Beautiful new snake discovery in Honduras

From Wildlife Extra:

New species of green pit viper found in Honduras

Named after murdered conservationist

May 2013. A stunning new species of bright green palm-pit viper has been discovered in a threatened cloud forest in northern Honduras. The snake, discovered by Josiah Townsend and Indiana University of Pennsylvania (IUP) graduate student Melissa Medina and has been named in honour of a conservationist who was murdered for his outspoken views.

Campaigned against forest destruction

The new species has been named as Bothriechis guifarroi, or Guifarro’s Palm-Pitviper. The name is given to honour Mario Guifarro of Olancho, Honduras, a former hunter and gold miner who became an outspoken conservationist when he saw the vast rainforests of eastern Honduras being destroyed and converted to cattle ranches. After years of threats and multiple attempts on his life, Guifarro was ambushed and murdered on September 15, 2007, while on a mission to delimit a biosphere reserve for the Tawahka people, an indigenous group that lives in the rainforests of eastern Honduras.

“We hoped to use the description of such an exciting new species as an opportunity to draw attention to the dedication and sacrifice not only of Don Mario Guifarro, but of the many grassroots conservationists in Honduras and throughout the developing world who go unacknowledged,” said Townsend. “I worked with Don Mario in eastern Honduras during 2001, 2002, and 2003, and his dedication to conservation and unbelievable skill in the rainforest had an influence on me that I will carry throughout my life.”

Nearest relative found in Costa Rica – Considered Critically Endangered

Because of similarity in colour pattern, Guifarro’s Palm-Pitviper was previously confused with other Honduran palm pit vipers. Genetic analysis revealed that the closest relatives of the new species are actually found over 600 km to the south, in the mountains of Costa Rica. “This discovery has important implications for Central American biogeography as well as for conservation. We recommend Bothriechis guifarroi be immediately classified as Critically Endangered due to its limited known distribution and the potential for anthropogenic damage to its habitat. We also consider this species to warrant immediate protection under CITES, given its striking appearance and high potential for exploitation in the pet trade,” said Townsend.

The snake was discovered by Townsend and collaborators during two expeditions in 2010 aimed at studying the fauna of Texiguat Wildlife Refuge, one of the most endemism-rich and diverse highland forests in Mesoamerica. This beautiful but toxic snake represents the 15th endemic species occurring in the region. Texiguat Wildlife Refuge was created in 1987 to protect populations of wildlife such as the famous but elusive jaguar and Central America tapir, as well as howler and white-faced monkeys, sloths, and a variety of endemic amphibians, reptiles, and plants.

The study was published in the open access journal Zookeys.

See also here.

Related articles

• New Species of Viper found in Honduras (bulabug.com)
• When green means danger: A stunning new species of palm-pitviper from Honduras (eurekalert.org)
• Scientists Discover New Species of Deadly Green Pit Viper in Honduras (scienceworldreport.com)
• New snake species named after assassinated forest campaigner (wildlifenews.co.uk)
• Newly Discovered Pit-Viper Species Is Already Critically Endangered (news.softpedia.com)
• Deadly Snakes, Ugly Critters, Leonardo DiCaprio and Other Links from the Brink (blogs.scientificamerican.com)

Chinese endangered animals on camera traps

This video is called Cute tiger cubs sniff WWF camera trap.

From Wildlife Extra:

Camera traps open up hidden corners of China

Photos offer rare glimpse into panda habitat

MAY 2013. WWF has released dozens of photographs and video footage of endangered species captured by camera traps in the mountainous giant panda reserves in China, marking this year’s International Day for Biological Diversity. The images and footage, rarely seen before, showcase an array of endangered species in their remote habitats in south-western Sichuan Province, including giant panda, red panda, Tibetan stump-tailed macaque and leopard cat.

“The multimedia materials are obtained under circumstances, where there was little external disturbance and therefore they truly reflect the conditions of those species in the wild,” said Jiang Zeyin, species programme officer at WWF-China.

