Your search keyword '"Sonia M, Hernandez"' showing total 140 results

1. Description of Babesia coryicola sp. nov. from Florida pumas (Puma concolor coryi) from southern Florida, USA

Author

Barbara C. Shock, Håkon H. Jones, Kayla B. Garrett, Sonia M. Hernandez, Holly J. Burchfield, Katie Haman, Helen Schwantje, Sam R. Telford, Mark W. Cunningham, and Michael J. Yabsley

Subjects

Babesia, Felid, Florida panther, Novel species, Puma concolor, Piroplasm, Zoology, QL1-991

Abstract

Previously, a high prevalence of piroplasms has been reported from Florida pumas (Puma concolor coryi) from southern Florida. In the current study, we describe the biological characteristics of a novel Babesia species in Florida pumas. Ring-stage trophozoites were morphologically similar to trophozoites of numerous small babesids of felids including B. leo, B. felis, and Cytauxzoon felis. Parasitemias in Florida pumas were very low (

Published

2024

2. Human Salmonellosis Outbreak Linked to Salmonella Typhimurium Epidemic in Wild Songbirds, United States, 2020–2021

Author

Kane Patel, G. Sean Stapleton, Rosalie T. Trevejo, Waimon T. Tellier, Jeffrey Higa, Jennifer K. Adams, Sonia M. Hernandez, Susan Sanchez, Nicole M. Nemeth, Emilio E. Debess, Krysta H. Rogers, Aslı Mete, Katherine D. Watson, Leslie Foss, Mabel S.F. Low, Lauren Gollarza, and Megin Nichols

Subjects

Salmonellosis, Salmonella, Typhimurium, Salmonella enterica, bacteria, songbirds, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Salmonella infection causes epidemic death in wild songbirds, with potential to spread to humans. In February 2021, public health officials in Oregon and Washington, USA, isolated a strain of Salmonella enterica serovar Typhimurium from humans and a wild songbird. Investigation by public health partners ultimately identified 30 illnesses in 12 states linked to an epidemic of Salmonella Typhimurium in songbirds. We report a multistate outbreak of human salmonellosis associated with songbirds, resulting from direct handling of sick and dead birds or indirect contact with contaminated birdfeeders. Companion animals might have contributed to the spread of Salmonella between songbirds and patients; the outbreak strain was detected in 1 ill dog, and a cat became ill after contact with a wild bird. This outbreak highlights a One Health issue where actions like regular cleaning of birdfeeders might reduce the health risk to wildlife, companion animals, and humans.

Published

2023

3. A single Haemoproteus plataleae haplotype is widespread in white ibis (Eudocimus albus) from urban and rural sites in southern Florida

Author

Michael J. Yabsley, Sarah M. Coker, Catharine N. Welch, Kayla B. Garrett, Maureen Murray, Ryan Grunert, Julia S. Seixas, Whitney M. Kistler, Shannon E. Curry, Henry C. Adams, Charlie S. Nakatsu, Liandrie Swanepoel, Seth T. Wyckoff, Troy M. Koser, Elizabeth Kurimo-Beechuk, Ellen Haynes, and Sonia M. Hernandez

Subjects

Avian malaria, Birds, Haemosporida, Molecular characterization, Pelecaniformes, Threskiornithidae, Zoology, QL1-991

Abstract

The American white ibis (Eudocimus albus), a common bird species in Florida, has become increasingly urban, with many populations relying heavily on urban and suburban habitats, which may alter parasite transmission. Parasites of ibis, especially haemosporidians, are understudied. Avian haemosporidia can have a wide range of impacts on birds, including decreased reproductive success or increased mortality. Because southern Florida is subtropical and has a high diversity of potential vectors for haemosporidia, we hypothesized that there will be a high prevalence and genetic diversity of haemosporidia in white ibis. A total of 636 ibis from South Florida were sampled from 2010 to 2022, and blood samples were tested for haemosporidia by examination of Giemsa-stained thin blood smears and/or nested PCRs targeting the cytochrome b gene. A total of 400 (62.9%, 95% CI 59–66.7%) ibis were positive for parasites that were morphologically identified as Haemoproteus plataleae. Sequences of 302 positives revealed a single haplotype of Haemoproteus (EUDRUB01), which was previously reported from white ibis in South Florida and captive scarlet ibis (E. ruber) in Brazil. No Plasmodium or Leucocytozoon infections were detected. Parasitemias of the 400 positive birds were very low (average 0.084%, range 0.001%-2.16% [although only 2 birds had parasitemias >1%]). Prevalence and parasitemias were similar for males and females (68% vs. 61.6% and 0.081% vs. 0.071%, respectively). Prevalence in juveniles was lower compared with adults (52% vs. 67.4%) but parasitemias were higher in juveniles (0.117% vs. 0.065%). This data shows that H. plataleae is common in ibis in South Florida. Although parasitemias were generally low, additional research is needed to determine if this parasite has subclinical effects on ibis, if additional haplotypes or parasite species infect ibis in other regions of their range, or if H. plataleae is pathogenic for other sympatric avian species.

Published

2023

4. Geographic risk assessment of Batrachochytrium salamandrivorans invasion in Costa Rica as a means of informing emergence management and mitigation

Author

Henry C. Adams, Katherine E. Markham, Marguerite Madden, Matthew J. Gray, Federico Bolanos Vives, Gerardo Chaves, and Sonia M. Hernandez

Subjects

Medicine, Science

Published

2024

5. Urban specialization reduces habitat connectivity by a highly mobile wading bird

Author

Claire S. Teitelbaum, Jeffrey Hepinstall-Cymerman, Anjelika Kidd-Weaver, Sonia M. Hernandez, Sonia Altizer, and Richard J. Hall

Subjects

American white ibis (Eudocimus albus), Connectivity, Habitat specialization, Network, Nomadism, Urbanization, Biology (General), QH301-705.5

Abstract

Abstract Background Mobile animals transport nutrients and propagules across habitats, and are crucial for the functioning of food webs and for ecosystem services. Human activities such as urbanization can alter animal movement behavior, including site fidelity and resource use. Because many urban areas are adjacent to natural sites, mobile animals might connect natural and urban habitats. More generally, understanding animal movement patterns in urban areas can help predict how urban expansion will affect the roles of highly mobile animals in ecological processes. Methods Here, we examined movements by a seasonally nomadic wading bird, the American white ibis (Eudocimus albus), in South Florida, USA. White ibis are colonial wading birds that forage on aquatic prey; in recent years, some ibis have shifted their behavior to forage in urban parks, where they are fed by people. We used a spatial network approach to investigate how individual movement patterns influence connectivity between urban and non-urban sites. We built a network of habitat connectivity using GPS tracking data from ibis during their non-breeding season and compared this network to simulated networks that assumed individuals moved indiscriminately with respect to habitat type. Results We found that the observed network was less connected than the simulated networks, that urban-urban and natural-natural connections were strong, and that individuals using urban sites had the least-variable habitat use. Importantly, the few ibis that used both urban and natural habitats contributed the most to connectivity. Conclusions Habitat specialization in urban-acclimated wildlife could reduce the exchange of propagules and nutrients between urban and natural areas, which has consequences both for beneficial effects of connectivity such as gene flow and for detrimental effects such as the spread of contaminants or pathogens.

Published

2020

6. Effects of an anthropogenic diet on indicators of physiological challenge and immunity of white ibis nestlings raised in captivity

Author

Caroline R. Cummings, Sonia M. Hernandez, Maureen Murray, Taylor Ellison, Henry C. Adams, Robert E. Cooper, Shannon Curry, and Kristen J. Navara

Subjects

bactericidal assay, corticosterone, phytohemagglutinin, urbanization, Ecology, QH540-549.5

Abstract

Abstract When wildlife forage and/or live in urban habitats, they often experience a shift in resource availability and dietary quality. Some species even use human handouts, such as bread, as well as human refuse, as a large part of their new diets; yet the influences of this nutritional shift on health and survival remain unclear. American white ibises are increasingly being seen in urban areas in Florida; they collect handouts, such as bread and other food items, from humans in parks, and are also found foraging on anthropogenic sources in trash heaps. We hypothesized that the consumption of these new anthropogenic food sources may trigger increases in indicators of physiological challenge and dampen immune responses. We tested this experimentally by raising 20 white ibis nestlings in captivity, and exposing 10 to a simulated anthropogenic diet (including the addition of white bread and a reduction in seafood content) while maintaining 10 on a diet similar to what ibises consume in more natural environments. We then tested two indicators of physiological challenge (corticosterone and heat shock protein 70), assessed innate immunity in these birds via bactericidal assays and an in vitro carbon clearance assay, and adaptive immunity using a phytohemagglutinin skin test. The anthropogenic diet depressed the development of the ability to kill Salmonella paratyphi in culture. Our results suggest that consuming an anthropogenic diet may be detrimental in terms of the ability to battle a pathogenic bacterial species, but there was little effect on indicators of physiological challenge and other immunological measures.

Published

2020

7. Experimental Susceptibility of North American Raccoons (Procyon lotor) and Striped Skunks (Mephitis mephitis) to SARS-CoV-2

Author

Raquel Francisco, Sonia M. Hernandez, Daniel G. Mead, Kayla G. Adcock, Sydney C. Burke, Nicole M. Nemeth, and Michael J. Yabsley

Subjects

SARS-CoV-2, COVID-19, raccoons, skunks, Mephitidae, zoonoses, Veterinary medicine, SF600-1100

Abstract

Recent spillback events of SARS-CoV-2 from humans to animals has raised concerns about it becoming endemic in wildlife. A sylvatic cycle of SARS-CoV-2 could present multiple opportunities for repeated spillback into human populations and other susceptible wildlife. Based on their taxonomy and natural history, two native North American wildlife species —the striped skunk (Mephitis mephitis) and the raccoon (Procyon lotor) —represent a high likelihood of susceptibility and ecological opportunity of becoming infected with SARS-CoV-2. Eight skunks and raccoons were each intranasally inoculated with one of two doses of the virus (103 PFU and 105 PFU) and housed in pairs. To evaluate direct transmission, a naïve animal was added to each inoculated pair 48 h post-inoculation. Four control animals of each species were handled like the experimental groups. At predetermined intervals, we collected nasal and rectal swabs to quantify virus shed via virus isolation and detect viral RNA via rRT-PCR and blood for serum neutralization. Lastly, animals were euthanized at staggered intervals to describe disease progression through histopathology and immunohistochemistry. No animals developed clinical disease. All intranasally inoculated animals seroconverted, suggesting both species are susceptible to SARS-CoV-2 infection. The highest titers in skunks and raccoons were 1:128 and 1:64, respectively. Low quantities of virus were isolated from 2/8 inoculated skunks for up to day 5 post-inoculation, however no virus was isolated from inoculated raccoons or direct contacts of either species. Neither species had gross lesions, but recovering mild chronic pneumonia consistent with viral insult was recorded histologically in 5/8 inoculated skunks. Unlike another SARS-CoV-2 infection trial in these species, we detected neutralizing antibodies in inoculated raccoons; thus, future wildlife serologic surveillance results must be interpreted with caution. Due to the inability to isolate virus from raccoons, the lack of evidence of direct transmission between both species, and low amount of virus shed by skunks, it seems unlikely for SARS-CoV-2 to become established in raccoon and skunk populations and for virus to spillback into humans. Continued outbreaks in non-domestic species, wild and captive, highlight that additional research on the susceptibility of SARS-CoV-2 in wildlife, especially musteloidea, and of conservation concern, is needed.

