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Our understanding of the limits of animal life is continually revised by scientific exploration of extreme environments. Here we report the discovery of numerous mummified cadavers of leaf-eared mice, Phyllotis vaccarum, from the summits of three different Andean volcanoes at elevations 6029-6233 m (19,780 - 20,449 ft) above sea level in the Puna de Atacama (Chile-Argentina). Such extreme elevations were previously assumed to be completely uninhabitable by mammals. In combination with a live-captured specimen of the same species from the nearby summit of Volcán Llullaillaco (6739 m [=22,110 ft]), the 13 summit mummies represent the highest physical records of mammals in the world. We report a chromosome-level genome assembly for P. vaccarum in combination with a whole-genome re-sequencing analysis and radiocarbon dating analysis that provide insights into the provenance and antiquity of the summit mice. We test alternative hypotheses to explain the existence of mouse graveyards on the summits of Atacama volcanoes. Radiocarbon data indicate that the most ancient of the mummies were at most a few centuries old. Genomic polymorphism data revealed a high degree of continuity between the summit mice and conspecifics from lower elevations in the surrounding Altiplano. Genomic data also revealed equal numbers of males and females among the summit mice and evidence of close kinship between some individuals from the same summit groups. These findings bolster evidence for self-sustaining populations of Phyllotis at elevations >6000 m and challenge assumptions about the environmental limits of vertebrate life and the physiological tolerances of small mammals.
Animals serve as hosts for complex communities of microorganisms, including endosymbionts that live inside their cells. Wolbachia bacteria are perhaps the most common endosymbionts, manipulating host reproduction to propagate. Many Wolbachia cause intense cytoplasmic incompatibility (CI) that promotes their spread to high and relatively stable frequencies. Wolbachia that cause weak or no CI tend to persist at intermediate, often variable, frequencies. Wolbachia could also contribute to host reproductive isolation (RI), although current support for such contributions is limited to a few systems. To test for Wolbachia frequency variation and effects on host RI, we sampled several local Prosapia ignipectus (Fitch)(Hemiptera: Cercopidae) spittlebug populations in the northeastern USA over two years, including closely juxtaposed Maine populations with different monomorphic color forms, “black” and “lined”. We discovered a group-B Wolbachia (wPig) infecting P. ignipectus that diverged from group-A Wolbachia, like model wMel and wRi strains in Drosophila, 6 to 46 MYA. Populations of the sister species Prosapia bicincta (Say) from Hawaii and Florida are uninfected, suggesting that P. ignipectus acquired wPig after their initial divergence. wPig frequencies were generally high and variable among sites and between years. While phenotyping wPig effects on host reproduction is not currently feasible, the wPig genome contains three divergent sets of CI loci, consistent with high wPig frequencies. Finally, Maine monomorphic black and monomorphic lined populations of P. ignipectus share both wPig and mtDNA haplotypes, implying no apparent effect of wPig on the maintenance of this morphological contact zone. We hypothesize P. ignipectus acquired wPig horizontally as observed for many Drosophila species, and that significant CI and variable transmission produce high but variable wPig frequencies.
The new species Aspicilia malvinae is described from the Falkland Islands. It is the first species of Megasporaceae to be discovered on the islands and only the seventh to be reported from South America. It is distinguished from other species of Aspicilia by the unusual secondary metabolite chemistry (hypostictic acid) and molecular sequence data. The collections of the new species support two lichenicolous fungi: Endococcus propinquus s. lat., which is new to the Falkland Islands, and a new species of Sagediopsis with small perithecia and 3-septate ascospores c. 18–20 × 4–5 μm, which is described here as S. epimalvinae. A total of 60 new DNA sequences obtained from species of Megasporaceae (mostly Aspicilia) are also introduced.
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