Open Access. Powered by Scholars. Published by Universities.®
- Publication
- Publication Type
Articles 1 - 5 of 5
Full-Text Articles in Life Sciences
Population Demography, Spatial Ecology, And Habitat Use Of The Florida Box Turtle (Terrapene Bauri) On A Barrier Island, Michael D. Mills
Population Demography, Spatial Ecology, And Habitat Use Of The Florida Box Turtle (Terrapene Bauri) On A Barrier Island, Michael D. Mills
USF Tampa Graduate Theses and Dissertations
Turtles are one the most threatened vertebrate groups in the world due to anthropogenic threats such as habitat loss and overexploitation. In addition to occupying a range that has been vulnerable to major habitat loss, the Florida box turtle (Terrapene bauri) is particularly at risk of overexploitation due to its popularity in the pet trade. Sanibel Island is a barrier island in southwest Florida that has experienced major habitat loss and is the site of a recent poaching event. In response to these threats, studies of both the population demography and spatial ecology were conducted on Sanibel’s Florida box turtle …
Examining The Presence Of A Possible Species Complex Of Octopus Joubini (Cephalopoda: Octopodidae) In The Eastern Gulf Of Mexico, Haley Holloway
Examining The Presence Of A Possible Species Complex Of Octopus Joubini (Cephalopoda: Octopodidae) In The Eastern Gulf Of Mexico, Haley Holloway
USF Tampa Graduate Theses and Dissertations
The Pygmy Octopus Octopus joubini (Robson, 1929) is a small, shallow water species found throughout the Gulf of Mexico (GoM), western Atlantic Ocean and the northeastern Caribbean Sea (Mather, 1982; Jereb & Roper, 2014; Judkins, 2009). This species is believed to belong to a complex based upon morphological features including arm length, web depth, sucker size, egg size, hatchling ecology, and chromatophore coloration. It has been proposed that Octopus mercatoris, another pygmy species found in the GoM, may belong in this complex; however, no analyses have been performed to verify this claim. The present study incorporated morphological comparisons with …
Reef Fish Biodiversity In The Florida Keys National Marine Sanctuary, Megan E. Hepner
Reef Fish Biodiversity In The Florida Keys National Marine Sanctuary, Megan E. Hepner
USF Tampa Graduate Theses and Dissertations
The biological diversity of reef-fish in the Florida Keys National Marine Sanctuary (FKNMS) from 1999 – 2016 was evaluated in terms of abundance, biomass, species richness, evenness, Shannon diversity, Simpson diversity, and functional diversity, using observations collected by multiple agencies and institutions under the Reef Visual Census (RVC) program. To compare the different diversity indices species richness, Shannon diversity, Simpson diversity, and functional diversity were converted into effective number of species. I examined the seven indices by no-take marine zones, in seven benthic habitat strata, and across the three-distinct geographic subregions in the Florida Keys domain (Upper, Middle, and Lower …
Reintroducing Environmental Change Drivers In Biodiversity-Ecosystem Functioning Research., Frederik De Laender, Jason R. Rohr, Roman Ashauer, Donald J Baird, Uta Berger, Nico Eisenhauer, Volker Grimm, Udo Hommen, Lorraine Maltby, Carlos J Meliàn
Reintroducing Environmental Change Drivers In Biodiversity-Ecosystem Functioning Research., Frederik De Laender, Jason R. Rohr, Roman Ashauer, Donald J Baird, Uta Berger, Nico Eisenhauer, Volker Grimm, Udo Hommen, Lorraine Maltby, Carlos J Meliàn
Integrative Biology Faculty and Staff Publications
For the past 20 years, research on biodiversity and ecosystem functioning (B-EF) has only implicitly considered the underlying role of environmental change. We illustrate that explicitly reintroducing environmental change drivers in B-EF research is needed to predict the functioning of ecosystems facing changes in biodiversity. Next we show how this reintroduction improves experimental control over community composition and structure, which helps to provide mechanistic insight on how multiple aspects of biodiversity relate to function and how biodiversity and function relate in food webs. We also highlight challenges for the proposed reintroduction and suggest analyses and experiments to better understand how …
Transforming Ecosystems: When, Where, And How To Restore Contaminated Sites, Jason R. Rohr, Aïda M. Farag, Marc W. Cadotte, William H. Clements, James R. Smith, Cheryl P. Ulrich, Richard Woods
Transforming Ecosystems: When, Where, And How To Restore Contaminated Sites, Jason R. Rohr, Aïda M. Farag, Marc W. Cadotte, William H. Clements, James R. Smith, Cheryl P. Ulrich, Richard Woods
Integrative Biology Faculty and Staff Publications
Chemical contamination has impaired ecosystems, reducing biodiversity and the provisioning of functions and services. This has spurred a movement to restore contaminated ecosystems and develop and implement national and international regulations that require it. Nevertheless, ecological restoration remains a young and rapidly growing discipline and its intersection with toxicology is even more nascent and underdeveloped. Consequently, we provide guidance to scientists and practitioners on when, where, and how to restore contaminated ecosystems. Although restoration has many benefits, it also can be expensive, and in many cases systems can recover without human intervention. Hence, the first question we address is: "When …