Tag Archives: arrow

Ancient 60,000-Year-Old Poisoned Arrow Unearthed in South Africa

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Recent archaeological findings have unveiled traces of two toxic plant alkaloids, bupandoline and epibufanisin, in artifacts discovered at the Umhlatuzana Rock Complex in KwaZulu-Natal, South Africa. These artifacts, known as lined microliths, date back approximately 60,000 years, providing evidence of poisoned weaponry from the Late Pleistocene era.

A lined microlith from the Umhlatuzana Caves, showing residues of bufanidrine and epibufanisin, along with reddish toxic glue attached to the tool. Image credit: Isaksson et al., doi: 10.1126/sciadv.adz3281.

Professor Marlies Lombard from the University of Johannesburg remarked, “This represents the earliest direct evidence of arrow poison used by humans.”

“Our research reveals that early humans in southern Africa invented the bow and arrow much earlier than previously believed and utilized natural compounds to enhance hunting efficiency.”

Using gas chromatography-mass spectrometry, Lombard and her team analyzed residues from 10 quartz microliths, identifying bufanidrine and epibufanisin in five of them.

These compounds are derived from the Amaryllidaceae plant family, which is indigenous to southern Africa.

The likely source is a plant species known as Buffondistica, historically associated with arrow poisons.

The residue patterns indicate that the Umhlatuzana microlith had a transverse handle and served as an arrow tip.

Visible poison residue along the dorsal part of some artifacts suggests that toxic compounds were incorporated into the adhesive used to attach the stone tip to the arrow shaft.

The presence of minor impact scars and edge striations supports its use as a tip for horizontally-handled arrows.

To validate their results, researchers compared the ancient residues with poisons extracted from 18th-century arrowheads in South Africa.

“Finding the same poison in both prehistoric and historical arrowheads was crucial,” stated Professor Sven Isaksson of Stockholm University.

“Through detailed analysis of the chemical structures, we confirmed that these materials can endure underground for extended periods.”

This groundbreaking discovery pushes the timeline for toxic weapons back significantly.

Previously, the oldest known arrow poisons were dated to the mid-Holocene, but the findings from Umhlatuzana demonstrate their use as far back as 60,000 years ago.

The authors explain that poisoned arrows are designed not for immediate kills, but to weaken animals over time, allowing hunters to track prey over great distances.

“Utilizing arrow poison requires foresight, strategy, and a keen understanding of natural effects,” noted Professor Anders Högberg from Linnaeus University.

“This indicates a level of cognitive sophistication in early human behavior.”

For further details, refer to the study published on January 7th in Scientific Advances.

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Sven Isaksson et al. 2026. Direct evidence of poison use in microlithic arrowheads from southern Africa, dating back 60,000 years. Scientific Advances, 12(2);doi: 10.1126/sciadv.adz3281

Source: www.sci.news

60,000 Years Ago: The Origins of Poisoned Arrow Hunting in Africa

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The San people using poison arrows for hunting

The San people of southern Africa utilize poison arrows for hunting, a practice rooted in ancient traditions.

imageBROKER.com / Alamy

Discoveries of plant poisons on 60,000-year-old arrowheads in South Africa suggest that ancient hunters harnessed toxic materials far earlier than previously believed.

Prior to this discovery, evidence for poisoned arrows extended back only about 8,000 years. However, a 2020 study of arrow tips dating from 50,000 to 80,000 years ago indicated they exemplified designs similar to modern poison arrows.

Led by Professor Marlies Lombard, researchers at the University of Johannesburg uncovered that the tips of 60,000-year-old arrowheads were coated in a sticky substance, though poison’s presence couldn’t initially be confirmed.

Recently, Professor Lombard and her team confirmed the presence of toxic alkaloids, such as bupandrin and epibufanisin, in five quartzite arrowheads retrieved from Umhlatuzana rock caves in KwaZulu-Natal province.

The scientists believe these toxins likely originated from milky exudates from the roots of the plant species Buffondistica, which could be applied directly to arrow tips or processed to create a potent resin.

“If we found this in just one artifact, it could have been a mere coincidence,” Lombard noted. “However, finding it in five out of ten artifacts strongly indicates it was systematically used 60,000 years ago.”

The same toxic sap is still employed by the San people today, suggesting an unbroken tradition lasting at least 60,000 years.

Toxic plant traces discovered on arrow points from the Umhlatuzana rock shelter

Marlies Lombard

The plant’s poison is lethal to rodents within 30 minutes and can induce nausea and coma in humans. For larger prey, the toxins likely slowed them down, allowing hunters to successfully track and kill them.

