Wednesday, May 30, 2012

Serpent-handling pastor profiled earlier in Washington Post dies from rattlesnake bite

Pastor Mack Wolford, a member of the Pentecostal "Signs Following" tradition, handles a
rattlesnake during a service at the Church of the Lord Jesus in Jolo, W.V., in this Sept. 2,
2011, photo. (Lauren Pond for the Washington Post via Getty Images)

By Julia Duin, Washington Post: May 29

Mack Wolford, a flamboyant Pentecostal pastor from West Virginia whose serpent-handling talents were profiled last November in The Washington Post Magazine , hoped the outdoor service he had planned for Sunday at an isolated state park would be a “homecoming like the old days,” full of folks speaking in tongues, handling snakes and having a “great time.” But it was not the sort of homecoming he foresaw.

Instead, Wolford, who turned 44 the previous day, was bitten by a rattlesnake he owned for years. He died late Sunday.

Mark Randall “Mack” Wolford was known all over Appalachia as a daring man of conviction. He believed that the Bible mandates that Christians handle serpents to test their faith in God — and that, if they are bitten, they trust in God alone to heal them.

He and other adherents cited Mark 16:17-18 as the reason for their
practice: “And these signs will follow those who believe: in My name they will cast out demons; they will speak with new tongues; they will take up serpents; and if they drink anything deadly, it will by no means hurt them; they will lay their hands on the sick, and they will recover.”

The son of a serpent handler who himself died in 1983 after being bitten, Wolford was trying to keep the practice alive, both in West Virginia, where it is legal, and in neighboring states where it is not. He was the kind of man reporters love: articulate, friendly and appreciative of media attention. Many serpent-handling Pentecostals retreat from journalists, but Wolford didn’t. He’d take them on snake-hunting expeditions.

Last Sunday started as a festive outdoor service on a sunny afternoon at Panther Wildlife Management Area, a state park roughly 80 miles west of Bluefield, W.Va. In the preceding days, Wolford had posted several teasers on his Facebook page asking people to attend.

“I am looking for a great time this Sunday,” he wrote May 22. “It is going to be a homecoming like the old days. Good ’ole raised in the holler or mountain ridge running, Holy Ghost-filled speaking-in-tongues sign believers.”

“Praise the Lord and pass the rattlesnakes, brother” he wrote on May 23. He also invited his extended family, who had largely given up the practice of serpent handling, to come to the park.

“At one time or another, we had handled [snakes], but we had backslid,” his sister, Robin Vanover, said Monday evening. “His birthday was Saturday, and all he wanted to do is get his brothers and sisters in church together.”

And so they were gathered at this evangelistic hootenanny of Christian praise and worship. About 30 minutes into the service, his sister said, Wolford passed a yellow timber rattlesnake to a church member and his mother.

“He laid it on the ground,” she said, “and he sat down next to the snake, and it bit him on the thigh.”

A state forester, who was not authorized to speak on the record, said park officials were unaware of Wolford’s activities. “Had we known he had poisonous animals, we would have never allowed it,” he said.

The festivities came to a halt shortly thereafter, and Wolford was taken back to a relative’s house in Bluefield to recover, as he always had when suffering from previous snake bites. By late afternoon, it was clear that this time was different, and desperate messages began flying about on Facebook, asking for prayer.

Wolford got progressively worse. Paramedics transported him to Bluefield Regional Medical Center, where he was pronounced dead. It could not be determined when the paramedics were called.

Wolford was 15 when he saw his father die at age 39 of a rattlesnake bite in almost exactly the same circumstances.

“He lived 101 / 2 hours,” Wolford told The Washington Post last fall.
“When he got bit, he said he wanted to die in the church. Three hours after he was bitten, his kidneys shut down. After a while, your heart stops. I hated to see him go, but he died for what he believed in.”

According to people who witnessed Mack Wolford’s death, history repeated itself. He was bitten roughly at 1:30 p.m.; he died about 11 that night.

One of the people present was Lauren Pond, 26, a freelance photographer from the District. She had been photographing serpent handlers in the area for more than a year, including for The Post, and stayed at Wolford’s home in November.

“He helped me to understand the faith instead of just documenting it,”
she said Tuesday. “He was one of the most open pastors I’ve ever met.
He was a friend and a teacher.”

The family allowed her to stay near Wolford’s side Sunday night, and she’s still recovering from having witnessed the pastor’s agonizing death. “I didn’t see the bite,” she said. “I saw the aftermath.”

In an interview with The Post for last year’s story, Jim Murphy, curator of the Reptile Discovery Center at the National Zoo, described what happens when a rattlesnake bites.

The pain is “excruciating,” he said. “The venom attacks the nervous system. It’s vicious and gruesome when it hits.”

But Wolford refused to fear the creatures. He slung poisonous snakes around his neck, danced with them, even laid down on or near them. He displayed spots on his right hand where copperheads had sunk their fangs. His home in Bluefield had a spare bedroom filled with at least eight venomous snakes: usually rattlers, water moccasins and copperheads that he fed rats and mice. He was passionate about wanting to help churches in nearby states — including North Carolina and Tennessee, where the practice is illegal — start up their own serpent-handling services.

“I promised the Lord I’d do everything in my power to keep the faith going,” he said in October. “I spend a lot of time going a lot of places that handle serpents to keep them motivated. I’m trying to get anybody I can get involved.”

His funeral will be held Saturday at his church, House of the Lord Jesus, in Matoaka, just north of Bluefield.

Julia Duin, a contributing writer for The Washington Post Magazine, wrote the original article about Mack Wolford.

Tuatara's Chew

New Zealand's tuatara has a unique way of chewing its food, say scientists who have studied its jaws in detail.

This beak-headed reptile uses a "steak-knife sawing motion" as it chews.

This could help explain how the species has continued to adapt to a changing world - and changes in available prey - over more than 200 million years.

A computer model of the tuatara, recreating its jaws as it munched on prey, has revealed that it chews like no other land animal.

The tuatara's lower jaw slides forward "to slice food apart like a saw"

This seems to allow it to "slice up" food that is too big for its mouth.

In their paper in the journal The Anatomical Record, the researchers describe how the teeth of the tuatara's lower jaw close between two upper rows of teeth "before sliding forward to slice food apart like a draw-cut saw".

Lead researcher Marc Jones from University College London said this was very unlike any living lizard or snake, which used "more of a simple opening and closing" motion.

The UK-based researchers were able to observe and film chewing tuataras at Chester Zoo.

Dr Jones and his colleagues from the universities of Hull and York then used this footage to accurately digitise and simulate the creature's characteristic chomp.

Dr Jones said that the "slicing jaws" of the tuatara allowed it to eat a wide range of prey including beetles, spiders, crickets and small lizards.

But he added that this study helped to explain some rather gruesome discoveries in the reptile's habitat.

"People have described finding seabirds with their heads sawn off," he told BBC Nature.

"Tuatara will tend to go for hatchlings if they can, but as far as I can make out [they] do sometimes take small adults.

"[We think] they change their diet seasonally - eating lots more seabirds during the summer."

Although the tuatara looks very much like a lizard, it actually belongs to a group of animals commonly known as beak heads, or Rhynchocephalia in the formal terminology.

The reptile, found wild only in New Zealand, is the last surviving species of its group. Its relatives died out more than 200 million years ago.

At that time, the creatures were spread throughout the globe; scientists have found some the fossilised remains of the tuatara's extinct relatives in the UK.

It is not entirely clear how and why the rest of these ancient reptiles became extinct, but the tuatara's ability to saw up its food could be a secret to its continued survival.

Marc Jones, Paul O'Higgins, Michael Fagan, Susan Evans & Neil Curtis. Shearing mechanics and the influence of a flexible symphysis during oral food processing in Sphenodon (Lepidosauria: Rhynchocephalia). The Anatomical Record, 29 May, 2012

Leatherback Hatchlings & Climate

When leatherback turtle hatchlings dig out of their nests buried in the sandy Playa Grande beach in northwest Costa Rica, they enter a world filled with dangers. This critically endangered species faces threats that include egg poaching and human fishing practices. Now, Drexel University researchers have found that the climate conditions at the nesting beach affect the early survival of turtle eggs and hatchlings. They predict, based on projections from multiple models, that egg and hatchling survival will drop by half in the next 100 years as a result of global climate change.

