Camille Thomas-Bulle
Postdoctoral Fellow
camille.thomas-bulle@mso.umt.edu
I joined the Emlen lab in October 2020 as a postdoc fellow to investigate the evolutionary history of the rhinoceros beetle (Trypoxylus dichotomus) from a genomic perspective. Before that, I did my PhD (2016-2019) at Sorbonne Université in Paris and at the marine research station in Roscoff (Northwestern France) studying the genomic underpinnings of the on-going speciation process of deep-sea hydrothermal mussels and worms. I investigated the architecture of divergence and its pattern of accumulation across the genome among populations of two deep-sea invertebrate systems believed to be undergoing speciation, in relation with the type of speciation (i.e., allopatry vs parapatry). The goal was to investigate if a physical isolation preventing most gene flow would have a different genomic signature than isolation by distance coupled with local adaptation and gene flow.
In the Emlen lab, I am involved in several parallel on-going projects. The most advanced one combines biomechanics and phylogeography to study the transitions in horn length and associated lifting strength across a population-level phylogeny for T. dichotomus. For the past year, I identified the genetic basis underlying the horn variation using RNAseq data from developmental horn tissues on hybrids and Pool-seq data from long and short horn populations in collaboration with Dr Erica Larson (University of Denver). My last personal project in the Emlen lab is to do whole-genome sequencing of more populations to uncover the past demographic history of this species across Eastern Asia and identify potential introgression and remaining gene flow between these populations.
Google scholar
Postdoctoral Fellow
camille.thomas-bulle@mso.umt.edu
I joined the Emlen lab in October 2020 as a postdoc fellow to investigate the evolutionary history of the rhinoceros beetle (Trypoxylus dichotomus) from a genomic perspective. Before that, I did my PhD (2016-2019) at Sorbonne Université in Paris and at the marine research station in Roscoff (Northwestern France) studying the genomic underpinnings of the on-going speciation process of deep-sea hydrothermal mussels and worms. I investigated the architecture of divergence and its pattern of accumulation across the genome among populations of two deep-sea invertebrate systems believed to be undergoing speciation, in relation with the type of speciation (i.e., allopatry vs parapatry). The goal was to investigate if a physical isolation preventing most gene flow would have a different genomic signature than isolation by distance coupled with local adaptation and gene flow.
In the Emlen lab, I am involved in several parallel on-going projects. The most advanced one combines biomechanics and phylogeography to study the transitions in horn length and associated lifting strength across a population-level phylogeny for T. dichotomus. For the past year, I identified the genetic basis underlying the horn variation using RNAseq data from developmental horn tissues on hybrids and Pool-seq data from long and short horn populations in collaboration with Dr Erica Larson (University of Denver). My last personal project in the Emlen lab is to do whole-genome sequencing of more populations to uncover the past demographic history of this species across Eastern Asia and identify potential introgression and remaining gene flow between these populations.
Google scholar
Romain Boisseau
Doctoral Student
romain.boisseau@umontana.edu
I started my PhD in the Emlen lab in the fall 2016 after completing a Master’s degree at the Ecole Normale Supérieure in Paris, France. During my MSc, I spent a semester in the lab carrying out a project with Devin O’Brien dealing with the biomechanics and physiology of male leg weapons in the leaf-footed bug (Narnia femorata) and the frog legged beetle (Sagrafemorata). I am specifically interested in the evolution of mating systems and sexual dimorphism. I am currently working on the evolution of sexual dimorphism in stick and leaf insects (Order: Phasmatodea). Phasmids are very charismatic herbivorous insects that display a wide range of body sizes and shapes that can be extremely different between males and females. I amstudying the macroevolutionary patterns of sexual dimorphism in Phasmatodea and the ecological factors that are driving them. I am also digging into the microevolutionary processes that result in sexual dimorphism in these insects by specifically studying the evolutionary ecology of two model systems: thorny devil stick insects (Eurycantha sp.) and leaf insects (Phyllium sp.). I recently went to Papua New Guinea to study the behavior of wild populations of thorny devil stick insects thanks to a National Geographic Early career grant.
