish (PDF) (MSc). University of Nevada, Reno.
  26. 1 2 Dasgupta, Shreya (7 February 2018). "Earthquake triggers spawning in world's rarest fish a few thousand miles away". Mongabay. Archived from the original on 17 October 2019. Retrieved 17 October 2019.
  27. 1 2 3 4 Beissinger, Steven R. (2014). "Digging the pupfish out of its hole: Risk analyses to guide harvest of Devils Hole pupfish for captive breeding". PeerJ. 2: e549. doi: 10.7717/peerj.549 . PMC   4168763 . PMID   25250212.
  28. Minckley, Charles O.; Deacon, James E. (1973). "Observations on the Reproductive Cycle of Cyprinodon diabolis". Copeia. 1973 (3): 610. doi:10.2307/1443137. JSTOR   1443137.
  29. 1 2 "PACIFIC SOUTHWEST REGION: New Home for the Next Generation of Devils Hole Pupfish". US Fish & Wildlife Service FieldNotes. 11 December 2013. Archived from the original on 1 October 2017. Retrieved 15 October 2019.
  30. 1 2 Martin, Andrew P.; Echelle, Anthony A.; Zegers, Gerard; Baker, Sherri; Keeler-Foster, Connie L. (2012). "Dramatic shifts in the gene pool of a managed population of an endangered species may be exacerbated by high genetic load". Conservation Genetics. 13 (2): 349–358. Bibcode:2012ConG...13..349M. doi:10.1007/s10592-011-0289-7. S2CID   18787697.
  31. 1 2 Hausner, Mark B.; Wilson, Kevin P.; Gaines, D. Bailey; Suárez, Francisco; Scoppettone, G. Gary; Tyler, Scott W. (2014). "Life in a fishbowl: Prospects for the endangered Devils Hole pupfish (Cyprinodon diabolis) in a changing climate". Water Resources Research. 50 (8): 7020–7034. Bibcode:2014WRR....50.7020H. doi: 10.1002/2014WR015511 .
  32. 1 2 Pasternack, Alex (30 January 2018). "How A Quake In Alaska Moved The Rarest Fish To Spawn In Death Valley". Fast Company. Archived from the original on 14 October 2019. Retrieved 14 October 2019.
  33. 1 2 McKinnon, Mika (26 January 2018). "Alaska's Earthquake Caused Endangered Desert Pupfish to Spawn". Smithsonian Magazine. Archived from the original on 26 January 2018. Retrieved 27 January 2018.
  34. 1 2 3 4 Baugh, Thomas M.; Deacon, James E. (1983). "Daily and Yearly Movement of the Devil's Hole Pupfish Cyprinodon Diabolis Wales in Devil's Hole, Nevada". The Great Basin Naturalist. 43 (4): 592–596. JSTOR   41712019.
  35. Heuton, M.; Ayala, L.; Burg, C.; Dayton, K.; McKenna, K.; Morante, A.; Puentedura, G.; Urbina, N.; Hillyard, S.; Steinberg, S.; Van Breukelen, F. (2015). "Paradoxical anaerobism in desert pupfish". The Journal of Experimental Biology. 218 (Pt 23): 3739–3745. doi: 10.1242/jeb.130633 . PMID   26632453. S2CID   8216972.
  36. 1 2 3 4 5 6 7 8 PD-icon.svg This article incorporates public domain material from Devils Hole. National Park Service. 11 August 2019. Archived from the original on 13 October 2019. Retrieved 14 October 2019.
  37. 1 2 3 4 Andersen, Matthew E.; Deacon, James E. (2001). "Population Size of Devils Hole Pupfish (Cyprinodon diabolis) Correlates with Water Level". Copeia. 1: 224–228. doi:10.1643/0045-8511(2001)001[0224:PSODHP]2.0.CO;2. ISSN   0045-8511. S2CID   85845126.
  38. 1 2 3 4 5 6 "Devils Hole Pupfish". U.S. Fish and Wildlife Service. 2 December 2013. Archived from the original on 15 May 2016. Retrieved 14 May 2016.
  39. 1 2 Shalby, Colleen (25 July 2019). "The rarest fish on Earth rode out 10-foot waves when Ridgecrest earthquake hit". Los Angeles Times . Archived from the original on 25 July 2019. Retrieved 25 July 2019.
  40. "Devil's Hole Pupfish Status Remains Precarious". U.S. National Park Service. 30 January 2012. Archived from the original on 18 May 2016. Retrieved 14 May 2016.
  41. Hausner, Mark B.; Wilson, Kevin P.; Gaines, D. Bailey; Suárez, Francisco; Scoppettone, G. Gary; Tyler, Scott W. (2016). "Projecting the effects of climate change and water management on Devils Hole pupfish (Cyprinodon diabolis) survival". Ecohydrology. 9 (4): 560–573. Bibcode:2016Ecohy...9..560H. doi:10.1002/eco.1656. S2CID   131678800.
  42. Shalby, Colleen (24 July 2019). "The rarest fish on Earth rode out 10-foot waves when Ridgecrest earthquake hit". Los Angeles Times. Retrieved 12 March 2022.
  43. Baugh, Tom; Deacon, James E. (1983). "The Most Endangered Pupfish". Freshwater and Marine Aquarium.
  44. "Devil's Hole Pupfish Further Endangered by Rising Temperatures". Death Valley Area News. Retrieved 13 October 2019.
  45. "3rd Man Sentenced in Devils Hole Pupfish Case". National Park Service. 25 October 2018. Archived from the original on 13 October 2019. Retrieved 13 October 2019.
  46. Palmer, Katie M. (May 2016). "The Devils Hole Pupfish Just Can't Catch a Break". Wired. Archived from the original on 22 December 2016. Retrieved 13 October 2019.