100 camera traps

The photos have all been taken since 2011, by more than 100 infra-red camera traps set up in six nature reserves by WWF and its partners from the local forestry authority as part of the monitoring effort under the giant panda conservation programme.

With the footage, WWF conservation officers have gained a better understanding of the identification of animal traces and areas of their activities, the study of the impact of human activities on the species and management of nature reserves, according to Jiang.

Panda is just the flagship

“The images demonstrate that through the conservation of the giant panda, a flagship umbrella species, we can also protect other threatened wildlife from the same habitat and preserve biological diversity,” said Fan Zhiyong, director of WWF species programme in China. It is a tried method in WWF’s biodiversity conservation and the reason why WWF would underscore the value of protecting flagship species, he said.

China has more than 6,500 species of vertebrates representing 14 percent of the global total, making it one of the 12 globally recognized “mega-biodiversity” countries.

Tigers, finless porpoise and musk deer all in decline

However, the population of more than 10 flagship and keystone species in China, which include Amur tigers, musk deer and the Yangtze finless porpoise, have undergone a marked decline that was particularly severe between the 1960s and 1980s.

“The overall biodiversity in China is in decline despite partial improvement in some places. The main threat has been the habitat loss and fragmentation due to invasive human activities,” said Fan.

“Conservation of flagship species would not only benefit the ecological system, but also human development. Large-scale planning and implementation aimed at establishing a network of habitats should always be considered,” said Fan.

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Cattle transport, not badgers, really causes bovine tuberculosis

This video from Britain says about itself:

Watch this cute badger cub run round in circles with excitement as it sets off for an evening outing.

From Wildlife Extra, about Britain:

Defra statistics show bTB soared after cattle imports

A case of foot in mouth for Defra as their own evidence reveals true cause of bTB outbreak

May 2013. Statistics released by Defra in a bid to explain why the badger cull must go ahead have, in fact, revealed the true cause of the bTB outbreak that they are trying to stop, say Care for the Wild.

bTB soared after Foot and Mouth controls relaxed

Figures show that incidences of bTB soared in 2000/2001, in certain areas. This correlates almost exactly with the relaxation of movement controls after the Foot and Mouth epidemic, which saw large numbers of herds restocked from the UK and across Europe.

Influx of untested cattle

Philip Mansbridge, Care for the Wild CEO, said: “It’s not been a good day for advocates of the badger cull. First, Lord Krebs, the leading expert on bTB, repeated his belief that a cull is ‘crazy’. Then Defra themselves give detailed evidence as to why they are culling – but close examination shows that badgers clearly are not to blame for this outbreak – it was the influx of untested cattle after the Foot and Mouth outbreak.

“There’s an increasing air of Emperor’s New Clothes about this badger cull. Defra desperately want people to believe that it will work, and that it is scientifically valid – but it won’t and it isn’t. The science says that at best it’ll reduce bTB by 16% after nine years – that simply is not enough to justify slaughtering 8 out of 10 badgers in this country.

bTB testing needed

“The government claim to be doing this for farmers, but if they really wanted to help the farmers, they’d be focussing on getting bTB testing, biosecurity and husbandry techniques sorted out, and they’d be focussing on the actual long-term solutions like vaccination. If farming is in dire straits now, it’s because governments haven’t put the resources into the right places over the last few years – it’s not because of the badgers.

Trap and shoot

It was also confirmed that in some areas, those culling the badgers could choose to trap-and-shoot, rather than free-shoot. But this also makes no sense, says Philip Mansbridge.

“If they’re switching to trapping and shooting, they might as well take the obvious next step and switch to trapping and vaccinating. The government’s own figures show that trapping and shooting is actually more expensive than trapping and vaccinating. Plus, their own research shows that vaccination can halve incidents of bTB in badgers. How much more evidence do they need?

