Key innovations are newly acquired structures that permit the performance of a new function and open new adaptive zones,and are,therefore,of paramount significance for understanding the history of the Ruminantia...Key innovations are newly acquired structures that permit the performance of a new function and open new adaptive zones,and are,therefore,of paramount significance for understanding the history of the Ruminantia,particularly its diversification through the Miocene.Here we review and discuss what is known about these evolutionary novelties,with special emphasis on the appearance and evolution of cranial appendages and high-crowned(or hypsodont)teeth.Cranial appendages probably favored the diversification of pecorans by being structures strongly related to sexual selection,whereas the acquisition of hypsodont teeth could have expanded potential dietary breadth and allowed species to extend diets into the grazing range without eliminating browsing as a potential diet.When analyzed in conjunction with patterns of faunal diversity and in the context of climatic changes,it seems that the overall view that ruminant cranial appendages and hypsodonty may have started responding to increased patterns of seasonality and the opening-up of ecosystems is roughly valid.Instead,they occurred through several distinct pulses and varied widely among continents.This review is,to our knowledge,the first to highlight that the evolution of these innovations has been far from constant and uniform through time.Furthermore,we identify that both a first attempt to increase hypsodonty starting in the early Miocene and a first evolution of antlers and pronghorns were interrupted as a consequence of wide climatic fluctuations in the early-middle Miocene transition.展开更多
In a recent paper published in a special issue of Integrative Zoology on‘Paleontology and evolution–part I.’(Palombo 2014),the author(van der Geer 2014)takes a review of the derived traits observed in endemic fossi...In a recent paper published in a special issue of Integrative Zoology on‘Paleontology and evolution–part I.’(Palombo 2014),the author(van der Geer 2014)takes a review of the derived traits observed in endemic fossil insular mammals,including body size variation,cranial and postcranial changes,and modifications in dentition.At one point in the discussion,the author misinterprets and seriously distorts statements by Jordana et al.(2012)on the relationship between hypsodonty and longevity in the fossil insular bovid Myotragus balearicus Bate,1909.展开更多
基金This work was supported by the Spanish Ministerio de Economía y Competitividad(projects CGL2010-216723,CGL2010-19116 and CGL2011-25754,and JCI-2011-11697 to D.DeMiguel)the Research Group BSCH-UCM910607,and the government of Aragón(E05).The authors are grateful to M.Hernández Fernández and I.M.Sánchez for their helpful comments that enhanced the quality of the original manuscript.
文摘Key innovations are newly acquired structures that permit the performance of a new function and open new adaptive zones,and are,therefore,of paramount significance for understanding the history of the Ruminantia,particularly its diversification through the Miocene.Here we review and discuss what is known about these evolutionary novelties,with special emphasis on the appearance and evolution of cranial appendages and high-crowned(or hypsodont)teeth.Cranial appendages probably favored the diversification of pecorans by being structures strongly related to sexual selection,whereas the acquisition of hypsodont teeth could have expanded potential dietary breadth and allowed species to extend diets into the grazing range without eliminating browsing as a potential diet.When analyzed in conjunction with patterns of faunal diversity and in the context of climatic changes,it seems that the overall view that ruminant cranial appendages and hypsodonty may have started responding to increased patterns of seasonality and the opening-up of ecosystems is roughly valid.Instead,they occurred through several distinct pulses and varied widely among continents.This review is,to our knowledge,the first to highlight that the evolution of these innovations has been far from constant and uniform through time.Furthermore,we identify that both a first attempt to increase hypsodonty starting in the early Miocene and a first evolution of antlers and pronghorns were interrupted as a consequence of wide climatic fluctuations in the early-middle Miocene transition.
文摘In a recent paper published in a special issue of Integrative Zoology on‘Paleontology and evolution–part I.’(Palombo 2014),the author(van der Geer 2014)takes a review of the derived traits observed in endemic fossil insular mammals,including body size variation,cranial and postcranial changes,and modifications in dentition.At one point in the discussion,the author misinterprets and seriously distorts statements by Jordana et al.(2012)on the relationship between hypsodonty and longevity in the fossil insular bovid Myotragus balearicus Bate,1909.
