Neat! We'll need to rewrite some longstanding hypotheses. #fishsci #biodiversity https://t.co/5eCCH2uYNr
RT @jehimes: Congrats @dan_rabosky et al. on your latest paper https://t.co/rNvTw7NSax Thanks for including my illustrations! https://t.co/…
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
RT @sofievalk: Lovely visual and interesting finding 🐠🐟🐟🐡🐡🐡🦈🦈🦈🦈 https://t.co/7Jvrgwbr2E
RT @fadingfrogs: Speciation rates are fastest where diversity is lowest in marine fishes. Polar and temperate seas, rather than the tropics…
RT @SteveBrusatte: Important paper alert: mega new family tree of fishes shows faster rates of new species evolution in high latitudes (not…
RT @fadingfrogs: Speciation rates are fastest where diversity is lowest in marine fishes. Polar and temperate seas, rather than the tropics…
Speciation rates are fastest where diversity is lowest in marine fishes. Polar and temperate seas, rather than the tropics, are evolutionary hotspots: https://t.co/jiup0cnOPC @dan_rabosky @chang_jon et al. Our (@ArneMooers) perspective on this study: http
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @pete_cowman: Biggest fish #phylogeny reveals inverse latitudinal gradient in #speciation rate - work I was involved in @nature https://…
Wow. Seriously cool study. https://t.co/zeSTTRPgW1
RT @SteveBrusatte: Important paper alert: mega new family tree of fishes shows faster rates of new species evolution in high latitudes (not…
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
Important paper alert: mega new family tree of fishes shows faster rates of new species evolution in high latitudes (not the tropics). So cool and unexpected! Great work @dan_rabosky @laurensallan @Friedman_Lab @TJNear @tempoandmode and crew! https://t.co/
Wowww. There is awsome work. https://t.co/4B4WQhuqxb
RT @Sears_Lab: New paper by Michael Alfaro (and others) of @UCLAEEB is out in Nature! Title: An inverse latitudinal gradient in speciation…
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
Well this is intriguing... https://t.co/GTXwBpACRx
WOOT! Sweeeeet science! https://t.co/3WoA5SZT3t
RT @pete_cowman: Biggest fish #phylogeny reveals inverse latitudinal gradient in #speciation rate - work I was involved in @nature https://…
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
Congratulations to @dan_rabosky, @chang_jon, @pete_cowman, @laurensallan, @Friedman_Lab, @TJNear, & @tempoandmode - glad to see this published! https://t.co/qNoNzxs6JT https://t.co/rGvEffkkjO
BIG phylogen. study finds high-endemism regions in cold oceans R world hotspots of sp. formation 4 ray-finned 🐟 https://t.co/0KCAHLAbsz NXT:🔎underlying mech.&CC-sensitivity @FAOfish @ClimeFish @FarFisH2020 @ICES_ASC @UCLA @UMich @IIM_CSIC @TJNear @fish
RT @LepPhylo: This looks like a nice paper, too bad I can't read it because it's behind a paywall. https://t.co/3Sv7PkmEFr
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @LepPhylo: This looks like a nice paper, too bad I can't read it because it's behind a paywall. https://t.co/3Sv7PkmEFr
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @jehimes: Congrats @dan_rabosky et al. on your latest paper https://t.co/rNvTw7NSax Thanks for including my illustrations! https://t.co/…
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
RT @jehimes: Congrats @dan_rabosky et al. on your latest paper https://t.co/rNvTw7NSax Thanks for including my illustrations! https://t.co/…
RT @jehimes: Congrats @dan_rabosky et al. on your latest paper https://t.co/rNvTw7NSax Thanks for including my illustrations! https://t.co/…
RT @pete_cowman: Biggest fish #phylogeny reveals inverse latitudinal gradient in #speciation rate - work I was involved in @nature https://…
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
RT @LepPhylo: This looks like a nice paper, too bad I can't read it because it's behind a paywall. https://t.co/3Sv7PkmEFr
RT @LepPhylo: This looks like a nice paper, too bad I can't read it because it's behind a paywall. https://t.co/3Sv7PkmEFr
RT @pete_cowman: Biggest fish #phylogeny reveals inverse latitudinal gradient in #speciation rate - work I was involved in @nature https://…
RT @LepPhylo: This looks like a nice paper, too bad I can't read it because it's behind a paywall. https://t.co/3Sv7PkmEFr
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
Gorgeous figure and results, don't you think @FishnandoAlda ? https://t.co/E884L4mkK5
RT @Friedman_Lab: Pleased to have played a (small) part in this paper in today’s @nature. Although fishes show a classic latitudinal divers…
Congrats @dan_rabosky et al. on your latest paper https://t.co/rNvTw7NSax Thanks for including my illustrations! https://t.co/kP9QweimN5
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
Awesome paper by an awesome team! Go check it out! https://t.co/LZvhSGGWMm
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @dan_rabosky: Global analysis of speciation rate & species richness in marine fishes, w/ fish megaphylogeny. Faster speciation in cold,…
RT @Davey_F_Wright: New paper by a lot of really cool people: "An inverse latitudinal gradient in speciation rate for marine fishes" I look…
RT @michaelgharvey: More confirmation of the emerging pattern of higher speciation rates in the temperate zone https://t.co/qu811SSPJZ
RT @michaelgharvey: More confirmation of the emerging pattern of higher speciation rates in the temperate zone https://t.co/qu811SSPJZ
RT @pete_cowman: Biggest fish #phylogeny reveals inverse latitudinal gradient in #speciation rate - work I was involved in @nature https://…