“Bottom line, if you’re going to catch the badgers, then why not vaccinate? Scientifically it makes sense, morally it makes sense. And if the government claims that they’re not in a position to effectively vaccinate yet, that’s because when they got in they scrapped five out of six vaccination research projects. Being obsessed with culling, for political reasons, is a no-win policy which will end with both the badgers and the farmers losing out big time.”

Based on Defra figures, the cost for trapping and shooting badgers is £2,500 per square kilometre a year, compared to £2,250 for trapping and vaccinating. While the cost of shooting will reduce slightly each year, dependant on the reduced number of badgers, the cost of policing must also be taken into account: around £500,000 pa is estimated for policing if badgers are being shot – this is likely to be significantly reduced if no protester action is taking place.

In December last year, government-backed research revealed that vaccinating badgers can reduce the level of bTB within an infected colony by 54%. Further, that unvaccinated young badgers within the same social group as the vaccinated adults showed a reduction in risk to bTB of nearly 80% – showing that vaccination has a knock-on positive effect within the sett.

Philip Mansbridge added: “Incidentally, while this announcement was being made, Owen Patterson has been busy discussing international wildlife poaching at Clarence House. While any action he takes on that issue is commendable, it’s ironic that he’s focussing on saving elephants in Africa, while at the same time promising to slaughter thousands of badgers in his own back yard.”

Care for the Wild is supporting the national march against the badger cull in London on June 1st.

Care for the Wild is a charity based in Sussex dedicated to the protection of wildlife in the UK and abroad. For more information or if you would like to support our work, see www.careforthewild.com.

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• Brian May-inspired badger flash mob protests against culls outside Defra (metro.co.uk)
• With 3 months to start of badger cull Gloucestershire could be pulled (wildlifenews.co.uk)

Beavers help kingfishers

This video from Ireland is called Kingfisher | The Secret Life of the Shannon | RTÉ Goes Wild.

In Dutch nature reserve Lepelaarplassen, there are beavers.

According to Vroege Vogels TV, as these beavers fell trees, they help kingfishers find nesting opportunities.

The kingfisher was the favourite bird of Prince William of Orange, well known from the sixteenth century Dutch revolt against the king of Spain.

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Wild bison calf born in Germany after centuries

From The Local in Germany:

First bison born in wild ‘for centuries’

Published: 21 May 13 16:54 CET

A wild bison has been born in Germany for the first time in centuries. The lead female of a herd released from captivity in April gave birth to the calf on May 5th, it was revealed on Tuesday.

The herd, which was released into the Rothaar mountain range in North Rhine-Westphalia, is currently roaming an area of between 2,000 and 2,500 hectors, according to the “Wittgenstein Wisent World” animal protection group.

Ranger Jochen Born, who encountered the latest addition to the herd by chance, said the calf was “alive and kicking”.

“They’re letting themselves be seen more than we expected,” Johannes Röhl, estate manager for Prince Richard of Sayn-Wittgenstein-Berleburg, said.

The prince has long been campaigning for the reintroduction of bison back into the German wild.

The appropriately named “Quintus” is the fifth bison to be born as part of a species protection project but stands out as the first to be born in the wild. The other four were bred in captivity.

A total of nine bison now live in the Rothaar mountain range, while another herd lives in an enclosure.

Two of the bisons have been fitted with GPS chips so their movements can be monitored.

In the past bisons were known to range in large parts of Europe though they were hunted almost to extinction in the nineteenth and twentieth centuries.

The herbivorous even-toed ungulates do not pose a risk to humans. Nevertheless, animal experts are advising people to keep their distance as the mother bison might be feeling particularly protective of her star calf.

See also here.

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New Zealand blue whales, new research

This video is called Whales: Giants of the Deep.

From Wildlife Extra:

Blue whales are feeding off New Zealand, not just migrating

Blue whales believed to be foraging in South Taranaki Bight

May 2013. A recent study indicates that Blue whales in a coastal area of New Zealand, known as the South Taranaki Bight, might be doing more than just passing through on their way to and from summer feeding grounds in Antarctica.