"Temperature and humidity inside the nest are significant factors affecting egg and hatchling survival," said Dr. James Spotila, the Betz Chair Professor of Environmental Science in Drexel's College of Arts and Sciences, and senior author of the study reported May 23 in the journal PLoS ONE. Spotila and colleagues, including lead author Dr. Pilar Santidrian Tomillo of Drexel, therefore examined the relationship between regional climate patterns with leatherback turtles' nesting success over six consecutive nesting seasons at Playa Grande. This beach is the major nesting site for leatherback turtles in the eastern Pacific Ocean, containing more than 40 percent of nests.

"We have discovered a clear link between climate and survival of this endangered sea turtle population," said Spotila.

The turtles' hatching success and success emerging from the nest was significantly correlated with weather patterns associated with the El Niño Southern Oscillation (ENSO). ENSO is an irregular pattern of periodic climate variation, shifting between "El Niño" periods with warmer sea surface temperature conditions in the eastern tropical Pacific, and "La Niña" conditions with cooler sea surface temperatures, with ENSO neutral conditions in between. The El Niño cycle is known to influence many ecological processes that vary from location to location.

The researchers found that warmer, dryer El Niño conditions were associated with significantly higher mortality for eggs and hatchlings. Using projections of global climate change due to global warming over the next 100 years, they predicted that El Niño conditions will become more frequent and hatchling success will decline throughout the 21st century at Playa Grande and other nesting beaches that experience similar effects.

As climate conditions change, leatherbacks nesting at Playa Grande cannot move to other beaches. Spotila noted that the beach characteristics and off-shore ocean currents move hatchlings to feeding grounds on a kind of "hatchling highway" that makes Playa Grande an optimal nesting location for leatherbacks that other beaches cannot replace. Spotila was senior author of a modeling study demonstrating this pattern, led by Dr. George Shillinger of Stanford University and published in the June 2012 issue of Proceedings of the Royal Society B.

Spotila has conducted research with nesting leatherback turtles at Las Baulas Park in Costa Rica, where Playa Grande is located, for 22 years. He recently joined the faculty of Drexel's new Department of Biodiversity, Earth and Environmental Science (BEES), formed as a result of the University's unique affiliation with the Academy of Natural Sciences, the oldest natural history museum in the U.S. and a world leader in biodiversity and environmental research.

"The focus on field research and experiential learning in the BEES department will enable more research in environmental science in more places around the world," Spotila said. "As in our long-term leatherback studies, more research by Drexel and Academy students and scientists will contribute to a better understanding of what actions are needed to protect species and environments in critical danger."

Leatherback turtles, Spotila says, are in critical need of human help to survive. "Warming climate is killing eggs and hatchlings," Spotila said. "Action is needed, both to mitigate this effect and, ultimately, to reverse it to avoid extinction. We need to change fishing practices that kill turtles at sea, intervene to cool the beach to save the developing eggs and find a way to stop global warming. Otherwise, the leatherback and many other species will be lost."

G. L. Shillinger, E. Di Lorenzo, H. Luo, S. J. Bograd, E. L. Hazen, H. Bailey, J. R. Spotila. On the dispersal of leatherback turtle hatchlings from Mesoamerican nesting beaches. Proceedings of the Royal Society B: Biological Sciences, 2012; 279 (1737): 2391 DOI: 10.1098/rspb.2011.2348

Pilar Santidrián Tomillo, Vincent S. Saba, Gabriela S. Blanco, Charles A. Stock, Frank V. Paladino, James R. Spotila. Climate Driven Egg and Hatchling Mortality Threatens Survival of Eastern Pacific Leatherback Turtles. PLoS ONE, 2012; 7 (5): e37602 DOI: 10.1371/journal.pone.0037602

Copperheads Bites Costly and Painful

Shannon Casas, Gainesville Times 
May 26, 2012

John Jensen has some good news and some bad news about copperhead snakes. The bad news: They’re abundant and often found in suburban areas. The good news: Their bite isn’t likely to kill you.

“Copperheads can live in a small little wood lot right next to a bunch of houses and seemingly do fine,” said Jensen, a wildlife biologist with the Department of Natural Resources. “... They’re common, and they can tolerate a lot of disturbance.”

Ginger Workman of Gainesville certainly knows that’s true.

She’s the second copperhead victim in Hall County this month, bitten Monday night while in the parking lot of her apartment complex behind the Gainesville movie theater.

“Everybody keeps saying: ‘Were you hiking? Were you in the woods? Were you by the lake?’ And no, I was behind my car in the parking lot at the apartment complex,” she said.

Gaylord Lopez, director of Georgia Poison Center, said snakebite calls are definitely up this year statewide. This time last year, there were just fewer than 100 calls; this year, there have been 120 so far.

“In a given year we hover in the 300 range, call volumewise,” he said. “In terms of calls per year, we’re probably well on that pace to break 300 this year.”

And whereas the first call is usually seen in February or March, this year it was in the first week of January, he said. Lopez attributed that to the abnormally warm winter.

So far this year, though, the center has fielded three calls from Hall County. In the same period last year, they had fielded six. Those calls may include both venomous and nonvenomous snakebites. In 2011, there were nine calls total.
Lopez said of those calls, about 1 of every 4 require administering anti-venom.

Mohak Davé, vice chairman for the department of emergency medicine at Northeast Georgia Medical Center, said the hospital usually sees three to four bites a year. There have been no fatalities in Georgia due to snakebites in the last couple of years, Lopez said.

Though the bite may not kill you, it is going to hurt.

“It certainly doesn’t feel good and doesn’t help your pocketbook when it comes to your hospital bills,” Jensen said. “But they don’t kill people.”

Lopez said hospital bills from snakebite treatment can run up to $250,000. Lopez said that total was for a patient the poison center dealt with last month.

Dave said the vials run $1,000-1,500 each. A victim could need upward of 30 vials. Workman said she took seven.

Of course when you’re bitten, you don’t have much choice but to get the treatment.

Davé said doctors will check for signs of shock, which can be dried skin and abnormal vital signs. They also typically will see pain and swelling at the site of the bite, and sometimes nausea. Those with severe bites can also experience low blood pressure and kidney problems.

Davé said it helps to know what kind of snake a person was bitten by, but he does not recommend trying to capture the snake.

“We’ll just use the history and the physical exam to determine such, but we always recommend that they don’t try to retrieve the snake,” he said. “And they should seek medical attention immediately if they have any physical signs, if they have severe pain or swelling.”

Workman was bitten three times on the ankle by a juvenile copperhead while walking her dog with a friend near her apartment.

“I thought I had stepped on a stick,” Workman said. “And I looked down and my foot was covered in blood, and there was a copperhead snake curled up beside it.”

She said her survival mode must have kicked in, but the pain later that night was excruciating.

Lopez said 15 to 20 percent of all bites are dry and inject no venom.

Jensen said multiple strikes are not uncommon with a copperhead, either.

Snakes will try to get away from you, but copperheads do not have a way to warn predators as rattlesnakes do, he said. They often are sitting in ambush mode, using their camouflage, waiting for prey.

“They just hope nothing sees them and their cover isn’t blown,” Jensen said.

But if a predator or human comes too close, the snake will strike in defense, and that could include multiple strikes.

Workman, though, is just glad it wasn’t worse. She was released from the hospital Wednesday night.

Davé said a snakebite victim likely will at least be observed overnight and could spend several days in the hospital, depending on the severity of the symptoms.

“I just praise God that the venom is working its way out of my body,” Workman said, praising her neighbors and the EMTs for helping her get quick medical care.

Jensen said to avoid copperheads, residents should reduce the cover provided in their yard in areas such as log piles, rock piles, trash and tall grass.

A snake can still be found on a perfectly manicured lawn, but they’re less likely to stick around he said.

He advised against using a powdered form of moth balls or using sulfur in a yard to deter snakes, saying people would need too much of the product for it to actually be effective.

