Dehorning Rhinos Cuts Poaching by 78% – Saving Thousands of Animals' Lives

Taking the relatively simple step of trimming the horns of wild rhinoceroses is enough to dramatically reduce the rate at which the animals are killed by poachers.
Across 11 nature reserves in South Africa, scientists found that dehorning black (Diceros bicornis) and white rhino (Ceratotherium simum) populations saw a sudden, sharp reduction in poaching by an average of 78 percent. It was, by far, the most effective method of curtailing the illegal slaughter of these endangered animals, researchers found.
"Dehorning rhinos to reduce incentives for poaching – with 2,284 rhinos dehorned across eight reserves – was found to achieve a 78 percent reduction in poaching, using just 1.2 percent of the overall rhino protection budget," says conservation biologist Tim Kuiper of Nelson Mandela University in South Africa.
The rhino horn trade represents one of the most poignant examples of the destructive influence of human activity.
The horns of these animals are made from keratin, like our own fingernails and hair; yet the perception persists among many cultures that they have medicinal value in spite of a complete lack of scientific evidence. Demand is so high that most rhino species on Earth are now at the brink of extinction due to poaching.
Many different strategies for reducing poaching have been proposed, from 3D printing rhino horns to the death penalty for offenders.
Kuiper and his colleagues conducted their study to determine the efficacy of the measures in place across 11 nature reserves in the Greater Kruger area – a landscape of about 2.4 million hectares wherein roughly 25 percent of all Africa's rhinos currently reside.
The researchers documented the poaching deaths of 1,985 rhinos between 2017 and 2023. That's roughly 6.5 percent of the rhino population of the area.
Most of the investment into anti-poaching measures focuses on reactive strategies – increased ranger presence, cameras, and tracking dogs. In the timeframe the researchers studied, these measures resulted in the arrests of around 700 poachers – but they did not significantly reduce the rate at which rhinos were killed, at least in part because of law enforcement corruption, the researchers say.
However, when dehorning measures were enacted, poaching rates plummeted.
Dehorning does not harm the rhino; it's a bit like having your nails trimmed or your hair cut. The horn's growth plates are left intact, so the keratin gradually regrows over time. Removing the horn removes the incentive to kill the rhino, since the horn is what the poachers want.
When the rhinos were dehorned, not only did the rate of poaching decrease; so too did the rate at which poachers entered the area.
However, dehorning was not a straight prevention measure. Because the horn grows back, 111 rhinos with horn stumps were still killed by poachers. Although the poaching rate of dehorned rhinos was lower, even a horn stump was sufficient incentive at least some of the time for the poaching syndicates.
And while poaching rates were down in the regions where dehorning was active, poachers often moved onto other regions to try their luck elsewhere, evidence suggests.
"It may be best," Kuiper wrote on The Conversation, "to think of dehorning as a very effective but short-term solution that buys us time to address the more ultimate drivers of poaching: horn demand, socio-economic inequality, corruption, and organised criminal networks."
Rhino poaching is such a complex issue that no one solution is likely to fix it. Removing the incentive as a first step, however, seems like it may be an important piece of the broader solution.
"It's important to check that our conservation interventions work as intended, and keep working that way," says ecologist Res Altwegg of the University of Cape Town.
"For me, this project has again highlighted the value of collecting detailed data, both on the interventions that were applied and the outcome. It's such data that makes robust quantitative analyses possible."
The researchers dedicate their work to the late Sharon Haussmann of the Greater Kruger Environmental Protection Foundation, who was instrumental to this collaborative research effort.
The findings have been published in Science Advances.
Worms Use Their Bodies to Build Towers as a Wild Survival Strategy
Elusive LSD Fungus Finally Discovered on Flower
We've Finally Seen The Skyscraper Tsunami That Shook Earth For 9 Days