Published

2022

8. Prevalence, distribution, and diversity of cryptic piroplasm infections in raccoons from selected areas of the United States and Canada

Author

Kayla B. Garrett, Sonia M. Hernandez, Gary Balsamo, Heather Barron, James C. Beasley, Justin D. Brown, Erin Cloherty, Hossain Farid, Mourad Gabriel, Bethany Groves, Sarah Hamer, Julia Hill, Meghan Lewis, Katie McManners, Nicole Nemeth, Paul Oesterle, Sebastian Ortiz, Lea Peshock, Rodney Schnellbacher, Renee Schott, Susanne Straif-Bourgeois, and Michael J. Yabsley

Subjects

Zoology, QL1-991

Abstract

The order Piroplasmida contains a diverse group of intracellular parasites, many of which can cause significant disease in humans, domestic animals, and wildlife. Two piroplasm species have been reported from raccoons (Procyon lotor), Babesia lotori (Babesia sensu stricto clade) and a species related to Babesia microti (called B. microti-like sp.). The goal of this study was to investigate prevalence, distribution, and diversity of Babesia in raccoons. We tested raccoons from selected regions in the United States and Canada for the presence of Babesia sensu stricto and Babesia microti-like sp. piroplasms. Infections of Babesia microti-like sp. were found in nearly all locations sampled, often with high prevalence, while Babesia sensu stricto infections had higher prevalence in the Southeastern United States (20–45% prevalence). Co-infections with both Babesia sp. were common. Sequencing of the partial 18S rRNA and cytochrome oxidase subunit 1 (cox1) genes led to the discovery of two new Babesia species, both found in several locations in the eastern and western United States. One novel Babesia sensu stricto sp. was most similar to Babesia gibsoni while the other Babesia species was present in the ‘western piroplasm’ group and was related to Babesia conradae. Phylogenetic analysis of the cox1 sequences indicated possible eastern and western genetic variants for the three Babesia sensu stricto species. Additional analyses are needed to characterize these novel species; however, this study indicates there are now at least four species of piroplasms infecting raccoons in the United States and Canada (Babesia microti-like sp., Babesia lotori, a novel Babesia sensu stricto sp., a novel western Babesia sp.) and a possible fifth species (Babesia sensu stricto) in raccoons in Japan. Keywords: Babesia, Cryptic species, Piroplasms, Raccoons, Tick-borne pathogens

Published

2019

9. Medical Management of Wildlife Species: A Guide for Veterinary Practitioners

Author

Sonia M. Hernandez, Heather W. Barron, Erica A. Miller, Roberto F. Aguilar, Michael J. Yabsley, Sonia M. Hernandez, Heather W. Barron, Erica A. Miller, Roberto F. Aguilar, Michael J. Yabsley

Published

2019

10. Free-Living Aquatic Turtles as Sentinels of Salmonella spp. for Water Bodies

Author

Sonia M. Hernandez, John J. Maurer, Michael J. Yabsley, Valerie E. Peters, Andrea Presotto, Maureen H. Murray, Shannon Curry, Susan Sanchez, Peter Gerner-Smidt, Kelley Hise, Joyce Huang, Kasey Johnson, Tiffany Kwan, and Erin K. Lipp

Subjects

chelonia, turtle, Salmonella, Salmonella enterica, reptile-associated salmonellosis, Veterinary medicine, SF600-1100

Abstract

Reptile-associated human salmonellosis cases have increased recently in the United States. It is not uncommon to find healthy chelonians shedding Salmonella enterica. The rate and frequency of bacterial shedding are not fully understood, and most studies have focused on captive vs. free-living chelonians and often in relation to an outbreak. Their ecology and significance as sentinels are important to understanding Salmonella transmission. In 2012–2013, Salmonella prevalence was determined for free-living aquatic turtles in man-made ponds in Clarke and Oconee Counties, in northern Georgia (USA) and the correlation between species, basking ecology, demographics (age/sex), season, or landcover with prevalence was assessed. The genetic relatedness between turtle and archived, human isolates, as well as, other archived animal and water isolates reported from this study area was examined. Salmonella was isolated from 45 of 194 turtles (23.2%, range 14–100%) across six species. Prevalence was higher in juveniles (36%) than adults (20%), higher in females (33%) than males (18%), and higher in bottom-dwelling species (31%; common and loggerhead musk turtles, common snapping turtles) than basking species (15%; sliders, painted turtles). Salmonella prevalence decreased as forest cover, canopy cover, and distance from roads increased. Prevalence was also higher in low-density, residential areas that have 20–49% impervious surface. A total of 9 different serovars of two subspecies were isolated including 3 S. enterica subsp. arizonae and 44 S. enterica subsp. enterica (two turtles had two serotypes isolated from each). Among the S. enterica serovars, Montevideo (n = 13) and Rubislaw (n = 11) were predominant. Salmonella serovars Muenchen, Newport, Mississippi, Inverness, Brazil, and Paratyphi B. var L(+) tartrate positive (Java) were also isolated. Importantly, 85% of the turtle isolates matched pulsed-field gel electrophoresis patterns of human isolates, including those reported from Georgia. Collectively, these results suggest that turtles accumulate Salmonella present in water bodies, and they may be effective sentinels of environmental contamination. Ultimately, the Salmonella prevalence rates in wild aquatic turtles, especially those strains shared with humans, highlight a significant public health concern.

Published

2021

11. Foraging in Urban Environments Increases Bactericidal Capacity in Plasma and Decreases Corticosterone Concentrations in White Ibises

Author

Caroline R. Cummings, Nicola Y. Khan, Maureen M. Murray, Taylor Ellison, Catharine N. Welch, Sonia M. Hernandez, and Kristen J. Navara

Subjects

urbanization, corticosterone, Salmonella, stress, microbicidal, immune, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

As humans continue to infringe on natural habitats, more animals are exposed to urbanization and its associated challenges. It is still unclear, however, whether the movement of animals into urban habitats negatively influences the health and/or survival of those animals, however those animals often experience shifts in resource availability, diet composition, and exposure to stimuli that are new and potentially stressful. Recently, white ibises (Eudocimus albus) have become increasingly common in urban habitats where they forage in close proximity to humans and even interact with them, collecting food handouts. We hypothesized that foraging in urban habitats would negatively impact measures of health, impair innate immunity, trigger elevated concentrations of corticosterone, and depress physiological responses to stressors in white ibises. We found that plasma from birds captured from urban sites had higher bactericidal capacity against Escherichia coli than those captured in natural sites. Additionally, adults captured in urban habitats had a significantly lower baseline corticosterone concentrations during the post-breeding season, and corticosterone responses to a handling challenge were lower for birds captured from urban sites during year 2 of the study. These results indicate that exposure to urban habitats impacts ibis health, though in the opposite direction of what was predicted.

Published

2020

12. A Review of Pathogen Transmission at the Backyard Chicken–Wild Bird Interface

Author

Andrea J. Ayala, Michael J. Yabsley, and Sonia M. Hernandez

Subjects

backyard chickens, wild birds, pathogen transmission, wildlife-livestock interface, emerging disease, Veterinary medicine, SF600-1100

Abstract

Habitat conversion and the expansion of domesticated, invasive species into native habitats are increasingly recognized as drivers of pathogen emergence at the agricultural–wildlife interface. Poultry agriculture is one of the largest subsets of this interface, and pathogen spillover events between backyard chickens and wild birds are becoming more commonly reported. Native wild bird species are under numerous anthropogenic pressures, but the risks of pathogen spillover from domestic chickens have been historically underappreciated as a threat to wild birds. Now that the backyard chicken industry is one of the fastest growing industries in the world, it is imperative that the principles of biosecurity, specifically bioexclusion and biocontainment, are legislated and implemented. We reviewed the literature on spillover events of pathogens historically associated with poultry into wild birds. We also reviewed the reasons for biosecurity failures in backyard flocks that lead to those spillover events and provide recommendations for current and future backyard flock owners.

Published

2020

13. Epidemiological Investigation of a Mortality Event in a Translocated Gopher Tortoise (Gopherus polyphemus) Population in Northwest Florida

Author

Rebecca A. Cozad, Sonia M. Hernandez, Terry M. Norton, Tracey D. Tuberville, Nicole I. Stacy, Nancy L. Stedman, and Matthew J. Aresco

Subjects

density, Gopherus polyphemus, habitat loss, reptile, starvation, stress, Veterinary medicine, SF600-1100

Abstract

Nokuse Plantation, a 22,055 ha private conservation preserve in northwest Florida, is a recipient site for gopher tortoises translocated from development sites in Florida. Since 2006, Nokuse has received over 5,000 tortoises from multiple development sites. During 2013–2015, 52 tortoises were found sick (n = 14) or dead (n = 38) in multiple soft-release enclosures in which tortoises consistently exhibited clinical signs, with additional sick (n = 5) and dead (n = 5) tortoises presenting similarly during 2016–2017. When found alive, tortoises behaved abnormally (e.g., frequently out of burrows during cold weather, pacing along enclosure fencing), appeared emaciated, were lethargic, and had developed redness under plastron scutes. Similar numbers of male (n = 28) and female (n = 32) tortoises were recovered along with two of unidentified sex, including mainly adults (n = 59) and three subadults. Physical examination, blood analysis, and other diagnostics were indicative of starvation and dehydration. Most sick tortoises provided with supportive care recovered. Necropsy findings generally confirmed starvation, with no evidence of infectious pathogens or contaminants. There were no apparent differences in quality of habitat, plant community, or soil or water among affected and unaffected enclosures. Botanical surveys indicated adequate forage quality and quantity, with no poisonous exotic or native plants detected. No land management practices changed prior to this event. Analysis of epidemiological data and demographic factors from before and during this mortality event identified initial density of tortoises in the enclosures as exerting the strongest influence on detection of tortoise morbidity and mortality. We believe that the stress associated with mixing tortoises from different populations and at higher densities during translocation impacted an individual tortoise's ability to obtain or absorb adequate nutrients from foraging, ultimately leading to a wasting condition consistent with starvation. Based on our findings, we recommend a maximum of 3 gopher tortoises per ha in soft-release enclosures for translocation, but further research is warranted to investigate the complexity of stress and social pressures associated with translocation.