“You’d have to put a dump truck load in a big circle around your yard, and every time it rained you’d have to replace it,” he said. “Those products are kind of waste of money in my opinion.”

He did advise keeping an eye out for snakes, which at this time of year are more likely to be active at night.

“Copperheads kind of switch their activity periods as it gets warmer, so now that it’s gotten good and hot, they’re more likely to be moving at night,” he said. “During the day, they’re going to be more likely to be just coiled up in an ambush position just sitting still.”

Watch where you’re going, take a flashlight at night and don’t wear flip-flops, he said.

Tuesday, May 29, 2012

Katerniaghat Wildlife Sanctuary's Herpetofauan

A female gavial. Abijit Das

 Abhijit Das and colleagues (2012) report on the herpetofaunal of Katerniaghat Wildlife Sanctuary, the study site is located in the Terai region of Uttar Pradesh, India, on the border with Nepal. Katerniaghat Wildlife Sanctuary is characterized by extensive alluvial plains, wetlands, grasslands, woodlands and moist forests. The sanctuary is home to large animals such as tiger, elephant, leopard and Gangetic dolphin, and is regarded as an important habitat of the critically endangered Gavialis gangeticus. The Sanctuary also holds a key population of Crocodilus palustris and several freshwater turtle species.

The authors report 10 species of amphibians and 42 species of reptiles from the area and include biological notes on the Gavialis gangeticus and new locality records and natural history information of poorly known species including Polypedates taeniatus and Sibynophis sagittarius.

Katerniaghat Wildlife Sanctuary is one of the last remaining Terai ecosystems and thus it is of tremendous conservation concern. Considering the dearth of knowledge on diversity, distribution and natural history of the herpetofauna of the region, the present study assumes significance. However, the field observation of the study is limited to a single peak monsoon month (June–July) and subsequent two visits are during winter month where herpetofaunal activity is limited due to low temperature. Thus it is almost certain that the present inventory only represents a fraction of the actual herpetofaunal assemblage and additional survey will reveal hitherto unrecorded species. The article is available on-line.

Abhijit Das, Dhruvajyoti Basu, Laurel Converse & Suresh C. Choudhury. 2012. Herpetofauna of Katerniaghat Wildlife Sanctuary, Uttar Pradesh, India. Zoo 4:2553-2616.

Monday, May 28, 2012

Mixcoatlus, A New Genus for Some Montane Mexican Pitvipers

Mixcoatlus browni, UTA
The numbers of known New World pitvipers have increased greatly from the 90 species in nine genera recognized only two decades to almost 120 species in 15 genera today. Mexico is well known for its diverse pitvipers with at least 56 species and nine genera. And, our knowledge of pitviper diversity and relationships is constantly being refined as independent geographical lineages are distinguished and new species are discovered.

In a relatively recent article Jadin et al. (2011) sort out some taxonomic confusion surrounding Cerrophidion barbouri Dunn 1919 a pitviper restricted to the Sierra Madre del Sur in southern Mexico at elevations above 2000 m. Agkistrodon browni Shreve, 1938, has been considered a junior synonym of C. barbouri, until now. Cerrophidion barbouri is rarely collected and prior to recent decades it was known from only a few specimens. A careful re-examination of nearly all known specimens of C. barbouri and the type series of A. browni reveals that both names represent valid species and they resurrect A. browni. Both species are extremely variable with respect to head scalation and colour pattern, which has previously confounded efforts to identify them. Jadin et al. provide phylogenetic analyses using both Bayesian and maximum parsimony criteria of New World pitvipers to investigate the phylogenetic position of A. browni and C. barbouri. Their phylogenetic tree, based on 2235 bp of mitochondrial data [12S, 16S, cytochrome b, NADH, ND4)], strongly supports a clade consisting of A. browni, C. barbouri, and Ophryacus melanurus, which has a distant sister relationship to Ophryacus undulatus. Based on the deep phylogenetic divergences amongst these species and distinctive morphology they establish the new genus Mixcoatlus which now contains Mixcoatlus barbouri, Mixcoatlus browni, and Mixcoatlus melanurus. Similar to Ophryacus, Mixcoatlus are pitvipers endemic to the highlands of southern Mexico.

Mixcoatlus barbouri and M. browni are restricted to highland humid pine-oak and cloud forest habitats of the Sierra Madre del Sur in Guerrero, Mexico, while M. melanurus occurs in highland arid tropical scrub, high deciduous forest, and seasonally dry pine-oak forest in southern Puebla and northern Oaxaca. This limited distribution of southern Mexico makes this genus the most restricted of New World pitvipers.

Jadin, R. C., E. N. Smith, and J.Campbell. 2011. Unravelling a tangle of Mexican serpents: a systematic revision of highland pitvipers. Zoological Journal of the Linnean Society, 163, 943–958.

Two New Cryptic Species of Pit Vipers in the Genus Cerrophidion from Central America

Top: Cerrophidion sasai. Bottom: C. wilsoni. Photos: Eric Smith UTA 
The discovery of cryptic species has become increasingly frequent with the application of molecular phylogenetic analyses, particularly for species with broad geographic distributions. Now, Jadin et al. (2012) have described two new species of Central American montane pit vipers in the genus Cerrophidion, that had been previously confused with C. godmani, a widely distributed highland species found throughout Central America. The authors provide evidence based on both molecular phylogenetic analyses and morphological data that C. godmani represents three deeply divergent lineages and note that it is possibly polyphyletic. These three lineages are relatively conserved in their morphology and tend to be highly variable among individuals, but morphological characters were available to diagnose them as evolutionarily distinct.

The Costa Rica montane pitviper, Cerrophidion sasai has a known range that includes parts of two mountain ranges which together cover portions of Costa Rica and Panama. The species occurs in both the Cordillera Central and the Cordillera de Talamanca. C. sasai uses lower montane and montane forest habitats as well as disturbed highland habitats.

The Honduran Montane pitviper, Cerrophidion wilsoni, inhabits lower montane rainforest between 1400 and 3491 m and may occur in nearby premontane rainforest and pine-oak forest as low as 1220 m and all known populations of C. wilsoni occur within the borders of Honduras and El Salvador but the highland areas that support populations of C. wilsoni in Honduras and El Salvador also extend into eastern Guatemala and the authors suggest the species very likely occurs in that country.

Five species of Cerrophidion are now known to occur in Neotropical montane habitats between ca. 1200 and 3500 m in elevation Two of these species (C. petlalcalensis and C. tzotzilorum) are endemic to Mexico and are restricted to geographically small ranges The third, C. godmani, is restricted by the authors to Guatemala and Mexico.

Jadin, R.C., Townsend, J.H., Castoe, T.A. and Campbell, J.A. (2012), Cryptic diversity in disjunct populations of Middle American Montane Pitvipers: a systematic reassessment of Cerrophidion godmani. Zoologica Scripta. doi: 10.1111/j.1463-6409.2012.00547.x

Sunday, May 27, 2012

Early 20th Century Attempts to Conserve Komodo Dragons

The idea of conservation can be found in early religious and philosophical writings. There are examples in many ancient religions. In ancient Greece Plato lamented the degradation of pasture land. In the bible, God commanded Mosses to let the land rest from cultivation every seventh year. Prior to 18th century European cultures frequently considered admiration of nature to be a pagan view, wilderness was denigrated while agriculture was praised. By the mid-19th century conservation became popular as ecological knowledge spread. 

In 1912, Dutch scientists announced the existence of large lizards on Komodo Island in the Dutch East Indies. In September 1926, the Burden expedition from the American Museum of Natural History, returned from the Netherlands East Indies (now Indonesia) with two huge, live monitor lizards that became known as Komodo dragons. Burden's specimens were placed on display at the Bronx Zoo where they drew large crowds - 38,000 visitors on 12 September. But, the lizards survived only a few short months in New York City, both were dead by mid-November. However, the publicity and crowds generated during their  short stay at the zoo turned them into a “celebrity species.” 

