Litcius/Paper detail

The emergence and demise of giant sloths

Alberto Boscaini, Daniel Casali, Néstor Toledo, Juan L. Cantalapiedra, M. Susana Bargo, Gerardo De Iuliis, Timothy J. Gaudin, Max C. Langer, Rachel E. Narducci, François Pujos, Eduardo M. Soto, Sergio F. Vizcaı́no, Ignacio M. Soto

2025Science15 citationsDOIOpen Access PDF

Abstract

The emergence of multi-tonne herbivores is a recurrent aspect of the Cenozoic mammalian radiation. Several of these giants have vanished within the past 130,000 years, but the timing and macroevolutionary drivers behind this pattern of rise and collapse remain unclear for some megaherbivore lineages. Using trait modeling that combines total-evidence evolutionary trees and a comprehensive size dataset, we show that sloth body mass evolved with major lifestyle shifts and that most terrestrial lineages reached their largest sizes through slower evolutionary rates compared with extant arboreal forms. Size disparity increased during the late Cenozoic climatic cooling, but paleoclimatic changes do not explain the rapid extinction of ground sloths that started approximately 15,000 years ago. Their abrupt demise suggests human-driven factors in the decline and extinction of ground sloths.

Topics & Concepts

SlothArboreal locomotionDemiseCenozoicExtinction (optical mineralogy)Extinction eventExtant taxonHerbivoreBiologyEcologyTraitHomo erectusLineage (genetic)PaleontologyEvolutionary biologyPleistoceneHabitatBiological dispersalDemographyPolitical scienceBiochemistryComputer scienceLawStructural basinGeneSociologyPopulationProgramming languageEvolution and Paleontology StudiesPleistocene-Era Hominins and ArchaeologyMorphological variations and asymmetry