Published

2020

14. Parasitaemia data and molecular characterization of Haemoproteus catharti from New World vultures (Cathartidae) reveals a novel clade of Haemosporida

Author

Michael J. Yabsley, Ralph E. T. Vanstreels, Ellen S. Martinsen, Alexandra G. Wickson, Amanda E. Holland, Sonia M. Hernandez, Alec T. Thompson, Susan L. Perkins, Christopher J. West, A. Lawrence Bryan, Christopher A. Cleveland, Emily Jolly, Justin D. Brown, Dave McRuer, Shannon Behmke, and James C. Beasley

Subjects

Adenylosuccinate lyase, Avian parasite, Bird, Cytochrome b, Cathartidae, Evolution, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background New World vultures (Cathartiformes: Cathartidae) are obligate scavengers comprised of seven species in five genera throughout the Americas. Of these, turkey vultures (Cathartes aura) and black vultures (Coragyps atratus) are the most widespread and, although ecologically similar, have evolved differences in morphology, physiology, and behaviour. Three species of haemosporidians have been reported in New World vultures to date: Haemoproteus catharti, Leucocytozoon toddi and Plasmodium elongatum, although few studies have investigated haemosporidian parasites in this important group of species. In this study, morphological and molecular methods were used to investigate the epidemiology and molecular biology of haemosporidian parasites of New World vultures in North America. Methods Blood and/or tissue samples were obtained from 162 turkey vultures and 95 black vultures in six states of the USA. Parasites were identified based on their morphology in blood smears, and sequences of the mitochondrial cytochrome b and nuclear adenylosuccinate lyase genes were obtained for molecular characterization. Results No parasites were detected in black vultures, whereas 24% of turkey vultures across all sampling locations were positive for H. catharti by blood smear analysis and/or PCR testing. The phylogenetic analysis of cytochrome b gene sequences revealed that H. catharti is closely related to MYCAMH1, a yet unidentified haemosporidian from wood storks (Mycteria americana) in southeastern USA and northern Brazil. Haemoproteus catharti and MYCAMH1 represent a clade that is unmistakably separate from all other Haemoproteus spp., being most closely related to Haemocystidium spp. from reptiles and to Plasmodium spp. from birds and reptiles. Conclusions Haemoproteus catharti is a widely-distributed parasite of turkey vultures in North America that is evolutionarily distinct from other haemosporidian parasites. These results reveal that the genetic diversity and evolutionary relationships of avian haemosporidians are still being uncovered, and future studies combining a comprehensive evaluation of morphological and life cycle characteristics with the analysis of multiple nuclear and mitochondrial genes will be useful to redefine the genus boundaries of these parasites and to re-evaluate the relationships amongst haemosporidians of birds, reptiles and mammals.

Published

2018

15. Avian Influenza Virus Status and Maternal Antibodies in Nestling White Ibis (Eudocimus albus)

Author

Katherine F. Christie, Rebecca L. Poulson, Julia Silva Seixas, and Sonia M. Hernandez

Subjects

American white ibis, avian influenza virus, Eudocimus albus, maternal antibodies, nestling, wildlife, Biology (General), QH301-705.5

Abstract

The White Ibis (Eudocimus albus), a nomadic wading bird, has increased its exploitation of urban habitats in South Florida, United States, and has recently established several urban breeding colonies. Certain characteristics of ibis ecology could position them in the natural cycle of the avian influenza virus (AIV). In fact, experimentally infected ibises were shown to be competent hosts for multiple AIV subtypes, and seroconversion to AIV has been documented in adult ibises in natural populations. However, the mechanisms of transmission and the timing of infection are unclear as we have yet to isolate AIV from a free-living ibis. To investigate the age-specific AIV dynamics of ibis, we captured nestlings (n = 115) weekly for 1–4 weeks from urban and natural settings in 2020 and 2021. We collected choanal/cloacal swabs for rRT-PCR and virus isolation, and plasma to screen for maternal AIV antibodies. AIV was not detected in any individual by virus isolation; however, maternal antibodies to AIV were detected in 95% of nestlings, with varying rates of catabolism. These results confirm that nestlings are afforded maternal antibodies from adults at rates reflective of higher adult seroprevalence than previously documented and that nestlings in breeding colonies may have some degree of protection and are unlikely to become infected with AIV.

Published

2021

16. Diversity and prevalence of hemoparasites of wading birds in southern Florida, USA

Author

Sarah M. Coker, Sonia M. Hernandez, Whitney M. Kistler, Shannon E. Curry, Catharine N. Welch, Heather W. Barron, Stefan Harsch, Maureen H. Murray, and Michael J. Yabsley

Subjects

Zoology, QL1-991

Abstract

Relatively few studies on hemoparasites have been conducted on wading birds in the families Ardeidae and Threskiornithidae (order Pelecaniformes), especially in the United States. In this study, we obtained baseline data on the prevalence and genetic diversity of haemosporidian parasites in wading birds opportunistically sampled from southern Florida, USA. We detected blood parasites in White Ibis (Eudocimus albus), Glossy Ibis (Plegadis falcinellus), Green Heron (Butorides virescens), and Roseate Spoonbill (Platalea ajaja) with several novel host-parasite relationships. Infected birds had low parasitemias (average 0.77%, range 0–4%) suggesting that infections were chronic. Despite the low sample sizes for several of our sampled species, these data highlight the diversity of parasites in this understudied group of birds and suggest that additional studies are needed to investigate the potential impacts of these parasites on their health, especially since southern Florida is becoming increasingly urbanized which can alter parasite transmission or host susceptibility. Keywords: Avian malaria, Florida, Haemoproteus plataleae, haemosporidia, Pelicaniformes, Plasmodium, Wading birds, White Ibis

Published

2017

17. The role of domestic cats in the admission of injured wildlife at rehabilitation and rescue centers

Author

Kerrie Anne T. Loyd, Sonia M. Hernandez, and David L. McRuer

Subjects

domestic cat, domestic pets and wildlife, Felis catus, urban wildlife, wildlife rehabilitation, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

ABSTRACT We reviewed data collected from 82 wildlife rehabilitation centers throughout North America (the WILD‐ONe database) during a 3.5‐year period to determine common causes of admission and disposition of animals. We found domestic pets to be responsible for 14% of admissions and the second most common identifiable cause of wildlife injury. Greater numbers of birds than reptiles, amphibians, or mammals were admitted for rehabilitation as a result of attacks by domestic cat (Felis catus) attack; 78% of these did not survive. The majority of immature individual animals of all species submitted because of cat attacks also died or had to be euthanized because of the severity of injuries. Eastern cottontail (Sylvilagus floridanus), American robin (Turdus migratorius), and eastern gray squirrel (Sciurus carolinensis) were the species most commonly affected by domestic cats, but roaming cats injured thousands of animals representing 290 different species. Species common in urban and suburban environments are most vulnerable to domestic cat attack. In contrast to other studies that quantify only the mortality of wildlife, we found that domestic cat predation leads to severe injuries and extensive recovery for wildlife. We hope the baseline information offered by our analysis of the WILD‐ONe database will inspire discussion by urban–suburban communities and ultimately, result in management actions to reduce wild animal injuries and losses due to domestic pets. © 2017 The Wildlife Society.

Published

2017

18. The effect of diet on the gastrointestinal microbiome of juvenile rehabilitating green turtles (Chelonia mydas).

Author

Jennifer C G Bloodgood, Sonia M Hernandez, Anitha Isaiah, Jan S Suchodolski, Lisa A Hoopes, Patrick M Thompson, Thomas B Waltzek, and Terry M Norton

Subjects

Medicine, Science

Abstract

Threatened and endangered green turtles (Chelonia mydas) are unique because as juveniles they recruit from pelagic to near-shore waters and shift from an omnivorous to primarily herbivorous diet (i.e. seagrass and algae). Nevertheless, when injured and ill animals are admitted to rehabilitation, animal protein (e.g. seafood) is often offered to combat poor appetite and emaciation. We examined how the fecal microbiome of juvenile green turtles changed in response to a dietary shift during rehabilitation. We collected fecal samples from January 2014 -January 2016 from turtles (N = 17) in rehabilitation at the Georgia Sea Turtle Center and used next generation sequencing to analyze bacterial community composition. Samples were collected at admission, mid-rehabilitation, and recovery, which entailed a shift from a mixed seafood-vegetable diet at admission to a primarily herbivorous diet at recovery. The dominant phyla changed over time, from primarily Firmicutes (55.0%) with less Bacteroidetes (11.4%) at admission, to primarily Bacteroidetes (38.4%) and less Firmicutes (31.8%) at recovery. While the microbiome likely shifts with the changing health status of individuals, this consistent inversion of Bacteroidetes and Firmicutes among individuals likely reflects the increased need for protein digestion, for which Bacteroidetes are important. Firmicutes are significant in metabolizing plant polysaccharides; thus, fewer Firmicutes may result in underutilization of wild diet items in released individuals. This study demonstrates the importance of transitioning rehabilitating green turtles to an herbivorous diet as soon as possible to afford them the best probability of survival.

Published

2020

19. Gut microbiome shifts with urbanization and potentially facilitates a zoonotic pathogen in a wading bird.

Author

Maureen H Murray, Emily W Lankau, Anjelika D Kidd, Catharine N Welch, Taylor Ellison, Henry C Adams, Erin K Lipp, and Sonia M Hernandez

Subjects

Medicine, Science

Abstract

Microbial communities in the gastrointestinal tract influence many aspects of host health, including metabolism and susceptibility to pathogen colonization. These relationships and the environmental and individual factors that drive them are relatively unexplored for free-living wildlife. We quantified the relationships between urban habitat use, diet, and age with microbiome composition and diversity for 82 American white ibises (Eudocimus albus) captured along an urban gradient in south Florida and tested whether gut microbial diversity was associated with Salmonella enterica prevalence. Shifts in community composition were significantly associated with urban land cover and, to a lesser extent, diets higher in provisioned food. The diversity of genera was negatively associated with community composition associated with urban land cover, positively associated with age class, and negatively associated with Salmonella shedding. Our results suggest that shifts in both habitat use and diet for urban birds significantly alter gut microbial composition and diversity in ways that may influence health and pathogen susceptibility as species adapt to urban habitats.

Published

2020

20. The movements of a recently urbanized wading bird reveal changes in season timing and length related to resource use.

Author

Anjelika Kidd-Weaver, Jeffrey Hepinstall-Cymerman, Catharine N Welch, Maureen H Murray, Henry C Adams, Taylor J Ellison, Michael J Yabsley, and Sonia M Hernandez

Subjects

Medicine, Science

Abstract

The American White Ibis (Eudocimus albus) is a nomadic wading bird that is increasing the amount of time spent foraging in urban areas, relying on artificial wetlands and other anthropogenic resources year-round. In this study, we explore whether and how American White Ibis association with urban environments is predictive of variation in the timing and length of behavioral seasons. Other urbanized species exhibit altered annual cycles such as loss of migratory behavior and year-round breeding related to consistent resource abundance, often related to intentional and unintentional provisioning. To determine if these same patterns of behavior were also present in White Ibis, we used behavioral change point analysis to segment the tracks of 41 ibis equipped with GPS backpacks to identify the initiation and duration of four behavioral seasons (non-breeding, pre-breeding, breeding, post-breeding) the degree of urban association. We found that intraspecific variation in urban habitat use had strong carryover effects on the timing and duration of behavioral seasons. This study revealed ibis with higher use of urban habitats in non-breeding seasons had longer non-breeding seasons and shorter breeding seasons that began earlier in the year compared to ibis that primarily use wetland habitats. The timing and duration of seasons also varied with ibis age, such that ibis spent more time engaged in breeding-related seasons as they aged. Juvenile and subadult ibis, though considered to be reproductively immature, also exhibit behavioral shifts in relation to breeding seasons. The behavioral patterns found in this study provide evidence that ibis are adapting their annual cycles and seasonal behaviors to exploit urban resources. Future research is needed to identify the effect of interactions between ibis urban association and age on behavioral season expression.