Timothy Barnard at the National University of Singapore has written an article that focuses on Dutch attempts to limit access to the dragons. The profits and publicity generated by Burden's Komodo dragons in scientific institutions could not be ignored. Dutch officials now had to deal with numerous requests for Komodo dragons. The applications for collecting dragons were submitted to a colonial administrative system that aspired to rationalize Dutch rule over vast areas of the archipelago and to make the Netherlands East Indies a center of scientific research and conservation.

Dutch officials’ reacted to requests, with a number of regulations to deal with the developing circumstances. The resulting rules and procedures became part of larger global trends related to emerging environmental consciousness, while also reflecting understandings of how to create a system of control over distant lands and nature. Foreigners seeking a Komodo dragon would usually be directed to the Department of Agriculture, located in Buitenzorg. Barnard chronicles the early history of Varanus komodoensis in western zoos, but perhaps of more interest are the rules and regulations the Dutch instituted, rules and regulations that placed the colonly Dutch at odds with the indigenous people. The Ordinance to Protect Certain Mammals and Birds covered all wild animals, except those designated by the governor-general and those considered to be pests. The exclusion of pests weakened the ordinance, because pests included all monkeys, the orangutan, and a number of other species traditionally hunted throughout the archipelago. The ordinance was also weakened because it was only applicable in Java and a few other scattered parts of the Dutch colony, hunting rights in the rest of the archipelago was left up to 280 indigenous rulers, including the Sultan of Bima in eastern Sumbawa, who had traditional rights over Komodo and Rinca. later the law was altered and applied so that it could protect the dragons and increased tensions between the colonial government and the local peoples. Eventually the regulations were changed to protect a relatively few species, and the dragon was given added protection by the establishment of a reserve.

Barnard discusses several scientific expeditions intent on collecting dragons, including the thwarted attempt of the Crane Expedition that included Karl P. Schmidt from the Field Museum, and the competing Chancellor-Stuart Expedition that was eventually successful in obtaining two of the lizards for FMNH using a cooperation and diplomacy.

Barnard, T.P. 2011. Protecting the Dragon: Dutch Attempts at limiting Access to Komodo Lizards in the 1920s and 1930s. Indonesia 92:97-124.

Friday, May 25, 2012

Turtles are the Sister to the Archosaurs

An archosaur feeding on a turtle. JCM
The evolutionary origin of turtles is one of the last unanswered questions in vertebrate evolution. Paleontological and morphological studies place turtles as either evolving from the ancestor of all reptiles or as evolving from the ancestor of snakes, lizards, and tuataras. Conflictingly, genetic studies place turtles as evolving from the ancestor of crocodilians and birds.

Having recently looked at more than a thousand of the least-changed regions in the genomes of turtles and their closest relatives, a team of Boston University researchers has confirmed that turtles are most closely related to crocodilians and birds rather than to lizards, snakes, and tuataras.

The researchers published their findings in the Royal Society journal Biology Letters. By showing that turtles are closer relatives to crocodiles and birds (archosaurs) than lizards, snakes and tuatara (lepidosaurs), the study challenges previous anatomical and paleontological assessments. Nick Crawford, a post-graduate researcher in biology in BU's Graduate School of Arts & Sciences and lead author of the study, achieved these findings by using computational analysis to examine regions of the different animals' genomes.

"Turtles have been an enigmatic vertebrate group for a long time and morphological studies placed them as either most closely related to the ancestral reptiles, that diverged early in the reptile evolutionary tree, or as closer to lizards, snakes, and tuataras," says Crawford.

The study is the first genomic-scale analysis addressing the phylogenetic position of turtles, using over 1000 loci from representatives of all major reptile lineages including tuatara (lizard-like reptiles found only in New Zealand). Earlier studies of morphological traits positioned turtles at the base of the reptile tree with lizards, snakes and tuatara (lepidosaurs), whereas molecular analyses typically allied turtles with crocodiles and birds (archosaurs).

The BU researchers challenged a recent analysis of shared microRNA families that suggested turtles are more closely related to lepidosaurs. They did this with data from many single-copy nuclear loci dispersed throughout the genome, using sequence capture, high-throughput sequencing and published genomes to obtain sequences from 1145 ultraconserved elements (UCEs) and their variable flanking DNA. The resulting phylogeny provides overwhelming support for the hypothesis that turtles evolved from a common ancestor of birds and crocodilians, rejecting the hypothesized relationship between turtles and lepidosaurs.

The researchers used UCEs because they are easily aligned portions of extremely divergent genomes, allowing many loci to be interrogated across evolutionary timescales, and because sequence variability within UCEs increases with distance from the core of the targeted UCE, suggesting that phylogenetically informative content in flanking regions can inform hypotheses spanning different evolutionary timescales. The combination of taxonomic sampling, the genome-wide scale of the sampling and the robust results obtained, regardless of analytical method, indicates that the turtle-archosaur relationship is unlikely to be caused by long-branch attraction or other analytical artefacts.

The BU study is the first to produce a well-resolved reptile tree that includes the tuatara and multiple loci, and also is the first to investigate the placement of turtles within reptiles using a genomic-scale analysis of single-copy DNA sequences and a complete sampling of the major relevant evolutionary lineages. Because UCEs are conserved across most vertebrate groups and found in groups including yeast and insects, this framework is generalizable beyond this study and relevant to resolving ancient phylogenetic enigmas throughout the tree of life. This approach to high throughput phylogenomics -- based on thousands of loci -- is likely to fundamentally change the way that systematists gather and analyse data.

N. G. Crawford, B. C. Faircloth, J. E. McCormack, R. T. Brumfield, K. Winker, T. C. Glenn. More than 1000 ultraconserved elements provide evidence that turtles are the sister group of archosaurs. Biology Letters, 2012; DOI: 10.1098/rsbl.2012.0331

Suzio Repiort - Some Weird Molossus Shots

Howdy Herpers, 05/24/12

I've been slowly but surely digitizing some of my 35mm images. What's the point in doing that if I can't bore you all to tears with some of them?

I'm too lazy to go back to my notes, but I'm going to guess that it was in July of 2000 that the most unusual road cruising event I've ever witnessed occurred. We were in two cars. Gery Herrmann and Ralph Shepstone were in one, Mike Dloogatch, Steve Barten and I were in the other. As we were driving roads that were on the reservation, I insisted that we leave all our collecting equipment at home. Tribal laws are strange, and I didn't want us to get in trouble.

At one point in the evening, we pulled abreast of Gery and Ralph, who were busily jacking their car up whilst giggling like little school girls. We of course inquired if they had a flat tire, to which they sheepishly responded "no." It took a while to drag it out of them, but the short story is this:

They pulled along side a black-tailed rattlesnake (Crotalus molossus) to admire it. The snake darted toward the vehicle. As they had no tongs or hooks, they could only watch helplessly while the snake methodically crawled into the rim of their rear passenger tire. At the point that we arrived, the snake was not visible. But soon after, it shot out of the rim. Only Steve was quick enough with his camera to get the image of the snake coming out. Steve is one of the best photographers I know, but there was no time for anything fancy.

The first image in this report is all that Steve got--but I'm glad that he got that much!

How many of you have ever caught a rattlesnake with a tire?

Before I launch into the rest of images in this report, I want to ask you herptographers out there to participate in something I'm going to do with an upcoming Suizo Report. I want to gather images of molossus from all the various mountain ranges, and compare them. I'm looking for the prettiest, as well as the most dog ugly. In the end, we will decide where they are the most beautiful, and where they are not. But no matter WHAT they look like, they are still, in my opinion, ALWAYS a good find.