Google scholar
Doctoral Student
romain.boisseau@umontana.edu
I started my PhD in the Emlen lab in the fall 2016 after completing a Master’s degree at the Ecole Normale Supérieure in Paris, France. During my MSc, I spent a semester in the lab carrying out a project with Devin O’Brien dealing with the biomechanics and physiology of male leg weapons in the leaf-footed bug (Narnia femorata) and the frog legged beetle (Sagrafemorata). I am specifically interested in the evolution of mating systems and sexual dimorphism. I am currently working on the evolution of sexual dimorphism in stick and leaf insects (Order: Phasmatodea). Phasmids are very charismatic herbivorous insects that display a wide range of body sizes and shapes that can be extremely different between males and females. I amstudying the macroevolutionary patterns of sexual dimorphism in Phasmatodea and the ecological factors that are driving them. I am also digging into the microevolutionary processes that result in sexual dimorphism in these insects by specifically studying the evolutionary ecology of two model systems: thorny devil stick insects (Eurycantha sp.) and leaf insects (Phyllium sp.). I recently went to Papua New Guinea to study the behavior of wild populations of thorny devil stick insects thanks to a National Geographic Early career grant.
Google scholar
Sophie Fitzgerald
Doctoral Student
sophia.fitzgerald@umontana.edu
My work at the University of Montana is focused on animal communication and sexual selection. Primarily, I am seeking to understand the respective influences of female mate choice and male-male competition on the reproductive success of Japanese rhinoceros beetles. I am also interested in understanding what information about mate quality is revealed during elaborate courtship displays. Before joining the Emlen lab in the fall of 2021, I graduated from the University of Denver with a B.S. in Ecology & Biodiversity with distinction in 2020. At DU, I studied rapid evolution and animal behavior and spent multiple semesters in field programs learning how to perform non-invasive research in natural landscapes.
Personally, I am passionate about diversity & equity in STEM and mentoring students who are interested in becoming socially conscious field biologists. I look forward to engaging with all kinds of students who are curious about research and evolution during my time here!
Doctoral Student
sophia.fitzgerald@umontana.edu
My work at the University of Montana is focused on animal communication and sexual selection. Primarily, I am seeking to understand the respective influences of female mate choice and male-male competition on the reproductive success of Japanese rhinoceros beetles. I am also interested in understanding what information about mate quality is revealed during elaborate courtship displays. Before joining the Emlen lab in the fall of 2021, I graduated from the University of Denver with a B.S. in Ecology & Biodiversity with distinction in 2020. At DU, I studied rapid evolution and animal behavior and spent multiple semesters in field programs learning how to perform non-invasive research in natural landscapes.
Personally, I am passionate about diversity & equity in STEM and mentoring students who are interested in becoming socially conscious field biologists. I look forward to engaging with all kinds of students who are curious about research and evolution during my time here!
Nicole Lopez
Doctoral Student
nicole1.lopez@umconnect.umt.edu
My research involves studying the morphological diversity and evolution of cervid weaponry. Before joining the Emlen Lab in 2022, I earned my BS and MS degree at CSU Long Beach where I worked on several projects investigating allometric relationships of tusk and antler-bearing deer. I looked at how species invest differently when they possess one weapon versus two. In my MS degree, I investigated the physiological tradeoffs with relative brain size and weapon size amongst tusk, antler, and horn-bearing ungulates. Lastly, I asked questions about the presence and length of female horns to determine the strongest selective predictors (exposure or competition).
In the Emlen lab, I will continue my work on cervid weaponry, and I hope to use a combination of biomechanical modelling, field studies, and comparative analyses to explain the wide variation of antler morphology in extant cervids. I hope to tackle the question surrounding the signal vs weapon components of antler design and measure how shape/size affects mating contest success and inherently relative male fitness.
I enjoy research that incorporates equal amounts of field and museum work. I plan to continue working with local, national, and global museums to shine light on the value of the collections in modern science. I plan to become involved in several outreach groups working to create and implement programs designed to increase research accessibility to people from all backgrounds.
Doctoral Student
nicole1.lopez@umconnect.umt.edu
My research involves studying the morphological diversity and evolution of cervid weaponry. Before joining the Emlen Lab in 2022, I earned my BS and MS degree at CSU Long Beach where I worked on several projects investigating allometric relationships of tusk and antler-bearing deer. I looked at how species invest differently when they possess one weapon versus two. In my MS degree, I investigated the physiological tradeoffs with relative brain size and weapon size amongst tusk, antler, and horn-bearing ungulates. Lastly, I asked questions about the presence and length of female horns to determine the strongest selective predictors (exposure or competition).