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Yahoo

6 hours ago

• Yahoo

MIT scientists find first evidence that rivers form coral reef passes

In a new groundbreaking study out of MIT, researchers proved a theory that island rivers help shape and maintain the health of a reef rather than impacting it negatively. The findings stand to change conservation efforts for the better. In a paper published in the peer-reviewed journal Geophysical Research Letters, the MIT team described reef passes as "deep, navigable channels dissecting coral reefs around volcanic islands." These are basically wide channels that cut through the coral and serve as conduits for ocean water and nutrients to filter in and out. As many reef passes are found to form near large island river basins, researchers had previously assumed a relationship existed between the two. However, the theory remained unproven until now. The authors of the latest study showed "how coral reefs line up with where rivers funnel out from an island's coast." These water channels play a direct role as a freshwater body meets the sea, providing circulation throughout a reef and maintaining the health of corals by allowing saltwater and transporting key nutrients, a media release by MIT explained. The study impacts scientists' understanding of how coral reefs form and function, as much discussion has been brewing about this symbiotic interaction in recent years. MIT researchers focused on the Society Islands, a chain in the South Pacific Ocean around Tahiti and Bora Bora. However, the pandemic limited their ability to work onsite, needing to rely on satellite images and maps. Lead study authors professor Taylor Perron and graduate student Megan Gillen found that "reef passes are deep channels cutting through reef barriers and flats that facilitate wave- and tide-driven circulation. These passes regulate flow between lagoon and ocean." "It is well known that rivers discharging freshwater and sediment off islands affect reef structure and composition," study authors added. However, was there a direct connection between outlets of large island rivers and reef passes? Thanks to geospatial analysis of the archipelago, the researchers discovered that river basins drain to parts of the reef, essentially creating an underwater highway. River erosion actually shapes these coral formations. Rivers running towards the ocean created these eroded depressions in the coastline over time. The study authors identified two river-driven reef pass formation mechanisms: reef incision and reed encroachment. Incision refers to how "rivers cut passes into reefs exposed when the sea level is lower." Encroachment refers to where "old river channels on land are preserved as passes when sea level rises." "Reefs migrate toward the islands as sea levels rise, trying to keep pace with changing average sea level," observed Gillen. The study further states that the results "show how rivers may support reef health over geologic timescales by enhancing water circulation between lagoons and oceans." "A lot of discussion around rivers and their impact on reefs today has been negative because of human impact and the effects of agricultural practices," said Gillen. "This study shows the potential long-term benefits rivers can have on reefs, which I hope reshapes the paradigm and highlights the natural state of rivers interacting with reefs," she added Now, with this knowledge proven, Gillen will be exploring how rivers could be engineered to promote circulation and reef health. You can view the full study in the journal Geophysical Research Letters.