Published

2020

21. Modelling the complexity of the network of interactions in flood emergency management: The Lorca flash flood case.

Author

Raffaele Giordano, Alessandro Pagano, Irene Pluchinotta, Rosa Olivo del Amo, Sonia M. Hernandez, and Eduardo S. Lafuente

Published

2017

22. Demographic and Pathogens of Domestic, Free-Roaming Pets and the Implications for Wild Carnivores and Human Health in the San Luis Region of Costa Rica

Author

Joseph Conrad, Jason Norman, Amalia Rodriguez, Patricia M. Dennis, Randall Arguedas, Carlos Jimenez, Jenifer G. Hope, Michael J. Yabsley, and Sonia M. Hernandez

Subjects

conservation, parasites, vector-borne pathogens, wildlife, zoonoses, Veterinary medicine, SF600-1100

Abstract

Habitat loss and degradation, restricted ranges, prey exploitation, and poaching are important factors for the decline of several wild carnivore populations and additional stress from infectious agents is an increasing concern. Given the rapid growth of human populations in some regions like Costa Rica, pathogens introduced, sustained, and transmitted by domestic carnivores may be particularly important. To better understand the significance of domestic carnivore pathogens for wildlife, we determine the prevalence of infection and possible mechanisms for contact between the two groups. The demographics, role in the household, and pathogens of pet dogs and cats was studied during three annual spay/neuter clinics in San Luis, Costa Rica. Most dogs were owned primarily as pets and guard animals, but ~10% were used for hunting. Cats were owned primarily as pets and for pest control. Both roamed freely outdoors. We detected high prevalences of some pathogens (e.g., carnivore protoparvovirus 1 and Toxoplasma gondii). Some pathogens are known to persist in the environment, which increases the probability of exposure to wild carnivores. This study demonstrated that domestic pets in San Luis, home to a number of protected and endangered wildlife species, are infected with pathogens to which these wild species are potentially susceptible. Additionally, results from our questionnaire support the potential for domestic and wild animal contact, which may result in disease spillover.

Published

2021

23. Occupancy and abundance of a West African mangabey species ( Cercocebus atys Audebert, 1797) in forest patch habitat

Author

Kellie Laity, April Conway, Sonia M. Hernandez, John P. Carroll, and Dessalegn Ejigu

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2023

24. Surveillance and Genetic Characterization of Virulent Newcastle Disease Virus Subgenotype V.3 in Indigenous Chickens from Backyard Poultry Farms and Live Bird Markets in Kenya

Author

Henry M. Kariithi, Helena L. Ferreira, Catharine N. Welch, Leonard O. Ateya, Auleria A. Apopo, Richard Zoller, Jeremy D. Volkening, Dawn Williams-Coplin, Darren J. Parris, Tim L. Olivier, Dana Goldenberg, Yatinder S. Binepal, Sonia M. Hernandez, Claudio L. Afonso, and David L. Suarez

Subjects

oropharyngeal, cloacal, Newcastle disease, spatial-temporal dispersal, phylogeography, Microbiology, QR1-502

Abstract

Kenyan poultry consists of ~80% free-range indigenous chickens kept in small flocks (~30 birds) on backyard poultry farms (BPFs) and they are traded via live bird markets (LBMs). Newcastle disease virus (NDV) was detected in samples collected from chickens, wild farm birds, and other domestic poultry species during a 2017–2018 survey conducted at 66 BPFs and 21 LBMs in nine Kenyan counties. NDV nucleic acids were detected by rRT-PCR L-test in 39.5% (641/1621) of 1621 analyzed samples, of which 9.67% (62/641) were NDV-positive by both the L-test and a fusion-test designed to identify the virulent virus, with a majority being at LBMs (64.5%; 40/62) compared to BPFs (25.5%; 22/62). Virus isolation and next-generation sequencing (NGS) on a subset of samples resulted in 32 complete NDV genome sequences with 95.8–100% nucleotide identities amongst themselves and 95.7-98.2% identity with other east African isolates from 2010-2016. These isolates were classified as a new sub-genotype, V.3, and shared 86.5–88.9% and 88.5–91.8% nucleotide identities with subgenotypes V.1 and V.2 viruses, respectively. The putative fusion protein cleavage site (113R-Q-K-R↓F 117) in all 32 isolates, and a 1.86 ICPI score of an isolate from a BPF chicken that had clinical signs consistent with Newcastle disease, confirmed the high virulence of the NDVs. Compared to genotypes V and VI viruses, the attachment (HN) protein of 18 of the 32 vNDVs had amino acid substitutions in the antigenic sites. A time-scaled phylogeographic analysis suggests a west-to-east dispersal of the NDVs via the live chicken trade, but the virus origins remain unconfirmed due to scarcity of continuous and systematic surveillance data. This study reveals the widespread prevalence of vNDVs in Kenyan backyard poultry, the central role of LBMs in the dispersal and possibly generation of new virus variants, and the need for robust molecular epidemiological surveillance in poultry and non-poultry avian species.

Published

2021

25. Human-wildlife Conflict, Conservation Attitudes, and a Potential Role for Citizen Science in Sierra Leone, Africa

Author

Lincoln R Larson, April L Conway, Sonia M Hernandez, and John P Carroll

Subjects

Bushmeat, Citizen science, Conservation, Crop depredation, Human-wildlife conflict, Public participation, Ecology, QH540-549.5

Abstract

Protection of tropical biodiversity is often difficult due to persistent gaps in ecological data and complex conflicts between wildlife conservation and human livelihoods. To better understand the nature and extent of these conflicts, we conducted intercept surveys (n = 522) with local villagers around the Tiwai Island Wildlife Sanctuary in Sierra Leone (August - December, 2010). Results revealed high levels of crop depredation, retaliatory killing, and bushmeat harvesting in villages surrounding the protected area. We also found that pro-conservation attitudes were less prevalent among younger adults and immigrants to the region. Efforts to mitigate human-wildlife conflict could emphasise an enhanced awareness and appreciation of wildlife resources among these particular socio-demographic groups. In the second part of our study (May 2012), we interviewed a subset of local residents (n = 14) to explore the feasibility and utility of expanding our initial survey effort to create a more comprehensive and sustainable framework for monitoring human-wildlife interactions based on Public Participation in Scientific Research (PPSR) principles. Findings highlighted the challenges of implementing a PPSR-type model in this difficult management context and the potential benefits of using “citizen science” to improve data collection capacity, increase local empowerment, and influence wildlife conservation.

Published

2016

26. Safety and utility of an anesthetic protocol for the collection of biological samples from gopher tortoises

Author

Jessica L. McGuire, Sonia M. Hernandez, Lora L. Smith, and Michael J. Yabsley

Subjects

anesthesia, dexmedetomidine, gopher tortoise, Gopherus polyphemus, ketamine, morphine, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

ABSTRACT Adult gopher tortoises (Gopherus polyphemus) are difficult to physically restrain, particularly for examination of the upper respiratory tract and oral cavity—areas important for biological sample collection during disease surveillance studies. Collection of nasal lavage is required for determining the status of Mycoplasma infection in tortoises. Anesthesia is often necessary to provide full relaxation in order to gain access to the head and mouth for nasal lavage. Therefore, deep sedation or general anesthesia are required both for the welfare of the tortoise and to maximize the usefulness of biological samples collected. The objective of this study was to assess the utility and safety of a novel field‐anesthetic combination of dexmedetomidine–ketamine–morphine (75 mc/kg; 8 mg/kg; 1 mg/kg, respectively), followed by reversal with atipamezole (0.02 mg/kg). Between May and October 2009 at the Joseph W. Jones Ecological Research Center in Baker County, Georgia, USA, 128 tortoises were captured and anesthetized with this protocol. Average time to first effects was 9.7 minutes, to induction was 21.6 minutes, to total recovery after administration of reversal was 92.7 minutes, and the mean time from administration of anesthesia through complete recovery for adult tortoises was 129 minutes but ranged from 40 minutes to 300 minutes. Clinical signs of upper respiratory tract disease significantly reduced the induction time such that tortoises with clinical signs lost consciousness faster than healthy tortoises. Study month significantly influenced the time to induction and time to recovery, such that as the study progressed, both parameters decreased. This anesthetic protocol proved to be an effective, reliable, repeatable, and safe method to collect quality biological samples from gopher tortoises. © 2013 The Wildlife Society.

Published

2014

27. Site Fidelity is Associated with Food Provisioning and Salmonella in an Urban Wading Bird

Author

Jeffery Hepinstall-Cymerman, Henry E. Adams, Catharine N. Welch, Michael J. Yabsley, Shannon E. Curry, R. Scott Rozier, Anjelika D. Kidd, Sonia M. Hernandez, Taylor Ellison, Erin K. Lipp, and Maureen H. Murray

Subjects

Urban wildlife, Eudocimus, Ibis, Ecology, biology, Animal ecology, Health, Toxicology and Mutagenesis, Foraging, Wildlife, Zoology, Flock, Wildlife disease, biology.organism_classification

Abstract

Food provisioning can change wildlife pathogen dynamics by altering host susceptibility via nutrition and/or through shifts in foraging behavior and space use. We used the American white ibis (Eudocimus albus), a wading bird increasingly observed in urban parks, as a model to study synergistic relationships between food provisioning and infection risk across an urban gradient in South Florida. We tested whether Salmonella prevalence was associated with changes in ibis diet (stable isotope analysis), space use (site fidelity via GPS tracking), and local density (flock size). We compared the relative importance of these mechanisms by ranking candidate models using logistic regression. We detected Salmonella in 27% of white ibises (n = 233) sampled at 15 sites. Ibises with diets higher in anthropogenic food exhibited higher site fidelity. Salmonella prevalence was higher at sites where ibises exhibited greater site fidelity and Salmonella was more prevalent in soil and water. Overlap in Salmonella serotypes between ibises and soil or water also was more likely at sites where ibises exhibited higher site fidelity. Our results suggest that repeated use of foraging areas may increase Salmonella exposure for birds if foraging areas are contaminated from animal feces, human waste, or other bacterial sources. Limiting wildlife feeding in parks—perhaps best achieved through understanding the motivations for feeding, education, and enforcement—may reduce health risks for wildlife and the public.