In the Emlen lab, I will continue my work on cervid weaponry, and I hope to use a combination of biomechanical modelling, field studies, and comparative analyses to explain the wide variation of antler morphology in extant cervids. I hope to tackle the question surrounding the signal vs weapon components of antler design and measure how shape/size affects mating contest success and inherently relative male fitness.
I enjoy research that incorporates equal amounts of field and museum work. I plan to continue working with local, national, and global museums to shine light on the value of the collections in modern science. I plan to become involved in several outreach groups working to create and implement programs designed to increase research accessibility to people from all backgrounds.
Chelsey Caldwell
Beetle Mom?
chelsey.caldwell@umontana.edu
I joined the lab in 2018 as an undergraduate and helped with many projects including CHC analysis, courtship recordings, injections, and beetle wrangling. I will be applying to medical school after my Master's in Public Health but will always be team beetle!
Google scholar
Beetle Mom?
chelsey.caldwell@umontana.edu
I joined the lab in 2018 as an undergraduate and helped with many projects including CHC analysis, courtship recordings, injections, and beetle wrangling. I will be applying to medical school after my Master's in Public Health but will always be team beetle!
Google scholar
Cerisse Allen
Lab Coordinator
cerisse.allen@umontana.edu
How quickly do traits change under natural selection? Which traits can respond to selection, and which cannot? What underlying factors help to determine the way that traits evolve? My research focuses on the intersection of development and evolution, to answer fundamental questions about evolutionary change. My interests include the evolution of form and body proportions, and the evolution of sexual dimorphism.
I work to support and coordinate lab activities, research, and outreach, and share my excitement about all things Evo and Devo with students through teaching a variety of courses within the Division of Biological Sciences.
Lab Coordinator
cerisse.allen@umontana.edu
How quickly do traits change under natural selection? Which traits can respond to selection, and which cannot? What underlying factors help to determine the way that traits evolve? My research focuses on the intersection of development and evolution, to answer fundamental questions about evolutionary change. My interests include the evolution of form and body proportions, and the evolution of sexual dimorphism.
I work to support and coordinate lab activities, research, and outreach, and share my excitement about all things Evo and Devo with students through teaching a variety of courses within the Division of Biological Sciences.
ALUMNI
Jesse Weber
Postdoctoral Fellow
My passion is to understand the proximate and ultimate causes (the how and why) of organismal adaptation. Toward this end, my research integrates lab and field experiments to: 1) characterize the molecular genetic basis of naturally selected traits, and 2) measure the fitness consequences of adaptive mutations. Because of the breadth of this research program, I have previously focused on two systems with substantial ecological and genetic resources as research modes: deer mice (genus Peromyscus) and threespine sticklebacks Gasterosteus aculeatus). For my PhD, I examined the evolution, genetics and ecology of natural burrow variation in deer mice. I then did a three-year project on stickleback, where I primarily focused on the genetic and immunological basis of coevolution between this fish host and its tapeworm parasite, Schistocephalus solidus.
However, I am very excited to extend the modern genetic toolkit to ask questions in practically any organism. I joined the Emlen Lab in Sept 2015 to tackle two questions: 1) What is the genetic and developmental basis for giant horns in male rhinoceros beetles (specifically in Trypoxylus dichotomus)?, and 2) Why do some populations of this species have small horns?
Jesse is currently an assistant professor at the University of Wisconsin.
https://adaptationmatters.wixsite.com/home
Postdoctoral Fellow
My passion is to understand the proximate and ultimate causes (the how and why) of organismal adaptation. Toward this end, my research integrates lab and field experiments to: 1) characterize the molecular genetic basis of naturally selected traits, and 2) measure the fitness consequences of adaptive mutations. Because of the breadth of this research program, I have previously focused on two systems with substantial ecological and genetic resources as research modes: deer mice (genus Peromyscus) and threespine sticklebacks Gasterosteus aculeatus). For my PhD, I examined the evolution, genetics and ecology of natural burrow variation in deer mice. I then did a three-year project on stickleback, where I primarily focused on the genetic and immunological basis of coevolution between this fish host and its tapeworm parasite, Schistocephalus solidus.