Forbes

13 hours ago

• Forbes

This Female Scientist Brought The Dire Wolf Back From Extinction

© John Davidson Women make up 43.1% of scientists in the U.S. workforce, yet they account for just 34% of the broader STEM fields, according to the National Science Foundation. Within these industries, many have faced sexual harassment or undue criticism throughout their careers, especially as their work garners public attention. The numbers—and the stories—are sobering. Enter Dr. Beth Shapiro, a powerhouse in genomic science. She has directed her own lab at the University of California, Berkeley, authored critically acclaimed books and holds the prestigious title of HHMI Investigator. Now, as the Chief Science Officer at Colossal Biosciences, a groundbreaking company leading the charge in de-extinction, Shapiro is guiding a predominantly female team to reshape the future of conservation and genomics. While leaving academia wasn't an easy decision for Shapiro, she has gone on to work on some of the most exciting projects in her career. Last year, she made history when she brought the dire wolf back from extinction. On October 1, 2024, the first two dire wolf pups, Romulus and Remus, were born; on January 31, 2025, a third dire wolf named Khaleesi was welcomed into the world. 'What conservation needs is bold ideas and bold action. This breakthrough showcases that humans are capable of both. We can use biotechnologies to speed up the processes of selection and adaptation,' she said in a statement on the Colossal website. 'With the successful birth of Colossal's dire wolf, we are one step closer to a world in which these tools are among those at our disposal to help species thrive in their rapidly changing habitats.' She has faced some level of criticism for the project, and the harshest are often less qualified males in the STEM field. However, Shapiro is more concerned about the next generation. 'We get letters from kids inspired by our work — our science, conservation efforts, and commitment to bettering the planet,' she explained in an interview. 'I worry about them losing hope when they see how women in science are often treated.' © John Davidson This isn't just about Shapiro; it's about the culture of tearing down women in fields where they're already underrepresented. The stakes are high—not just for the scientists, but for the future of innovation itself. What Can We Do To Change The Narrative? Look Beyond The Headlines Not all scientists are created equal. Before buying into criticism, dig deeper into the credentials of those doing the critiquing. Are their accomplishments anywhere near the level of those they're disparaging? Call Out Inequality When you see women's work unfairly diminished, speak up. The more we normalize respect and fairness, the better the culture becomes. Support Girls In STEM Programs that encourage young women to pursue careers in science, technology, engineering and math. Donate, mentor or simply share resources that highlight their importance. Challenge The Status Quo Question why women face disproportionate scrutiny. Is it jealousy, insecurity, or outdated biases? Sometimes, the problem isn't the science. It's the ego of the critic. Celebrate Women's Wins Share their successes, amplify their voices, and ensure their stories reach the audiences they deserve. MORE FROM FORBES Forbes The Science Of De-Extinction Is Providing Hope For Nature's Future By Emma Kershaw Forbes Billionaire Eugene Shvidler Revealed As The Artist Behind ES23 By Emma Kershaw Forbes Inside A $22 Million Mediterranean-Style Villa Overlooking San Francisco By Emma Kershaw

Yahoo

21 hours ago

• Yahoo

Experts celebrate as trail cameras capture once-in-a-lifetime photograph of 'forgotten' creature: 'The feeling was unbelievable'

A once-in-a-lifetime photograph of the Upemba lechwe has been published after one of the most endangered African animals momentarily paused for the camera. While the image is fuzzy, it clearly shows the endangered "forgotten antelope" standing in a grassy field — almost as if he's proudly posing for the now-famous photo. "The feeling was unbelievable," said Manuel Weber of the Department of Research and Biomonitoring at Upemba National Park, according to the Guardian. Researchers had feared they might not find any lechwe at all during the survey. But the camera told a different story. The antelope stopped for "literally a few seconds." What makes this photo so special? This sighting marks the first photographic evidence of a living Upemba lechwe since 2005, making it a significant breakthrough for the species and conservation efforts across the region. Experts estimate fewer than 100 Upemba lechwe remain in the wild, which makes every single sighting incredibly valuable. Researchers captured the photo in Upemba National Park, a remote region in the Democratic Republic of the Congo, where lechwe once roamed in far greater numbers. For years, conservationists worried the species might already be lost — wiped out by decades of poaching and habitat destruction. But during a recent aerial survey, researchers spotted one from above and managed to snap a quick photo. It's a small moment but a powerful one. "We hope this image becomes a rallying cry," Weber stated, according to the Guardian. "Because this may be our only chance to save this species." Protecting species like the Upemba lechwe doesn't just help preserve biodiversity — it also supports the livelihoods of nearby communities, bolsters food chains, and strengthens ecosystems that humans depend on. Smart management of our environment ensures more than just wildlife survival — it helps drive progress toward a cleaner, safer future for everyone. Cameras are proving to be powerful tools for scientists. While researchers used an aerial device for this image, conservationists often rely on trail cameras to non-invasively track elusive species and monitor their population health over time. Should the government be able to control how we heat our homes? Definitely Only if it saves money I'm not sure No way Click your choice to see results and speak your mind. Trail cams can also show when things are starting to go right — whether it's a species coming back, new babies being born, or animals returning to old migration paths. It's all proof that careful, thoughtful stewardship of the environment makes a real difference. When we manage habitats wisely, we're not just helping wildlife — we're protecting the systems that grow our food, filter our water, and support our communities. A healthy ecosystem doesn't just benefit the animals in it — it helps people, too. Join our free newsletter for good news and useful tips, and don't miss this cool list of easy ways to help yourself while helping the planet.