Diet Selection by Bobcats (Lynx rufus) and Coyotes (Canis latrans) Relative to Prey Availability and Urbanization in Space and Time

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Description
Understanding the drivers of diet selection by carnivores is key for wildlife conservation and management, particularly in the Anthropocene. Yet, most assessments of predation do not consider how spatio-temporal prey availability or nutrition influence carnivore diet selection. Using a novel

Understanding the drivers of diet selection by carnivores is key for wildlife conservation and management, particularly in the Anthropocene. Yet, most assessments of predation do not consider how spatio-temporal prey availability or nutrition influence carnivore diet selection. Using a novel data integration approach for camera trap and scat data, I assessed how spatial and temporal components of prey availability influenced diet selection by bobcats (Lynx rufus) in Colorado, USA (Chapter 1) and coyotes (Canis latrans) in Arizona, USA (Chapter 2) in areas of low and moderate levels of urbanization. I also assessed coyote diets using the nutritional geometric framework to determine coyote macronutrient consumption seasonally and relative to urbanization (Chapter 3). My results suggest that cottontail rabbit availability largely drove bobcat predation, and that bobcats consumed prey relative to its availability overall and in wildland areas, but that this relationship weakened in anthropogenic regions. I also found that, overall, models of prey availability that incorporated the temporal overlap between predator and prey taxa predicted bobcat diet selection better than models assessing the spatial availability of prey. Similarly, I found coyotes consumed prey relative to its availability overall and in sites with lower levels of human influence across seasons, but not in moderately urbanized sites. I also found that models of prey availability that incorporated time better predicted coyote diets compared to models assessing the spatial availability of prey. Finally, I observed that the macronutrient composition of coyote diets was similar between moderately and less urbanized sites, particularly in the spring-summer season. However, coyote macronutrient consumption differed seasonally, with coyotes eating more non-protein energy relative to protein energy when carbohydrate-rich mesquite (Prosopis spp.) was more available in the fall-winter. In addition, the consistently high consumption of lipid-rich domestic cats in moderately urbanized sites further supports the hypothesis that coyotes increased their consumption of non-protein energy when available and when assuming protein needs were already met. This dissertation provides new insights into how urbanized landscapes impact carnivore ecology. Since diet selection drives many human-carnivore conflicts, this research can also be used to help inform wildlife management and decision-making in anthropogenic areas.
Date Created
2024
Agent

Understanding Reservoir Dynamics in the Genus Peromyscus

Description
This thesis explores the dynamics of zoonotic reservoirs in the Peromyscus genus, illuminating their critical function in the spread of zoonotic viruses and their public health consequences. Through analysis of research publications on viruses in Peromyscus species, this study articulates

This thesis explores the dynamics of zoonotic reservoirs in the Peromyscus genus, illuminating their critical function in the spread of zoonotic viruses and their public health consequences. Through analysis of research publications on viruses in Peromyscus species, this study articulates a framework for synthesizing diverse types of evidence, e.g. about species-specific immune responses and ecological interactions, to determine reservoir host status. A comprehensive examination of the collected literature reveals significant gaps in the accepted meanings of "competence" and "reservoir," highlighting the intricacy of the ecology of disease. By integrating these insights with a reorganized spillover chart derived from Plowright et al. (2017) zoonotic spillover frameworks, the thesis provides a clearer understanding of transmission dynamics and advances conceptual foundations for a broader database of reservoir host species.
Date Created
2024-05
Agent

Images and the Development of the Microbial Biofilm Concept

Description
Scientific researchers have studied microorganisms since the emergence of the single lens microscope in the 17th century. Since then, researchers designed and published many thousands of images to record and share their observations, including hand-drawn diagrams, photomicrographs, and photographs. Images

