Margaret Lamont, Ph.D.
Meg Lamont is a Research Biologist at the USGS Wetland and Aquatic Research Center.
Meg Lamont is a research biologist focusing on population-level studies of coastal and marine vertebrates in the Gulf of Mexico. She leads multiple research projects on topics such as demography, habitat use, and movement patterns, particularly related to varying environmental parameters. Her research has focused on species that include nesting and inwater marine turtles (Kemp's ridley, loggerhead and green turtles), diamondback terrapins, gopher tortoise, box turtles, Gulf sturgeon and Yellowfin tuna. She partners with various agencies including the Department of Defense, US Fish and Wildlife Service and the Bureau of Ocean Energy Management, in addition to academic institutions, state agencies and non-profit organizations.
Education and Certifications
Ph.D., Wildlife Ecology and Conservation, University of Florida, 2002
M.S., Marine Science, California State University, Moss Landing Marine Laboratories, 1995
B.S., The College of New Jersey, 1991
Science and Products
Sympatry or syntopy? Investigating drivers of distribution and co‐occurrence for two imperiled sea turtle species in Gulf of Mexico neritic waters
Shared habitat use by juveniles of three sea turtle species
Overwintering behavior of juvenile sea turtles at a temperate foraging ground
Marine threats overlap key foraging habitat for two imperiled sea turtle species in the Gulf of Mexico
Temporal shift of sea turtle nest sites in an eroding barrier island beach
Characterization of the juvenile green turtle (Chelonia mydas) microbiome throughout an ontogenetic shift from pelagic to neritic habitats
Ecological regime shift drives declining growth rates of sea turtles throughout the West Atlantic
Development of a Kemp’s ridley sea turtle stock assessment model
Biomarkers reveal sea turtles remained in oiled areas following the Deepwater Horizon oil spill
Head-started Kemp’s ridley turtle (Lepidochelys kempii) nest recorded in Florida: Possible implications
The effects of large beach debris on nesting sea turtles
Home range and habitat use of juvenile green turtles (Chelonia mydas) in the northern Gulf of Mexico
Science and Products
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Filter Total Items: 59
Sympatry or syntopy? Investigating drivers of distribution and co‐occurrence for two imperiled sea turtle species in Gulf of Mexico neritic waters
Animals co‐occurring in a region (sympatry) may use the same habitat (syntopy) within that region. A central aim in ecology is determining what factors drive species distributions (i.e., abiotic conditions, dispersal limitations, and/or biotic interactions). Assessing the degree of biotic interactions can be difficult for species with wide ranges at sea. This study investigated the spatial ecologyAuthorsKristen M. Hart, Autumn R. Iverson, Ikuko Fujisaki, Margaret M. Lamont, David N. Bucklin, Donna J. ShaverShared habitat use by juveniles of three sea turtle species
The first step in understanding how sympatric species share habitat is defining spatial boundaries. While home range data for juvenile sea turtles exists, few studies have examined spatial overlap of multiple species in foraging habitat. Using satellite tracking technology, we define home ranges for juveniles of 3 sea turtle species (loggerhead, Kemp’s ridley, and green; n = 21) captured at 2 adjaAuthorsMargaret M. Lamont, Autumn R. IversonOverwintering behavior of juvenile sea turtles at a temperate foraging ground
Most freshwater and terrestrial turtle species that inhabit temperate environments hibernate to survive extreme cold periods. However, for sea turtles, the question of whether these species use hibernation as an overwintering strategy has not been resolved (Ultsch 2006). Felger et al. (1976) suggested that sea turtles bury themselves in mud on the seafloor and remain dormant throughout the winter,AuthorsMargaret M. Lamont, David R. Seay, Kathleen GaultMarine threats overlap key foraging habitat for two imperiled sea turtle species in the Gulf of Mexico
Effective management of human activities affecting listed species requires understanding both threats and animal habitat-use patterns. However, the extent of spatial overlap between high-use foraging areas (where multiple marine species congregate) and anthropogenic threats is not well known. Our modeling approach incorporates data on sea turtle spatial ecology and a suite of threats in the Gulf oAuthorsKristen M. Hart, Autumn R. Iverson, Ikuko Fujisaki, Margaret M. Lamont, David N. Bucklin, Donna J. ShaverTemporal shift of sea turtle nest sites in an eroding barrier island beach
Shoreline changes affect functionality of a sandy beach as a wildlife habitat and coastal erosion is among the primary causes of the changes. We examined temporal shifts in locations where loggerheads placed nests in relation to coastal erosion along a barrier island beach in the northern Gulf of Mexico. We first confirmed consistency in long-term (1855–2001), short-term (1976–2001), and more receAuthorsIkuko Fujisaki, Margaret M. Lamont, Raymond R. CarthyCharacterization of the juvenile green turtle (Chelonia mydas) microbiome throughout an ontogenetic shift from pelagic to neritic habitats
The gut microbiome of herbivorous animals consists of organisms that efficiently digest the structural carbohydrates of ingested plant material. Green turtles (Chelonia mydas) provide an interesting model of change in these microbial communities because they undergo a pronounced shift from a surface-pelagic distribution and omnivorous diet to a neritic distribution and herbivorous diet. As an alteAuthorsJames T. Price, Frank V. Paladino, Margaret M. Lamont, Blair E. Witherington, Scott T. Bates, Tanya SouleEcological regime shift drives declining growth rates of sea turtles throughout the West Atlantic
