At Least 500 Jaguars Lost Their Lives or Habitat in Amazon Fires
By Shreya Dasgupta
The fires ravaging the Amazon forest in Brazil and Bolivia this year have burned key habitats of at least 500 adult, resident jaguars as of Sept. 17, rendering them dead or homeless, say experts at Panthera, the global wild cat conservation organization.
"The number of homeless or dead jaguars has undoubtedly increased since Panthera's estimate was released, and will continue to increase until the rains come," Esteban Payan, Panthera's South America regional director, told Mongabay in an email.
To estimate the number of affected jaguars (Panthera onca), Panthera researchers used the total area of jaguar habitat burned, taken from burned areas reported by the Brazilian National Institute for Space Research (INPE) and the Environmental Secretariat of the Governor's office of Santa Cruz, Bolivia. They combined this with a jaguar density estimate of 2.5 jaguars per 100 square kilometers (39 square miles) derived from a 2018 study authored by jaguar experts.
"Density from jaguar populations in central Amazonia, the work from my Ph.D., was more around 3 animals in 100 square kilometers. So again, this is 'at least' that number  of jaguars impacted," Payan said.
In Bolivia in particular, the fires have so far destroyed more than 2 million hectares (4.9 million acres) of forest in one of South America's key "catscapes," a region that Panthera has identified as having the highest predicted density of cat species on the continent. Some parts of Bolivia's catscape are home to eight cat species, including the jaguar, puma (Puma concolor), ocelot (Leopardus pardalis), margay (Leopardus wiedii), oncilla (Leopardus tigrinus), jaguarundi (Herpailurus yagouaroundi), Geoffrey's cat (Leopardus geoffroyi) and Pampas cat (Leopardus colocola).
Map showing burned areas in Bolivia and wild cat presence. Image courtesy of Panthera.
Some researchers estimate that millions of animals have likely been lost to the Amazon fires this year. But given the widespread and destructive nature of the fires this year, the exact number of jaguars killed is difficult to calculate. Panthera researchers, however, predict that hundreds of jaguars will starve or turn to killing livestock in neighboring ranches as a consequence of the fires, "where they will be hunted down," Payan said.
Increased interactions between jaguars and livestock will likely only intensify conflict between the animals and ranchers and farmers. This would throw a spanner in the efforts of conservationists who've been working to resolve this conflict for decades.
"Jaguars with GPS collars from our partner Oncafari in the Brazilian Pantanal have already been captured and moved from the fires in an attempt to protect the cats," Payan said.
In addition to jaguars, Panthera has obtained reports and captured images of pumas and ocelots fleeing the fires, as well as of animals that burned to death, both small, slow-moving ones like turtles, tortoises and caimans, and fast-moving ones like marsh deer and peccaries. "Fires don't burn in a straight line so many animals get trapped in circles of fire and many others die of thirst and heat even before fire touches them," Payan said.
Burned habitat in the Brazilian Pantana. Image by Oncafari.
Fires not only destroy critical habitats, they also fragment forests, reducing connectivity between habitats that animals need to live and thrive. Moreover, repeated burning of the Amazon forest every year — almost entirely lit by humans to clear land for ranches, pastures or agriculture land — has compromised the forest's ability to recover when some of the burned areas are eventually abandoned and allowed to regenerate, researchers have found.
"The shock waves of these exceptionally large and, for the most part, human-lit fires are being felt not only by the wildlife and people of Brazil and Bolivia, but also those in Peru and Paraguay," Howard Quigley, Panthera's jaguar program and conservation science executive director, said in a statement. "These fires stand to directly impact the continent, and in the end, the health of the planet as they hurt one of the cradles of biodiversity and greatest counter forces against global warming."
Overall, the fires will affect Panthera's efforts to create one of the world's largest, contiguous jaguar corridors across South America's Pantanal region. But Payan said that the team is hoping to address this by scaling up its cooperation with communities, first responders, local NGOs, and protected-area managers; better equipping rangers to manage fires in protected areas; reducing cattle losses to jaguars and increasing productivity on existing ranches to limit further deforestation; and working with landowners, businesses and governments to plan and manage lands responsibly.
"Fire is now an intensified threat to jaguars and their associated biodiversity because of its intensity, speed and scale," he said. "The intensity of destruction is nearly absolute, the speed of propagation implies that in minutes it can become nearly impossible to control, and as it will cover vast areas the scale of damage to the natural world is immense."
Marsh deer in Bolivia, one of the jaguar's prey. Image by Juan Carlos Urgel.