Scientific researchers have studied microorganisms since the emergence of the single lens microscope in the 17th century. Since then, researchers designed and published many thousands of images to record and share their observations, including hand-drawn diagrams, photomicrographs, and photographs. Images shaped how researchers conceived of microorganisms, their concepts of microorganisms shaped their images, and their images and concepts were shaped by the contexts in which they were working. Over time, the interplay of images and concepts in various research contexts participated in the development of new concepts related to microorganisms, like the “biofilm” concept, or the idea that bacteria exist in nature as complex aggregates attached to surfaces via extracellular polymeric matrices. Many histories of microbiology locate the origin of the biofilm concept in the 1970s, but that date obscures the rich history of research about attached microbial aggregates that occurred throughout the history of microbiology. I discovered how the interplay of images and concepts related to bacteria participated in the development of the biofilm concept by documenting when and why researchers used different visual features to represent changing concepts related to microorganisms. I specifically examined how and why scientists represented evolving concepts related to bacteria during the 17th century (Chapter 1), from the late 17th century to the early 20th century (Chapter 2), and during the first seventy-four years of the 20th century (Chapter 3). I discovered the biofilm concept developed in at least three unique research contexts during the 20th century, and how images reflected and shaped the concept’s development in each case. The narrative and collection of images generated from this work serve as a visual history of the development of scientists’ ideas about the nature of bacteria over 300 years.
Date Created
2023
Agent

Accepting and Understanding Evolution: The Development and Evaluation of Measurement Tools in Evolution Education

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Description
Evolution is a key feature of undergraduate biology education: the AmericanAssociation for the Advancement of Science (AAAS) has identified evolution as one of the five core concepts of biology, and it is relevant to a wide array of biology-related careers. If biology

Evolution is a key feature of undergraduate biology education: the AmericanAssociation for the Advancement of Science (AAAS) has identified evolution as one of the five core concepts of biology, and it is relevant to a wide array of biology-related careers. If biology instructors want students to use evolution to address scientific challenges post-graduation, students need to be able to apply evolutionary principles to real-life situations, and accept that the theory of evolution is the best scientific explanation for the unity and diversity of life on Earth. In order to help students progress on both fronts, biology education researchers need surveys that measure evolution acceptance and assessments that measure students’ ability to apply evolutionary concepts. This dissertation improves the measurement of student understanding and acceptance of evolution by (1) developing a novel Evolutionary Medicine Assessment that measures students’ ability to apply the core principles of Evolutionary Medicine to a variety of health-related scenarios, (2) reevaluating existing measures of student evolution acceptance by using student interviews to assess response process validity, and (3) correcting the validity issues identified on the most widely-used measure of evolution acceptance - the Measure of Acceptance of the Theory of Evolution (MATE) - by developing and validating a revised version of this survey: the MATE 2.0.
Date Created
2023
Agent

The distribution and prevalence of viruses in the rodent species: Peromyscus eremicus, Peromyscus californicus, Peromyscus fraterculus and Osgoodomys banderanus and related implications for human health.

Description

This study highlights the significance of zoonotic diseases, which make up almost 60% of infectious diseases in humans, and their origin from animals. Among mammalian viruses, primates, bats, and rodents have been identified as high-risk carriers. Within the rodent family

This study highlights the significance of zoonotic diseases, which make up almost 60% of infectious diseases in humans, and their origin from animals. Among mammalian viruses, primates, bats, and rodents have been identified as high-risk carriers. Within the rodent family Cricetidae, the species complex of Peromyscus eremicus, Peromyscus californicus, Peromyscus fraterculus, and Osgoodomys banderanus have been found to play a crucial role in disease transmission. These four species are phylogenetically related and share similar physical appearances and ecological niches. They have been identified as carriers of several zoonotic diseases, including Hantavirus, Arenavirus, Yersinia pestis, and Flavivirus, with a history of spread to humans. Despite their implications for public health, many of these species remain understudied. Thus, this study aims to provide a systematic review of the existing literature on these four species to summarize the findings on virus prevalence and distribution. The review shows that sampling efforts have been uneven and recent efforts have been lacking, with potential undiscovered zoonotic diseases. The concentration of sampling efforts in California and gaps in the literature are concerning, especially with changing agriculture and climate change potentially affecting rodent communities.