Now, to the pics:

Image 1: Already discussed, by Steve Barten.
Image 2: This scrawny, miserable looking molossus was found in Saguaro National Park West. It was found on 25 July, 1997--at the end of what at the time was the 2nd worst drought in weather history. (The droughts that followed this one in the Y2K century made the drought of '97 seem like kissing a pretty woman). The more I look at this image, the more I think this is a female snake that has dropped a litter. But as my notes indicate that it was blind in one eye, it could just be a snake that was in severe decline. The real reason I've slipped this one in is the color. Very weird for a low elevation molossus.
Image 3: Found in Sabino Canyon on 21 July, 1994, this one has the most pronounced atrox-like tail banding that I've ever seen. I'd LOVE to see anything like this from some of you.
Image 4: From Saguaro National Park West, found 16 July 2000. Note the posture of this snake--almost like it is constricting a prey item. The reason for the posture MAY be because it was infested with sand flies. Said flies seem to be absent in the image, so I'm guessing they all flew away during the photo session.
Image 5: By Dan Bell. No, we don't go around throwing rattlesnakes on prickly pear. We watched in amazement while this molossus crawl to the top of this prickly pear cactus THREE TIMES! It seemed to be hot on the trail of a prey item. It would crawl around the base of the cactus, go to the top, and come back down. We watched this for about an hour before growing bored of it and moving on. Snakes are amazingly patient hunters!
That's all for this one. Remember, I'm hoping to get some images from you that you are willing to share. Ugly, pretty, they are all VERY COOL rattlesnakes.

This here is roger repp, signing off from burning hot Arizona, where the turtles are strong, the snakes are handsome, and the lizards are all above average.

Thursday, May 24, 2012

CBD Threatens to Sue USFW Over Herps

Graptemys barbouri

ATLANTA -- An environmental group threatened Tuesday to sue the U.S. Fish and Wildlife Service for not moving quickly enough to protect 25 amphibian and reptile species across the Southeast that it believes are in danger of extinction.
Officials at the Minneapolis-based Center for Biological Diversity said they hoped the threat of a lawsuit would prod federal officials into taking action.
"The amphibians and reptiles named in this notice need the protections of the Endangered Species Act to survive," said Collette Adkins Giese, an attorney for the center, and D. Noah Greenwald, its endangered species program director, in a letter. "Turtles, salamanders, snakes and other species of herpetofauna are some of the most rapidly disappearing species on Earth."
In 2010, the center and other supporters filed a petition seeking enhanced protection for more than 400 aquatic species in the southeast under the Endangered Species Act. During a 90-day review, federal officials found there was information to believe that more protection may be warranted for 374 of those species, including the 25 amphibians and reptiles that were the focus of Tuesday's letter.
It accused the government of failing to make a follow-up finding for those species that was due on April 20, 2011. The species listed in the complaint live in wetlands across the Southeast. The Barbour's map turtle, for example, can be found in the Apalachicola River system that flows through Georgia, Alabama and Florida. The center contends it is threatened by collection, dredging, pollution and disease.
Another example is the seepage salamander, which lives in Alabama, Georgia, North Carolina, South Carolina and Tennessee. The center said the seepage salamander population has been halved by logging and other activities that destroy its habitat.
Fish and Wildlife Service spokesman Tom MacKenzie said he could not immediately comment on the lawsuit threat.

Tuesday, May 22, 2012

Diasporus citrinobapheus, a New Frog from Panama

A new bright yellow frog species has been found in the mountains of western Panama. The frog belongs to a species-rich group of frogs, the so called rainfrogs that lack a tadpole stage, but develop directly as little frogs inside the egg.

The frog, that measures less than 2 cm, was discovered by Andreas Hertz and his colleagues, who are reptile and amphibian specialists at the Senckenberg Research Institute in Frankfurt am Main; Germany. They discovered it in 2010 during several field trips to the Serranía de Tabasará of western Panama a highly understudied part of the Panamanian central mountain range.

"Although we recognized that the male mating call of this species differs from all what we had heard before and therefore suspected it to be new, much effort was involved to finally spot it in the dense vegetation", said Hertz. "When we finally caught the first individuals by hand, we noticed that it dyes one's fingers yellow when it is handled. The scientific name (Diasporus citrinobapheus) of this new frog refers to this characteristic and means yellow dyer rainfrog."

To assure the validity of the frog as a new species, the biologists studied body structure, coloration, molecular genetic data, and vocalizations of a series of individuals, and compared the results with the data derived from closely related species.

Additionally, the researchers took into consideration the possibility that the yellow stain may be poisonous and performed an analysis of skin secretions. "We cannot say whether the dye is any good as a predatory defence, as we could not find any poisonous components. Maybe the colour is just easily washed out and has no particular function. However, for now, this peculiarity of the new species remains enigmatic." said Hertz.

The full article is available on-line.

Hertz A, Hauenschild F, Lotzkat S, Köhler G (2012) A new golden frog species of the genus Diasporus (Amphibia, Eleutherodactylidae) from the Cordillera Central, western Panama. ZooKeys 196: 23-46. doi: 10.3897/zookeys.196.2774

Sunday, May 20, 2012

Sedentary Sea Snakes

The turtleheaded sea snake, Emydocephalus annulatus
Drawing by Ethel King, Australian Museum.

A mark and re-capture study of the turtleheaded sea snake, Emydocephalus annulatus, in New Caledonia suggests that snakes living in two bays less than 1.15 kilometers apart are separate populations. Lukoschek and Shine (2012) found that while the snakes could swim from one bay to the other, they rarely do so. More that eight hundred snakes were recaptured and only two individuals had moved between the bays. 136 snakes were genotyped for eleven microsatelite loci and the two populations were found to have statistically significant genetic divergence. The sedentary behavior of these sea snakes has ecological and evolutionary implications but is also important for their conservation and management. The authors suggest that sea snakes may be poor colonists and this may account for their highly heterogeneous distributions across several spatial scales, but perhaps most importantly coral reef habitats. Populations of snakes associated with reefs operate as separate ecological units and, as such, local disturbances will have mostly local impacts. However, once a local population has been damaged establishing a new population is likely to be slow. Thus sea snakes may be vulnerable to habitat disturbances brought about by huamn activities or environmental factors, and explain the recent precipitous population declines and local extinctions of turtleheaded sea snakes, as well as other reef-associated species. These local extinctions include a previously large population of turtleheaded sea snakes at Ashmore Reef in the Timor Sea. The results of this study also raise concern about the potential for this population to recover, as well as for the recovery of critically endangered and endangered small-range endemics in the genus Aipysurus, which have undergone similar local extinctions at Ashmore Reef. The entire article is available on-line.

Lukoschek, V. and Shine, R. (2012), Sea snakes rarely venture far from home. Ecology and Evolution. doi: 10.1002/ece3.256

Friday, May 18, 2012

A Giant Pelomedusiod Turtle from Colombia

Above: Reconstruction of Carbonemys preying upon a small crocodylomorph.

Picture a turtle the size of a Smart car, with a shell large enough to double as a kiddie pool. Paleontologists from North Carolina State University have found just such a specimen – the fossilized remains of a 60-million-year-old South American giant that lived in what is now Colombia.

The turtle in question is Carbonemys cofrinii, which means “coal turtle,” and is part of a group of side-necked turtles known as pelomedusoides. The fossil was named Carbonemys because it was discovered in 2005 in a coal mine that was part of northern Colombia’s Cerrejon formation. The specimen’s skull measures 24 centimeters, roughly the size of a regulation NFL football. The shell which was recovered nearby - and is believed to belong to the same species - measures 172 centimeters, or about 5 feet 7 inches, long. That’s the same height as Edwin Cadena, the NC State doctoral student who discovered the fossil.

“We had recovered smaller turtle specimens from the site. But after spending about four days working on uncovering the shell, I realized that this particular turtle was the biggest anyone had found in this area for this time period – and it gave us the first evidence of giantism in freshwater turtles,” Cadena says.

Smaller relatives of Carbonemys existed alongside dinosaurs. But the giant version appeared five million years after the dinosaurs vanished, during a period when giant varieties of many different reptiles – including Titanoboa cerrejonensis, the largest snake ever discovered – lived in this part of South America. Researchers believe that a combination of changes in the ecosystem, including fewer predators, a larger habitat area, plentiful food supply and climate changes, worked together to allow these giant species to survive. Carbonemys’ habitat would have resembled a much warmer modern-day Orinoco or Amazon River delta.

In addition to the turtle’s huge size, the fossil also shows that this particular turtle had massive, powerful jaws that would have enabled the omnivore to eat anything nearby – from mollusks to smaller turtles or even crocodiles.