Extensive study

A new study, carried out by the National Institute for Water and Atmospheric Research (NIWA), examined opportunistic sightings of Blue whales collected between 1979 and 1999, historical whaling data, stranding events, foraging observations, and sightings recorded during two seismic surveys conducted in 2011.

High density of Blue whales

The findings show that the presence of Blue whales in the South Taranaki Bight is greater than expected and historical whaling data demonstrate a high density of Blue whales in the region throughout time. The study links this increased presence of Blue whales in the Bight to the prominent upwelling system near the South Island’s Farewell Spit that generates large clouds of plankton – perfect Blue whale food – in the South Taranaki Bight.

Very elusive

Despite being more than 20 metres in length and weighing more than 100 tonnes, the Blue whale remains one of the world’s most elusive creatures. Southern Hemisphere Blue whales were intensively hunted during the whaling era, leaving only small populations behind. Sightings are rare and little is known about the distribution patterns of Blue whales, the world’s largest animal.

NIWA marine ecologist Dr Leigh Torres said that the study would significantly enhance people’s understanding of the distribution and foraging grounds of Blue whales in the Southern Hemisphere.

Feeding, not migrating

“Conventional wisdom has been that Blue whales only transit through New Zealand waters while migrating. But this new information suggests that this is not an accurate understanding of their ecology. Blue whales appear to be present in the South Taranaki Bight with some regularity and density, and based on their foraging patterns and the availability of their prey in the area, we think they are feeding here.”

Just four Blue whale foraging grounds in the Southern Hemisphere outside of Antarctic waters!

“Blue whales are huge and need to eat vast amounts of food, which are tiny plankton, to support their energy demands. But there are just four confirmed Blue whale foraging grounds in the Southern Hemisphere outside of Antarctic waters. So, it’s very important that we properly document and protect their foraging grounds.”

Currently, the Blue whale is classified as a “migrant” under the New Zealand Threat Classification System, which means they aren’t afforded the same level of conservation protections as other large baleen whales that use coastal waters around New Zealand such as the southern right whale.

Dr Torres said that, although further work was necessary to determine the scale and significance of the foraging ground in the South Taranaki Bight, the new information may prompt a rethink on how Blue whales are classified in New Zealand.

Largest offshore natural gas and oil exploration area in New Zealand

“The South Taranaki Bight is also the largest offshore natural gas and oil exploration area in New Zealand, with seven production platforms, considerable seafloor pipelines, and significant plans for expansion in the near future. Shipping traffic and seabed mining activities have been shown to impact Blue whales directly – altering their behaviour and degrading their habitat through acoustic disturbance and ship strikes. We need to gain a better understanding of how and when Blue whales forage here so that possible impacts can be avoided.”

… The study was funded by OMV NZ Limited and NIWA, and has just been published in the New Zealand Journal of Marine and Freshwater Research.

Since the study was accepted for publication, 49 additional Blue whale sightings in the South Taranaki Bight have been reported to Dr Torres, including 33 sightings by marine mammal observers during a recent seismic survey earlier this year.

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New Zealand kokako birds’ songs

This video is about New Zealand kokako birds.

From Wildlife Extra:

Birdsong can change surprisingly quickly after relocation

Lost in translocation? How bird song could help save species

May 2013. Translocation – or moving animals to safer places – is a vital tool for saving species from extinction. Many factors influence the success of these new populations, including habitat quality, predators, capture and release techniques, the number and sex of individuals, and their genetic diversity. Now new research, the first of its kind, published in the British Ecological Society‘s Journal of Applied Ecology suggests bird song could also be important.

