Using temperature tolerance to predict distribution and overwintering success of lionfish (Pterois volitans/miles complex) on the east coast of the United States

Kimball, Matthew Eric,

January 2003

Thesis (M.S.)--North Carolina State University, 2003. / Title from PDF title page (viewed Apr. 2, 2005). Includes vita. Includes bibliographical references (p. 40-45).

Spationtemporal population genomics of marine species : invasion, expansion, and connectivity

Bors, Eleanor Kathleen

January 2017

Thesis: Ph. D., Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Department of Biology; and the Woods Hole Oceanographic Institution), 2017. / Cataloged from PDF version of thesis. / Includes bibliographical references. / Every genome tells a story. This dissertation contains four such stories, focused on shared themes of marine population dynamics and rapid change, with an emphasis on invasive marine species. Biological invasions are often characterized by a range expansion, during which strong genetic drift is hypothesized to result in decreased genetic diversity with increased distance from the center of the historic range, or the point of invasion. In this dissertation, population genetic and genomic tools are used to approach complex and previously intractable fundamental questions pertaining to the non-equilibrium dynamics of species invasions and rapid range expansions in two invasive marine species: the lionfish, Pterois volitans; and the shrimp, Palaemon macrodactylus. Using thousands of loci sequenced with restriction enzyme associated DNA sequencing in these two systems, this research tests theoretical predictions of the genomic signatures of range expansions. Additionally, the first chapter elucidates patterns of population genetic connectivity for deep-sea invertebrates in the New Zealand region demonstrating intimate relationships between genetics, oceanographic currents, and life history traits. Invasive shrimp results extend our understanding of marine population connectivity to suggest that human-mediated dispersal may be as important - if not more important - than oceanographic and life history considerations in determining genetic connectivity during specific phases of marine invasions. In invasive populations of lionfish, measures of genomic diversity, including a difference between observed and expected heterozygosity, were found to correlate with distance from the point of introduction, even in the absence of spatial metapopulation genetic structure. These results indicate a signal of rapid range expansion. The final study in this dissertation uses an innovative temporal approach to explore observed genomic patterns in the lionfish. In all, this dissertation provides a broad perspective through the study of multiple species undergoing superficially parallel processes that, under more intense scrutiny, are found to be mechanistically unique. It is only through comparative approaches that predictable patterns of population dynamics will emerge. / by Eleanor Kathleen Bors. / Ph. D.

Biology.

Woods Hole Oceanographic Institution.

Genes

DNA

Pterois miles

Shrimps

Heterozygosity

Spatial Analysis of the Invasion of Red Lionfish, Pterois volitans/miles, in the Western Atlantic Ocean and Caribbean Sea

Johnston, Matthew W.

09 December 2010

Pterois volitans and Pterois miles, two species of lionfish from the South Pacific and Indian Ocean, have become prolific invaders of reef, hard bottom, mangrove, and sea grass habitats along the United States Atlantic coast and Caribbean. Their route and timing of introduction is poorly understood. However, historical sightings and captures have been robustly documented since their introduction. This study presents an in-depth analysis of these records based on spatial location, dates of arrival, and physical factors present at capture sights. A stage map was created showing the progression of the invasion as a series of current-driven and proximity-based recruitment periods based on the observed invasion pattern. Using a model that was developed for this study, the relationship between depth, salinity, temperature, and current was examined, finding the latter to be the most influential parameter for transport to new areas. Temperature and extreme depth are perceived as the only limiting factors in the invasion. This predictive model can be applied to other species and locations.

Pterois volitans

Pterois miles

lionfish

invasive species

Atlantic Ocean

modeling

computational GIS

Marine Biology

Computer Modeling the Incursion Patterns of Marine Invasive Species

Johnston, Matthew W.

26 February 2015

Abstract Not Available.

Lionfish

Pterois volitans

Pterois miles

Invasive Species

Species Distribution Models

Cellular Automata

Caulerpa Taxifolia

Software

Connectivity

Pacific Ocean

Atlantic Ocean

Computer Modeling

Modeling

Computational GIS

Mediterranean Sea

Cellular Automaton

Panther Grouper

Chromileptes altivelis

South Florida

Computer Simulation

Hurricanes

Reef Connectivity

Hawai'i

Snapper

Grouper

Fisheries

Habitat Equivalency Analysis

Lionfish Control

Lionfish Removals

International Strategy

Marine Biology