Published

2021

28. Measurable Residual Disease Assessment and Allogeneic Transplantation as Consolidation Therapy in Adult Acute Lymphoblastic Leukemia in Colombia

Author

Claudia Milena Agudelo, Sonia M. Hernandez, Vladimir Avila, Juan Felipe Combariza, Ana María Madera, Jaime Valdés, Leonardo Bautista, Fabián Andrés Mejía, Liliana Moreno, Rocio Orduz, Guillermo León, Marcos Arango, Carlos Alberto García Ramírez, and Laura Díaz

Subjects

Adult, Male, Oncology, Cancer Research, medicine.medical_specialty, Neoplasm, Residual, Allogeneic transplantation, Adolescent, medicine.medical_treatment, Hematopoietic stem cell transplantation, Colombia, Disease-Free Survival, Young Adult, hemic and lymphatic diseases, Internal medicine, medicine, Humans, Transplantation, Homologous, Aged, Retrospective Studies, Chemotherapy, business.industry, Hematopoietic Stem Cell Transplantation, Retrospective cohort study, Induction Chemotherapy, Hematology, Middle Aged, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Prognosis, Minimal residual disease, Confidence interval, Consolidation Chemotherapy, body regions, Adult Acute Lymphoblastic Leukemia, Female, Disease assessment, Neoplasm Recurrence, Local, business, Follow-Up Studies

Abstract

Detectable minimal residual disease (MRD) after therapy for acute lymphoblastic leukemia (ALL) is the strongest predictor of hematologic relapse. The objective of the study was to assess disease-free survival (DFS) and overall survival (OS) of patients with ALL according with MRD status at the end of induction therapy in a Colombian population.We assessed a retrospective cohort to compare DFS and OS in adults with de novo ALL according to MRD status at the end of induction chemotherapy, and the type of postinduction consolidation strategy used.A total of 165 adults with ALL were included in the MRD part of the study, 73 patients in the MRD-negative group and 92 in the MRD-positive group. Median DFS for the MRD-positive group was 11 months (95% confidence interval, 11.7-22.2) and was not reached for the MRD-negative group (P .001). At 3 years, DFS was 18% and 55%, respectively (P .001). The median OS for MRD-positive patients was 16 months (95% confidence interval, 8.8-23.15) and was not reached in the MRD-negative group. At 3 years, OS was 26% and 51% for the former and latter group, respectively. Among subjects who did not receive a transplant, median DFS was 21 months for MRD-negative patients and 9 months for MRD-positive patients (P .001). The median DFS was not reached in either group, whereas 3-year DFS was 64% for MRD-negative and 70% for MRD-positive patients who underwent transplantation in first remission (P = .861).MRD status at the end of induction is an independent prognostic factor for DFS and OS in adult ALL. Allogeneic transplantation in first remission could overcome the adverse prognostic impact of MRD.

Published

2021

29. Effects of an anthropogenic diet on indicators of physiological challenge and immunity of white ibis nestlings raised in captivity

Author

Shannon E. Curry, Kristen J. Navara, Taylor Ellison, Sonia M. Hernandez, Maureen H. Murray, Caroline Cummings, Henry C. Adams, and Robert E. Cooper

Subjects

0106 biological sciences, Foraging, Wildlife, Zoology, Captivity, urbanization, phytohemagglutinin, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Immune system, Immunity, Urbanization, lcsh:QH540-549.5, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, Ibis, 0303 health sciences, Ecology, biology, corticosterone, biology.organism_classification, Habitat, lcsh:Ecology, bactericidal assay

Abstract

When wildlife forage and/or live in urban habitats, they often experience a shift in resource availability and dietary quality. Some species even use human handouts, such as bread, as well as human refuse, as a large part of their new diets; yet the influences of this nutritional shift on health and survival remain unclear. American white ibises are increasingly being seen in urban areas in Florida; they collect handouts, such as bread and other food items, from humans in parks, and are also found foraging on anthropogenic sources in trash heaps. We hypothesized that the consumption of these new anthropogenic food sources may trigger increases in indicators of physiological challenge and dampen immune responses. We tested this experimentally by raising 20 white ibis nestlings in captivity, and exposing 10 to a simulated anthropogenic diet (including the addition of white bread and a reduction in seafood content) while maintaining 10 on a diet similar to what ibises consume in more natural environments. We then tested two indicators of physiological challenge (corticosterone and heat shock protein 70), assessed innate immunity in these birds via bactericidal assays and an in vitro carbon clearance assay, and adaptive immunity using a phytohemagglutinin skin test. The anthropogenic diet depressed the development of the ability to kill Salmonella paratyphi in culture. Our results suggest that consuming an anthropogenic diet may be detrimental in terms of the ability to battle a pathogenic bacterial species, but there was little effect on indicators of physiological challenge and other immunological measures., White ibises are increasingly found foraging in urban environments, and previous work has shown that ibises in urban environments have elevated bactericidal capacities and depressed stress responses. We tested whether intake of an anthropogenic diet may explain those differences. An anthropogenic diet inhibited the development of bactericidal capacity against a pathogenic strain of bacteria.

Published

2020

30. Surveillance for gastrointestinal, subcutaneous, and ectoparasites of invasive North American raccoons (Procyon lotor) in central Spain

Author

Carlos García Sanjuán, José I. Aguirre, Silvia Villaverde, Eva Banda, Sonia M. Hernandez, and Michael J. Yabsley

Subjects

Male, Flea Infestations, General Veterinary, Spain, Ascaridoidea, North America, Animals, Siphonaptera, Parasitology, Raccoons, United States

Abstract

The American raccoon (Procyon lotor) is an invasive meso-carnivore which has been introduced and established in many European countries. Although the presence of the raccoon in the Iberian Peninsula was confirmed around 20 years ago, there are few data on pathogens of these animals in this region. For this work, 72 American raccoons from two subpopulations in the central region of the Iberian Peninsula were examined for selected parasites. Ectoparasite species richness (both fleas and ticks) increased during the sampling season and was highest in the Henares subpopulation and on males. Similarly, ectoparasite abundance increased during the sampling season and was highest in Henares and on adult raccoons. Four species of ticks were detected including Rhipicephalus pusillus (71%), followed by R. sanguineus sensu lato (24%), Ixodes ventalloi (3%), and Dermacentor marginatus (1.4%). Four species of fleas were detected including Pulex irritans (44%), Ctenocephalides felis (3%), C. canis (1.4%), and Paraceras melis (1.4%) infestations. A subset of raccoons (n = 56) was examined for intestinal parasites; low prevalence and diversity were found including Strongyloides procyonis (4%), Dilepis sp. (5%), Plagiorchis sp. (2%), and Moniliformis moniliformis (2%). Importantly, Baylisascaris procyonis was not found. Finally, no subcutaneous nematodes (i.e., Dracunculus and Dirofilaria spp.) were found in the 56 raccoons examined. The results of this work show that the invasive North American raccoons currently are infected with few endoparasites but are commonly infested with native ectoparasites, several of which can transmit pathogens relevant for public and veterinary health. However, the geographically distinct populations of raccoons in Spain have different introduction histories, thus additional surveillance for parasites is warranted.

Published

2022

31. West Nile Virus Infections in an Urban Colony of American White Ibises (Eudocimus albus) in South Florida, USA

Author

Michael J. Yabsley, Melanie R Kunkel, Alisia A W Weyna, Julia Silva Seixas, Lisa A. Shender, Nicole M. Nemeth, and Sonia M. Hernandez

Subjects

Ibis, Eudocimus, education.field_of_study, Rookery, Ecology, biology, Bird Diseases, Range (biology), viruses, Population, Zoology, Wildlife disease, Antibodies, Viral, biology.organism_classification, Virus, Plaque reduction neutralization test, Florida, Animals, Passeriformes, education, West Nile virus, Ecosystem, West Nile Fever, Ecology, Evolution, Behavior and Systematics

Abstract

West Nile virus (WNV) is pathogenic in a wide range of avian hosts and is endemic in much of North America. This virus is responsible for population declines of some Passeriformes. We describe a WNV-associated mortality event in American White Ibis (Eudocimus albus) nestlings. This is a species, inherent to the Everglades ecosystem, which has recently begun nesting in urban areas. An urban colony in south Florida was monitored from March-July in 2020 as part of an ongoing study. Nestling carcasses were collected opportunistically and sent to the Southeastern Cooperative Wildlife Disease Study, University of Georgia within 24 h for diagnosis. Three ibis nestling deaths were confirmed to be caused by WNV infection based on histopathology, immunohistochemistry, and reverse transcription PCR. Serial plasma samples collected weekly from 36 healthy chicks of the same urban rookery were tested for WNV-neutralizing antibodies via plaque reduction neutralization test; four chicks were seropositive. Antibody titers in three seropositive chicks from which serial samples were collected waned over time, suggesting maternal antibody transfer. Ibis mortalities were consistent with a spike of WNV activity in this region of Florida. West Nile virus infection may be an important seasonal cause of mortality for wading bird nestlings.

Published

2022

32. Urbanized White Ibises (Eudocimus albus) as Carriers of Salmonella enterica of Significance to Public Health and Wildlife.

Author

Sonia M Hernandez, Catharine N Welch, Valerie E Peters, Erin K Lipp, Shannon Curry, Michael J Yabsley, Susan Sanchez, Andrea Presotto, Peter Gerner-Smidt, Kelley B Hise, Elizabeth Hammond, Whitney M Kistler, Marguerite Madden, April L Conway, Tiffany Kwan, and John J Maurer

Subjects

Medicine, Science

Abstract

Worldwide, Salmonella spp. is a significant cause of disease for both humans and wildlife, with wild birds adapted to urban environments having different opportunities for pathogen exposure, infection, and transmission compared to their natural conspecifics. Food provisioning by people may influence these factors, especially when high-density mixed species flocks aggregate. White Ibises (Eudocimus albus), an iconic Everglades species in decline in Florida, are becoming increasingly common in urbanized areas of south Florida where most are hand-fed. We examined the prevalence of Salmonella shedding by ibises to determine the role of landscape characteristics where ibis forage and their behavior, on shedding rates. We also compared Salmonella isolated from ibises to human isolates to better understand non-foodborne human salmonellosis. From 2010-2013, 13% (n = 261) adult/subadult ibises and 35% (n = 72) nestlings sampled were shedding Salmonella. The prevalence of Salmonella shedding by ibises significantly decreased as the percent of Palustrine emergent wetlands and herbaceous grasslands increased, and increased as the proportion of open-developed land types (e.g. parks, lawns, golf courses) increased, suggesting that natural ecosystem land cover types supported birds with a lower prevalence of infection. A high diversity of Salmonella serotypes (n = 24) and strain types (43 PFGE types) were shed by ibises, of which 33% of the serotypes ranked in the top 20 of high significance for people in the years of the study. Importantly, 44% of the Salmonella Pulsed-Field Gel Electrophoresis patterns for ibis isolates (n = 43) matched profiles in the CDC PulseNet USA database. Of these, 20% came from Florida in the same three years we sampled ibis. Importantly, there was a negative relationship between the amount of Palustrine emergent wetland and the number of Salmonella isolates from ibises that matched human cases in the PulseNet database (p = 0.056). Together, our results indicate that ibises are good indicators of salmonellae strains circulating in their environment and they have both the potential and opportunity to transmit salmonellae to people. Finally, they may act as salmonellae carriers to natural environments where other more highly-susceptible groups (nestlings) may be detrimentally affected.