Ecologists from the University of Waikato and Lincoln University in New Zealand studied the North Island kōkako, an iconic bird with a haunting, organ-like song. Once widespread in the North Island, loss of habitat by deforestation and predation by rats, possums and stoats decimated the population. By 1999, fewer than 400 pairs remained, and between 2001 and 2007, several pairs were moved from Te Urewera National Park to two other reserves: Boundary Stream Mainland Island and Ngapukeriki.

Songs analysed

To find out how moving the kōkako has affected their song, the researchers made hundreds of recordings in the three populations and analysed differences in song using sonograms. They then used playback experiments to discover how birds from one population reacted to another populations’ song.

Songs changed after relocation

They found the songs of translocated birds had diverged substantially from the source population, becoming less diverse with shorter and higher-pitched elements. According to Dr Laura Molles from Lincoln University: “Not only how kōkako sing in translocated populations, but also what they sing differs from kōkako in the source population.”

The greatest changes were found in the population that had been translocated for longest, indicating the songs may become more different over time. But despite the divergence between each population’s song, the playback experiments showed that the birds could not yet tell them apart.

“The songs diverge because birds such as kōkako learn their songs from parents, siblings and neighbours. As translocation usually involves only a small number of individuals, they will take with them only a small portion of all the song elements in the larger source population. Subsequent variation in small populations will depend on that subset of songs and will then differ from the larger song pool in the source population,” Dr Molles explains.

Incompatibility

The study has important implications for conservation. Although in this study the kōkako populations have not been separated for long enough to cause song incompatibility, it will occur in time, the authors say. Once that happens, releasing additional birds into these populations could be problematic because song incompatibility could make interbreeding difficult.

As a result, says Dr Molles, conservationists should consider song variation as part of bird reintroductions: “We need to be aware that behavioural factors like song can also affect translocation success and recovery of endangered birds, and adapt our management of these populations accordingly. This means that we may have to work harder but the good news is that if we consider one more factor that we now know may also affect translocation, we will be more likely to succeed in conserving birds.”

North Island kōkako

The North Island kōkako is one of New Zealand’s most iconic bird species. The size of a common pigeon, both males and females have blue-grey plumage with black masks and striking bright blue wattles. Both sexes sing, and pairs duet, with a haunting voice and the birds’ astonishingly varied organ-like notes can be heard over 1km away.

They have limited flying power, instead moving like squirrels through the branches and gliding from hill tops to valleys. They live in the temperate rainforest, feeding mainly on fruit and leaves. Once widespread, their numbers collapsed due to deforestation and predation by rats, stoats and possums, and by 1999 fewer than 400 pairs remained. Thanks to translocation to safe offshore islands, numbers have increased to around 800 pairs today.

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Kakapo parrot voted world’s favourite animal

This video, recorded in New Zealand, is called The Unnatural History of the Kakapo.

From ARKive:

What’s the World’s Favourite Species?

It’s ARKive’s 10th birthday and to mark the occasion, you’ve been joining us in your thousands from 162 different countries to help us find the world’s top ten favourite species. The results are in! The species that were most frequently voted as favourites by you can now be revealed…

The array of life with which we share our planet provides an endless source of wonder, so for many of you the decision was tough. But which species was voted the World’s Favourite? Here are a few clues:

The most frequently selected reason for voting this species as your favourite was “because it’s under threat and we need to protect it”.
It is active at night…
It has feathers… but it can’t fly!

Also from ARKIve:

No.1 Kakapo

The magnificent kakapo stole 9% of the total votes. It’s a beautiful bird that cannot fly and is only found in New Zealand. But from the many thousands of creatures with which we share our precious planet, what made the kakapo stand out from the crowd? For most of you, tragically, it was the kakapo’s Critically Endangered status. We hope the title of World’s Favourite Species will bring it the attention it deserves.

Kakapo facts

The kakapo is the world’s only flightless parrot.
Unusual for a bird, the kakapo is only active at night.
As well as being the world’s largest parrot, the kakapo is also the heaviest.

