Lion populations show significant loss of genetic diversity, say researchers

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This is a brief summary of the research document – please download the entire report for a greater understanding.

Most research focuses on reductions in population size and distributions, whereas the researchers believe that loss in genetic diversity is of utmost importance for the conservation of lions. Genetic diversity contributes to individual fitness, species evolutionary potential and ecosystem function and resilience.

Lions are an important flagship species that has undergone a major population and range decline, with recent estimates of the lion population in Africa between 16,500 and 35,000 individuals. This represents an estimated decline of 42% over the past 21 years. Major declines in lion and other wildlife populations have also been noted further back in time. As is the case for other species, the decline in lion numbers has been driven primarily by human-wildlife conflict and habitat loss.

The research, conducted by Dures, Carbone, Loveridge, Maude, Midlane, Aschenborn and Gottelli, was based on comparing modern and historical lion populations from the KAZA region – Angola, Botswana, Namibia, Zambia and Zimbabwe. Historical DNA samples were extracted from museum specimens.

The resultant data demonstrates that, over the past century, the lion population of the Kavango–Zambezi region has lost genetic diversity, with current-day observed heterozygosity reduced by 12%–17% compared to historical populations, represented by a significantly larger inbreeding coefficient. Although this decline is not as dramatic as that seen in some highly threatened or bottlenecked species such as Mauritius kestrel (Falco punctatus) at 57% or sea otters (Enhydra lutris) at 43%, it nevertheless represents a worrying reduction in diversity considering this population is one of only six lion strongholds remaining in Africa.

This decline in genetic diversity coincides with the arrival of the first western settlers in 1890 and the subsequent rise of the colonial presence in the region after the end of the Matabele Wars in 1897.

Modern firearms became more prevalent following European settlement and predators were often persecuted as vermin. Another contributing factor was likely the outbreak of the rinderpest virus during the late 1890s, which resulted in the death of vast populations of buffalo, giraffe and wildebeest, as well as domestic livestock. Such an epidemic is very likely to have also had a considerable impact on the predators of the region.

Rinderpest outbreak in 1896 in South Africa, which killed large numbers of cattle and cloven-hoofed wildlife
There is a risk of overestimating the potential for modern populations to resist the effects of the pressures that they face, if genetic factors are not considered. Populations which may be considered stable by contemporary conservation managers may in fact show signs of genetic erosion, thus needing greater conservation attention.

The dramatic population decline of the African lion has made the protection of the remaining populations and the improvement of gene flow between populations of the upmost importance, and has led to a number of transboundary conservation initiatives. It is imperative that efforts are made to conserve genetic diversity, without which a species resilience and ability to adapt to future unpredictable events becomes greatly compromised.