Wednesday, 12 June 2019

Placentation in sloths

Placenta and fetal membranes of Hoffmann's Two-toed
Sloth (Choloepus hoffmanni) from Turner 1872
Two recent papers cast light on the evolution of sloths. Delsuc and colleagues obtained mitochondrial genomes from living and extinct sloths (here) while Presslee and colleagues used proteomics to describe Type I collagen - likewise from extant and extinct species (here). They agree that notions of sloth evolution based on morphology need revision. 

It was confirmed that two-toed and three-toed sloths are not closely related and group with different forms of ground sloths. A third group with a suspensory life style was found to have diverged even earlier. These sloths crossed a land bridge to the Greater Antilles and went extinct just a few thousand years ago.

Interhaemal barrier of the pale-throated three-toed sloth
(Bradypus tridactylus) Courtesy of Allen C. Enders
Together with anteaters and armadillos, sloths belong to the ancient superorder Xenarthra. Armadillo placenta has been studied in some detail. It is villous haemochorial (discussed here). Anteater placentation is rather similar (previous post). Sloths are different. As shown by Turner, the placenta is lobulated in appearance. It is labyrinthinre and endotheliochorial (here).

Given current opinion on the relations between sloths (Folivora), anteaters (Vermilingua) and armadillos (Cingulata), parsimony dictates that their common ancestor would have had a villous haemochorial placenta. Thus the sloth placenta represents a derived state. The most recent common ancestor of two-toed and three-toed sloths lived >25 million years ago whereas sloths diverged from anteaters >50 mya.