The rest of the Top 10:

2. Tiger
3. African elephant
4. Grey wolf
5. Polar bear
6. Red panda
7. Cheetah
8. Snow leopard
9. Bornean orangutan
10. Amur leopard

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Why moa bird females were so big

This video from England says about itself:

Jan 19, 2009

Prof Kenneth Cumberland looks at New Zealand‘s giant moa bird and its demise, and the Hunters classic Malcom Hall Julius Von Haast, British Natural History Museum, London.

From Australian Geographic:

Moa mystery solved: why females were giants

By: Mischa Vickas | April-12-2013

The reason giant female moa birds towered over diminutive males may be simpler than experts thought.

THE MYSTERY OF WHY female giant moa were more than twice the size of their male counterparts may have finally been solved, say researchers.

The moas of New Zealand were made up of around nine species of giant flightless birds (Dinornis), which became extinct when the first Polynesians arrived 700 or so years ago.

Giant moas are thought to have been the tallest birds that ever lived. Females of some species reached over 2m in height and weighed in at up to 240kg. Males, on the other hand, weighed just 34-85kg.

The enormous size that moas grew to was possible because were no other large herbivores with which they had to compete, and few predators.

But the size difference between males and females had always been puzzling to experts.

Tallest bird ever to have lived

New research now suggests that existing size differences between males and females were simply scaled up as the moas evolved to great sizes, which led to seemingly enormous size differences.

“Our study is the first to explicitly investigate the evolutionary mechanism responsible for making male and female moa so wildly different in size,” says co-author Dr Sam Turvey, a palaeontologist at the Zoological Society of London.

“Beyond documenting this remarkable situation, there has been little consideration of the evolutionary reason as to exactly why these birds had evolved such an unusual and striking level of difference,” Sam says.

To understand these differences, Sam and co-worker Dr Valérie Olson, compared the body mass of giant moa to their relatives, both living and extinct. These included the emu, ostrich and cassowary.

Their findings, published this week in the journal Proceedings of the Royal Society B, reveal that a similar size difference occurs in related species, though not to the same extent.

As a result, the researchers argue that the giant moa scaled up its existing size difference, following a pattern of body size difference between genders begun by its predecessors.

“In moa, greater female body size may be associated with the lack of mammalian predators in the prehistoric New Zealand ecosystem,” Sam says.

He adds that some of the strongest selective forces acting on moa populations could have been competition between individuals for resources. This could have driven females to increase in size, says Sam, in association with providing for their offspring.

Studying biological oddities in extinct animals

Dr Wayne Longmore, a bird expert at Museum Victoria, in Melbourne, says the study is significant, and raises new questions about the breeding biology of giant moas, and whether or not males and females used the same habitat resources.

Working with the skeletal remains of moas, and drawing comparisons with other birds, may also shed light on the breeding biology of these animals, he says.

This study of moas is just one of many that Sam and his co-workers are carrying out looking at biological oddities.

“We are continuing to investigate the evolution of other bizarre morphological structures shown by recently extinct species, such as the elongated teeth of sabretooth cats,” he says.

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Bar-headed geese, fox, harrier, grebe chicks

On 19 May 2013, as described earlier, still in the Nieuwkoopse Plassen nature reserve.

A common tern flying. The light makes it look almost like a black tern.

A buzzard flying.

Marsh marigold still flowering, though the flowers are mostly finished.

A carrion crow.

Red campion flowers.

A fox sitting on a meadow.

About thirty meter to the right, a male pheasant. A buzzard flies above them both. The fox does not try to catch the pheasant, maybe knowing that the bird has seen it already. After a long time, the fox goes away, to the left.

A female marsh harrier flying.

And a swift.

A curlew on a dung heap.

Then, two bar-headed geese on a meadow between ponies.

More to the right on that meadow, two barnacle geese with a gosling.

A mute swan on its nest.

A great crested grebe swims with three chicks on its back.

Just before our boat arrives back in Noorden, a blue tit on a reed stem.

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