Professor Lombard speculates that the poison may have first been discovered when early humans ingested toxic bulbs, which could lead to illness or death. The plant also possesses antiseptic, antibacterial, and hallucinogenic qualities and is utilized in traditional medicine, though accidental overdoses still occur.

To verify their findings, researchers tested arrows collected by Carl Peter Thunberg, a Swedish naturalist who documented the use of poisoned arrows by indigenous hunters in the 1770s. These tests also revealed the presence of toxic alkaloids from the same plant species.

Sven Isaacson, a member of the research team at Stockholm University, noted that this discovery signifies an early example of sophisticated plant utilization. “While humans have utilized plants for nourishment and tools for millennia, this represents a distinct advancement — harnessing the biochemical attributes of plants to create drugs, medicines, and poisons.”

Topics:

  • Archaeology/
  • Ancient Humans

Source: www.newscientist.com

New Fossil Reveals Cambrian Nectocalid as an Early Ancestor of the Arrow Bug

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Nectakarizids are enigmatic Paleozoic creatures with a debatable classification. These beings evolved for aquatic life, boasting fins, camera-like eyes on stalks, and paired tentacles. Earlier theories proposed they belonged to a unique crustacean-like phylum, notochord, cephalopods, or even radioyoloons. However, new fossil discoveries from North Greenland indicate that Nectocalids are actually the early relatives of Arrow worms, also known as Chaetognaths. This discovery suggests that these relatively simplistic marine arrow worms had ancestors that played a significant predatory role within much more intricate anatomical structures and food webs.

Reconstructing the life of Nektognathus evasmithae. Image credit: Bob Nichols.

“About 15 years ago, a study based on the notable Burgess Shale fossil suggested that Nectochalidosis is a type of cephalopod,” said Jacob Vincer, a paleontologist at the University of Bristol.

“This argument seemed illogical to me as it contradicts much of what I understand about the taxonomy of these organisms.

In the recent research, Dr. Vinther and his team described Nektognathus evasmithae, a newly identified Nectocalid from the Sirius Passett Lagerstätte, dating back 519 million years in North Greenland.

By examining 25 fossil specimens of Nektognathus evasmithae, they successfully positioned the Nectocalid within the Tree of Life.

“We found that remnants of the nervous system manifested as paired mineralized structures, providing insight into these animals’ position in the evolutionary tree,” Dr. Winter remarked.

Nektognathus evasmithae holotype. Image credit: Vinther et al., doi: 10.1126/sciadv.adu6990.

Recently, paleontologists found a fossil from Sirius Passett, which belongs to a different branch of the evolutionary tree—a small group of swimming organisms known as arrow bugs and Chaetognaths.

“These fossils exhibit distinctive traits that set them apart from arrow worms, particularly the abdominal ganglia,” explains Dr. Tae Yoon Park, a paleontologist at the Korean Institute of Polar Research.

The abdominal ganglia consist of large nerve clusters situated above the abdomen in living arrow bugs, typical for this type of creature.

The distinctive anatomical features, coupled with unique preservation conditions, indicate that they may be replaced by phosphate minerals during the decomposition process.

“We now have a compelling piece of evidence to resolve the Nectkalido debate,” Dr. Park stated.

“Nectocaridids share numerous features with other fossils that are also part of the arrow worm lineage.”

“Many of these characteristics may superficially resemble squid and demonstrate a simple adaptation of invertebrates to a more dynamic swimming lifestyle, paralleling how whales and ancient marine reptiles evolved similar traits for their aquatic lifestyles.”

“Nectakalids possess complex camera-like eyes akin to ours,” Dr. Vincer elaborated.

“Contemporary arrow worms have a limited ability to form images, primarily detecting movement in well-lit environments.”

“Thus, the ancestors of arrow worms were indeed sophisticated predators, much like squids that appeared around 400 million years later.”

“Consequently, we can illustrate how arrow worms have a more significant role in the food chain than previously thought.”

“Our fossils are notably larger than the average living arrow worm and likely feature various adaptations for swimming, such as eyes and elongated antennae.

“To further substantiate the carnivorous nature of Nectkalizids, we discovered several specimens containing the remains of a swimming arthropod known as Isoxys in their gastrointestinal tract.

This study was published this week in the journal Advances in Science.

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Jacob Winter et al. 2025. Fossilized abdominal ganglia reveal the affinity of Chaetognaths for Cambrian calizids. Advances in science 11 (30); doi:10.1126/sciadv.adu6990

Source: www.sci.news