Understanding the genetic basis of repeated evolution of the same phenotype across taxa is a fundamental aim in evolutionary biology and has applications to conservation and management. However, the extent to which interspecific life-history trait polymorphisms share evolutionary pathways remains under-explored. We address this gap by studying the genetic basis of a key life-history trait, age at maturity, in four species of Pacific salmon (genus Oncorhynchus) that exhibit intra- and interspecific variation in this trait...
North Pacific harbor porpoise SNP and microhaplotype genotypes, mitochondrial control region haplotype sequencesPhillip Morin, Brenna Forester, Karin Forney, Carla Crossman, Brittany Hancock-Hanser, Kelly Robertson, Lance Barrett-Lennard, Robin Baird, John Calambokidis, Pat Gearin, Bradley Hanson, Cassie Schumacher, Timothy Harkins, Michael Fontaine, Barbara Taylor & Kim Parsons
Harbor porpoises in the North Pacific are found in coastal waters from southern California to Japan, but population structure is poorly known outside of a few local areas. We used multiplexed amplicon sequencing of 292 loci and genotyped clusters of SNPs as microhaplotypes (N=271 samples) in addition to mtDNA sequence data (N=413 samples), to examine the genetic structure from samples collected along the Pacific coast and inland waterways from California to southern British Columbia. We...
Earth observing satellites are a major research tool for spatially explicit ecosystem nowcasting and forecasting. However, there are practical challenges when integrating satellite data into usable real-time products for stakeholders. The need of forecast immediacy and accuracy means that forecast systems must account for missing data and data latency while delivering a timely, accurate and actionable product to stakeholders. This is especially true for species that have legal protection. Acipenser oxyrinchus oxyrinchus (Atlantic Sturgeon) were...
Data From: Polygenic basis and the role of genome duplication in adaptation to similar selective environmentsMatthew Campbell, Eric Anderson, John Carlos Garza & Devon Pearse
Genetic changes underlying adaptation vary greatly in terms of complexity and, within the same species, genetic responses to similar selective pressures may or may not be the same. We examine both complex (supergene) and simple (SNP) genetic variants occurring in populations of rainbow trout (Oncorhynchus mykiss) independently isolated from ocean access and compared them to each other and to an anadromous below-barrier population representing their ancestral source to search for signatures of both parallel and...
Data from: Phylogenomic species delimitation dramatically reduces species diversity in an Antarctic adaptive radiationElyse Parker, Alex Dornburg, Carl Struthers, Christopher Jones & Thomas Near
Application of genetic data to species delimitation often builds confidence in delimitations previously hypothesized using morphological, ecological, and geographic data and frequently yields recognition of previously-undescribed cryptic diversity. However, a recent critique of genomic data-based species delimitation approaches is that they have the potential to conflate population structure with species diversity, resulting in taxonomic oversplitting. The need for an integrative approach to species delimitation, in which molecular, morphological, ecological, and geographic lines of evidence are...
Physical and biological constraints on the capacity for life-history expression of anadromous salmonids: an Eel River, California, case studyAlyssa FitzGerald, David Boughton, Joshua Fuller, Sara John, Benjamin Martin, Lee Harrison & Nathan Mantua
Recovery of anadromous salmonid populations is complicated by the fact that these fish have complex life-histories. Habitat valuation and capacity methods need to account for spatiotemporal variability in temperature, geomorphic features, and a species’ thermal sensitivity mediated by biological interactions. We examined this interplay in a case study of steelhead trout (Oncorhynchus mykiss) and Chinook Salmon (O. tshawytscha) in California’s Eel River watershed. We estimated habitat suitability and fish capacity for each salmonid run and...
Globally, one-quarter of shark and ray species is threatened with extinction due to overfishing. Effective conservation and management can facilitate population recoveries; however, these efforts depend on robust data on movement patterns and stock structure, which are lacking for many threatened species, including the Critically Endangered soupfin shark (Galeorhinus galeus), a circumglobal coastal-pelagic species. Using passive acoustic telemetry, we continuously tracked 34 mature female soupfin sharks, surgically implanted with coded acoustic transmitters, for seven years...
Earth’s deep oceans remains less well understood than the surface of Mars. Beaked whales (ziphiids) are among the most visible inhabitants of the abyss, due to their large size and worldwide distribution, yet their diversity and ecology remain obscure. We combine genomic and morphometric analyses to reveal a new Southern Hemisphere ziphiid species, Ramari’s beaked whale, Mesoplodon eueu, whose name is linked to the Indigenous people of the lands from which the species holotype and...
Trophic position and niche width are fundamental components of a species’ ecology, reflecting resource use, and influencing key demographic parameters such as somatic growth, maturation, and survival. The present data file contains results of stable isotope analysis (stable-carbon, δ13C; stable-nitrogen, δ15N values) that was conducted on bulk skin tissue of 718 green sea turtles (Chelonia mydas) distributed among 16 foraging areas in the eastern Pacific from the US to Chile, a range spanning ~10,000 km....
Southwest Fisheries Science Center9
University of California, Santa Cruz2
California State University, Long Beach1
University of Washington1
Ross University School of Veterinary Medicine1
University of Aveiro1
University of Glasgow1
Oregon State University1
University of North Carolina1