Published

2016

33. Capturing American White Ibises in urban South Florida using two novel techniques

Author

Taylor Ellison, Anjelika Kidd-Weaver, Catherine Welch, Shannon E. Curry, Jeffery Hepinstall-Cymerman, Henry E. Adams, Maureen H. Murray, and Sonia M. Hernandez

Subjects

Geography, White (horse), Lasso (statistics), Cartography, Ecology, Evolution, Behavior and Systematics

Published

2019

34. Postrehabilitation Release Monitoring of Wildlife

Author

Sonia M. Hernandez

Subjects

Fishery, Reproductive success, Wildlife, Animal behavior, Biology, Wildlife rehabilitation

Published

2019

35. A retrospective study of Newcastle disease in Kenya

Author

Jane H. Sirya, Claudio L. Afonso, Sonia M. Hernandez, Thomas D. Dulu, Yatinder S. Binepal, Catharine N. Welch, Leonard O. Ateya, Auleria A. Apopo, and Henry M. Kariithi

Subjects

Veterinary medicine, Kenya, 040301 veterinary sciences, Newcastle Disease, Poultry production system, Newcastle disease virus, Diagnostic system, Newcastle disease, 0403 veterinary science, 03 medical and health sciences, Food Animals, Animals, Medicine, Diagnostics, Poultry Diseases, Retrospective Studies, 0303 health sciences, biology, 030306 microbiology, business.industry, Retrospective cohort study, 04 agricultural and veterinary sciences, biology.organism_classification, Avian orthoavulavirus 1, Animal Science and Zoology, business, Chickens, Regular Articles

Abstract

Newcastle disease (ND) is a major constraint to Kenya’s poultry production, which is comprised of approximately 80% indigenous chickens (ICs; caged and free-range system) and 20% exotic chickens (intensive system). This study analyzed cases reported as suspected ND in Kenya between 2005 and 2015. Of the suspected 332 ND reported cases from the three production systems in 27 locations within six Kenyan Agro-Ecological Zones (AEZs), 140 diagnosed as infected with avian orthoavulavirus 1 (AOaV-1; formerly Newcastle disease virus) were present in every year in all AEZs. The numbers of AOaV-1-positive cases differed significantly (p p = 0.001 and 0.02, respectively) with the number of cases, while in the intensive and caged systems, the positive cases correlated significantly with season and relative humidity, respectively (p = 0.05). Regardless of the production systems, the numbers of clinically sick birds positively correlated with the ambient temperatures (r = 0.6; p

Published

2019

36. Prevalence, distribution, and diversity of cryptic piroplasm infections in raccoons from selected areas of the United States and Canada

Author

Michael J. Yabsley, Sonia M. Hernandez, Sebastian Ortiz, Mourad W. Gabriel, Heather Wilson Barron, Nicole M. Nemeth, Paul Oesterle, Julia M. Hill, Renee Schott, Bethany A. Groves, Justin C. Brown, Sarah A. Hamer, Meghan Lewis, Susanne Straif-Bourgeois, Hossain Farid, James C. Beasley, Katie McManners, Kayla B. Garrett, Rodney Schnellbacher, Erin Cloherty, Lea Peshock, and Gary Balsamo

Subjects

0301 basic medicine, Species complex, animal diseases, 030231 tropical medicine, Babesia, Zoology, Article, 18S ribosomal RNA, 03 medical and health sciences, 0302 clinical medicine, Phylogenetics, parasitic diseases, lcsh:Zoology, Piroplasmida, lcsh:QL1-991, Clade, Tick-borne pathogens, Phylogenetic tree, biology, Piroplasms, 030108 mycology & parasitology, biology.organism_classification, bacterial infections and mycoses, Infectious Diseases, Cryptic species, Raccoons, Animal Science and Zoology, Parasitology, Taxonomy (biology)

Abstract

The order Piroplasmida contains a diverse group of intracellular parasites, many of which can cause significant disease in humans, domestic animals, and wildlife. Two piroplasm species have been reported from raccoons (Procyon lotor), Babesia lotori (Babesia sensu stricto clade) and a species related to Babesia microti (called B. microti-like sp.). The goal of this study was to investigate prevalence, distribution, and diversity of Babesia in raccoons. We tested raccoons from selected regions in the United States and Canada for the presence of Babesia sensu stricto and Babesia microti-like sp. piroplasms. Infections of Babesia microti-like sp. were found in nearly all locations sampled, often with high prevalence, while Babesia sensu stricto infections had higher prevalence in the Southeastern United States (20–45% prevalence). Co-infections with both Babesia sp. were common. Sequencing of the partial 18S rRNA and cytochrome oxidase subunit 1 (cox1) genes led to the discovery of two new Babesia species, both found in several locations in the eastern and western United States. One novel Babesia sensu stricto sp. was most similar to Babesia gibsoni while the other Babesia species was present in the ‘western piroplasm’ group and was related to Babesia conradae. Phylogenetic analysis of the cox1 sequences indicated possible eastern and western genetic variants for the three Babesia sensu stricto species. Additional analyses are needed to characterize these novel species; however, this study indicates there are now at least four species of piroplasms infecting raccoons in the United States and Canada (Babesia microti-like sp., Babesia lotori, a novel Babesia sensu stricto sp., a novel western Babesia sp.) and a possible fifth species (Babesia sensu stricto) in raccoons in Japan., Graphical abstract Image 1, Highlights • Raccoons in all locations tested were infected with piroplasms. • Babesia microti-like sp. was commonly found in raccoons throughout North America. • Babesia sensu stricto spp. were less common throughout North America. • Four, possibly five, distinct species of piroplasms in raccoons. • Possible spatial genetic variation within the two raccoon piroplasm species.

Published

2019

37. Land Use Change and Avian Disease Dynamics

Author

Sonia M. Hernandez and Maureen H. Murray

Subjects

Geography, Ecology, Avian disease, Land use, land-use change and forestry, sense organs, skin and connective tissue diseases

Abstract

Birds live on a human-dominated planet. Over half of Earth’s ice-free land area has been modified by anthropogenic disturbance including deforestation, agriculture, and urbanization, impacting ecosystems around the world. Disturbances associated with these land use types, such as habitat loss, fragmentation, and pollution, influence the dynamics between birds, their pathogens, and the environment they share. Such shifts in disease dynamics can arise through the impacts of land use change on aspects of hosts, vectors, and/or pathogens, including vector and host abundance, behavior, and physiology, and through pathogen persistence in the environment. To address this complexity, the major causes of land use change that can impact birds across diverse ecosystems are described. The chapter then discusses key changes associated with land use change such as habitat loss, pollution, and anthropogenic resources that are relevant to avian disease ecology. These key changes are followed by a synthesis of documented changes in avian health with urbanization, the fastest growing type of land use change on Earth. The chapter closes with relevant implications for One Health systems and future directions for advancing avian disease ecology in rapidly changing landscapes.

Published

2021

38. Experimental Susceptibility of North American Raccoons (

Author

Raquel, Francisco, Sonia M, Hernandez, Daniel G, Mead, Kayla G, Adcock, Sydney C, Burke, Nicole M, Nemeth, and Michael J, Yabsley

Subjects

SARS-CoV-2, viruses, wildlife, raccoons, COVID-19, Veterinary Science, One Health, skunks, Mephitidae, Original Research, zoonoses

Abstract

Recent spillback events of SARS-CoV-2 from humans to animals has raised concerns about it becoming endemic in wildlife. A sylvatic cycle of SARS-CoV-2 could present multiple opportunities for repeated spillback into human populations and other susceptible wildlife. Based on their taxonomy and natural history, two native North American wildlife species —the striped skunk (Mephitis mephitis) and the raccoon (Procyon lotor) —represent a high likelihood of susceptibility and ecological opportunity of becoming infected with SARS-CoV-2. Eight skunks and raccoons were each intranasally inoculated with one of two doses of the virus (103 PFU and 105 PFU) and housed in pairs. To evaluate direct transmission, a naïve animal was added to each inoculated pair 48 h post-inoculation. Four control animals of each species were handled like the experimental groups. At predetermined intervals, we collected nasal and rectal swabs to quantify virus shed via virus isolation and detect viral RNA via rRT-PCR and blood for serum neutralization. Lastly, animals were euthanized at staggered intervals to describe disease progression through histopathology and immunohistochemistry. No animals developed clinical disease. All intranasally inoculated animals seroconverted, suggesting both species are susceptible to SARS-CoV-2 infection. The highest titers in skunks and raccoons were 1:128 and 1:64, respectively. Low quantities of virus were isolated from 2/8 inoculated skunks for up to day 5 post-inoculation, however no virus was isolated from inoculated raccoons or direct contacts of either species. Neither species had gross lesions, but recovering mild chronic pneumonia consistent with viral insult was recorded histologically in 5/8 inoculated skunks. Unlike another SARS-CoV-2 infection trial in these species, we detected neutralizing antibodies in inoculated raccoons; thus, future wildlife serologic surveillance results must be interpreted with caution. Due to the inability to isolate virus from raccoons, the lack of evidence of direct transmission between both species, and low amount of virus shed by skunks, it seems unlikely for SARS-CoV-2 to become established in raccoon and skunk populations and for virus to spillback into humans. Continued outbreaks in non-domestic species, wild and captive, highlight that additional research on the susceptibility of SARS-CoV-2 in wildlife, especially musteloidea, and of conservation concern, is needed.

Published

2021

39. Experimental feeding of Hydrilla verticillata colonized by stigonematales cyanobacteria induces vacuolar myelinopathy in painted turtles (Chrysemys picta).

Author

Albert D Mercurio, Sonia M Hernandez, John C Maerz, Michael J Yabsley, Angela E Ellis, Amanda L Coleman, Leslie M Shelnutt, John R Fischer, and Susan B Wilde

Subjects

Medicine, Science

Abstract

Vacuolar myelinopathy (VM) is a neurologic disease primarily found in birds that occurs when wildlife ingest submerged aquatic vegetation colonized by an uncharacterized toxin-producing cyanobacterium (hereafter "UCB" for "uncharacterized cyanobacterium"). Turtles are among the closest extant relatives of birds and many species directly and/or indirectly consume aquatic vegetation. However, it is unknown whether turtles can develop VM. We conducted a feeding trial to determine whether painted turtles (Chrysemys picta) would develop VM after feeding on Hydrilla (Hydrilla verticillata), colonized by the UCB (Hydrilla is the most common "host" of UCB). We hypothesized turtles fed Hydrilla colonized by the UCB would exhibit neurologic impairment and vacuolation of nervous tissues, whereas turtles fed Hydrilla free of the UCB would not. The ability of Hydrilla colonized by the UCB to cause VM (hereafter, "toxicity") was verified by feeding it to domestic chickens (Gallus gallus domesticus) or necropsy of field collected American coots (Fulica americana) captured at the site of Hydrilla collections. We randomly assigned ten wild-caught turtles into toxic or non-toxic Hydrilla feeding groups and delivered the diets for up to 97 days. Between days 82 and 89, all turtles fed toxic Hydrilla displayed physical and/or neurologic impairment. Histologic examination of the brain and spinal cord revealed vacuolations in all treatment turtles. None of the control turtles exhibited neurologic impairment or had detectable brain or spinal cord vacuolations. This is the first evidence that freshwater turtles can become neurologically impaired and develop vacuolations after consuming toxic Hydrilla colonized with the UCB. The southeastern United States, where outbreaks of VM occur regularly and where vegetation colonized by the UCB is common, is also a global hotspot of freshwater turtle diversity. Our results suggest that further investigations into the effect of the putative UCB toxin on wild turtles in situ are warranted.