However, I am very excited to extend the modern genetic toolkit to ask questions in practically any organism. I joined the Emlen Lab in Sept 2015 to tackle two questions: 1) What is the genetic and developmental basis for giant horns in male rhinoceros beetles (specifically in Trypoxylus dichotomus)?, and 2) Why do some populations of this species have small horns?
Jesse is currently an assistant professor at the University of Wisconsin.
https://adaptationmatters.wixsite.com/home
Wenfei Tong
Postdoctoral Fellow
My interests lie in the evolution of cooperation and conflict at all levels of biological organization. I have worked on how genetic relatedness structures group formation in plains zebras and European mound-building mice (Mus spicilegus), as well as mobbing behaviour and the genetic underpinnings of egg mimicry in evolutionary arms races between brood parasitic birds and their hosts.
I also enjoy writing and giving talks about biology (and the history of evolution) to general audiences and illustrating both with sketches and photographs.
Wenfei is currently a science editor for the Cornell Laboratory of Ornithology.
https://www.wenfeitong.com
Postdoctoral Fellow
My interests lie in the evolution of cooperation and conflict at all levels of biological organization. I have worked on how genetic relatedness structures group formation in plains zebras and European mound-building mice (Mus spicilegus), as well as mobbing behaviour and the genetic underpinnings of egg mimicry in evolutionary arms races between brood parasitic birds and their hosts.
I also enjoy writing and giving talks about biology (and the history of evolution) to general audiences and illustrating both with sketches and photographs.
Wenfei is currently a science editor for the Cornell Laboratory of Ornithology.
https://www.wenfeitong.com
Jillian del Sol
Master's Student
JIll joined the Emlen lab in fall 2015 after completing her undergrad at Hendrix College in Arkansas. Jill has always been fascinated by the world of sexually selected traits, among which are some of the most stunning colors, behaviors, and morphologies in the animal kingdom. At UM she was specifically interested in how the interplay of ecological context, mating systems, and sexual competition promotes the exaggeration and diversification of animal weapons.
Jill conducted behavioral fieldwork, measuring fighting and mating behavior and selection on horns of subspecies of the Asian rhinoceros beetle (Trypoxylus dichotomus). Male horns vary in relative size across their range in southern Asia, making this an excellent system to study the drivers of weapon divergence. Jill measured selection acting on horns in the wild on the islands of Taiwan and Yakushima, and in collaboration with Yoshihito Hongo, conducted similar studies on Honshu.
Master's Student
JIll joined the Emlen lab in fall 2015 after completing her undergrad at Hendrix College in Arkansas. Jill has always been fascinated by the world of sexually selected traits, among which are some of the most stunning colors, behaviors, and morphologies in the animal kingdom. At UM she was specifically interested in how the interplay of ecological context, mating systems, and sexual competition promotes the exaggeration and diversification of animal weapons.
Jill conducted behavioral fieldwork, measuring fighting and mating behavior and selection on horns of subspecies of the Asian rhinoceros beetle (Trypoxylus dichotomus). Male horns vary in relative size across their range in southern Asia, making this an excellent system to study the drivers of weapon divergence. Jill measured selection acting on horns in the wild on the islands of Taiwan and Yakushima, and in collaboration with Yoshihito Hongo, conducted similar studies on Honshu.
Devin O'Brien
Doctoral Student
Devin joined the Emlen lab in the fall of 2013 after completing his undergraduate degree at the University of Connecticut. Devin’s interests lie in the evolution and development of extreme morphology where he explores how the costs of sexually selected weapons, and their intrinsic reproductive benefits, shape animal behavior and mating systems.
While at UM Devin worked on a wild population of frog legged leaf beetles (Sagra femorata), in Matsusaka, Japan, studying the relationship between weapon size and individual fitness.
https://www.devinmobrien.com
Doctoral Student
Devin joined the Emlen lab in the fall of 2013 after completing his undergraduate degree at the University of Connecticut. Devin’s interests lie in the evolution and development of extreme morphology where he explores how the costs of sexually selected weapons, and their intrinsic reproductive benefits, shape animal behavior and mating systems.
While at UM Devin worked on a wild population of frog legged leaf beetles (Sagra femorata), in Matsusaka, Japan, studying the relationship between weapon size and individual fitness.
https://www.devinmobrien.com
Jema Rushe
Doctoral Student
Jema joined the Emlen Lab in Spring 2012 after completing a BSc in Zoology at University College Cork, Ireland. Jema worked on a phylogeny for the Dynastidae using next generation sequencing techniques. This will be part of a greater project building a phylogeny for the Scarabaeoidea.