Somatic growth is an integrated, individual-based response to environmental conditions, especially in ectotherms. Growth dynamics of large, mobile animals are particularly useful as bio-indicators of environmental change at regional scales. We assembled growth rate data from throughout the West Atlantic for green turtles, Chelonia mydas, which are long-lived, highly migratory, primarily herbivorouAuthorsKaren A. Bjorndal, Alan B. Bolten, Milani Chaloupka, Vincent S. Saba, Cláudio Bellini, Maria A.G. Marcovaldi, Armando J.B. Santos, Luis Felipe Wurdig Bortolon, Anne B. Meylan, Peter A. Meylan, Jennifer Gray, Robert Hardy, Beth Brost, Michael Bresette, Jonathan C. Gorham, Stephen Connett, Barbara Van Sciver Crouchley, Mike Dawson, Deborah Hayes, Carlos E. Diez, Robert P. van Dam, Sue Willis, Mabel Nava, Kristen M. Hart, Michael S. Cherkiss, Andrew Crowder, Clayton Pollock, Zandy Hillis-Starr, Fernando A. Muñoz Tenería, Roberto Herrera-Pavón, Vanessa Labrada-Martagón, Armando Lorences, Ana Negrete-Philippe, Margaret M. Lamont, Allen M. Foley, Rhonda Bailey, Raymond R. Carthy, Russell Scarpino, Erin McMichael, Jane A. Provancha, Annabelle Brooks, Adriana Jardim, Milagros López-Mendilaharsu, Daniel González-Paredes, Andrés Estrades, Alejandro Fallabrino, Gustavo Martínez-Souza, Gabriela M. Vélez-Rubio, Ralf H. Boulon, Jaime Collazo, Robert Wershoven, Vicente Guzmán Hernández, Thomas B. Stringell, Amdeep Sanghera, Peter B. Richardson, Annette C. Broderick, Quinton Phillips, Marta C. Calosso, John A.B. Claydon, Tasha L. Metz, Amanda L. Gordon, Andre M. Landry, Donna J. Shaver, Janice Blumenthal, Lucy Collyer, Brendan J. Godley, Andrew McGowan, Matthew J. Witt, Cathi L. Campbell, Cynthia J. Lagueux, Thomas L. Bethel, Lory KenyonDevelopment of a Kemp’s ridley sea turtle stock assessment model
We developed a Kemp’s ridley (Lepidochelys kempii) stock assessment model to evaluate the relative contributions of conservation efforts and other factors toward this critically endangered species’ recovery. The Kemp’s ridley demographic model developed by the Turtle Expert Working Group (TEWG) in 1998 and 2000 and updated for the binational recovery plan in 2011 was modified for use as our base mAuthorsBenny J. Gallaway, William Gazey, Charles W. Caillouet, Pamela T. Plotkin, F. Alberto Abreu Grobois, Anthony F. Amos, Patrick M. Burchfield, Raymond R. Carthy, Marco A. Castro Martinez, John G. Cole, Andrew T. Coleman, Melissa Cook, Steven F. DiMarco, Sheryan P. Epperly, Masami Fujiwara, Daniel Gomez Gamez, Gary L. Graham, Wade L. Griffin, Francisco Illescas Martinez, Margaret M. Lamont, Rebecca L. Lewison, Kenneth J. Lohmann, James M. Nance, Jonathan Pitchford, Nathan Freeman Putman, Scott W. Raborn, Jeffrey K. Rester, Jack J. Rudloe, Laura Sarti Martinez, Mark Schexnayder, Jeffrey R. Schmid, Donna J. Shaver, Christopher Slay, Anton D. Tucker, Mandy Tumlin, Thane Wibbels, Blanca M. Zapata NajeraBiomarkers reveal sea turtles remained in oiled areas following the Deepwater Horizon oil spill
Assessments of large-scale disasters, such as the Deepwater Horizon oil spill, are problematic because while measurements of post-disturbance conditions are common, measurements of pre-disturbance baselines are only rarely available. Without adequate observations of pre-disaster organismal and environmental conditions, it is impossible to assess the impact of such catastrophes on animal populationAuthorsHannah B. Vander Zanden, Alan B. Bolten, Anton D. Tucker, Kristen M. Hart, Margaret M. Lamont, Ikuko Fujisaki, Kimberly J. Reich, David S. Addison, Katherine L. Mansfield, Katrina F. Phillips, Mariela Pajuelo, Karen A. BjorndalHead-started Kemp’s ridley turtle (Lepidochelys kempii) nest recorded in Florida: Possible implications
A head-started Kemp’s ridley sea turtle (Lepidochelys kempii) was documented nesting on South Walton Beach, Florida on 25 May 2015. This record supports the possibility that exposure to Florida waters after being held in captivity through 1–3 yrs of age during the head-starting process may have influenced future nest site selection of this and perhaps other Kemp’s ridley turtles. Such findings couAuthorsDonna J. Shaver, Margaret M. Lamont, Sharon Maxwell, Jennifer Shelby Walker, Ted DillinghamThe effects of large beach debris on nesting sea turtles
A field experiment was conducted to understand the effects of large beach debris on sea turtle nesting behavior as well as the effectiveness of large debris removal for habitat restoration. Large natural and anthropogenic debris were removed from one of three sections of a sea turtle nesting beach and distributions of nests and false crawls (non-nesting crawls) in pre- (2011–2012) and post- (2013–AuthorsIkuko Fujisaki, Margaret M. LamontHome range and habitat use of juvenile green turtles (Chelonia mydas) in the northern Gulf of Mexico
Background: For imperiled marine turtles, use of satellite telemetry has proven to be an effective method in determining long distance movements. However, the large size of the tag, relatively high cost and low spatial resolution of this method make it more difficult to examine fine-scale movements of individuals, particularly at foraging grounds where animals are frequently submerged. Acoustic teAuthorsMargaret M. Lamont, Ikuko Fujisaki, Brail S. Stephens, Caitlin Hackett - Science
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