Geographic contingency, not species sorting, dominates macroevolutionary dynamics in an extinct clade of neogastropods (Volutospina; Volutidae)

• Published in: Paleobiology Vol. 47; no. 2; pp. 236 - 250
• Main Authors: Friend, Dana S., Anderson, Brendan M., Allmon, Warren D.
• Format: Journal Article
• Language: English
• Published: New York, USA The Paleontological Society 01.03.2021; Cambridge University Press; Paleontological Society
• Subjects: biogeography; biologic evolution; Body size; Cenozoic; Coastal plains; Connectivity; Contingency; Dispersal; Eggs; Endangered & extinct species; England; Environmental factors; Eocene; Europe; Extinction; Fossil animals; Fossils; Gastropoda; Great Britain; Gulf Coastal Plain; Hampshire Basin; invertebrate; Invertebrates; Larvae; Macroevolution; Marine molluscs; Mollusca; Neogastropoda; North America; Palaeocene; Palaeontology; Paleocene; Paleogene; Paleontology; Phylogenetics; Phylogeny; Population; rates; regression analysis; Speciation; Species; Species extinction; statistical analysis; Tertiary; United Kingdom; Volutidae; Volutospina; Western Europe
• ISSN: 0094-8373; 1938-5331
• DOI: 10.1017/pab.2020.60

Rates of speciation and extinction are often linked to many ecological factors, traits (emergent and nonemergent) such as environmental tolerance, body size, feeding type, and geographic range. Marine gastropods in particular have been used to examine the role of larval dispersal in speciation. However, relatively few studies have been conducted placing larval modes in species-level phylogenetic context. Those that have, have not incorporated fossil data, while landmark macroevolutionary studies on fossil clades have not considered both phylogenetic context and net speciation (speciation–extinction) rates. This study utilizes Eocene volutid Volutospina species from the U.S. Gulf Coastal Plain and the Hampshire Basin, U.K., to explore the relationships among larval mode, geographic range, and duration. Based on the phylogeny of these Volutospina, we calculated speciation and extinction rates in order to compare the macroevolutionary effects of larval mode. Species with planktotrophic larvae had a median duration of 9.7 Myr, which compared significantly to 4.7 Myr for those with non-planktotrophic larvae. Larval mode did not significantly factor into geographic-range size, but U.S. and U.K. species do differ, indicating a locality-specific component to maximum geographic-range size. Non-planktotrophs (NPTs)were absent among the Volutospina species during the Paleocene–early Eocene. The relative proportions of NPTs increased in the early middle Eocene, and the late Eocene was characterized by disappearance of planktotrophs (PTs). The pattern of observed lineage diversity shows an increasing preponderance of NPTs; however, this is clearly driven by a dramatic extinction of PTs, rather than higher NPT speciation rates during the late Eocene. This study adds nuance to paleontology's understanding of the macroevolutionary consequences of larval mode.