Doctoral Student
Jema joined the Emlen Lab in Spring 2012 after completing a BSc in Zoology at University College Cork, Ireland. Jema worked on a phylogeny for the Dynastidae using next generation sequencing techniques. This will be part of a greater project building a phylogeny for the Scarabaeoidea.
Erin McCullough
Doctoral Student
Erin's research explored the evolution and diversification of extreme morphologies. Specifically, she studied the horns of giant rhinoceros beetles, which are some of the most elaborate structures found in the animal kingdom. Erin's research encompasses many fields of biology, including evolution, behavioral ecology, physiology, and biomechanics. She received funding from a NSF Graduate Research Fellowship and their East Asia/Pacific (EAPSI) program, as well as the National Academy of Sciences Ford Diversity Foundation.
https://erinlouisamccullough.wordpress.com
Doctoral Student
Erin's research explored the evolution and diversification of extreme morphologies. Specifically, she studied the horns of giant rhinoceros beetles, which are some of the most elaborate structures found in the animal kingdom. Erin's research encompasses many fields of biology, including evolution, behavioral ecology, physiology, and biomechanics. She received funding from a NSF Graduate Research Fellowship and their East Asia/Pacific (EAPSI) program, as well as the National Academy of Sciences Ford Diversity Foundation.
https://erinlouisamccullough.wordpress.com
Jennifer Smith
Doctoral Student
Dr. Jennifer N. Smith received her doctorate in 2014, co-advised by Drs. Doug Emlen and Dean Pearson. Her primary interests lie in understanding the ecological and evolutionary processes that govern individual- and community-level changes following exotic species introduction.
Her dissertation research focused on native web-building spiders in the intermountain grasslands of western Montana after the introduction of spotted knapweed (Centaurea stoebe). After knapweed invasion, all native web spiders increase in abundance; however, one group (Dictyna spp.) fairs much better than others. She investigated the mechanisms underlying web spider community reassembly following invasion; plastic and evolved changes in web size following invasion; and, behavioral changes of Dictyna towards an egg parasitoid wasp.
Dr. Smith is currently Field Operations Manager for the National Ecological Observatory Network (NEON) based at the Prairie-Peninsula Domain facility in Manhattan, Kansas.
Doctoral Student
Dr. Jennifer N. Smith received her doctorate in 2014, co-advised by Drs. Doug Emlen and Dean Pearson. Her primary interests lie in understanding the ecological and evolutionary processes that govern individual- and community-level changes following exotic species introduction.
Her dissertation research focused on native web-building spiders in the intermountain grasslands of western Montana after the introduction of spotted knapweed (Centaurea stoebe). After knapweed invasion, all native web spiders increase in abundance; however, one group (Dictyna spp.) fairs much better than others. She investigated the mechanisms underlying web spider community reassembly following invasion; plastic and evolved changes in web size following invasion; and, behavioral changes of Dictyna towards an egg parasitoid wasp.
Dr. Smith is currently Field Operations Manager for the National Ecological Observatory Network (NEON) based at the Prairie-Peninsula Domain facility in Manhattan, Kansas.
Ashley King
Masters Student
Ashley received a B.A. in Biology and Psychology from Wake Forest University and a M.S. in Organismal Biology and Ecology in the Emlen lab at the University of Montana. While at the University of Montana, she received funding from a National Science Foundation Graduate Research Fellowship to study the use of weapons in intrasexual competition over females and resources. Her study system was the horned beetle Trypoxylus dichotomus, which she used to compare selection on male horns between populations in Taiwan and Japan. Currently, she is the Program Coordinator for StreamTeam, a volunteer-driven watershed restoration program in Vancouver, Washington.
Masters Student
Ashley received a B.A. in Biology and Psychology from Wake Forest University and a M.S. in Organismal Biology and Ecology in the Emlen lab at the University of Montana. While at the University of Montana, she received funding from a National Science Foundation Graduate Research Fellowship to study the use of weapons in intrasexual competition over females and resources. Her study system was the horned beetle Trypoxylus dichotomus, which she used to compare selection on male horns between populations in Taiwan and Japan. Currently, she is the Program Coordinator for StreamTeam, a volunteer-driven watershed restoration program in Vancouver, Washington.
