TY - JOUR
T1 - The evolution of viviparity opens opportunities for lizard radiation but drives it into a climatic cul-de-sac
AU - Pincheira-Donoso, Daniel
AU - Tregenza, Tom
AU - Witt, Matthew
AU - Hodgson, David
PY - 2013
Y1 - 2013
N2 - Aim Evolutionary radiations into novel areas or niches require innovative adaptations. However, rapid subsequent changes in these novel conditions might
demand rapid re-adaptations to secure population persistence and prevent extinction. We propose that reptilian viviparity (live birth) is consistent with such a
scenario. Using the Liolaemus lizard radiation, we investigate the hypotheses that
historical invasions of cold climates have been permitted by transitions to viviparity, and that this parity mode is irreversible. Then, we investigate whether these
combined factors restrict viviparous lizards to cold climates, and hence, whether
viviparous species are particularly threatened by climate change.
Location South America.
Methods We employ phylogenetic analyses to investigate evolutionary transitions
in reproductive modes and their consequences for environmental restrictions in
viviparous lizards. We then employ climatic projections to predict the impact of
climate change on the future persistence of these organisms.
Results The oviparity-to-viviparity transition is consistently associated with colonization of cold climates, and appears to be irreversible. Since viviparity seems less
viable (compared with oviparity) in warm climates, species that evolve viviparity in
cold climates are likely to remain adaptively constrained to such environments.
Therefore, upward–poleward advances of climate warming will cause severe shifts
and contractions of viviparous species ranges, threatening major extinctions over
the next half century.
Main conclusions Viviparity has been largely responsible for the successful
radiation of Liolaemus into cold climates, but since this adaptation is predominantly
viable in these environments and is unlikely to re-evolve into oviparity, viviparity
may prove to be an evolutionary dead-end for lizards facing rapid climate change.
AB - Aim Evolutionary radiations into novel areas or niches require innovative adaptations. However, rapid subsequent changes in these novel conditions might
demand rapid re-adaptations to secure population persistence and prevent extinction. We propose that reptilian viviparity (live birth) is consistent with such a
scenario. Using the Liolaemus lizard radiation, we investigate the hypotheses that
historical invasions of cold climates have been permitted by transitions to viviparity, and that this parity mode is irreversible. Then, we investigate whether these
combined factors restrict viviparous lizards to cold climates, and hence, whether
viviparous species are particularly threatened by climate change.
Location South America.
Methods We employ phylogenetic analyses to investigate evolutionary transitions
in reproductive modes and their consequences for environmental restrictions in
viviparous lizards. We then employ climatic projections to predict the impact of
climate change on the future persistence of these organisms.
Results The oviparity-to-viviparity transition is consistently associated with colonization of cold climates, and appears to be irreversible. Since viviparity seems less
viable (compared with oviparity) in warm climates, species that evolve viviparity in
cold climates are likely to remain adaptively constrained to such environments.
Therefore, upward–poleward advances of climate warming will cause severe shifts
and contractions of viviparous species ranges, threatening major extinctions over
the next half century.
Main conclusions Viviparity has been largely responsible for the successful
radiation of Liolaemus into cold climates, but since this adaptation is predominantly
viable in these environments and is unlikely to re-evolve into oviparity, viviparity
may prove to be an evolutionary dead-end for lizards facing rapid climate change.
U2 - 10.1111/geb.12052
DO - 10.1111/geb.12052
M3 - Article
SN - 1466-822X
VL - 22
SP - 857
EP - 867
JO - Global Ecology & Biogeography
JF - Global Ecology & Biogeography
ER -