Your search keyword '"Brock Fenton"' showing total 36 results

1. Opening the black box of bird-window collisions: passive video recordings in a residential backyard

Author

Brendon Samuels, Brock Fenton, Esteban Fernández-Juricic, and Scott A. MacDougall-Shackleton

Subjects

Birds, Risk Factors, General Neuroscience, Animals, Glass, Seasons, General Medicine, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

Collisions with windows on buildings are a major source of bird mortality. The current understanding of daytime collisions is limited by a lack of empirical data on how collisions occur in the real world because most data are collected by recording evidence of mortality rather than pre-collision behaviour. Based on published literature suggesting a causal relationship between bird collision risk and the appearance of reflections on glass, the fact that reflections vary in appearance depending on viewing angle, and general principles of object collision kinematics, we hypothesized that the risk and lethality of window collisions may be related to the angle and velocity of birds’ flight. We deployed a home security camera system to passively record interactions between common North American bird species and residential windows in a backyard setting over spring, summer and fall seasons over 2 years. We captured 38 events including 29 collisions and nine near-misses in which birds approached the glass but avoided impact. Only two of the collisions resulted in immediate fatality, while 23 birds flew away immediately following impact. Birds approached the glass at variable flight speeds and from a wide range of angles, suggesting that the dynamic appearance of reflections on glass at different times of day may play a causal role in collision risk. Birds that approached the window at higher velocity were more likely to be immediately killed or stunned. Most collisions were not detected by the building occupants and, given that most birds flew away immediately, carcass surveys would only document a small fraction of window collisions. We discuss the implications of characterizing pre-collision behaviour for designing effective collision prevention methods.

Published

2022

2. Body size affects immune cell proportions in birds and non-volant mammals, but not bats

Author

Lynn B. Martin, Ololade Ogunsina, Nancy B. Simmons, M. Brock Fenton, Samantha J. Oakey, Cynthia J. Downs, Daniel J. Becker, and Emily Cornelius Ruhs

Subjects

0106 biological sciences, 0301 basic medicine, Origin of avian flight, Physiology, Zoology, Aquatic Science, Biology, Body size, 010603 evolutionary biology, 01 natural sciences, Birds, 03 medical and health sciences, Immune system, Immunity, Chiroptera, Animals, Body Size, Life history, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Mammals, 030104 developmental biology, Taxon, Flight, Animal, Insect Science, Vertebrates, Animal Science and Zoology, Mammal, Allometry

Abstract

Powered flight has evolved several times in vertebrates and constrains morphology and physiology in ways that likely have shaped how organisms cope with infections. Some of these constraints probably have impacts on aspects of immunology, such that larger fliers might prioritize risk reduction and safety. Addressing how the evolution of flight may have driven relationships between body size and immunity could be particularly informative for understanding the propensity of some taxa to harbor many virulent and sometimes zoonotic pathogens without showing clinical disease. Here, we used a comparative framework to quantify scaling relationships between body mass and the proportions of two types of white blood cells – lymphocytes and granulocytes (neutrophils/heterophils) – across 63 bat species, 400 bird species and 251 non-volant mammal species. By using phylogenetically informed statistical models on field-collected data from wild Neotropical bats and from captive bats, non-volant mammals and birds, we show that lymphocyte and neutrophil proportions do not vary systematically with body mass among bats. In contrast, larger birds and non-volant mammals have disproportionately higher granulocyte proportions than expected for their body size. Our inability to distinguish bat lymphocyte scaling from birds and bat granulocyte scaling from all other taxa suggests there may be other ecological explanations (i.e. not flight related) for the cell proportion scaling patterns. Future comparative studies of wild bats, birds and non-volant mammals of similar body mass should aim to further differentiate evolutionary effects and other aspects of life history on immune defense and its role in the tolerance of (zoonotic) infections.

Published

2021

3. Approaches to integrating genetic data into ecological networks

Author

Elizabeth L. Clare, Amanda M. Adams, Steven G. Newmaster, Rebecca Girton, Juliet Nagel, Aron J. Fazekas, Paul D. N. Hebert, Natalia Ivanova, Robin Floyd, and M. Brock Fenton

Subjects

Costa Rica, 0106 biological sciences, 0301 basic medicine, Food Chain, Insecta, Computational biology, Biology, 010603 evolutionary biology, 01 natural sciences, DNA barcoding, Data type, DNA sequencing, 03 medical and health sciences, symbols.namesake, Genetics, Animals, DNA Barcoding, Taxonomic, Symbiosis, Ecology, Evolution, Behavior and Systematics, Trophic level, Sanger sequencing, Ecology, Plants, Ecological network, 030104 developmental biology, DNA profiling, symbols, Network analysis

Abstract

As molecular tools for assessing trophic interactions become common, research is increasingly focused on the construction of interaction networks. Here, we demonstrate three key methods for incorporating DNA data into network ecology and discuss analytical considerations using a model consisting of plants, insects, bats and their parasites from the Costa Rica dry forest. The simplest method involves the use of Sanger sequencing to acquire long sequences to validate or refine field identifications, for example of bats and their parasites, where one specimen yields one sequence and one identification. This method can be fully quantified and resolved and these data resemble traditional ecological networks. For more complex taxonomic identifications, we target multiple DNA loci, for example from a seed or fruit pulp sample in faeces. These networks are also well resolved but gene targets vary in resolution and quantification is difficult. Finally, for mixed templates such as faecal contents of insectivorous bats, we use DNA metabarcoding targeting two sequence lengths (157 and 407 bp) of one gene region and a MOTU, BLAST and BIN association approach to resolve nodes. This network type is complex to generate and analyse, and we discuss the implications of this type of resolution on network analysis. Using these data, we construct the first molecular-based network of networks containing 3,304 interactions between 762 nodes of eight trophic functions and involving parasitic, mutualistic and predatory interactions. We provide a comparison of the relative strengths and weaknesses of these data types in network ecology.

Published

2018

4. Surveying the Vampire Bat (

Author

Benjamin A, Neely, Michael G, Janech, M Brock, Fenton, Nancy B, Simmons, Alison M, Bland, and Daniel J, Becker

Subjects

Proteome, Species Specificity, Chiroptera, Animals, Humans, Models, Biological, Article

Abstract

Bats are increasingly studied as model systems for longevity and as natural hosts for some virulent viruses. Yet the ability to characterize immune mechanisms of viral tolerance and to quantify infection dynamics in wild bats is often limited by small sample volumes and few species-specific reagents. Here, we demonstrate how proteomics can overcome these limitations by using data-independent acquisition-based shotgun proteomics to survey the serum proteome of 17 vampire bats (Desmodus rotundus) from Belize. Using just 2 μL of sample and relatively short separations of undepleted serum digests, we identified 361 proteins across 5 orders of magnitude. Levels of immunological proteins in vampire bat serum were then compared to human plasma via published databases. Of particular interest were antiviral and antibacterial components, circulating 20S proteasome complex and proteins involved in redox activity. Lastly, we used known virus proteomes to putatively identify Rh186 from Macacine herpesvirus 3 and ORF1a from Middle East respiratory syndrome-related coronavirus, indicating that mass spectrometry-based techniques show promise for pathogen detection. Overall, these results can be used to design targeted mass-spectrometry assays to quantify immunological markers and detect pathogens. More broadly, our findings also highlight the application of proteomics in advancing wildlife immunology and pathogen surveillance.