Published

2014

40. Coffee agroforests remain beneficial for neotropical bird community conservation across seasons.

Author

Sonia M Hernandez, Brady J Mattsson, Valerie E Peters, Robert J Cooper, and C Ron Carroll

Subjects

Medicine, Science

Abstract

Coffee agroforestry systems and secondary forests have been shown to support similar bird communities but comparing these habitat types are challenged by potential biases due to differences in detectability between habitats. Furthermore, seasonal dynamics may influence bird communities differently in different habitat types and therefore seasonal effects should be considered in comparisons. To address these issues, we incorporated seasonal effects and factors potentially affecting bird detectability into models to compare avian community composition and dynamics between coffee agroforests and secondary forest fragments. In particular, we modeled community composition and community dynamics of bird functional groups based on habitat type (coffee agroforest vs. secondary forest) and season while accounting for variation in capture probability (i.e. detectability). The models we used estimated capture probability to be similar between habitat types for each dietary guild, but omnivores had a lower capture probability than frugivores and insectivores. Although apparent species richness was higher in coffee agroforest than secondary forest, model results indicated that omnivores and insectivores were more common in secondary forest when accounting for heterogeneity in capture probability. Our results largely support the notion that shade-coffee can serve as a surrogate habitat for secondary forest with respect to avian communities. Small coffee agroforests embedded within the typical tropical countryside matrix of secondary forest patches and small-scale agriculture, therefore, may host avian communities that resemble those of surrounding secondary forest, and may serve as viable corridors linking patches of forest within these landscapes. This information is an important step toward effective landscape-scale conservation in Neotropical agricultural landscapes.

Published

2013

41. Urban specialization reduces habitat connectivity by a highly mobile wading bird

Author

Sonia Altizer, Claire S. Teitelbaum, Jeffrey Hepinstall-Cymerman, Richard J. Hall, Anjelika Kidd-Weaver, and Sonia M. Hernandez

Subjects

0106 biological sciences, Forage (honey bee), American white ibis (Eudocimus albus), Wildlife, Network, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, Urbanization, lcsh:QH301-705.5, Ecology, Evolution, Behavior and Systematics, Habitat specialization, Eudocimus, Ibis, Connectivity, biology, Ecology, Research, 010604 marine biology & hydrobiology, biology.organism_classification, Geography, lcsh:Biology (General), Habitat, Animal ecology, Nomadism

Abstract

Background Mobile animals transport nutrients and propagules across habitats, and are crucial for the functioning of food webs and for ecosystem services. Human activities such as urbanization can alter animal movement behavior, including site fidelity and resource use. Because many urban areas are adjacent to natural sites, mobile animals might connect natural and urban habitats. More generally, understanding animal movement patterns in urban areas can help predict how urban expansion will affect the roles of highly mobile animals in ecological processes. Methods Here, we examined movements by a seasonally nomadic wading bird, the American white ibis (Eudocimus albus), in South Florida, USA. White ibis are colonial wading birds that forage on aquatic prey; in recent years, some ibis have shifted their behavior to forage in urban parks, where they are fed by people. We used a spatial network approach to investigate how individual movement patterns influence connectivity between urban and non-urban sites. We built a network of habitat connectivity using GPS tracking data from ibis during their non-breeding season and compared this network to simulated networks that assumed individuals moved indiscriminately with respect to habitat type. Results We found that the observed network was less connected than the simulated networks, that urban-urban and natural-natural connections were strong, and that individuals using urban sites had the least-variable habitat use. Importantly, the few ibis that used both urban and natural habitats contributed the most to connectivity. Conclusions Habitat specialization in urban-acclimated wildlife could reduce the exchange of propagules and nutrients between urban and natural areas, which has consequences both for beneficial effects of connectivity such as gene flow and for detrimental effects such as the spread of contaminants or pathogens.

Published

2020

42. Effect of exposition to chlorpyrifos upon plasmatic cholinesterases, hematology and blood biochemistry values in Bothrops asper (Serpentes: Viperidae)

Author

Greivin Corrales, Guillermo León, Sonia M. Hernandez, Randall Arguedas, Marco D. Barquero, Aarón Gómez, and Danilo Chacón

Subjects

Costa Rica, Male, Insecticides, medicine.medical_specialty, Environmental Engineering, 040301 veterinary sciences, Bothrops asper, Health, Toxicology and Mutagenesis, Physiology, 010501 environmental sciences, 01 natural sciences, Group B, 0403 veterinary science, chemistry.chemical_compound, Monocytosis, Viperidae, biology.animal, Internal medicine, medicine, Animals, Environmental Chemistry, Bothrops, Pesticides, Butyrylcholinesterase, 0105 earth and related environmental sciences, Hematology, biology, Public Health, Environmental and Occupational Health, Albumin, 04 agricultural and veterinary sciences, General Medicine, General Chemistry, medicine.disease, biology.organism_classification, Pollution, Organophosphates, Acetylcholinesterase inhibitors, chemistry, Chlorpyrifos, Female, Biomarkers, Blood Chemical Analysis

Abstract

The terciopelo (Bothrops asper), is one of the most important venomous snakes in Costa Rica and common on agriculture where insecticides are frequently used for pest control. To assess the exposure to organophosphates on captive B. asper, an experiment using chlorpyrifos and butyrylcholinesterase (BChE), as a biomarker was conducted. In addition to BChE, hematology, aspartate aminotransferase (AST), total proteins (TP) and albumin were measured after exposure. Different concentrations of chlorpyrifos were used in Group A (0.1%) and B (1%), while the Control Group received distilled water; each group was composed of 5 snakes. Values of BChE, AST, TP, and albumin were measured before exposure, and at 6, 12, 24, 196, 360 and 528 h post-exposure. Hematology values were measured after 24 h post-exposure. As result, an important variation between subjects in all groups before exposure was obtained. Moreover, BChE activity showed 37% inhibition of Group A when compared to Control Group at 12 h post-exposure, and a higher inhibition of Group B (97%) related to Control Group, at 6 h postexposure. Recovery of BChE occurred towards 528 h, never reaching initial values. Despite some variation in the rest of parameters used, a marked relative lymphopenia and monocytosis occurred at 24 h, assuming stress as the main cause. Universidad de Costa Rica/[741-B7-106]/UCR/Costa Rica UCR::Vicerrectoría de Docencia::Salud::Facultad de Microbiología UCR::Vicerrectoría de Investigación::Unidades de Investigación::Ciencias de la Salud::Instituto Clodomiro Picado (ICP) UCR::Vicerrectoría de Docencia::Ciencias Básicas::Facultad de Ciencias::Escuela de Biología UCR::Sedes Regionales::Sede del Caribe::Recinto Limón

Published

2018

43. Activity patterns and interspecific interactions of free-roaming, domestic cats in managed Trap-Neuter-Return colonies

Author

Kerrie Anne T. Loyd, Sonia M. Hernandez, Ben L. Carswell, Mark 'Chip' Gallagher, Kyler Abernathy, and Alexandra N. Newton

Subjects

0106 biological sciences, CATS, 040301 veterinary sciences, Wildlife, Zoology, Trap neuter return, 04 agricultural and veterinary sciences, Interspecific competition, Biology, 010603 evolutionary biology, 01 natural sciences, 0403 veterinary science, Free roaming, Food Animals, Habitat, Stray cats, Animal Science and Zoology, Black vultures

Abstract

There is very little information on the activity and experiences of stray cats living in managed Trap-Neuter-Return colonies. We explored this issue on a barrier island in the southeastern USA. We analyzed activity patterns relative to both individual cat and colony variables. We used 645 h of point-of-view (Kittycam) video from 26 cats to determine that cats spent an average of 89.5% of time in inactive states (resting, sleeping), 9% of time roaming, 0.6% eating or drinking at colony feeding stations and 0.9% of time hunting wildlife. The averages did not differ by sex nor did activity levels differ by colony location (close to developed or undeveloped island habitat). A total of 142 interspecies interactions were recorded between 29 TNR colony cats and local wildlife. Non-predatory encounters were primarily comprised of interactions with four species: raccoons, black vultures, white-tailed deer, and Virginia opossums. All interactions occurred at cat feeding stations, the majority within 2 h of the daily feeding time. Understanding stray cat activity patterns may provide insight into the welfare of domestic cats in the environment, including their exposure to injury and disease from interacting with other animals.

Published

2018

44. Introduction and Establishment of Raccoon Rabies on Islands: Jekyll Island, Georgia, USA as a Case Study

Author

Nancy L. Stedman, Sonia M. Hernandez, Benjamin L. Carswell, Charlie S. Bahnson, Steven E. Nelson, Sebastian Ortiz, Yank Moore, Michael J. Yabsley, Trista I. Becker, Elizabeth J. Elsmo, Heather Fenton, Pamela A. Yager, Terry M. Norton, Lillian A. Orciari, and Kevin D. Niedringhaus

Subjects

Georgia, Rabies, 040301 veterinary sciences, Insular biogeography, 030231 tropical medicine, Zoology, Biology, medicine.disease_cause, Enteritis, 0403 veterinary science, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, medicine, Animals, Ecology, Evolution, Behavior and Systematics, Epizootic, Islands, Ecology, Canine distemper, Rabies virus, 04 agricultural and veterinary sciences, medicine.disease, Urban wildlife, Cats, Tourist destinations, Raccoons

Abstract

The introduction of rabies virus (RABV) to barrier islands, which are often popular tourist destinations with resource-rich habitats and connectivity and proximity to the mainland, is especially concerning because it can easily become endemic due to factors like dense rabies-vector populations (e.g., raccoons [ Procyon lotor]), high inter- and intraspecies contact rates, and anthropogenic activities such as supplemental feeding of feral cats ( Felis catus). In January 2013, a neurologic raccoon found on the Jekyll Island (JI), Georgia, US causeway tested positive for rabies. Mortality investigations of 29 raccoons have been conducted between December 2012-May 2017. The two most common diagnoses were RABV ( n=11) and canine distemper virus (CDV; n=8). Parvoviral enteritis was diagnosed in four raccoons but no coinfections were diagnosed. There was no apparent seasonality for rabies cases, but all CDV cases occurred in spring-fall. Most (64%) rabies submissions came from residential or recreational use areas located near feral cat feeding stations. Jekyll Island is a popular destination where tourists engage in numerous outdoor activities which facilitate human-wildlife interactions. Concerns regarding public and animal health highlight the importance of rabies surveillance, prevention, and control on islands. This is the first report of rabies on JI and emphasizes the importance of disease investigations because the assumption that neurologic raccoons have CDV, an endemic pathogen, can miss the establishment of novel pathogens such as RABV.

