Invertebrates
Understanding how environment and evolution shape the diversity of marine invertebrates
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Environmental Tolerance of Larvae |
Documenting Tropical Biodiversity |
Embryos and developing larvae are thought to be more sensitive to environmental conditions than adults. Therefore, if we are to understand how climate change will impact marine invertebrates we need to understand how they respond to predicted environmental changes. We experimentally challenge animals with different temperatures, salinities and oxygen concentrations to understand how these conditions impact growth and survival. We use natural variation in environmental conditions to understand how environmental conditions influence the distribution of adults and larvae in the wild [press release]. Comparing the tolerances of adults and developmental stages showed that larvae are more sensitive to both hot and cold temperatures and suggest that larval tolerances better predict the geographic ranges of sea urchins than do adult tolerances.
Figure from Collin and Chan 2016, showing the susceptibility of fertilization, cleavage and blastula formation are impacted by elevated temperature.
Evolutionary Transitions in Development
A biological rule called Dollo’s Law posits that evolutionary transitions that involve the loss of features are irreversible. Although this appears to be true in general, some interesting exceptions occur. In each major group of invertebrates some species have lost this larval stage, developing directly from large yolky eggs to juveniles, which crawl away from the protective egg capsules. Following Dollo’s Law this loss was thought to be irreversible, but we have recently discovered some exceptions. We study the loss and the unusual regained larvae, trying to understand these evolutionary transitions. [press release]
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We use new approaches to document tropical marine biodiversity. By photo-documenting and DNA barcoding invertebrate larvae collected from the plankton we are able to generate independent estimates of biodiversity. This is particularly useful for species that live in habitats that are difficult to sample. [stri.si.edu/story/parents-unknown]. In a recent article published by the Royal Society we demonstrate that sampling larvae provides a completely different view of the biodiversity of an area compared to samples of adults. In fact a number of species have only been collected as larvae.
Understanding Sex ChangeMarine gastropods use diverse strategies to reproduce. We take an experimental approach to understand why species of slipper snails change sex. The age, size and social environment all impact when these snails change from male to female. [press release]
Fostering Taxonomic Expertise Taxonomy — the science of finding, describing and naming organisms — is vital to all biological research, especially to understanding and conserving biodiversity. The shortage of taxonomic expertise relative to the large number of undescribed or undiscovered taxa (the so-called taxonomic impediment) is one of the current challenges facing researchers engaged in identifying, classifying and conserving the world’s biodiversity. [Find out more about our NSF-ARTS project]. We make how-to videos to help anyone who wants to learn more about collecting and identifying marine invertebrates.
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"From an evolutionary perspective successful reproduction is the only thing that matters in the life of an organisms "
To learn more about the CollinLab and the Smithsonian Tropical Research Institute please visit the following web pages.
Rachel Collin
CollinLab YouTube
CollinLab Blog
Bocas del Toro Research Station
Smithsonian Tropical Research Institute
STRI News
Rachel Collin
CollinLab YouTube
CollinLab Blog
Bocas del Toro Research Station
Smithsonian Tropical Research Institute
STRI News