Published

2021

5. A vesicular stomatitis virus-based prime-boost vaccination strategy induces potent and protective neutralizing antibodies against SARS-CoV-2

Author

Gyoung Nyoun Kim, Jung-ah Choi, Kunyu Wu, Nasrin Saeedian, Eunji Yang, Hayan Park, Sun-Je Woo, Gippeum Lim, Seong-Gyu Kim, Su-Kyeong Eo, Hoe Won Jeong, Taewoo Kim, Jae-Hyung Chang, Sang Hwan Seo, Na Hyung Kim, Eunsil Choi, Seungho Choo, Sangkyun Lee, Andrew Winterborn, Yue Li, Kate Parham, Justin M. Donovan, Brock Fenton, Jimmy D. Dikeakos, Gregory A. Dekaban, S. M. Mansour Haeryfar, Ryan M. Troyer, Eric J. Arts, Stephen D. Barr, Manki Song, and C. Yong Kang

Subjects

RNA viruses, Coronaviruses, Physiology, viruses, Monkeys, Pathology and Laboratory Medicine, Antibodies, Viral, Biochemistry, Mice, Medical Conditions, Immune Physiology, Chlorocebus aethiops, Medicine and Health Sciences, Public and Occupational Health, Enzyme-Linked Immunoassays, Biology (General), Immune Response, Mammals, Vaccines, 0303 health sciences, Immune System Proteins, 030302 biochemistry & molecular biology, Eukaryota, Medical microbiology, Vaccination and Immunization, 3. Good health, Infectious Diseases, Vesicular Stomatitis Virus, Viral Pathogens, Viruses, Vertebrates, Spike Glycoprotein, Coronavirus, Angiotensin-Converting Enzyme 2, SARS CoV 2, Pathogens, Macaque, Research Article, Primates, COVID-19 Vaccines, SARS coronavirus, Infectious Disease Control, QH301-705.5, Immunology, Mice, Transgenic, Research and Analysis Methods, Microbiology, Antibodies, Rhabdoviruses, Vesicular stomatitis Indiana virus, 03 medical and health sciences, Viral Proteins, Signs and Symptoms, Virology, Old World monkeys, Vaccine Development, Genetics, Animals, Humans, Immunoassays, Microbial Pathogens, Molecular Biology, Vero Cells, 030304 developmental biology, Inflammation, Biology and life sciences, SARS-CoV-2, Organisms, Proteins, COVID-19, Viral Vaccines, RC581-607, Antibodies, Neutralizing, Mice, Inbred C57BL, Amniotes, Immunologic Techniques, Parasitology, Immunization, Preventive Medicine, Clinical Medicine, Immunologic diseases. Allergy, Zoology

Abstract

The development of safe and effective vaccines to prevent SARS-CoV-2 infections remains an urgent priority worldwide. We have used a recombinant vesicular stomatitis virus (rVSV)-based prime-boost immunization strategy to develop an effective COVID-19 vaccine candidate. We have constructed VSV genomes carrying exogenous genes resulting in the production of avirulent rVSV carrying the full-length spike protein (SF), the S1 subunit, or the receptor-binding domain (RBD) plus envelope (E) protein of SARS-CoV-2. Adding the honeybee melittin signal peptide (msp) to the N-terminus enhanced the protein expression, and adding the VSV G protein transmembrane domain and the cytoplasmic tail (Gtc) enhanced protein incorporation into pseudotype VSV. All rVSVs expressed three different forms of SARS-CoV-2 spike proteins, but chimeras with VSV-Gtc demonstrated the highest rVSV-associated expression. In immunized mice, rVSV with chimeric S protein-Gtc derivatives induced the highest level of potent neutralizing antibodies and T cell responses, and rVSV harboring the full-length msp-SF-Gtc proved to be the superior immunogen. More importantly, rVSV-msp-SF-Gtc vaccinated animals were completely protected from a subsequent SARS-CoV-2 challenge. Overall, we have developed an efficient strategy to induce a protective response in SARS-CoV-2 challenged immunized mice. Vaccination with our rVSV-based vector may be an effective solution in the global fight against COVID-19., Author summary The COVID-19 pandemic has had unprecedented global health, economic and societal impact globally. Vaccinating the majority of the world’s population is the best way to help prevent new infections. Many vaccines have been developed to prevent various viral diseases that are currently in use around the world. This has generated a high demand for these vaccines, putting a strain on production capacity and delivery. With new variants of concern starting to dominate the human pandemic, new derivatives of the current vaccines may be necessary for continued protection from SARS-CoV-2 infection. We have developed a vaccine that uses a safe vesicular stomatitis virus-based delivery vehicle to present a key SARS-CoV-2 protein to our immune system in order to train it to recognize and prevent SARS-CoV-2 infection. Our vaccine completely protected vaccinated animals from SARS-CoV-2 infection and significantly reduced lung damage, a major hallmark of COVID-19.

Published

2021

6. Knowledge gaps about rabies transmission from vampire bats to humans

Author

Daniel G. Streicker, M. Brock Fenton, Mark Daley, Merlin D. Tuttle, Paul A. Racey, Sergio Recuenco, Kevin M. Bakker, and Rodrigo A. Medellín

Subjects

Vaccines, Geography, Ecology, Rabies, Chiroptera, Vampire, Animals, Humans, Rabies transmission, Virology, Ecology, Evolution, Behavior and Systematics, Article, Biomarkers

Abstract

Vaccines that autonomously transfer among individuals have been proposed as a strategy to control infectious diseases within inaccessible wildlife populations. However, rates of vaccine spread and epidemiological efficacy in real-world systems remain elusive. Here, we investigate whether topical vaccines that transfer among individuals through social contacts can control vampire bat rabies-a medically and economically important zoonosis in Latin America. Field experiments in three Peruvian bat colonies, which used fluorescent biomarkers as a proxy for the bat-to-bat transfer and ingestion of an oral vaccine, revealed that vaccine transfer would increase population-level immunity up to 2.6 times beyond the same effort using conventional, non-spreadable vaccines. Mathematical models showed that observed levels of vaccine transfer would reduce the probability, size and duration of rabies outbreaks, even at low but realistically achievable levels of vaccine application. Models further predicted that existing vaccines provide substantial advantages over culling bats-the policy currently implemented in North, Central and South America. Linking field studies with biomarkers to mathematical models can inform how spreadable vaccines may combat pathogens of health and conservation concern before costly investments in vaccine design and testing.