Thus far, only one specimen of this size has been recovered. Dr. Dan Ksepka, NC State paleontologist and research associate at the North Carolina Museum of Natural Sciences, believes that this is because a turtle of this size would need a large territory in order to obtain enough food to survive. “It’s like having one big snapping turtle living in the middle of a lake,” says Ksepka, co-author of the paper describing the find. “That turtle survives because it has eaten all of the major competitors for resources. We found many bite-marked shells at this site that show crocodilians preyed on side-necked turtles. None would have bothered an adult Carbonemys, though – in fact smaller crocs would have been easy prey for this behemoth.”

The paleontologists’ findings appear in the Journal of Systematic Palaeontology. Dr. Carlos Jaramillo from the Smithsonian Tropical Research Institute in Panama and Dr. Jonathan Bloch from the Florida Museum of Natural History contributed to the work. The research was funded by grants from the Smithsonian Institute and the National Science Foundation.

Edwin Cadena, Dan Ksepka, Carlos Jaramillo, Jonathan Bloch. New pelomedusoid turtles from the late Palaeocene Cerrejon Formation of Colombia and their implications for phylogeny and body size evolution. Journal of Systematic Palaeontology, 2012 (in press)

Wednesday, May 16, 2012

The Cold Tolerant Red-bellied Snake

The red-bellied snake, Storeria occipitomaculata, is a small, fossorial thamnophiine snake with a disjunjct distribution that includes the area from eastern North Dakota to Nova Scotia, south to Florida, and west to eastern Texas. Speculation that the Great Plains  acts as a barrier to westward dispersal has been hypothesized, due to the fact that they are absent from large areas of remnant prairie in the midwest and east, an idea that goes back to the work done by Harold Trapido in the 1940's. This hypothesis appears to be wrong, Bown and Phillips examined 387 preserved specimens, literature records, and unpublished data and found the species is distributed throughout much of the state of Illinois. Their study suggests red-bellied snakes do indeed inhabit woodlands but that they are not adapted for primary forest, and the authors found they do in fact use prairie and prairie-like habitats. Brown and Philips suggest red-bellied snakes are adapted for cool to cold envuironments ands that they inhabited the ice rim of the Wisconsin glacial episode, following the ice northward as it retreated. Evidence for this comes from the snakes distribution in northern prairies and coniferous forests.

Brown, L.E. and C.A. Phillips. 2012. Distribution, habitat, and zoogeography of the semifossorial red-belied snake Storeria occipitomaculata (Storer) in Illinois. Illinois Natural History Survey Bulletin 39 (5):297-322.

New Pharmaceutical Product from Heloderma

A drug made from the saliva of the Gila monster lizard is effective in reducing the craving for food. Researchers at the Sahlgrenska Academy, University of Gothenburg, have tested the drug on rats, who after treatment ceased their cravings for ordinary food and also chocolate.

An increasing number of patients suffering from type 2 diabetes are offered a pharmaceutical preparation called Exenatide, which helps them to control their blood sugar. The drug is a synthetic version of a natural substance called exendin-4, which is obtained from a rather unusual source -- the saliva of the Gila monster lizard (Heloderma suspectum), North America's largest lizard.

Researchers at the Sahlgrenska Academy at the University of Gothenburg, have now found an entirely new and unexpected effect of the lizard substance.

In a study with rats published in the Journal of Neuroscience, Assistant Professor Karolina Skibicka and her colleagues show that exendin-4 effectively reduces the cravings for food.

"This is both unknown and quite unexpected effect," comments an enthusiastic Karolina Skibicka: "Our decision to eat is linked to the same mechanisms in the brain which control addictive behaviours. We have shown that exendin-4 affects the reward and motivation regions of the brain."

The implications of the findings are significant" states Suzanne Dickson, Professor of Physiology at the Sahlgrenska Academy: "Most dieting fails because we are obsessed with the desire to eat, especially tempting foods like sweets. As exendin-4 suppresses the cravings for food, it can help obese people to take control of their weight," suggests Professor Dickson.

Research on exendin-4 also gives hope for new ways to treat diseases related to eating disorders, for example, compulsive overeating.

Another hypothesis for the Gothenburg researchers' continuing studies is that exendin-4 may be used to reduce the craving for alcohol.

"It is the same brain regions which are involved in food cravings and alcohol cravings, so it would be very interesting to test whether exendin-4 also reduces the cravings for alcohol," suggests Assistant Professor Skibicka.

Suzanne L. Dickson, Rozita H. Shirazi, Caroline Hansson, Filip Bergquist, Hans Nissbrandt, and Karolina P. Skibicka. The Glucagon-Like Peptide 1 (GLP-1) Analogue, Exendin-4 Decreases the Rewarding Value of Food: A New Role for the Mesolimbic GLP-1 Receptors. Journal of Neuroscience, April 4, 2012 DOI: 10.1523/%u200BJNEUROSCI.6326-11.2012

Monday, May 14, 2012

Giant Tiger Snakes on Islands

Some populations of tiger snakes stranded for thousands of years on tiny islands surrounding Australia have evolved to be giants, growing to nearly twice the size of their mainland cousins. Now, new research in The American Naturalist suggests that the enormity of these elapids was driven by the need to have big-mouthed babies.
Mainland tiger snakes, which generally max out at 35 inches (89 cm) long, patrol swampy areas in search of frogs, their dietary staple. When sea levels rose around 10,000 years ago, some tiger snakes found themselves marooned on islands that would become dry and frog-free. With their favorite food gone, the island snakes “are now thriving on an altered diet consisting of skinks, rodents, and nesting oceanic bird chicks,” said study author Fabien Aubret of La Station d'Ecologie Experimentale du CNRS à Moulis.

Along with the dietary shift came dramatic changes in the snakes’ adult body sizes. On some islands, the snakes shrank, becoming significantly smaller than mainland snakes. But other islands have produced giants, measuring 60 inches (1.5 meters) and weighing as much as three times more than mainland snakes.

Aubret hypothesized that the size of available prey on each island was driving the variation in body size. Snakes are gape-limited predators, meaning they swallow their prey whole and can only dine on animals they can wrap their mouths around. This gape limitation would be most pronounced in newborn snakes, when their mouths are at their smallest. Simply put, baby snakes born too small to partake of the local cuisine would have little chance to survive. Where prey animals are larger, selection would favor larger newborn snakes—with larger mouths. That head start in size at birth could be the reason for larger size in adulthood.

To test his idea, Aubret took field expeditions to 12 islands, collecting and measuring 597 adult snakes. He released the males and non-pregnant females, and brought 72 pregnant snakes back to the lab. After the snakes gave birth, he measured each of the 1,084 babies they produced. He then looked for correlations between snake size at birth and the size of prey animals available on each island. He also tested for correlations between birth size and adult size.

“The results were unequivocal: snake body size at birth tightly matches the size of prey available on each island,” Aubret said.

As predicted, where prey animals were bigger, newborn snakes were bigger and they grew up to be bigger adults. Where prey animals were smaller, newborn snakes followed suit, leading to smaller adults.

Ecologists have long been interested in the peculiarities of island animals. Observations of pygmy elephants and giant rats led a biologist named J. Bristol Foster to propose what became known as the Island Rule. In general, Foster surmised, big animals on islands tend to get smaller than mainland counterparts because of limited access to food. Small animals tend to get larger because islands tend to have fewer predators. Since it was proposed in the 1960s, numerous exceptions to Foster’s rule have been noted, and scientists now agree that the ecological factors that influence island body size are far more complex than Foster had imagined.

 “Mean adult body size has always been used as a traditional measure in the literature,” he writes. “On the other hand, patterns of variation for body size at birth in island populations have received, to my knowledge, no attention at all.”

“This study confirms that adult size variations on islands may be a nonadaptive consequence of selection acting on birth size,” he said. “Animals may become either giant or dwarf adults on islands for the simple fact that they were born either unusually large or small bodied.”

Fabien Aubret, “Body-Size Evolution on Islands: Are Adult Size Variations in Tiger Snakes a Nonadaptive Consequence of Selection on Birth Size?” The American Naturalist 179:6 (June 2012). Photos by Fabien Aubret.

New Cordylus from Central Africa

Cordylus marunguensis

An international collaboration of scientists has announced the discovery of a new species of lizard from remote, war-torn mountains in Central Africa. The new species, Cordylus marunguensis, is described from the Marungu Plateau, a montane area west of Lake Tanganyika in south-eastern Democratic Republic of the Congo.