Date Created
2023-05
Agent

The Usutu Virus Envelope: In silico analysis of viral amino acids in a zoonotic capsid protein

Description

An effort to experiment on the novel Usutu virus in pure in silico methods was made to determine conformational changes with non polar point mutations in the amino acid sequence. The first method consisted of creating a Python program to

An effort to experiment on the novel Usutu virus in pure in silico methods was made to determine conformational changes with non polar point mutations in the amino acid sequence. The first method consisted of creating a Python program to exhaustively identify codons, amino acids, and dinucleotide bridges & nonbridges, including viral characteristics defined by Mollentze in 2021. The second method consisted of creating point mutations to non polar amino acids in deemed key sites of the Usutu virus envelope protein and finding the RMSD from the original structure. This resulted in one of two outcomes - either the experiment showed that the Usutu virus envelope protein is highly resistant to point mutations or in silico methods are inconsistent and biased, leading to inaccuracy.

Date Created
2023-05
Agent

The distribution and prevalence of viruses in Peromyscus leucopus

Description

This thesis presents a systematic review of viruses found in the Peromyscus leucopus rodent species in North America. Various viruses cause serious illness in humans through contact with infected rodent urine, droppings, or saliva, or inhalation of dust contaminated with

This thesis presents a systematic review of viruses found in the Peromyscus leucopus rodent species in North America. Various viruses cause serious illness in humans through contact with infected rodent urine, droppings, or saliva, or inhalation of dust contaminated with the virus, with Hantavirus pulmonary syndrome (HPS) being the most severe manifestation. Therefore, studying their distribution in rodent populations can inform public health interventions to reduce the risk of transmission. Through a literature review and data analysis, this study found that studying the distribution of viruses in rodents can help identify areas where humans may be at higher risk of contracting the virus, inform public health interventions to reduce the risk of HPS transmissions, and better understand the ecology of the virus and its host species, which can, in turn, inform conservation efforts. Furthermore, monitoring the spread of viruses over time and across regions can help us better understand their epidemiology and potential for future outbreaks, which can inform surveillance and response efforts to mitigate the impact of the virus on human and animal health. Overall, this study highlights the importance of interdisciplinary approaches in addressing complex public health and conservation issues and underscores the need for continued research in this area.

Date Created
2023-05
Agent

Finkbeiner_Spring_2023_Supplemental.pdf

Description
The North American deer mouse, Peromyscus maniculatus, is the most widespread mammal on the continent. It is of interest to the public health sector as a known host of several viruses which are transmissible to humans and can cause illness,

The North American deer mouse, Peromyscus maniculatus, is the most widespread mammal on the continent. It is of interest to the public health sector as a known host of several viruses which are transmissible to humans and can cause illness, including the acute respiratory disease Hantavirus Pulmonary Syndrome (HPS). This paper seeks to conduct a systematic review of existing literature on virus detection in wild P. maniculatus in order to develop an understanding of virus prevalence and distribution and identify potential areas of further research. Through the analysis of 22 studies published since 2010, it was found that detection effort has been concentrated on the American West with a focus on the spread of Sin Nombre virus, the causative agent of HPS. There are significant gaps in the existing literature both geographically and in regards to the types of viruses being sampled. Moving forward, a systematic approach to widespread sampling should be developed in order to better identify and minimize potential threats to human health.
Date Created
2023-05
Agent

Finkbeiner_Spring_2023.pdf

Date Created
2023-05
Agent

The distribution and prevalence of viruses in the rodent species Peromyscus maniculatus and related implications for human health

Description

The North American deer mouse, Peromyscus maniculatus, is the most widespread mammal on the continent. It is of interest to the public health sector as a known host of several viruses which are transmissible to humans and can cause illness,

The North American deer mouse, Peromyscus maniculatus, is the most widespread mammal on the continent. It is of interest to the public health sector as a known host of several viruses which are transmissible to humans and can cause illness, including the acute respiratory disease Hantavirus Pulmonary Syndrome (HPS). This paper seeks to conduct a systematic review of existing literature on virus detection in wild P. maniculatus in order to develop an understanding of virus prevalence and distribution and identify potential areas of further research. Through the analysis of 22 studies published since 2010, it was found that detection effort has been concentrated on the American West with a focus on the spread of Sin Nombre virus, the causative agent of HPS. There are significant gaps in the existing literature both geographically and in regards to the types of viruses being sampled. Moving forward, a systematic approach to widespread sampling should be developed in order to better identify and minimize potential threats to human health.

Date Created
2023-05
Agent