Published

2020

7. Ecological and evolutionary drivers of haemoplasma infection and bacterial genotype sharing in a Neotropical bat community

Author

Sonia Altizer, Alex D. Washburne, Nancy B. Simmons, Vladimir E. Chizhikov, Raina K. Plowright, M. Brock Fenton, Alexis Brown, Daniel J. Becker, Dmitriy V. Volokhov, Daniel G. Streicker, and Kelly A. Speer

Subjects

0106 biological sciences, 0301 basic medicine, Male, Genotype, parasite sharing, Ecological Interactions, Biology, medicine.disease_cause, cophylogeny, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Mycoplasma, Chiroptera, Genetics, medicine, Animals, Humans, host specificity, 16S rRNA, Pathogen, Ecology, Evolution, Behavior and Systematics, Phylogeny, Genetic diversity, Phylogenetic tree, Bacteria, Ecology, Transmission (medicine), Host (biology), bacterial zoonosis, host shifts, Belize, 030104 developmental biology, Original Article, ORIGINAL ARTICLES, Host specificity

Abstract

Most emerging pathogens can infect multiple species, underlining the importance of understanding the ecological and evolutionary factors that allow some hosts to harbour greater infection prevalence and share pathogens with other species. However, our understanding of pathogen jumps is based primarily around viruses, despite bacteria accounting for the greatest proportion of zoonoses. Because bacterial pathogens in bats (order Chiroptera) can have conservation and human health consequences, studies that examine the ecological and evolutionary drivers of bacterial prevalence and barriers to pathogen sharing are crucially needed. Here were studied haemotropic Mycoplasma spp. (i.e., haemoplasmas) across a species‐rich bat community in Belize over two years. Across 469 bats spanning 33 species, half of individuals and two‐thirds of species were haemoplasma positive. Infection prevalence was higher for males and for species with larger body mass and colony sizes. Haemoplasmas displayed high genetic diversity (21 novel genotypes) and strong host specificity. Evolutionary patterns supported codivergence of bats and bacterial genotypes alongside phylogenetically constrained host shifts. Bat species centrality to the network of shared haemoplasma genotypes was phylogenetically clustered and unrelated to prevalence, further suggesting rare—but detectable—bacterial sharing between species. Our study highlights the importance of using fine phylogenetic scales when assessing host specificity and suggests phylogenetic similarity may play a key role in host shifts not only for viruses but also for bacteria. Such work more broadly contributes to increasing efforts to understand cross‐species transmission and the epidemiological consequences of bacterial pathogens.

Published

2019

8. The benefits of insect-swarm hunting to echolocating bats, and its influence on the evolution of bat echolocation signals

Author

Brock Fenton, Yossi Yovel, and Arjan Boonman

Subjects

0301 basic medicine, Insecta, Physiology, Echoes, Bat echolocation, Social Sciences, Predation, Insect, 0302 clinical medicine, Chiroptera, Bats, Medicine and Health Sciences, Psychology, Biology (General), Sound pressure, Animal Flight, media_common, Mammals, Animal Behavior, Ecology, Physics, Swarm behaviour, Eukaryota, Trophic Interactions, Insects, Computational Theory and Mathematics, Community Ecology, Modeling and Simulation, Physical Sciences, Vertebrates, Engineering and Technology, Sound Pressure, Research Article, Food Chain, Arthropoda, QH301-705.5, Bioacoustics, media_common.quotation_subject, Acoustics, Prey detection, Finite Element Analysis, Human echolocation, Biology, 03 medical and health sciences, Cellular and Molecular Neuroscience, Imaging, Three-Dimensional, Genetics, Animals, Computer Simulation, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Population Density, Behavior, Stochastic Processes, Biological Locomotion, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Computational Biology, Signal Bandwidth, Invertebrates, 030104 developmental biology, Echolocation, Flight, Animal, Predatory Behavior, Amniotes, Signal Processing, Insect Flight, Zoology, 030217 neurology & neurosurgery

Abstract

Predation on swarms of prey, especially using visual information, has drawn much interest in studies of collective movement. Surprisingly, in the field of biosonar this aspect of prey detection, which is probably very common, has received little to no attention. Here, we combine computer simulations and actual echo measurements to accurately estimate the echo sound pressure of insect swarms of different size and density. We show that swarm echo sound pressure increases with 3dB for every doubling of insect number, irrespective of swarm density. Thus swarms will be much easier to detect than single insects. Many of the insects bats eat are so small that they are only detectable by echolocation at very short distances. By focusing on detection of swarms of insects, a bat may increase its operating range and diversify its diet. Interestingly, interference between the sound waves reflected from a swarm of insects can sometimes result in echoes that are much weaker than echoes from single insects. We show that bats can reduce this problem by increasing the bandwidth of their echolocation calls. Specifically, a bandwidth of 3–8 kHz would guarantee receiving loud echoes from any angle relative to the swarm. Indeed, many bat species, and specifically bats hunting in open spaces, where swarms are abundant, use echolocation signals with a bandwidth of several kHz. Our results might also explain how the first echolocating bats that probably had limited echolocation abilities, could detect insects through swarm hunting., Author summary When bats hunt, they often encounter insects that fly in swarms. Echolocating bats emit sonar signals to search for prey and it is currently unknown what such swarms look like to a bat. Unlike vision, sonar senses the delay or distance to objects directly. We show that when bats hunt for insects in the sky, the echoes from the insects in a swarm will most of the time sum up and therefore become much louder than the echo of a single insect. Every time an insect swarm would double in number, a bat would hear an echo that is 3dB stronger. This could enable a bat to detect prey from longer distances and some bats might thus profit from swarm hunting. However, the echoes reflected from the many insects in the swarm also create acoustic interference so that sometimes the summed echo is actually weak at a certain frequency. We show how bats could deal with this drawback. It is known that most bats do not use sonar signals with a single tone but that they modulate their tones. Our analysis shows that this modulation can solve the problem of spectral interference ensuring that the swarm-echo is always loud.

Published

2019

9. Host association influences variation at salivary protein genes in the bat ectoparasiteCimex adjunctus

Author

Brock Fenton, Benoit Talbot, Nusha Keyghobadi, Hugh G. Broders, and Maarten J. Vonhof

Subjects

0106 biological sciences, 0301 basic medicine, Bedbugs, Candidate gene, Genotype, Zoology, Biology, Generalist and specialist species, 010603 evolutionary biology, 01 natural sciences, Host-Parasite Interactions, Gene flow, 03 medical and health sciences, Genetic drift, Molecular evolution, Chiroptera, Animals, Salivary Proteins and Peptides, Selection, Genetic, Allele, Ecology, Evolution, Behavior and Systematics, Genetic diversity, Host (biology), Genetic Variation, 030104 developmental biology, North America

Abstract

Parasite-host relationships create strong selection pressures that can lead to adaptation and increasing specialization of parasites to their hosts. Even in relatively loose host-parasite relationships, such as between generalist ectoparasites and their hosts, we may observe some degree of specialization of parasite populations to one of the multiple potential hosts. Salivary proteins are used by blood-feeding ectoparasites to prevent hemostasis in the host and maximize energy intake. We investigated the influence of association with specific host species on allele frequencies of salivary protein genes in Cimex adjunctus, a generalist blood-feeding ectoparasite of bats in North America. We analysed two salivary protein genes: an apyrase, which hydrolyses ATP at the feeding site and thus inhibits platelet aggregation, and a nitrophorin, which brings nitrous oxide to the feeding site, inhibiting platelet aggregation and vasoconstriction. We observed more variation at both salivary protein genes among parasite populations associated with different host species than among populations from different spatial locations associated with the same host species. The variation in salivary protein genes among populations on different host species was also greater than expected under a neutral scenario of genetic drift and gene flow. Finally, host species was an important predictor of allelic divergence in genotypes of individual C. adjunctus at both salivary protein genes. Our results suggest differing selection pressures on these two salivary protein genes in C. adjunctus depending on the host species.

