The Last Northern White Rhinos And The Tech That Could Save Their Kind

Zacharia Mutai, the keeper of the Northern White Rhinos shares a moment with Najin.

National Geographic

Two northern white rhinos remain alive today—Najin and her daughter Fatu—both living under armed guard in Kenya’s Ol Pejeta Conservancy. With no surviving males, the subspecies is functionally extinct. Yet in the face of near-certain loss, a coalition of scientists, conservationists and ethicists has embarked on an audacious mission to bring the species back.

National Geographic’s The Last Rhinos: A New Hope follows this story, spotlighting the BioRescue project, a global effort using advanced reproductive science to give northern white rhinos a second chance. It’s a story that blends tragedy and hope, raising difficult questions about humanity’s role in both destroying and possibly reviving species.

A Conservation Mission Like No Other

Traditional conservation strategies—protecting habitats, halting poaching and relocating animals—can only go so far. For the northern white rhino, those measures came too late. Years of poaching for horn and loss of habitat pushed the population into collapse.

BioRescue, led by scientists from Germany’s Leibniz Institute for Zoo and Wildlife Research alongside Kenyan partners, represents a bold new path. Instead of just guarding the last two females until their natural deaths, the team is turning to science to keep the lineage alive. Their tools: in vitro fertilization (IVF), stem-cell research and surrogacy.

So far, the team has successfully created multiple viable embryos using eggs from Fatu and preserved sperm from deceased northern white males. These embryos are frozen, waiting for implantation into southern white rhino surrogates—a closely related subspecies. If successful, the calves born would represent a step toward restoring the northern white rhino population.

Technology at the Edge of Conservation

At the heart of BioRescue’s mission is a fusion of biology and technology that stretches the boundaries of conservation.

The process begins with oocyte retrieval—a delicate, ultrasound-guided procedure to collect eggs from Fatu. Those eggs are fertilized in the lab with sperm from long-dead northern white males, creating embryos stored in cryogenic conditions. These frozen embryos can then be implanted into southern white rhino females, who act as surrogates.

But the project goes further than IVF. BioRescue is pioneering induced pluripotent stem cell (iPSC) technology. By reprogramming ordinary cells—like skin fibroblasts—into stem cells, scientists hope to create eggs and sperm from individuals long gone. This would dramatically expand the genetic pool and increase the odds of building a sustainable population.

I had a chance recenty to chat with Jan Stejskal, director of BioRescue, about their efforts. He explained, “The first baby will be a proof of concept, but it will not save the species. That is why we are already working on stem cell techniques to turn stem cells into gametes. This will allow us to have more embryos than we can produce now and to enhance the genetic variability of the founding population”.

Science, Ethics and Responsibility

The effort also forces tough questions. Should humans intervene at this level? Is it ethical to revive a population when its natural habitat remains threatened by poaching and political instability?

Critics argue that resources might be better spent protecting species with healthier populations. Others worry about the precedent of “techno-fixes,” where science becomes a substitute for environmental stewardship.

But Stejskal stressed that BioRescue is not a replacement for traditional conservation. “I do not want this to sound like the other traditional approaches in conservation would not matter. They matter a lot because the most efficient way is still to protect animals when they are in good numbers and in large protected areas. This is just a rescue mission”.

Why It Matters Beyond Rhinos

The lessons from BioRescue extend well beyond rhinos. Techniques like IVF, stem-cell gamete creation and surrogacy could be applied to other species teetering on the brink, from Sumatran rhinos to rare amphibians.

It also reframes conservation itself. For decades, the model was to set aside land and guard it. Now, conservation is becoming as much about laboratories and cryogenic storage as it is about rangers and sanctuaries. It’s a shift that may become essential as climate change and human development put more species at risk.

A Last Stand or a New Beginning?

The Last Rhinos: A New Hope is a reflection on what it means to carry hope in the face of irreversible loss—and to use science not only as a tool of discovery but of redemption.

As we closed our conversation, Jan emphasized the philosophy made famous in the movie Apollo 13: “Failure is not an option.” The team functions from the perspective that there is a way—and that no matter how many hurdles they encounter or walls they hit, they have an obligation and a determination to persevere until they find it.

The two surviving northern white rhinos are symbols of both human failure and ingenuity. Their future depends not on natural breeding but on a delicate mix of biology, technology and global collaboration. Whether this effort marks the rebirth of a species or its final chapter, it forces us to confront the question: when a species disappears because of us, do we have an obligation to bring it back?

In the end, the northern white rhino is not just a story of extinction—it’s a test of how far we are willing to go to make hope more than just a word.

The Last Rhinos: A New Hope premieres on National Geographic on August 24, and will be available to stream on Disney+ and Hulu on August 25.