Jen Wortham, Ph.D.
Associate Professor of Exercise Science
1995. University of Tampa, B.S. Biology, B.S. Marine Science, Minor Chemistry, Research Mentor: Wayne Price
2001. University of Louisiana at Lafayette, Doctor of Philosophy in Environmental and Evolutionary Biology, Advisor: Raymond T. Bauer
Dissertation Titled: "The influence of social interactions and reproductive morphology on the mating behaviors of a spearer mantis shrimp, Squilla empusa"
Jen Wortham's research interests focus on the behaviors of marine animals, especially crustaceans such as shrimp and crabs. She has also published research on human behaviors related to displaying and attractiveness. She observes interactions between males and females, as well as between individuals of the same sex, and applies principles of evolutionary biology to help understand and theorize the purpose of the behaviors. Additionally, documenting the morphology and working with crustaceans that change developmentally as adults has been a focus for the last eight years. Wortham has published fishery research on mantis shrimp abundance and distribution in the Gulf of Mexico, as well as several papers on the grooming behaviors of shrimps and crabs. She has worked on Macrobrachium shrimps, spider crabs, stone crabs and blue crabs. Wortham often uses the scanning electron microscope to look at the morphology of grooming appendages in crustaceans.
Research topics that Wortham has investigated are:
Squilla empusa — a mantis shrimpTwo types of setae on the palp grooming appendage in blue crabsSetae on spider crabs used in camouflaging.
- Freshwater shrimp grooming and agonistic behaviors
- Decorating behaviors of spider crabs
- Habitat selection and grooming behaviors in stomatopods
- Crustacean by-catch and fisheries in the Gulf of Mexico
- Pedagogical techniques for Marine Biology classes and curricula
- Marine and saltwater chemistry
- Resource defense in spearer mantis shrimp
- Agonistic interactions (aggressive or defensive social interactions between members of the same species) in spearer mantis shrimp
- Reproductive morphology of stomatopods
- Mating strategies of stomatopods
- Embryonic development of mysid crustaceans
- Reproductive behaviors of mysid crustaceans
- Morphology of Macrobrachium shrimps
- Grooming behaviors and morphology of spider, stone, and blue crabs
- How familiarity in hair color impacts mate selection
- Grooming behaviors and morphology of blue and stone crab
Questions that behavioral biology can help address:
- How does reproductive morphology influence behavioral interactions between opposite sexed individuals?
- How does the need for a resource influence behaviors between same sexed and opposite sexed individuals?
- How do same sexed agonistic interactions differ from opposite sexed interactions?
- Do males and females (as well as different species) differ in their grooming behaviors in terms of frequency and areas groomed?
- Do males differ from other males in their preferred habitat?
- What is the energy budget of crustaceans for performing different behaviorial actions?
- Does morphology vary between individuals in the same genus and those that are closely related phylogenetically?
- Is grooming a secondary action that only occurs when primary actions (fighting, displaying, etc.) are absent? If so, what is the time budget for grooming?
- Do crustaceans have similar time budgets for grooming or do certain groups groom more than others?
- Are we attracted to individuals with the same hair color as our parents and how does this familiarity influence our mate choices?
Research Projects for Undergraduates:
- Decorating crabs, also called spider crabs Libinia dubia, have setae used to attach the camouflaging material. Do these setae need to be cleaned? Do crabs groom their bodies like shrimps? No study before has looked at the grooming behaviors in any crab and the morphology of the grooming appendages of crabs is unknown. Wortham has worked with two recently graduated (2015) UT students, Jace Jedlicka and Amanda LaValle, on these projects and two manuscripts have been submitted for publication. Wortham has worked with two recently graduated (2015) UT students, Jace Jedlicka and Amanda LaValle, on these projects and one manuscripts has already been published in the Journal of Morphology in 2016.
- Stone crabs and blue crabs have a large fishery. However, no study has looked at the grooming behaviors of these crabs. Can they groom with only one claw? Do they groom similarly because they live in similar habitats? Do they groom with the same appendages? Do they have similar setae to clean their bodies as other crustaceans? Wortham has been working with two current undergraduates to answer these questions. An undergraduate student (Stephanie Pascual; marine biology major; graduated 2017) worked with Wortham and she presented this research at several conferences and even won the American Microscopy Society Award for her work at the international meeting (SICB, 2017)
- Distribution and abundance of mantis shrimp in the Tampa Bay area. The research literature has not documented the fauna of mantis shrimp and their impact on the sediment quality and overall quality of the marine environment. This project is likely to be a joint project the UT Department of Biology, a researcher from the Florida Department of Marine Resources, and use the new marine research boat located at the Department of Biology Marine Research Station. It would involve collecting benthic fauna from many habitats in the bay and determining where and how many mantis shrimp are located in the area.
- Hair color choice in humans has been studied in past literature but the results are inconclusive and often conflicting. With an undergraduate student (Daniela Delvescovo) and another faculty member (Abraham Miller), we conducted a large hair color choice study with over N=2000 looking at hair color choice in males and females, as well as in different socioeconomic groups and in different geographic regions. Several oral and poster presentations have already been made at Florida and regional conferences. In the summer of 2016, the research will be presented at two other conferences as well. Three publications will result from this work.
Sample poster presentations:
Recent publications and/or presentations
Wortham, J.L & S. Pascual. 2017. Grooming behaviors and fouling in the commercially important blue crab (Callinectes sapidus) and stone crab (Menippe mercenaria). Nauplius (in press; accepted July 21, 2017).
Wortham, J.L. & A. Miller. 2017. Social interactions in different environments impact and motivates reproductive displays in college students. Heliyon Journal (Elsevier). 3: 1-15 (doi: 10.1016/j.heliyon.2017.e00320).
Wortham, J.L. & A. LaVelle. 2016. Setal morphology of grooming appendages in Libinia dubia. Journal of Morphology. 277(8): 1045-1061.
VanMaurik, L.N. & J. L. Wortham. 2014. Grooming as a secondary behaviour in the shrimp Macrobrachium rosenbergii (Crustacea, Decapoda, Caridea). ZooKeys. 455: 55-77.
Wortham, J. L., L. N. VanMaurik, & W. Price. 2014. Setal morphology of the grooming appendages of Macrobrachium rosenbergii (Crustacea: Decapoda: Caridea: Palaemonidae) and review of setal classification. Journal of Morphology. 275: 634-649 plus 9 pages in online appendix.
Wortham, J. L. 2013. The decorating behaviors of the spider crab Libinia dubia: sex, decoration selection, and disruptive camouflage. Florida Scientist. 75(4): 259-279.
VanMaurik, L., & J. Wortham. 2012. The grooming behaviors of the Hawaiian river shrimp. Council of Undergraduate Research: Undergraduate Research Highlights. Biology 29: 162..
Wortham, J. L. & L. N. VanMaurik. 2012. The morphology and morphotypes of the Hawaiian river shrimp Macrobrachium grandimanus. Journal of Crustacean Biology: 32(4): 545-556.
VanMaurik, L. N., & J. L. Wortham. 2011. The grooming behaviors of the Hawaiian river shrimp, Macrobrachium grandimanus. Journal of Crustacean Biology: 31(4): 617-622.
Wortham, J. 2009. Abundance and distribution of two species of Squilla (Crustacea: Stomatopoda: Squillidae) in the northern Gulf of Mexico. Gulf and Caribbean Research 21(1): 1-12.