Published

2018

10. Bats navigate with cognitive maps

Author

M. Brock Fenton

Subjects

0303 health sciences, Multidisciplinary, SERCA, Bioenergetics, biology, Chemistry, Endoplasmic reticulum, ATPase, Oxidative phosphorylation, Mitochondrion, Cell biology, 03 medical and health sciences, Cognition, 0302 clinical medicine, Chiroptera, Echolocation, Flight, Animal, Calnexin, biology.protein, Animals, Flux (metabolism), 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Chaperones in the endoplasmic reticulum (ER) control the flux of Ca2+ ions into mitochondria, thereby increasing or decreasing the energetic output of the oxidative phosphorylation pathway. An example is the abundant ER lectin calnexin, which interacts with sarco/endoplasmic reticulum Ca2+ ATPase (SERCA). We found that calnexin stimulated the ATPase activity of SERCA by maintaining its redox state. This function enabled calnexin to control how much ER Ca2+ was available for mitochondria, a key determinant for mitochondrial bioenergetics. Calnexin-deficient cells compensated for the loss of this function by partially shifting energy generation to the glycolytic pathway. These cells also showed closer apposition between the ER and mitochondria. Calnexin therefore controls the cellular energy balance between oxidative phosphorylation and glycolysis.

Published

2020

11. Don't misrepresent link between bats and SARS

Author

Paul A. Racey, Nancy B. Simmons, Merlin D. Tuttle, Brock Fenton, and Samira Mubareka

Subjects

0301 basic medicine, Multidisciplinary, MEDLINE, Severe Acute Respiratory Syndrome, Virology, 03 medical and health sciences, 030104 developmental biology, Geography, Sars virus, Severe acute respiratory syndrome-related coronavirus, Chiroptera, Animals, Humans, Link (knot theory)

Published

2018

12. Livestock abundance predicts vampire bat demography, immune profiles and bacterial infection risk

Author

Daniel J. Becker, M. Brock Fenton, Jorge Carrera, Alexandra B. Bentz, Nancy B. Simmons, Melinda S. Camus, Sergio Recuenco, Kristen J. Navara, Amy T. Gilbert, Gábor Á. Czirják, Daniel G. Streicker, Vladimir E. Chizhikov, Sonia Altizer, and Dmitriy V. Volokhov

Subjects

0106 biological sciences, 0301 basic medicine, Male, Neutrophils, Ecoimmunology, Population Dynamics, ecoimmunology, Adaptive Immunity, 01 natural sciences, Eating, Mycoplasma, Chiroptera, Peru, Lymphocytes, Pathogen, agriculture, 2. Zero hunger, resource provisioning, Reproduction, Articles, Acquired immune system, Belize, Host-Pathogen Interactions, Livestock, Female, General Agricultural and Biological Sciences, Bartonella, Research Article, Ecology (disciplines), Foraging, Zoology, Biology, 010603 evolutionary biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Bartonella Infections, Animals, Mycoplasma Infections, haemoplasmas, supplemental feeding, business.industry, Host (biology), 15. Life on land, biology.organism_classification, Immunity, Innate, 030104 developmental biology, Vampire bat, Immunoglobulin G, business

Abstract

Human activities create novel food resources that can alter wildlife–pathogen interactions. If resources amplify or dampen, pathogen transmission probably depends on both host ecology and pathogen biology, but studies that measure responses to provisioning across both scales are rare. We tested these relationships with a 4-year study of 369 common vampire bats across 10 sites in Peru and Belize that differ in the abundance of livestock, an important anthropogenic food source. We quantified innate and adaptive immunity from bats and assessed infection with two common bacteria. We predicted that abundant livestock could reduce starvation and foraging effort, allowing for greater investments in immunity. Bats from high-livestock sites had higher microbicidal activity and proportions of neutrophils but lower immunoglobulin G and proportions of lymphocytes, suggesting more investment in innate relative to adaptive immunity and either greater chronic stress or pathogen exposure. This relationship was most pronounced in reproductive bats, which were also more common in high-livestock sites, suggesting feedbacks between demographic correlates of provisioning and immunity. Infection with both Bartonella and haemoplasmas were correlated with similar immune profiles, and both pathogens tended to be less prevalent in high-livestock sites, although effects were weaker for haemoplasmas. These differing responses to provisioning might therefore reflect distinct transmission processes. Predicting how provisioning alters host–pathogen interactions requires considering how both within-host processes and transmission modes respond to resource shifts. This article is part of the theme issue ‘Anthropogenic resource subsidies and host–parasite dynamics in wildlife’.

Published

2018

13. Mercury bioaccumulation in bats reflects dietary connectivity to aquatic food webs

Author

Steven G. Platt, Thomas R. Rainwater, Elizabeth L. Clare, Hugh G. Broders, Nancy B. Simmons, Daniel J. Becker, M. Brock Fenton, Matthew M. Chumchal, and Jennifer M. Korstian

Subjects

0106 biological sciences, Food Chain, Insecta, Health, Toxicology and Mutagenesis, Foraging, 010501 environmental sciences, Biology, Toxicology, 010603 evolutionary biology, 01 natural sciences, Chiroptera, Animals, 14. Life underwater, Artibeus, Ecosystem, Phylogeny, 0105 earth and related environmental sciences, Trophic level, Ecology, Aquatic ecosystem, Noctilio leporinus, Fishes, General Medicine, Interspecific competition, Mercury, biology.organism_classification, Pollution, Diet, Bioaccumulation, Terrestrial ecosystem, Environmental Pollutants, Environmental Monitoring, Hair

Abstract

Mercury (Hg) is a persistent and widespread heavy metal with neurotoxic effects in wildlife. While bioaccumulation of Hg has historically been studied in aquatic food webs, terrestrial consumers can become contaminated with Hg when they feed on aquatic organisms (e.g., emergent aquatic insects, fish, and amphibians). However, the extent to which dietary connectivity to aquatic ecosystems can explain patterns of Hg bioaccumulation in terrestrial consumers has not been well studied. Bats (Order: Chiroptera) can serve as a model system for illuminating the trophic transfer of Hg given their high dietary diversity and foraging links to both aquatic and terrestrial food webs. Here we quantitatively characterize the dietary correlates of long-term exposure to Hg across a diverse local assemblage of bats in Belize and more globally across bat species from around the world with a comparative analysis of hair samples. Our data demonstrate considerable interspecific variation in hair total Hg concentrations in bats that span three orders of magnitude across species, ranging from 0.04 mg/kg in frugivorous bats (Artibeus spp.) to 145.27 mg/kg in the piscivorous Noctilio leporinus. Hg concentrations showed strong phylogenetic signal and were best explained by dietary connectivity of bat species to aquatic food webs. Our results highlight that phylogeny can be predictive of Hg concentrations through similarity in diet and how interspecific variation in feeding strategies influences chronic exposure to Hg and enables movement of contaminants from aquatic to terrestrial ecosystems.

