Thai farmer forced to kill more than 100 endangered crocodiles after a typhoon damaged their enclosure
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A Thai crocodile farmer who goes by the nickname “Crocodile X” said he killed more than 100 critically endangered reptiles to prevent them from escaping after a typhoon damaged their enclosure.
Natthapak Khumkad, 37, who runs a crocodile farm in Lamphun, northern Thailand, said he scrambled to find his Siamese crocodiles a new home when he noticed a wall securing their enclosure was at risk of collapsing. But nowhere was large or secure enough to hold the crocodiles, some of which were up to 4 meters (13 feet) long.
To stop the crocodiles from getting loose into the local community, Natthapak said, he put 125 of them down on September 22.
“I had to make the most difficult decision of my life to kill them all,” he told CNN. “My family and I discussed if the wall collapsed the damage to people’s lives would be far bigger than we can control. It would involve people’s lives and public safety.”
Typhoon Yagi, Asia’s most powerful storm this year, swept across southern China and Southeast Asia this month, leaving a trail of destruction with its intense rainfall and powerful winds. Downpours inundated Thailand’s north, submerging homes and riverside villages, killing at least nine people.
Storms like Yagi are “getting stronger due to climate change, primarily because warmer ocean waters provide more energy to fuel the storms, leading to increased wind speeds and heavier rainfall,” said Benjamin Horton, director of the Earth Observatory of Singapore.
Natural disasters, including typhoons, pose a range of threats to wildlife, according to the International Fund for Animal Welfare. Flooding can leave animals stranded, in danger of drowning, or separated from their owners or families.
Rain and strong winds can also severely damage habitats and animal shelters. In 2022, Hurricane Ian hit Florida and destroyed the Little Bear Sanctuary in Punta Gorda, leaving 200 animals, including cows, horses, donkeys, pigs and birds without shelter.
The risk of natural disasters to animals is only increasing as human-caused climate change makes extreme weather events more frequent and volatile.
Thai farmer forced to kill more than 100 endangered crocodiles
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“(This is) the closest we’ve come to detecting a major biomolecule-related signal — something potentially tied to membrane structure, which is a key feature of life,” Pearce said via email. “Organics on their own are intriguing, but not evidence of life. In contrast, biomolecules like membranes, amino acids, nucleotides, and sugars are central components of biology as we know it, and finding any of them would be groundbreaking (we haven’t yet).”
Returning samples from Mars
The European Space Agency plans to launch its ExoMars Rosalind Franklin rover to the red planet in 2028, and the robotic explorer will carry a complementary instrument to SAM. The rover LS6 will have the capability to drill up to 6.5 feet (2 meters) beneath the Martian surface — and perhaps find larger and better-preserved organic molecules.
While Curiosity’s samples can’t be studied on Earth, the Perseverance rover has actively been collecting samples from Jezero Crater, the site of an ancient lake and river delta, all with the intention of returning them to Earth in the 2030s via a complicated symphony of missions called Mars Sample Return.
Both rovers have detected a variety of organic carbon molecules in different regions on Mars, suggesting that organic carbon is common on the red planet, Williams said.
While Curiosity and Perseverance have proven they can detect organic matter, their instruments can’t definitively determine all the answers about their origins, said Dr. Ashley Murphy, postdoctoral research scientist at the Planetary Science Institute. Murphy, who along with Williams previously studied organics identified by Perseverance, was not involved in the new research.
“To appropriately probe the biosignature question, these samples require high-resolution and high-sensitivity analyses in terrestrial labs, which can be facilitated by the return of these samples to Earth,” Murphy said.
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“(This is) the closest we’ve come to detecting a major biomolecule-related signal — something potentially tied to membrane structure, which is a key feature of life,” Pearce said via email. “Organics on their own are intriguing, but not evidence of life. In contrast, biomolecules like membranes, amino acids, nucleotides, and sugars are central components of biology as we know it, and finding any of them would be groundbreaking (we haven’t yet).”
Returning samples from Mars
The European Space Agency plans to launch its ExoMars Rosalind Franklin rover to the red planet in 2028, and the robotic explorer will carry a complementary instrument to SAM. The rover LS6 will have the capability to drill up to 6.5 feet (2 meters) beneath the Martian surface — and perhaps find larger and better-preserved organic molecules.
While Curiosity’s samples can’t be studied on Earth, the Perseverance rover has actively been collecting samples from Jezero Crater, the site of an ancient lake and river delta, all with the intention of returning them to Earth in the 2030s via a complicated symphony of missions called Mars Sample Return.
Both rovers have detected a variety of organic carbon molecules in different regions on Mars, suggesting that organic carbon is common on the red planet, Williams said.
While Curiosity and Perseverance have proven they can detect organic matter, their instruments can’t definitively determine all the answers about their origins, said Dr. Ashley Murphy, postdoctoral research scientist at the Planetary Science Institute. Murphy, who along with Williams previously studied organics identified by Perseverance, was not involved in the new research.
“To appropriately probe the biosignature question, these samples require high-resolution and high-sensitivity analyses in terrestrial labs, which can be facilitated by the return of these samples to Earth,” Murphy said.