Published

2018

45. Pathogen Surveillance and Detection of Ranavirus (

Author

Rebecca A, Cozad, Terry M, Norton, Matthew J, Aresco, Matthew C, Allender, and Sonia M, Hernandez

Subjects

Mycoplasma, Population Surveillance, Ranavirus, Florida, Animals, Mycoplasma Infections, DNA Virus Infections, Turtles

Abstract

Emerging pathogens may pose additional threats to already vulnerable populations of chelonians, such as gopher tortoises (

Published

2020

46. EXPERIMENTAL INFECTIONS AND SEROLOGY INDICATE THAT AMERICAN WHITE IBIS (

Author

Charlie S, Bahnson, Sonia M, Hernandez, Rebecca L, Poulson, Robert E, Cooper, Shannon E, Curry, Taylor J, Ellison, Henry C, Adams, Catharine N, Welch, and David E, Stallknecht

Subjects

Birds, Hemagglutinins, Influenza A virus, Influenza in Birds, Animals, Antibodies, Viral, Article, Disease Reservoirs

Abstract

The American White Ibis (Eudocimus albus) is a nomadic wading bird common to wetland habitats in the southeastern US. In south Florida, US, habitat depletion has driven many ibis to become highly urbanized. Although they forage in neighborhood parks, artificial wetlands, backyards, and golf courses, the majority continue to nest in natural wetlands, often in dense, mixed species colonies. Adults and juveniles commonly disperse thousands of kilometers to other breeding colonies along the Gulf and southeast Atlantic coasts, presenting the potential for close contact with humans, domestic animals, and other wild bird species. Historically, wading birds were not considered to be significant hosts for influenza A virus (IAV), yet as ibis regularly move among various human, domestic animal, and wildlife interfaces, their potential to be exposed to or infected with IAV deserves attention. We experimentally challenged wild-caught, captive-reared White Ibis (n=20) with IAV, tested wild White Ibis for IAV, and serologically tested wild White Ibis for antibodies to IAV. White Ibis were highly susceptible to experimental challenge with H6N1 and H11N9 IAVs, with cloacal shedding lasting an average of 6 d. All 13 infected birds seroconverted by 14 d postinfection as determined by microneutralization. In contrast, no birds challenged with H3N8 were infected. We tested 118 swabs and 578 serum samples from White Ibis captured in southeastern Florida for IAV infection and antibodies to IAV, respectively. Although no IAVs were isolated, 70.4% serum samples were antibody positive by blocking enzyme-linked immunosorbent assay (bELISA). Neutralizing antibodies to H1–H12 were detected in 96.0% of a subset of bELISA positive birds (n=196) and 81.0% tested antibody positive to two or more hemagglutinin subtypes, indicating that exposure to multiple IAVs is common. These results provide evidence that White Ibis are susceptible and naturally infected with IAV and may represent a component of the IAV natural reservoir system.

Published

2020

47. The movements of a recently urbanized wading bird reveal changes in season timing and length related to resource use

Author

Henry C. Adams, Catharine N. Welch, Jeffrey Hepinstall-Cymerman, Maureen H. Murray, Sonia M. Hernandez, Taylor Ellison, Anjelika Kidd-Weaver, and Michael J. Yabsley

Subjects

0106 biological sciences, Topography, Animal sexual behaviour, Social Sciences, Marine and Aquatic Sciences, Breeding, 01 natural sciences, Urban Environments, Psychology, Multidisciplinary, biology, Animal Behavior, Ecology, Reproduction, Eukaryota, Annual cycle, Terrestrial Environments, Habitats, Geography, Habitat, Vertebrates, Medicine, Seasons, Research Article, Freshwater Environments, Science, Foraging, Animals, Wild, Animal Sexual Behavior, 010603 evolutionary biology, Intraspecific competition, Birds, Animals, Ecosystem, Eudocimus, Ibis, Behavior, Landforms, 010604 marine biology & hydrobiology, Urbanization, Ecology and Environmental Sciences, Organisms, Behavioral pattern, Biology and Life Sciences, Aquatic Environments, Geomorphology, Feeding Behavior, 15. Life on land, biology.organism_classification, Wetlands, Amniotes, Earth Sciences, Animal Migration, Zoology

Abstract

The American White Ibis (Eudocimus albus) is a nomadic wading bird that is increasing the amount of time spent foraging in urban areas, relying on artificial wetlands and other anthropogenic resources year-round. In this study, we explore whether and how American White Ibis association with urban environments is predictive of variation in the timing and length of behavioral seasons. Other urbanized species exhibit altered annual cycles such as loss of migratory behavior and year-round breeding related to consistent resource abundance, often related to intentional and unintentional provisioning. To determine if these same patterns of behavior were also present in White Ibis, we used behavioral change point analysis to segment the tracks of 41 ibis equipped with GPS backpacks to identify the initiation and duration of four behavioral seasons (non-breeding, pre-breeding, breeding, post-breeding) the degree of urban association. We found that intraspecific variation in urban habitat use had strong carryover effects on the timing and duration of behavioral seasons. This study revealed ibis with higher use of urban habitats in non-breeding seasons had longer non-breeding seasons and shorter breeding seasons that began earlier in the year compared to ibis that primarily use wetland habitats. The timing and duration of seasons also varied with ibis age, such that ibis spent more time engaged in breeding-related seasons as they aged. Juvenile and subadult ibis, though considered to be reproductively immature, also exhibit behavioral shifts in relation to breeding seasons. The behavioral patterns found in this study provide evidence that ibis are adapting their annual cycles and seasonal behaviors to exploit urban resources. Future research is needed to identify the effect of interactions between ibis urban association and age on behavioral season expression.

Published

2019

48. Gut microbiome shifts with urbanization and potentially facilitates a zoonotic pathogen in a wading bird

Author

Henry C. Adams, Anjelika D. Kidd, Catharine N. Welch, Emily W. Lankau, Maureen H. Murray, Erin K. Lipp, Sonia M. Hernandez, and Taylor Ellison

Subjects

Bacterial Diseases, 0301 basic medicine, Wildlife, Pathology and Laboratory Medicine, Urban Environments, Salmonella, RNA, Ribosomal, 16S, 11. Sustainability, Medicine and Health Sciences, Colonization, 2. Zero hunger, Principal Component Analysis, 0303 health sciences, Multidisciplinary, Ecology, biology, Salmonella enterica, Eukaryota, Genomics, Terrestrial Environments, Bacterial Pathogens, Trophic Interactions, Habitats, Intestines, Infectious Diseases, Community Ecology, Habitat, Medical Microbiology, Vertebrates, Medicine, Pathogens, Research Article, Animal Types, Science, 030106 microbiology, Microbial Genomics, Microbiology, Birds, 03 medical and health sciences, Enterobacteriaceae, Urbanization, Genetics, Animals, Microbiome, Microbial Pathogens, Ecosystem, Nutrition, 030304 developmental biology, Eudocimus, Bacteria, 030306 microbiology, Host (biology), Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, 15. Life on land, biology.organism_classification, Diet, Gastrointestinal Microbiome, 030104 developmental biology, Amniotes, Zoology

Abstract

Microbial communities in the gastrointestinal tract influence many aspects of host health, including metabolism and susceptibility to pathogen colonization. These relationships and the environmental and individual factors that drive them are relatively unexplored for free-living wildlife. We quantified the relationships between urban habitat use, diet, and age with microbiome composition and diversity for 82 American white ibises (Eudocimus albus) captured along an urban gradient in south Florida and tested whether gut microbial diversity was associated withSalmonella entericaprevalence. Shifts in community composition were significantly associated with urban land cover and, to a lesser extent, diets higher in provisioned food. The diversity of genera was negatively associated with community composition associated with urban land cover, positively associated with age class, and negatively associated withSalmonellashedding. Our results suggest that shifts in both habitat use and diet for urban birds significantly alter gut microbial composition and diversity in ways that may influence health and pathogen susceptibility as species adapt to urban habitats.

Published

2019

49. Assessing the contributions of intraspecific and environmental sources of infection in urban wildlife: Salmonella enterica and white ibis as a case study

Author

Richard J. Hall, Sonia Altizer, Claire S. Teitelbaum, Maureen H. Murray, Erin K. Lipp, Catharine N. Welch, Daniel J. Becker, Sonia M. Hernandez, Henry C. Adams, Taylor Ellison, R. Scott Rozier, and Shannon E. Curry

Subjects

0106 biological sciences, 0301 basic medicine, Biomedical Engineering, Biophysics, Wildlife, Bioengineering, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Models, Biological, Intraspecific competition, law.invention, Biomaterials, Birds, 03 medical and health sciences, law, Urbanization, Animals, Ecosystem, Ibis, Salmonella Infections, Animal, biology, Ecology, Bird Diseases, Salmonella enterica, biology.organism_classification, Urban wildlife, 030104 developmental biology, Transmission (mechanics), Geography, Habitat, Life Sciences–Mathematics interface, Biotechnology

Abstract

Conversion of natural habitats into urban landscapes can expose wildlife to novel pathogens and alter pathogen transmission pathways. Because transmission is difficult to quantify for many wildlife pathogens, mathematical models paired with field observations can help select among competing transmission pathways that might operate in urban landscapes. Here we develop a mathematical model for the enteric bacteria Salmonella enterica in urban-foraging white ibis ( Eudocimus albus ) in south Florida as a case study to determine (i) the relative importance of contact-based versus environmental transmission among ibis and (ii) whether transmission can be supported by ibis alone or requires external sources of infection. We use biannual field prevalence data to restrict model outputs generated from a Latin hypercube sample of parameter space and select among competing transmission scenarios. We find the most support for transmission from environmental uptake rather than between-host contact and that ibis–ibis transmission alone could maintain low infection prevalence. Our analysis provides the first parameter estimates for Salmonella shedding and uptake in a wild bird and provides a key starting point for predicting how ibis response to urbanization alters their exposure to a multi-host zoonotic enteric pathogen. More broadly, our study provides an analytical roadmap to assess transmission pathways of multi-host wildlife pathogens in the face of scarce infection data.

Published

2019

50. Medical Management of Wildlife Species : A Guide for Practitioners

Author

Sonia M. Hernandez, Heather W. Barron, Erica A. Miller, Roberto F. Aguilar, Michael J. Yabsley, Sonia M. Hernandez, Heather W. Barron, Erica A. Miller, Roberto F. Aguilar, and Michael J. Yabsley

Subjects

Wildlife diseases, Animals--Diseases, Veterinary medicine, Communicable diseases in animals

Abstract

This book offers an all-encompassing resource for reliable information on the medical management of wild birds, mammals, amphibians, and turtles. Focusing on the medical information relevant to the wildlife setting, it covers triage, emergency care, and other key considerations in handling, diagnosing, and treating wild animals. The book's population-based approach encourages practitioners to understand individual animal care within the broader context. Medical Management of Wildlife Species: A Guide for Practitioners begins with a brief summary of natural history, and introductory chapters address general topics such as pre-release conditioning, post-release monitoring, and legal issues associated with handling wildlife species. Species-specific chapters provide practical information on medical management, including the most prevalent concerns for each species and the epidemiology of infectious diseases. Provides a complete reference to handling, diagnosing, and treating wild species Covers the full range of North American wildlife Includes concepts that can be applied to species globally Emphasizes information relevant to the wildlife setting Focuses on individual medicine, firmly grounded within population medicine for a broader approach Targeted at wildlife veterinarians, veterinary clinicians that will be presented with wildlife, veterinary technicians, and wildlife rehabilitators Medical Management of Wildlife Species is a must-have addition to the bookshelf of wildlife veterinarians and any veterinarian seeing occasional wild animals, as well as wildlife biologists and researchers.

Published

2020