Published

2017

14. Aggregative response in bats: prey abundance versus habitat

Author

Jörg Müller, Hans-Joachim Klemmt, Torsten Hothorn, Milenka Mehr, M. Brock Fenton, Roland Brandl, Claus Bässler, and Hans Pretzsch

Subjects

Population Density, Forage (honey bee), Ecology, Foraging, Feeding Behavior, Vegetation, Biology, Predation, Habitat, Abundance (ecology), Chiroptera, Germany, Predatory Behavior, Guild, Animals, BAT activity, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

In habitats where prey is either rare or difficult to predict spatiotemporally, such as open habitats, predators must be adapted to react effectively to variations in prey abundance. Open-habitat foraging bats have a wing morphology adapted for covering long distances, possibly use information transfer to locate patches of high prey abundance, and would therefore be expected to show an aggregative response at these patches. Here, we examined the effects of prey abundance on foraging activities of open-habitat foragers in comparison to that of edge-habitat foragers and closed-habitat foragers. Bat activity was estimated by counting foraging calls recorded with bat call recorders (38,371 calls). Prey abundance was estimated concurrently at each site using light and pitfall traps. The habitat was characterized by terrestrial laser scanning. Prey abundance increased with vegetation density. As expected, recordings of open-habitat foragers clearly decreased with increasing vegetation density. The foraging activity of edge- and closed-habitat foragers was not significantly affected by the vegetation density, i.e., these guilds were able to forage from open habitats to habitats with dense vegetation. Only open-habitat foragers displayed a significant and proportional aggregative response to increasing prey abundance. Our results suggest that adaptations for effective and low-cost foraging constrains habitat use and excludes the guild of open-habitat foragers from foraging in habitats with high prey abundance, such as dense forest stands.

Published

2012

15. Species on the menu of a generalist predator, the eastern red bat (Lasiurus borealis): using a molecular approach to detect arthropod prey

Author

M. Brock Fenton, Elizabeth L. Clare, Erin E. Fraser, Paul D. N. Hebert, and Heather E. Braid

Subjects

Lasiurus borealis, biology, Ecology, media_common.quotation_subject, Human echolocation, Insectivore, Sequence Analysis, DNA, Insect, Moths, Generalist and specialist species, biology.organism_classification, DNA, Mitochondrial, Predation, Lepidoptera, Chiroptera, Predatory Behavior, Genetics, Animals, Arthropod, Predator, Ecosystem, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

One of the most difficult interactions to observe in nature is the relationship between a predator and its prey. When direct observations are impossible, we rely on morphological classification of prey remains, although this is particularly challenging among generalist predators whose faeces contain mixed and degraded prey fragments. In this investigation, we used a polymerase chain reaction and sequence-based technique to identify prey fragments in the guano of the generalist insectivore, the eastern red bat (Lasiurus borealis), and evaluate several hypotheses about prey selection and prey defences. The interaction between bats and insects is of significant evolutionary interest because of the adaptive nature of insect hearing against echolocation. However, measuring the successes of predator tactics or particular prey defences is limited because we cannot normally identify these digested prey fragments beyond order or family. Using a molecular approach, we recovered sequences from 89% of the fragments tested, and through comparison to a reference database of sequences, we were able to identify 127 different species of prey. Our results indicate that despite the robust jaws of L. borealis, most prey taxa were softer-bodied Lepidoptera. Surprisingly, more than 60% of the prey species were tympanate, with ears thought to afford protection against these echolocating bats. Moths of the family Arctiidae, which employ multiple defensive strategies, were not detected as a significant dietary component. Our results provide an unprecedented level of detail for the study of predator-prey relationships in bats and demonstrate the advantages which molecular tools can provide in investigations of complex ecological systems and food-web relationships.

Published

2009

16. Model-based automated detection of echolocation calls using the link detector

Author

M. Brock Fenton and Mark D. Skowronski

Subjects

Electronic Data Processing, Ground truth, Acoustics and Ultrasonics, Physics::Instrumentation and Detectors, Computer science, Bioacoustics, Acoustics, Bandwidth (signal processing), Detector, Human echolocation, Environment, Models, Biological, Arts and Humanities (miscellaneous), Chiroptera, Echolocation, Animals, Spectrogram, Computer Simulation

Abstract

The link detector combines a model-based spectral peak tracker with an echo filter to detect echolocation calls of bats. By processing calls in the spectrogram domain, the links detector separates calls that overlap in time, including call harmonics and echoes. The links detector was validated by using an artificial recording environment, including synthetic calls, atmospheric absorption, and echoes, which provided control of signal-to-noise ratio and an absolute ground truth. Maximum hit rate (2% false positive rate) for the links detector was 87% compared to 1.5% for a spectral peak detector. The difference in performance was due to the ability of the links detector to filter out echoes. Detection range varied across species from 13 to more than 20 m due to call bandwidth and frequency range. Global features of calls detected by the links detector were compared to those of synthetic calls. The error in all estimates increased as the range increased, and estimates of minimum frequency and frequency of most energy were more accurate compared to maximum frequency. The links detector combines local and global features to automatically detect calls within the machine learning paradigm and detects overlapping calls and call harmonics in a unified framework.

Published

2008

17. Model-based detection of synthetic bat echolocation calls using an energy threshold detector for initialization

Author

Mark D. Skowronski and M. Brock Fenton

Subjects

Acoustics and Ultrasonics, Computer science, Initialization, Human echolocation, Models, Biological, Sensitivity and Specificity, Automation, Judgment, Arts and Humanities (miscellaneous), Chiroptera, Orientation, Oscillometry, Range (statistics), Animals, Computer vision, Social Behavior, Ground truth, business.industry, Detector, Acoustics, Echolocation, Predatory Behavior, Artificial intelligence, Noise, Rheology, business, Frequency modulation, Energy (signal processing)

Abstract

Detection of echolocation calls is fundamental to quantitative analysis of bat acoustic signals. Automated methods of detection reduce the subjectivity of hand labeling of calls and speed up the detection process in an accurate and repeatable manner. A model-based detector was initialized using a baseline energy threshold detector, removing the need for hand labels to train the model, and shown to be superior to the baseline detector using synthetic calls in two experiments: (1) an artificial environment and (2) a field playback setting. Synthetic calls using a piecewise exponential frequency modulation function from five hypothetical species were employed to control the signal-to-noise ratio (SNR) in each experiment and to provide an absolute ground truth to judge detector performance. The model-based detector outperformed the baseline detector by 2.5 dB SNR in the artificial environment and 1.5 dB SNR in the field playback setting. Atmospheric absorption was measured for the synthetic calls, and 1.5 dB increased the effective detection radius by between 1 and 7 m depending on species. The results demonstrate that hand labels are not necessary for training detection models and that model-based detectors significantly increase the range of detection for a recording system.

