RT @paulharnik: New study of the latitudinal diversity gradient in marine ostracods https://t.co/TcHLeKNUrX
New study of the latitudinal diversity gradient in marine ostracods https://t.co/TcHLeKNUrX
RT @DrMoriartyY: Now published in a physical issue @JBiogeography : Comparing meio (ostracod) and macro (bivalve) LDGs https://t.co/5dPFex0…
Small organism is the vast majority of biodiversity (as @SeaCitizens says) and more climatic sensitive (than larger ones). From our lab: https://t.co/5dPFex0Jck @RubyBanana @JBiogeography
Ostracod is pretty standard (non contralian) organism following results/trends of @hhillebr1 classic LDG meta analysis well, and with good fossil record. Good news!! https://t.co/5dPFex0Jck @RubyBanana @JBiogeography
RT @DrMoriartyY: Now published in a physical issue @JBiogeography : Comparing meio (ostracod) and macro (bivalve) LDGs https://t.co/5dPFex0…
Now published in a physical issue @JBiogeography : Comparing meio (ostracod) and macro (bivalve) LDGs https://t.co/5dPFex0Jck @RubyBanana
RT @JBiogeography: Ostracod census data from the Western North Atlantic reveals that the understudied majority of biodiversity may be more…
Ostracod census data from the Western North Atlantic reveals that the understudied majority of biodiversity may be more sensitive to climate than well-studied, large organisms. Read more about the ramifications of anthropogenic climate change here: https:
Marine latitudinal diversity gradients, niche conservatism and out of the tropics and Arctic: Climatic sensitivity of small organisms https://t.co/qgUJFpBoEF
New from our lab: Marine latitudinal diversity gradients, niche conservatism and out of the tropics and Arctic: Climatic sensitivity of small organisms https://t.co/AnMsiJk5NC Very excited to see this eventually out!