The expedition that led to the new species discovery in 2010 was led by Eli Greenbaum, assistant professor of evolutionary genetics at the University of Texas at El Paso, and Chifundera Kusamba, a research scientist from the Centre de Recherche en Sciences Naturelles in Congo. The team spent several weeks exploring the area around the plateau for new species of amphibians and reptiles. The new lizard was discovered near the village of Pepa under rocks in grassy fields that were riddled with landmines and unexploded ordnance left over from a heavy conflict that engulfed the region at the turn of the 21st century.

Suspecting the lizard represented a new species, Greenbaum sent DNA samples to Edward Stanley, a student at the American Museum of Natural History’s Richard Gilder Graduate School in New York City. Mr. Stanley compared the DNA of the Marungu lizard to similar species throughout Africa and confirmed that it was indeed a new species to science. He bolstered the finding by using a new technique called high resolution x-ray computer tomography to reconstruct the lizard’s skeleton in three dimensions, the first time such a technique has been used in a living lizard species description.

The digital reconstruction confirmed the presence of tiny bones called osteoderms in the heavily armored scales of the new species. The reinforced scales are thought to protect the lizards from attacks by predators, and in some cases, to allow the animals to avoid attacks by wedging themselves between small, rocky crevices.

The discovery of the new species offers hope for conservation, even though none of the lizard’s habitat is currently protected.

"Although the Marungu Plateau has been heavily damaged by warfare and habitat destruction, the new lizard proves that it is not too late to implement conservation efforts," said Greenbaum. It is hoped that the new discovery will lead to the protection of the plateau’s unique plant and animal biodiversity in the near future.

Thursday, May 10, 2012

Eastern Diamondback Rattlesnake Closer to Endangered Species Act Protection

World's Largest Rattlesnake Threatened by Habitat Destruction, Persecution

TALLAHASSEE— The U.S. Fish and Wildlife Service announced today that the eastern diamondback rattlesnake may qualify for Endangered Species Act protection. Today’s finding responds to a 2011 petition filed by the Center for Biological Diversity, noted snake expert Dr. Bruce Means, Protect All Living Species and One More Generation. Eastern diamondbacks are the largest rattlesnakes in the world and are in steep decline because of habitat destruction and human persecution.

“Eastern diamondbacks are rapidly disappearing all across the southeastern United States, and in some states they’ve more or less vanished. They need Endangered Species Act protection to survive,” said the Center’s reptile-and-amphibian specialist, Collette Adkins Giese. “The Endangered Species Act has a nearly perfect record of saving species on the brink of extinction — it’s our best tool for saving diamondbacks.”

The eastern diamondback was once abundant in longleaf pine forests across the Southeast, but only 2 percent to 3 percent of the species’ original habitat still exists. Also, with no limits on rattlesnake harvest in many southern states, the animals continue to be targeted for their skins and for sport. Because the snakes are habitat specialists that depend on pine and other open-canopy forests, habitat destruction and fragmentation are the principal cause of their decline.

Today’s decision triggers a full review of the snake’s status by the Fish and Wildlife Service, which must make a final decision on Endangered Species Act protection within a year. The eastern diamondback will likely be added to the list of candidate species that need protection, but not until the Service works its way through a backlog of species already under consideration for listing. As part of a historic legal settlement with the Center, the Service will make decisions on whether hundreds of imperiled species should be added to the endangered species list by 2017.

“The loss of longleaf pine habitats threatens the rich biodiversity of the coastal plains,” said Bruce Means, president of the Coastal Plains Institute and Land Conservancy. “Protecting remaining patches of longleaf pine from unsustainable human development will help the diamondback and other species that depend on these forests, such as the red-cockaded woodpecker, indigo snake and gopher tortoise.”

Exploitation by humans is also having a severe impact on remaining eastern diamondback populations. Thousands of the creatures are killed each year for their skins and meat, with no harvest limits, in South Carolina, Georgia, Florida, Mississippi, Alabama and Louisiana. And in Alabama and Georgia, eastern diamondbacks are targeted by “rattlesnake roundups” — festivals that offer prizes to encourage hunters to collect, then kill, the imperiled snakes.

“So many people are scared of rattlesnakes and want to kill them. But all species are on this planet for a reason,” said 10-year-old student Carter Ries, founder of One More Generation. “We just want to make sure that these rattlers are going to be around for future generations.”

Eastern diamondback rattlesnakes pose little public safety risk; although they’re venomous, more people are killed every year by lightning strikes and bee stings. And the number of people who are bitten by snakes during outdoor activities is very low. Those most likely to be bitten are snake handlers who either keep venomous snakes in captivity or work with them professionally. Nevertheless, malicious killings by those who perceive the snake as a threat are contributing to its decline.

“Survival of these snakes in large part depends on whether people continue to persecute them or instead choose to allow these amazing creatures to share the land with us,” said Bill Matturro of Protect All Living Species. “In the Southeast, we are blessed with a rich natural heritage of animals and plants. All of these species — even the rattlesnakes — should be allowed to exist.”

Monday, May 7, 2012

Pituophis ruthveni Releases

Louisiana Pine Snake, Pituophis ruthveni
Asheville, NC -- On May 1, USDA Forest Service, U.S Fish and Wildlife Service, Louisiana Department of Wildlife and Fisheries, the Memphis Zoo, and other partners released seven young Louisiana pine snakes on a restored longleaf pine stand in the Kisatchie National Forest in Louisiana. The release is the fourth in 2 years, part of a plan to restore a very rare snake to its range in Louisiana. Last year the partners released 20 newly hatched snakes; this year’s snakes are 6 months old and about 3 feet long.

Four to 5 feet long as an adult and covered with a striking pattern of black, brown and beige, the Louisiana pine snake is a rare sight in its native range in east-central Texas and across Louisiana. Craig Rudolph, Forest Service Southern Research Station research ecologist and a member of the reintroduction team, has monitored the species for decades, and concurs with other herpetologists that it well may be one of the rarest snake species in the United States. Snakes released for the restoration effort are hatched and raised in zoos, and are the offspring of Louisiana pine snakes captured from the wild.

Already listed as threatened in Texas and a candidate for listing under the Federal Endangered Species Act, the Louisiana pine snake population has declined because of alterations to the its native pine longleaf pine habitat and that of its prey.

A nonvenomous species, the Louisiana pine snake spends most of its time underground in burrows of its favorite prey, the Baird’s pocket gopher. The ideal habitat for both species consists of dry, sandy-soiled ridges covered with longleaf pine trees and an open understory of the grasses and forbs the pocket gophers feed on. This habitat largely disappeared due to commercial logging in the late 19th and early 20th centuries and subsequent fire suppression.

“Without fire, these upland pine savannahs rapidly develop a midstory that shades out the grassy understory that pocket gophers need,” says Rudolph. “The release site on the Kisatchie, which was intentionally restored for red-cockaded woodpecker habitat, should also support pocket gophers and Louisiana pine snakes.”

Only time will tell whether the Louisiana pine snake can be sustainably restored to longleaf pine ecosystems in its native range.

Researchers implanted each of the snakes released on May 1 with a passive integrated transponder (PIT) that allows them to be tracked by recorders installed on the site. “So far we’ve not had much success with the recorders, which are dug into the ground in four places on the release site,” says Rudolph. “We’ve recorded activity in the first weeks, but nothing later on. This is not unexpected, since these snakes have a large home range and probably leave the immediate area. We need to get good population estimates for the areas we’ve released in, but the only way to get data is by trapping, which is very time-consuming and expensive.”

The animal’s biology presents another constraint to its survival. While most other snakes produce large clutches of eggs, the Louisiana pine snake lays only three to five eggs, and in captive breeding programs, sometimes only one or two eggs per clutch hatch. This low reproductive rate means that the species might not recover quickly in the wild. Rudolph worries that breeding programs, which rely on the progeny of only 16 founder individuals caught in the wild, may be producing snakes that are not genetically diverse enough to survive when released.