Published

2008

18. Dynamics of jamming avoidance in echolocating bats

Author

Carmi Korine, M. Brock Fenton, Asaf Tsoar, and Nachum Ulanovsky

Subjects

Sound Spectrography, Acoustics, Human echolocation, Biology, General Biochemistry, Genetics and Molecular Biology, Jamming avoidance response, Species Specificity, Chiroptera, Animals, Molossidae, Electric fish, General Environmental Science, General Immunology and Microbiology, Tadarida teniotis, Feeding Behavior, General Medicine, computer.file_format, biology.organism_classification, Electrophysiology, JAR, Echolocation, Flight, Animal, Echolocation jamming, Taphozous perforatus, General Agricultural and Biological Sciences, computer, Electric Fish, Research Article

Abstract

Animals using active sensing systems such as echolocation or electrolocation may experience interference from the signals of neighbouring conspecifics, which can be offset by a jamming avoidance response (JAR). Here, we report JAR in one echolocating bat (Tadarida teniotis: Molossidae) but not in another (Taphozous perforatus: Emballonuridae) when both flew and foraged with conspecifics. In T. teniotis, JAR consisted of shifts in the dominant frequencies of echolocation calls, enhancing differences among individuals. Larger spectral overlap of signals elicited stronger JAR. Tadarida teniotis showed two types of JAR: (i) for distant conspecifics: a symmetric JAR, with lower- and higher-frequency bats shifting their frequencies downwards and upwards, respectively, on average by the same amount; and (ii) for closer conspecifics: an asymmetric JAR, with only the upper-frequency bat shifting its frequency upwards. In comparison, 'wave-type' weakly electric fishes also shift frequencies of discharges in a JAR, but unlike T. teniotis, the shifts are either symmetric in some species or asymmetric in others. We hypothesize that symmetric JAR in T. teniotis serves to avoid jamming and improve echolocation, whereas asymmetric JAR may aid communication by helping to identify and locate conspecifics, thus minimizing chances of mid-air collisions.

Published

2004

19. Bats

Author

M Brock, Fenton and John M, Ratcliffe

Subjects

Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Chiroptera, Echolocation, Flight, Animal, Predatory Behavior, Animals, General Agricultural and Biological Sciences, Biological Evolution, Folklore, General Biochemistry, Genetics and Molecular Biology

Published

2010

20. Phenotypic flexibility in migrating bats: seasonal variation in body composition, organ sizes and fatty acid profiles

Author

Liam P. McGuire, Christopher G. Guglielmo, and M. Brock Fenton

Subjects

Male, Flexibility (anatomy), Physiology, New Mexico, Bird migration, Adipose tissue, Zoology, Aquatic Science, Chiroptera, medicine, Animals, Molecular Biology, Ecology, Evolution, Behavior and Systematics, chemistry.chemical_classification, Sex Characteristics, Lasiurus, biology, Ecology, Muscles, Fatty Acids, Fatty acid, Torpor, Organ Size, Seasonality, biology.organism_classification, medicine.disease, Saskatchewan, medicine.anatomical_structure, Phenotype, chemistry, Adipose Tissue, Insect Science, Body Composition, Animal Science and Zoology, Animal Migration, Female, Seasons, Polyunsaturated fatty acid

Abstract

SUMMARY Many species of bats migrate long distances, but the physiological challenges of migration are poorly understood. We tested the hypothesis that migration is physiologically demanding for bats by examining migration-related phenotypic flexibility. Both bats and birds are endothermic, flying vertebrates; therefore, we predicted that migration would result in similar physiological trade-offs. We compared hoary bats (Lasiurus cinereus) during spring migration and summer non-migratory periods, comparing our results with previous observations of birds. Migrating bats had reduced digestive organs, enlarged exercise organs, and fat stores had higher proportions of polyunsaturated fatty acids (PUFAs). These results are consistent with previous studies of migrating birds; however, we also found sex differences not typically associated with bird migration. Migrating female hoary bats increased the relative size of fat stores by reducing lean body components, while males maintained the same relative amount of fat in both seasons. The ratio of n-6 to n-3 PUFA in flight muscle membrane increased in migrating males and decreased in migrating females, consistent with males using torpor more frequently than females during spring migration. Enlarged exercise organs, reduced digestive organs and changes in adipose tissue composition reflect the elevated energetic demands of migration. Sex-specific patterns of fat storage and muscle membrane composition likely reflect challenges faced by females that migrate while pregnant. Our results provide some of the first insights into the physiological demands of bat migration and highlight key differences between bats and birds.

Published

2013

21. Seasonal upregulation of catabolic enzymes and fatty acid transporters in the flight muscle of migrating hoary bats, Lasiurus cinereus

Author

Liam P. McGuire, Christopher G. Guglielmo, and M. Brock Fenton

Subjects

Physiology, Citrate (si)-Synthase, Biology, Biochemistry, Fatty acid-binding protein, Lipid oxidation, Chiroptera, Citrate synthase, Animals, RNA, Messenger, Muscle, Skeletal, Molecular Biology, chemistry.chemical_classification, Lasiurus, Carnitine O-Palmitoyltransferase, Catabolism, Fatty Acid Transport Proteins, Fatty acid, 3-Hydroxyacyl CoA Dehydrogenases, biology.organism_classification, Up-Regulation, chemistry, biology.protein, Carbohydrate storage, Animal Migration, Seasons

Abstract

The high energy density of fat, and limited capacity for carbohydrate storage suggest that migrating bats should fuel endurance flights with fat, as observed in migrating birds. Yet, cursorial mammals are unable to support high intensity exercise with fat stores. We hypothesized that migratory bats and birds have converged on similar physiological mechanisms to fuel endurance flight with fat. We predicted bats would seasonally upregulate fatty acid transport and oxidation pathways when migration demands were high. We studied seasonal variation in mitochondrial oxidative enzyme activities and fatty acid transport protein expression in the flight muscle of hoary bats (Lasiurus cinereus). Carnitine palmitoyl transferase, 3-hydroxyacyl-CoA dehydrogenase and citrate synthase activity increased during migration. There were no changes in expression of fatty acid translocase or plasma membrane fatty acid binding protein. Heart-type fatty acid binding protein expression increased 5-fold in migrating females, but did not vary seasonally in males. An aerial insectivore lifestyle, and the coincidence of migration and pregnancy may explain differences in transporter expression compared to previously studied birds. Overall, our results are consistent with seasonal upregulation of lipid metabolism and aerobic capacity, and confirm that migration poses distinct physiological challenges for bats.

Published

2012

22. Diversification and reproductive isolation: cryptic species in the only New World high-duty cycle bat, Pteronotus parnellii

Author

Paul D. N. Hebert, Aline Z. Maya-Simões, Elizabeth L. Clare, Amanda M. Adams, M. Brock Fenton, and Judith L. Eger

Subjects

0106 biological sciences, Species complex, Reproductive Isolation, Pteronotus mesoamericanus, Evolution, Genetic Speciation, Speciation, Allopatric speciation, Zoology, Human echolocation, Biology, 010603 evolutionary biology, 01 natural sciences, DNA barcoding, DNA, Mitochondrial, Pteronotus parnellii, Evolution, Molecular, 03 medical and health sciences, Chiroptera, Systematics, Bats, QH359-425, Animals, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, 0303 health sciences, Models, Genetic, Bayes Theorem, Central America, Reproductive isolation, Acoustics, Sequence Analysis, DNA, Biodiversity, South America, biology.organism_classification, Genetic divergence, Sympatric speciation, Evolutionary biology, Echolocation, Cryptic species, Research Article