Alex Trillo
Doctoral Student
Alex received her doctorate in 2008. Her interests include ecology, behavior, development, and evolution. While at UM Alex studied the evolution of parental care and the evolution of sexually-selected traits in the tortoise beetle Acromis sparsa. Her work was funded by a graduate fellowship from the Organization of American States, the Smithsonian Institution Predoctoral Fellowship, and a PEO International Peace Scholarship. She is currently an associate professor of biology at Gettysburg College.
https://www.alextrillo.com
Doctoral Student
Alex received her doctorate in 2008. Her interests include ecology, behavior, development, and evolution. While at UM Alex studied the evolution of parental care and the evolution of sexually-selected traits in the tortoise beetle Acromis sparsa. Her work was funded by a graduate fellowship from the Organization of American States, the Smithsonian Institution Predoctoral Fellowship, and a PEO International Peace Scholarship. She is currently an associate professor of biology at Gettysburg College.
https://www.alextrillo.com
Christine Miller
Doctoral Student
Dr. Christine W. Miller received a B.A. in Biology from Wesleyan University. From there she went on to conduct research in Montana, Georgia, Washington, Central America,and Africa. She received a National Science Foundation Graduate Research Fellowship, Epscor Fellowship, and multiple awards from the Smithsonian Institution for her Ph.D. research at the University of Montana. While at the University of Montana she worked with Dr. Douglas Emlen on environmental effects on sexual selection using a tropical insect species. Her research for her Ph.D. was conducted at the Smithsonian Tropical Research Institute in Panama. Dr. Miller finished her Ph.D. in 2007 and immediately began a faculty position at the University of Florida, where she is now a full professor.
http://www.millerlab.net
Doctoral Student
Dr. Christine W. Miller received a B.A. in Biology from Wesleyan University. From there she went on to conduct research in Montana, Georgia, Washington, Central America,and Africa. She received a National Science Foundation Graduate Research Fellowship, Epscor Fellowship, and multiple awards from the Smithsonian Institution for her Ph.D. research at the University of Montana. While at the University of Montana she worked with Dr. Douglas Emlen on environmental effects on sexual selection using a tropical insect species. Her research for her Ph.D. was conducted at the Smithsonian Tropical Research Institute in Panama. Dr. Miller finished her Ph.D. in 2007 and immediately began a faculty position at the University of Florida, where she is now a full professor.
http://www.millerlab.net
Tara Prestholdt
Doctoral Student
Tara worked with Doug from 2000-2006 on the tradeoffs associated with leg regeneration in stick insects. Using a suite of different species, she studied how the investment into a leg for a second time can affect the growth of other structures. Some of the most exciting results were documenting just how common leg regeneration is in the wild (field sites in Australia) and how the tradeoffs associated with regeneration differ based on morphology (lab work with a winged and wingless species). After Montana Tara went to Austin, Texas where she did two post-docs: a teaching post-doc at St. Edward's University and a research post-doc with Molly Cummings at The University of Texas. She's currently chair of the department of biology at the University of Portland, studying critters of the intertidal zone.
https://college.up.edu/biology/about/tara-presholdt.html
Doctoral Student
Tara worked with Doug from 2000-2006 on the tradeoffs associated with leg regeneration in stick insects. Using a suite of different species, she studied how the investment into a leg for a second time can affect the growth of other structures. Some of the most exciting results were documenting just how common leg regeneration is in the wild (field sites in Australia) and how the tradeoffs associated with regeneration differ based on morphology (lab work with a winged and wingless species). After Montana Tara went to Austin, Texas where she did two post-docs: a teaching post-doc at St. Edward's University and a research post-doc with Molly Cummings at The University of Texas. She's currently chair of the department of biology at the University of Portland, studying critters of the intertidal zone.
https://college.up.edu/biology/about/tara-presholdt.html
UNDERGRADS
PAST UNDERGRADS
Mary Bruen
Makena Carlsberg Nikita Cooley Jessica Corean Ben Ewen-Campen Dylan Gomes Olga Helmy Chris Henderson Emily Kerr Gregory Kohn Tess Kreosfky Jessica Laskowski Kim Ledger Kael Melanson |
Stephanie Parker
Marisha Richardson Bret Robinson Sarah Solie Melanie Sourbeer Demitra Suko Paul Weingarden |