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Home Science News Marine

Unexplained Mystery Surrounding Great White Sharks Leaves Scientists Baffled

August 5, 2025
in Marine
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In a striking new study published in the Proceedings of the National Academy of Sciences, researchers have challenged a long-standing explanation for the mysterious genetic discrepancies observed in white sharks (Carcharodon carcharias). For more than two decades, scientists have puzzled over why the mitochondrial DNA of these apex predators varies starkly between populations, while their nuclear DNA remains remarkably consistent. Previously, this pattern was attributed primarily to differing migration behaviors between males and females, but fresh genomic analyses now suggest that this “philopatry” hypothesis falls short of explaining the phenomenon. Instead, the underlying cause appears to be far more complex and enigmatic, inviting a reconsideration of white shark population dynamics and evolutionary mechanisms.

The research team, led by Gavin Naylor of the Florida Museum of Natural History, undertook one of the most extensive genetic studies of white sharks to date, utilizing both nuclear and mitochondrial genome sequences sampled globally. Their genomic dataset spans the North Atlantic, Pacific, and Indian oceans and paints a detailed picture of white shark population history. Intriguingly, these data reveal that all contemporary white sharks trace back to a single, genetically homogenous population that survived a severe bottleneck approximately 10,000 years ago, near the end of the last ice age. As global sea levels rose and habitats expanded, this ancestral stock diversified into the geographically and genetically distinct populations found today.

This bottleneck held profound implications for white shark genetic diversity and structure. During the last glacial maximum, sea levels were lowered by about 40 meters, drastically reducing available habitat and confining the great whites to a “genetic corral” in the southern Indo-Pacific. The study’s evolutionary reconstructions indicate that populations began to diverge roughly 7,000 years ago, coinciding with post-glacial environmental changes and expanding oceanic niches. Yet, despite this diversification, the nuclear genomes of sharks across oceans remain far more alike than their mitochondrial genomes, challenging neat explanations for their population biology.

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At the heart of this conundrum lies the fundamental difference between nuclear and mitochondrial DNA inheritance. Nuclear DNA is biparentally inherited, combining genetic contributions from both male and female parents. By contrast, mitochondrial DNA (mtDNA) is maternally inherited—a legacy from an ancient symbiotic event where early eukaryotes incorporated mitochondria originally free-living bacteria. This dichotomy has long led biologists to hypothesize that while male sharks freely traverse vast ocean spaces, mixing nuclear genes across populations, females exhibit strong site fidelity during breeding seasons. Such behavior would confine mtDNA mutations geographically, generating distinct mitochondrial signatures in separate populations, while homogenizing nuclear DNA via male-mediated gene flow.

However, this study’s comprehensive genomic assessment calls this interpretation into question. Despite evidence supporting female philopatry and male dispersal from previous behavioral and tagging studies, the researchers found no subtle indications of this sex-biased dispersal within the nuclear DNA itself. If females repeatedly returned to natal sites to breed, nuclear DNA should exhibit at least some level of differentiation due to the mother’s genetic contribution, but this was not observed. Moreover, simulations quantifying the theoretical accumulation of mtDNA differences over the 10,000-year timeframe suggest that philopatry alone cannot generate the observed mitochondrial divergence.

In their search for alternative explanations, the authors considered reproductive skew, a phenomenon where only a few females contribute disproportionately to the next generation, potentially leading to uneven mitochondrial lineage representation. Such skew has been documented in social mammals like meerkats and many fish species. Yet, tests for reproductive skew demonstrated no such pattern in white sharks, leaving this explanation unsupported. This negative result further narrows the list of potential drivers.

Genetic drift, the random fluctuation of gene frequencies more pronounced in small populations, was another candidate mechanism. While drift can lead to rapid fixation of traits, it acts indiscriminately on both mitochondrial and nuclear DNA. The stark discordance seen here, wherein mitochondrial but not nuclear genomes diverge appreciably, makes drift an unlikely sole factor. Instead, the unique selective pressures on mitochondrial genomes would have to be extraordinarily strong and targeted to produce this pattern.

This leaves natural selection—an evolutionary process favoring traits that improve survival and reproduction—as the tentative but contentious explanation. The study suggests that if selection is acting on white shark mitochondrial DNA, it would have to be “brutally lethal” in its intensity. In other words, deviations from particular mitochondrial haplotypes would likely confer fatal disadvantages, causing rapid purging of such variants from the population. This selective sieve could maintain distinct mitochondrial lineages despite uniformity in nuclear genomes. Yet, such powerful selection is statistically unexpected in small populations, like those of white sharks, where drift usually dominates.

The authors draw parallels to other biological scenarios where weak and strong forces interplay in unexpected ways. For example, gravity, while universally present, has negligible influence on atomic structures but governs massive celestial bodies. Similarly, natural selection may sometimes produce outsized effects on mitochondrial genomes due to their central role in cellular energy production and metabolism. Disruptions in mitochondrial function can be severely detrimental, providing a plausible mechanistic link for intense purifying selection on mtDNA variants.

Despite these provocative hypotheses, the mystery remains unresolved. The divergence between mitochondrial and nuclear genomes in white sharks defies straightforward explanation and calls for deeper investigation. Future research may explore novel selective pressures, intricate life history traits, or yet undiscovered population dynamics contributing to this genetic paradox. Until then, the study emphasizes the importance of re-examining well-established ideas with robust data and methodological rigor.

This groundbreaking work also highlights the vulnerability of white sharks. With global population estimates hovering around only 20,000 individuals, the species’ limited abundance renders it susceptible to genetic erosion and environmental changes. Understanding the nuances of their genetic structure is not only of academic interest but critical for conservation efforts aimed at preserving these iconic marine predators.

In essence, what began as a quest to validate existing theories about shark migration turned into a compelling narrative of evolutionary intrigue. It underscores the complexity of oceanic ecosystems and the subtle yet profound forces shaping the genomes of their inhabitants. Each genetic twist unravels new chapters in the story of life’s resilience and adaptability under the pressures of an ever-changing planet.


Subject of Research: Genetic differentiation and evolutionary dynamics of white shark populations

Article Title: A genomic test of sex-biased dispersal in white sharks

News Publication Date: 4-Aug-2025

Web References: https://doi.org/10.1073/pnas.2507931122

References:

  • Naylor et al., Proceedings of the National Academy of Sciences, 2025
  • Previous foundational studies on white shark genetic structure and migration behaviors

Image Credits: Photo by Greg Skomal

Keywords: white shark, Carcharodon carcharias, mitochondrial DNA, nuclear DNA, genetic divergence, sex-biased dispersal, philopatry, natural selection, genetic drift, population bottleneck, genomic analysis, evolutionary biology

Tags: apex predator researchevolutionary mechanisms in sharksGavin Naylor Florida Museumgenetic bottleneck in sharksglobal shark population studyGreat White Shark geneticsmarine biology mysteriesmitochondrial DNA discrepanciesnuclear DNA consistencyphilopatry hypothesisProceedings of the National Academy of Scienceswhite shark population dynamics
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