Abstract

Background Molecular techniques are increasingly employed to recognize the presence of cryptic species, even among commonly observed taxa. Previous studies have demonstrated that bats using high-duty cycle echolocation may be more likely to speciate quickly. Pteronotus parnellii is a widespread Neotropical bat and the only New World species to use high-duty cycle echolocation, a trait otherwise restricted to Old World taxa. Here we analyze morphological and acoustic variation and genetic divergence at the mitochondrial COI gene, the 7th intron region of the y-linked Dby gene and the nuclear recombination-activating gene 2, and provide extensive evidence that P. parnellii is actually a cryptic species complex. Results Central American populations form a single species while three additional species exist in northern South America: one in Venezuela, Trinidad and western Guyana and two occupying sympatric ranges in Guyana and Suriname. Reproductive isolation appears nearly complete (only one potential hybrid individual found). The complex likely arose within the last ~6 million years with all taxa diverging quickly within the last ~1-2 million years, following a pattern consistent with the geological history of Central and northern South America. Significant variation in cranial measures and forearm length exists between three of the four groups, although no individual morphological character can discriminate these in the field. Acoustic analysis reveals small differences (5–10 kHz) in echolocation calls between allopatric cryptic taxa that are unlikely to provide access to different prey resources but are consistent with divergence by drift in allopatric species or through selection for social recognition. Conclusions This unique approach, considering morphological, acoustic and multi-locus genetic information inherited maternally, paternally and bi-parentally, provides strong support to conclusions about the cessation of gene flow and degree of reproductive isolation of these cryptic species.

Published

2012

23. Ecology. The world through a bat's ear

Author

M Brock, Fenton

Subjects

Male, Insecta, Plant Nectar, Sensation, Feeding Behavior, Flowers, Biological Evolution, Animal Communication, Plant Leaves, Sound, Chiroptera, Echolocation, Animals, Female

Published

2011

24. Neotropical bats: estimating species diversity with DNA barcodes

Author

M. Brock Fenton, Burton K. Lim, Elizabeth L. Clare, and Paul D. N. Hebert

Subjects

0106 biological sciences, Sympatry, Species complex, Science, Biodiversity, Zoology, Biology, 010603 evolutionary biology, 01 natural sciences, DNA barcoding, Intraspecific competition, Electron Transport Complex IV, 03 medical and health sciences, Species Specificity, Chiroptera, Molecular Systematics, Genetics, Animals, DNA Barcoding, Taxonomic, Evolutionary Systematics, Phylogeny, 030304 developmental biology, Taxonomy, 0303 health sciences, Tropical Climate, Evolutionary Biology, Multidisciplinary, Base Sequence, Geography, Species diversity, Central America, 15. Life on land, South America, Phylogeography, Mammalogy, Animal Taxonomy, Medicine, Species richness, Research Article

Abstract

DNA barcoding using the cytochrome c oxidase subunit 1 gene (COI) is frequently employed as an efficient method of species identification in animal life and may also be used to estimate species richness, particularly in understudied faunas. Despite numerous past demonstrations of the efficiency of this technique, few studies have attempted to employ DNA barcoding methodologies on a large geographic scale, particularly within tropical regions. In this study we survey current and potential species diversity using DNA barcodes with a collection of more than 9000 individuals from 163 species of Neotropical bats (order Chiroptera). This represents one of the largest surveys to employ this strategy on any animal group and is certainly the largest to date for land vertebrates. Our analysis documents the utility of this tool over great geographic distances and across extraordinarily diverse habitats. Among the 163 included species 98.8% possessed distinct sets of COI haplotypes making them easily recognizable at this locus. We detected only a single case of shared haplotypes. Intraspecific diversity in the region was high among currently recognized species (mean of 1.38%, range 0–11.79%) with respect to birds, though comparable to other bat assemblages. In 44 of 163 cases, well-supported, distinct intraspecific lineages were identified which may suggest the presence of cryptic species though mean and maximum intraspecific divergence were not good predictors of their presence. In all cases, intraspecific lineages require additional investigation using complementary molecular techniques and additional characters such as morphology and acoustic data. Our analysis provides strong support for the continued assembly of DNA barcoding libraries and ongoing taxonomic investigation of bats.

Published

2011

25. High duty cycle echolocation and prey detection by bats

Author

M. Brock Fenton and Louis Lazure

Subjects

Food Chain, Physiology, Acoustics, Prey detection, Taiwan, Human echolocation, Aquatic Science, Biology, Environment, Moths, Belize, Species Specificity, Duty cycle, Insect Science, Chiroptera, Echolocation, Predatory Behavior, Auditory Perception, Animals, Animal Science and Zoology, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

SUMMARY There are two very different approaches to laryngeal echolocation in bats. Although most bats separate pulse and echo in time by signalling at low duty cycles (LDCs), almost 20% of species produce calls at high duty cycles (HDCs) and separate pulse and echo in frequency. HDC echolocators are sensitive to Doppler shifts. HDC echolocation is well suited to detecting fluttering targets such as flying insects against a cluttered background. We used two complementary experiments to evaluate the relative effectiveness of LDC and HDC echolocation for detecting fluttering prey. We measured echoes from fluttering targets by broadcasting artificial bat calls, and found that echo amplitude was greatest for sounds similar to those used in HDC echolocation. We also collected field recordings of syntopic LDC and HDC bats approaching an insect-like fluttering target and found that HDC bats approached the target more often (18.6% of passes) than LDC bats (1.2% of passes). Our results suggest that some echolocation call characteristics, particularly duty cycle and pulse duration, translate into improved ability to detect fluttering targets in clutter, and that HDC echolocation confers a superior ability to detect fluttering prey in the forest understory compared with LDC echolocation. The prevalence of moths in the diets of HDC bats, which is often used as support for the allotonic frequency hypothesis, can therefore be partly explained by the better flutter detection ability of HDC bats.

Published

2011

26. Going, going, gone: the impact of white-nose syndrome on the summer activity of the little brown bat (Myotis lucifugus)

Author

Liam P. McGuire, M. Brock Fenton, Nina Veselka, and Yvonne A. Dzal

Subjects

Hibernation, education.field_of_study, biology, Conservation Biology, Ecology, Population, New York, Human echolocation, Myotis lucifugus, White-nose syndrome, biology.organism_classification, Extinction, Biological, Agricultural and Biological Sciences (miscellaneous), Mycoses, Chiroptera, Echolocation, Animals, BAT activity, General Agricultural and Biological Sciences, education

Abstract

Since its discovery in the winter of 2005–2006, white-nose syndrome (WNS) has killed over one million little brown bats ( Myotis lucifugus ) in the American northeast. Although many studies have reported die-offs of bats at winter hibernacula, it is important to understand how bat mortality linked to WNS at winter hibernacula affects bat activity levels in their summer ranges. In the summer (May–August) of 2007, 2008 and 2009, we recorded echolocation calls to determine bat activity at sites along the Hudson River, NY (within approx. 100 km of where WNS was first reported). We documented a 78 per cent decline in the summer activity of M. lucifugus , coinciding with the arrival and spread of WNS. We suggest that mortality of M. lucifugus in winter hibernacula is reflected by reduced levels of activity in the summer and that WNS affects the entire bat population of an area, and not only individual hibernacula.