“In the best-case scenario, there would still be Louisiana pine snakes out there that we’ve never caught that can breed with the released snakes,” says Rudolph. “We have traps operating for thousands of trap days a year in Texas, for instance, and haven’t caught a single snake in three years. When we find better ways to monitor our releases, perhaps we’ll find some additional populations.”

Saturday, May 5, 2012

A Huge Plio-Pleistocene Croc From Africa

The illustration shows the comparative sizes of ancient/modern crocodiles and ancient/
modern humans. Illustration by Chris Brochu.
A crocodile large enough to swallow humans once lived in East Africa, according to a University of Iowa researcher.

"It’s the largest known true crocodile,” says Christopher Brochu, associate professor of geoscience. “It may have exceeded 27 feet in length. By comparison, the largest recorded Nile crocodile was less than 21 feet, and most are much smaller.”

Brochu’s paper on the discovery of a new crocodile species was just published in the May 3 issue of the Journal of Vertebrate Paleontology. The new species lived between 2 and 4 million years ago in Kenya. It resembled its living cousin, the Nile crocodile, but was more massive.

He recognized the new species from fossils that he examined three years ago at the National Museum of Kenya in Nairobi. Some were found at sites known for important human fossil discoveries. “It lived alongside our ancestors, and it probably ate them,” Brochu says. He explains that although the fossils contain no evidence of human/reptile encounters, crocodiles generally eat whatever they can swallow, and humans of that time period would have stood no more than four feet tall.

"We don’t actually have fossil human remains with croc bites, but the crocs were bigger than today’s crocodiles, and we were smaller, so there probably wasn’t much biting involved,” Brochu says.

He adds that there likely would have been ample opportunity for humans to encounter crocs. That’s because early man, along with other animals, would have had to seek water at rivers and lakes where crocodiles lie in wait.

Regarding the name he gave to the new species, Brochu said there was never a doubt.

The crocodile Crocodylus thorbjarnarsoni is named after John Thorbjarnarson, famed crocodile expert and Brochu’s colleague who died of malaria while in the field several years ago.

“He was a giant in the field, so it only made sense to name a giant after him,” Brochu says. “I certainly miss him, and I needed to honor him in some way. I couldn’t not do it.”

Among the skills needed for one to discover a new species of crocodile is, apparently, a keen eye.

Not that the fossilized crocodile head is small—it took four men to lift it. But other experts had seen the fossil without realizing it was a new species. Brochu points out that the Nairobi collection is “beautiful” and contains many fossils that have been incompletely studied. “So many discoveries could yet be made,” he says.

In fact, this isn’t the first time Brochu has made a discovery involving fossils from eastern Africa. In 2010, he published a paper on his finding a man-eating horned crocodile from Tanzania named Crocodylus anthropophagus—a crocodile related to his most recent discovery.

Brochu says Crocodylus thorbjarnarsoni is not directly related to the present-day Nile crocodile. This suggests that the Nile crocodile is a fairly young species and not an ancient “living fossil,” as many people believe. “We really don’t know where the Nile crocodile came from,” Brochu says, “but it only appears after some of these prehistoric giants died out.”

Christopher A. Brochu, Glenn W. Storrs. A giant crocodile from the Plio-Pleistocene of Kenya, the phylogenetic relationships of Neogene African crocodylines, and the antiquity ofCrocodylusin Africa. Journal of Vertebrate Paleontology, 2012; 32 (3):587

Wednesday, May 2, 2012

Many New Skinks

An Anguilla Bank skink. Blair Hedges and his team have discovered
 and scientifically named 24 new species of lizards known as skinks.
Credit: Karl Questel
In a single new scientific publication, 24 new species of lizards known as skinks, all from islands in the Caribbean, have been discovered and scientifically named. According to Blair Hedges, professor of biology at Penn State University and the leader of the research team, half of the newly added skink species already may be extinct or close to extinction, and all of the others on the Caribbean islands are threatened with extinction. The researchers found that the loss of many skink species can be attributed primarily to predation by the mongoose -- an invasive predatory mammal that was introduced by farmers to control rats in sugarcane fields during the late 19th century. The research team reports on the newly discovered skinks in a 245-page article published today (April 30) in the journal Zootaxa.

About 130 species of reptiles from all over the world are added to the global species count each year in dozens of scientific articles. However, not since the 1800s have more than 20 reptile species been added at one time. Primarily through examination of museum specimens, the team identified a total of 39 species of skinks from the Caribbean islands, including six species currently recognized, and another nine named long ago but considered invalid until now. Hedges and his team also used DNA sequences, but most of the taxonomic information, such as counts and shapes of scales, came from examination of the animals themselves.

"Now, one of the smallest groups of lizards in this region of the world has become one of the largest groups," Hedges said. "We were completely surprised to find what amounts to a new fauna, with co-occurring species and different ecological types."

He said some of the new species are six times larger in body size than other species in the new fauna.

Hedges also explained that these New World skinks, which arrived in the Americas about 18 million years ago from Africa by floating on mats of vegetation, are unique among lizards in that they produce a human-like placenta, which is an organ that directly connects the growing offspring to the maternal tissues that provide nutrients.

"While there are other lizards that give live birth, only a fraction of the lizards known as skinks make a placenta and gestate offspring for up to one year," Hedges said.

He also speculated that the lengthy gestational period may have given predators a competitive edge over skinks, since pregnant females are slower and more vulnerable.

"The mongoose is the predator we believe is responsible for many of the species' close-to-extinction status in the Caribbean," Hedges said. "Our data show that the mongoose, which was introduced from India in 1872 and spread around the islands over the next three decades, has nearly exterminated this entire reptile fauna, which had gone largely unnoticed by scientists and conservationists until now."

According to Hedges, the "smoking gun" is a graph included in the scientific paper showing a sharp decline in skink populations that occurred soon after the introduction of the mongoose. Hedges explained that the mongoose originally was brought to the New World to control rats, which had become pests in the sugarcane fields in Cuba, Hispaniola, Puerto Rico, Jamaica and the Lesser Antilles. While this strategy did help to control infestations of some pests; for example, the Norway rat, it also had the unintended consequence of reducing almost all skink populations.

"By 1900, less than 50 percent of those mongoose islands still had their skinks, and the loss has continued to this day," Hedges said.

This newly discovered skink fauna will increase dramatically the number of reptiles categorized as "critically endangered" by the International Union for Conservation of Nature in their "Red List of Threatened Species," which is recognized as the most comprehensive database evaluating the endangerment status of various plant and animal species.

"According to our research, all of the skink species found only on Caribbean islands are threatened," Hedges said. "That is, they should be classified in the Red List as either vulnerable, endangered, or critically endangered. Finding that all species in a fauna are threatened is unusual, because only 24 percent of the 3,336 reptile species listed in the Red List have been classified as threatened with extinction. Most of the 9,596 named reptile species have yet to be classified in the Red List."

Hedges explained that there are two reasons why such a large number of species went unnoticed for so many years, in a region frequented by scientists and tourists.

"First, Caribbean skinks already had nearly disappeared by the start of the 20th century, so people since that time rarely have encountered them and therefore have been less likely to study them," he said. "Second, the key characteristics that distinguish this great diversity of species have been overlooked until now."

Hedges also noted that many potential new species of animals around the world have been identified in recent years with DNA data. However, much more difficult is the task of following up DNA research with the work required to name new species and to formally recognize them as valid, as this team did with Caribbean skinks.

The other member of the research team, Caitlin Conn, now a researcher at the University of Georgia and formerly a biology major in Penn State's Eberly College of Science and a student in Penn State's Schreyer Honors College at the time of the research, added that researchers might be able to use the new data to plan conservation efforts, to study the geographic overlap of similar species, and to study in more detail the skinks' adaptation to different ecological habitats or niches. The research team also stressed that, while the mongoose introduction by humans now has been linked to these reptile declines and extinctions, other types of human activity, especially the removal of forests, are to blame for the loss of other species in the Caribbean.

Hedges, S.B & C.E, Conn. 2012. A new skink fauna from Caribbean islands (Squamata, Mabuyidae, Mabuyinae). Zootaxa 3288:1-244.