  47. Tian, David; Patton, Austin; Turner, Bruce; Martin, Christopher (2 November 2022). "Severe inbreeding, increased mutation load and gene loss-of-function in the critically endangered Devils Hole pupfish". The Royal Society Publishing. 289 (1986). doi:10.1098/rspb.2022.1561. hdl: 10919/114744 . PMC   9627712 . PMID   36321496. S2CID   253246972.
  48. 1 2 Bittel, Jason (29 October 2014). "Should We Really Save the Devils Hole Pupfish?". National Resources Defense Council. Archived from the original on 15 October 2019. Retrieved 14 October 2019.
  49. 1 2 3 "United States v. Cappaert; Cappaert v. United States". Environmental Law Reporter. 1975. Archived from the original on 18 March 2019. Retrieved 14 October 2019.
  50. BIO-WEST (September 2009). "Environmental Assessment for Fairbanks Spring and Soda Spring Restoration" (PDF). U.S. Fish and Wildlife Service. EA #84550-10-01. Archived from the original (PDF) on 28 December 2016. Retrieved 17 May 2016.
  51. "History of Ash Meadows". U.S. Fish and Wildlife Service. 17 April 2015. Archived from the original on 10 June 2016. Retrieved 17 May 2016.
  52. "NAC Chapter 503 - Hunting, Fishing, and Trapping, Miscellaneous Protective Measures". Nevada Legislature. Archived from the original on 8 July 2016. Retrieved 16 October 2019.
  53. 1 2 Wullschleger, John (2006). "Devils Hole Pupfish Recovery Effort Continues". In United States. National Park Service. Water Resources Division (ed.). Annual Report. U.S. Department of the Interior.
  54. 1 2 3 4 "NEVADA: Species Update: The Devils Hole Pupfish". US Fish & Wildlife Service FieldNotes. 25 July 2019. Archived from the original on 1 October 2017. Retrieved 13 October 2019.
  55. 1 2 3 Blankenbuehler, Paige (15 April 2019). "How a tiny endangered species put a man in prison". High Country News. Archived from the original on 29 August 2019. Retrieved 14 October 2019.
  56. 1 2 3 Norment, Christopher (2014). Relicts of a Beautiful Sea: Survival, Extinction, and Conservation in a Desert World. UNC Press Books. pp. 125–135. ISBN   9781469618661.
  57. Baugh, Thomas M.; Deacon, James E. (1988). "Evaluation of the role of refugia in conservation efforts for the Devils Hole pupfish,Cyprinodon diabolis Wales". Zoo Biology. 7 (4): 351–358. doi:10.1002/zoo.1430070406.
  58. 1 2 3 Karam, Abraham P.; Parker, Michael S.; Lyons, Lindsey T. (2012). "Ecological Comparison between Three Artificial Refuges and the Natural Habitat for Devils Hole Pupfish". North American Journal of Fisheries Management. 32 (2): 224–238. Bibcode:2012NAJFM..32..224K. doi:10.1080/02755947.2012.672870.
  59. "Recovery Actions, May 19, 2006". Devils Hole Pupfish. Fish and Wildlife Service. 28 September 2012. Archived from the original on 5 June 2016. Retrieved 14 May 2016.
  60. 1 2 Sackett, Joshua D.; Huerta, Desiree C.; Kruger, Brittany R.; Hamilton-Brehm, Scott D.; Moser, Duane P. (2018). "A comparative study of prokaryotic diversity and physicochemical characteristics of Devils Hole and the Ash Meadows Fish Conservation Facility, a constructed analog". PLOS ONE. 13 (3): e0194404. Bibcode:2018PLoSO..1394404S. doi: 10.1371/journal.pone.0194404 . PMC   5854365 . PMID   29543879.
  61. "Ash Meadows Fish Conservation Facility". Ash Meadows National Wildlife Refuge. Archived from the original on 1 July 2019. Retrieved 15 October 2019.
  62. Squatriglia, Chuck (27 May 2007). "Desert pupfish in hot water / Only 42 left: Creature whose plight led to the Endangered Species Act is on the brink -- researchers don't know why". SF Gate. Archived from the original on 16 October 2019. Retrieved 16 October 2019.
  63. "Devils Hole Pupfish Population Reaches High". National Park Service. 10 October 2018. Archived from the original on 13 October 2019. Retrieved 13 October 2019.
  64. 1 2 Liz Kimbrough (30 May 2024). "A tiny desert fish hits a 25 year population high in one of Earth's harshest environments". Mongabay. Retrieved 7 June 2024.
  65. "Devils Hole pupfish population counts 1972–1994". Desert Fishes Council. Archived from the original on 30 June 2014. Retrieved 10 May 2016.
  66. Rake, Launce (21 December 2005). "Scientists have devil of a time with pupfish". Las Vegas Sun . Archived from the original on 3 October 2013. Retrieved 15 February 2013.
  67. Squatriglia, Chuck (27 May 2007). "Desert pupfish in hot water". San Francisco Chronicle. Archived from the original on 18 September 2011. Retrieved 18 December 2019.
  68. "Number of Devil's Hole pupfish increasing". Los Angeles Times. 14 October 2008. Archived from the original on 4 June 2016. Retrieved 10 May 2016.
  69. "Men Questioned Over Pupfish Death". Associated Press. 13 May 2016. Archived from the original on 15 May 2016. Retrieved 14 May 2016.
  70. "Devils Hole Pupfish Population Reaches 136". National Park Service. 3 May 2019. Archived from the original on 11 October 2019. Retrieved 11 October 2019.
  71. Davis, Hillary (8 July 2021). "Pandemic delays pupfish count but biologists note encouraging signs". Las Vegas Sun Newspaper. Retrieved 30 January 2022.