Out of the frying pan into the fire.— Extinction Rebellion ⌛️ (@ExtinctionR) September 6, 2019
Life on Earth is in crisis: we have entered a period of abrupt climate breakdown, and we are in the midst of a mass extinction of our own making.
We must make our governments #ActNow:https://t.co/mqKGSOjHcUhttps://t.co/5NXPJKS8qi
Reposted with permission from our media associate Mongabay.
Sweden's reindeer have a problem. In winter, they feed on lichens buried beneath the snow. But the climate crisis is making this difficult. Warmer temperatures mean moisture sometimes falls as rain instead of snow. When the air refreezes, a layer of ice forms between the reindeer and their meal, forcing them to wander further in search of ideal conditions. And sometimes, this means crossing busy roads.
- San Antonio, Texas Unveils Largest Highway Crossing for Wildlife in ... ›
- Wildlife Crossings a Huge Success - EcoWatch ›
EcoWatch Daily Newsletter
- Climate Change Will Be Sudden and Cataclysmic Unless We Act Now ›
- There's a Heatwave at the Arctic 'Doomsday Vault' - EcoWatch ›
- Marine Heatwaves Destroy Ocean Ecosystems Like Wildfires ... ›
By Aaron W Hunter
A chance discovery of a beautifully preserved fossil in the desert landscape of Morocco has solved one of the great mysteries of biology and paleontology: how starfish evolved their arms.
The Pompeii of palaeontology. Aaron Hunter, Author provided<h2></h2><p>Although starfish might appear very robust animals, they are typically made up of lots of hard parts attached by ligaments and soft tissue which, upon death, quickly degrade. This means we rely on places like the Fezouata formations to provide snapshots of their evolution.</p><p>The starfish fossil record is patchy, especially at the critical time when many of these animal groups first appeared. Sorting out how each of the various types of ancient starfish relate to each other is like putting a puzzle together when many of the parts are missing.</p><h2>The Oldest Starfish</h2><p><em><a href="https://www.biorxiv.org/content/10.1101/216101v1.full.pdf" target="_blank" rel="noopener noreferrer">Cantabrigiaster</a></em> is the most primitive starfish-like animal to be discovered in the fossil record. It was discovered in 2003, but it has taken over 17 years to work out its true significance.</p><p>What makes <em>Cantabrigiaster</em> unique is that it lacks almost all the characteristics we find in brittle stars and starfish.</p><p>Starfish and brittle stars belong to the family Asterozoa. Their ancestors, the Somasteroids were especially fragile - before <em>Cantabrigiaster</em> we only had a handful of specimens. The celebrated Moroccan paleontologist Mohamed <a href="https://doi.org/10.1016/j.palaeo.2016.06.041" target="_blank" rel="noopener noreferrer">Ben Moula</a> and his local team was instrumental in discovering <a href="https://www.sciencedirect.com/science/article/abs/pii/S0031018216302334?via%3Dihub" target="_blank" rel="noopener noreferrer">these amazing fossils</a> near the town of Zagora, in Morocco.</p><h2>The Breakthrough</h2><p>Our breakthrough moment came when I compared the arms of <em>Cantabrigiaster</em> with those of modern sea lilles, filter feeders with long feathery arms that tend to be attached to the sea floor by a stem or stalk.</p><p>The striking similarity between these modern filter feeders and the ancient starfish led our team from the University of Cambridge and Harvard University to create a new analysis. We applied a biological model to the features of all the current early Asterozoa fossils in existence, along with a sample of their closest relatives.</p>
Cantabrigiaster is the most primitive starfish-like animal to be discovered in the fossil record. Aaron Hunter, Author provided<p>Our results demonstrate <em>Cantabrigiaster</em> is the most primitive of all the Asterozoa, and most likely evolved from ancient animals called crinoids that lived 250 million years before dinosaurs. The five arms of starfish are a relic left over from these ancestors. In the case of <em>Cantabrigiaster</em>, and its starfish descendants, it evolved by flipping upside-down so its arms are face down on the sediment to feed.</p><p>Although we sampled a relatively small numbers of those ancestors, one of the unexpected outcomes was it provided an idea of how they could be related to each other. Paleontologists studying echinoderms are often lost in detail as all the different groups are so radically different from each other, so it is hard to tell which evolved first.</p>
- Biden Reaffirms Commitment to Rejoining Paris Agreement ... ›
- Biden Likely Plans to Cancel Keystone XL Pipeline on Day One ... ›
- Joe Biden Appoints Climate Crisis Team - EcoWatch ›