Published

2010

27. Vision Impairs the Abilities of Bats to Avoid Colliding with Stationary Obstacles

Author

Brock Fenton and Dara N. Orbach

Subjects

0106 biological sciences, Male, genetic structures, Light, Bioacoustics, lcsh:Medicine, Human echolocation, Biology, 010603 evolutionary biology, 01 natural sciences, Animal Vocalization, Chiroptera, Obstacle avoidance, Ecology/Behavioral Ecology, Animals, Ocular Vision, 0501 psychology and cognitive sciences, Animal behavior, 050102 behavioral science & comparative psychology, lcsh:Science, Sensory cue, Vision, Ocular, Communication, Analysis of Variance, Evolutionary Biology/Animal Behavior, Multidisciplinary, Ecology, business.industry, Cyclonic Storms, Animal, lcsh:R, 05 social sciences, Insectivore, Space perception, Myotis lucifugus, biology.organism_classification, Flight, Echolocation, Space Perception, Flight, Animal, lcsh:Q, Female, Vocalization, Animal, business, Research Article

Abstract

Background: Free-flying insectivorous bats occasionally collide with stationary objects they should easily detect by echolocation and avoid. Collisions often occur with lighted objects, suggesting ambient light may deleteriously affect obstacle avoidance capabilities. We tested the hypothesis that free-flying bats may orient by vision when they collide with some obstacles. We additionally tested whether acoustic distractions, such as ‘‘distress calls’’ of other bats, contributed to probabilities of collision. Methodology/Principal Findings: To investigate the role of visual cues in the collisions of free-flying little brown bats (Myotis lucifugus) with stationary objects, we set up obstacles in an area of high bat traffic during swarming. We used combinations of light intensities and visually dissimilar obstacles to verify that bats orient by vision. In early August, bats collided more often in the light than the dark, and probabilities of collision varied with the visibility of obstacles. However, the probabilities of collisions altered in mid to late August, coincident with the start of behavioural, hormonal, and physiological changes occurring during swarming and mating. Distress calls did not distract bats and increase the incidence of collisions. Conclusions/Significance: Our findings indicate that visual cues are more important for free-flying bats than previously recognized, suggesting integration of multi-sensory modalities during orientation. Furthermore, our study highlights differences between responses of captive and wild bats, indicating a need for more field experiments.

Published

2010

28. Drinking and flying: does alcohol consumption affect the flight and echolocation performance of phyllostomid bats?

Author

M. Brock Fenton, Nina Veselka, Louis Lazure, Yvonne A. Dzal, and Dara N. Orbach

Subjects

0106 biological sciences, Male, Time Factors, Ecology/Community Ecology and Biodiversity, Sturnira lilium, Alcohol Drinking, Ecology and Evolutionary Biology, Zoology, lcsh:Medicine, Human echolocation, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Frugivore, Species Specificity, Chiroptera, Nectar, Carollia sowelli, Animals, Ecology/Behavioral Ecology, Glossophaga soricina, Sugar, lcsh:Science, Artibeus, 030304 developmental biology, 0303 health sciences, Analysis of Variance, Multidisciplinary, Evolutionary Biology/Animal Behavior, biology, Ethanol, Animal, Ecology, lcsh:R, Central Nervous System Depressants, biology.organism_classification, Flight, Echolocation, Flight, Animal, Female, lcsh:Q, Research Article

Abstract

Background In the wild, frugivorous and nectarivorous bats often eat fermenting fruits and nectar, and thus may consume levels of ethanol that could induce inebriation. To understand if consumption of ethanol by bats alters their access to food and general survival requires examination of behavioural responses to its ingestion, as well as assessment of interspecific variation in those responses. We predicted that bats fed ethanol would show impaired flight and echolocation behaviour compared to bats fed control sugar water, and that there would be behavioural differences among species. Methodology/Principal Findings We fed wild caught Artibeus jamaicensis, A. lituratus, A. phaeotis, Carollia sowelli, Glossophaga soricina, and Sturnira lilium (Chiroptera, Phyllostomidae) sugar water (44 g of table sugar in 500 ml of water) or sugar water with ethanol before challenging them to fly through an obstacle course while we simultaneously recorded their echolocation calls. We used bat saliva, a non-invasive proxy, to measure blood ethanol concentrations ranging from 0 to >0.3% immediately before flight trials. Flight performance and echolocation behaviour were not significantly affected by consumption of ethanol, but species differed in their blood alcohol concentrations after consuming it. Conclusions/Significance The bats we studied display a tolerance for ethanol that could have ramifications for the adaptive radiation of frugivorous and nectarivorous bats by allowing them to use ephemeral food resources over a wide span of time. By sampling across phyllostomid genera, we show that patterns of apparent ethanol tolerance in New World bats are broad, and thus may have been an important early step in the evolution of frugivory and nectarivory in these animals.

Published

2010

29. Determining feeding state and rate of mass change in insectivorous bats using plasma metabolite analysis

Author

Christopher G. Guglielmo, Liam P. McGuire, M. Brock Fenton, and Paul A. Faure

Subjects

Evening, Physiology, Biology, Biochemistry, Nutrient, Animal science, Eptesicus fuscus, Species Specificity, Chiroptera, Animals, skin and connective tissue diseases, Triglycerides, Morning, Ontario, 3-Hydroxybutyric Acid, Food availability, Ecology, Body Weight, Insectivore, Feeding Behavior, Metabolite analysis, Myotis lucifugus, biology.organism_classification, Animal Science and Zoology, Animal Nutritional Physiological Phenomena, Female, sense organs

Abstract

Insectivorous bats regularly experience dramatic and sometimes rapid changes in nutrient stores, yet our ability to study these changes has been limited by available techniques. Plasma metabolite analysis has proven effective for studying individual rates of mass change in birds but has not been validated for other taxa. We tested the effectiveness of plasma metabolite analysis by conducting a study with captive big brown bats (Eptesicus fuscus) and little brown bats (Myotis lucifugus) in the field. In the lab, we varied food availability to induce various rates of mass change. As predicted, individual rate of mass change was positively correlated with plasma triglyceride concentration, but there was no relationship with plasma beta-hydroxybutyrate concentration, whereas such a relationship has been found in birds. In the field, we collected blood samples from postlactating females as they emerged in the evening (fasted) and when they returned from feeding in the morning. Plasma triglyceride concentration was greater in fed bats than fasted bats, and the increase was less when rain limited foraging. Contrary to predictions, beta-hydroxybutyrate concentration was also greater in fed bats than fasted bats. Analysis of plasma triglyceride concentration provides a technique for assessing individual feeding state and rate of mass change of bats and will facilitate further study of bat nutritional ecology and energetics.

Published

2009

30. Quantifying bat call detection performance of humans and machines

Author

M. Brock Fenton and Mark D. Skowronski

Subjects

Electronic Data Processing, Signal Detection, Psychological, Acoustics and Ultrasonics, Bioacoustics, business.industry, Frequency band, Detector, Bandwidth (signal processing), Pattern recognition, Human echolocation, Models, Theoretical, Test duration, Narrowband, Arts and Humanities (miscellaneous), Chiroptera, Echolocation, Auditory Perception, Detection performance, Animals, Humans, Artificial intelligence, Vocalization, Animal, business, Mathematics

Abstract

Methods for detecting echolocation calls in field recordings of bats vary in performance and influence the effective range of a recording system. In experiments using synthetic calls from five species, human detection accuracy was 89.7+/-0.6%, compared to 76.3+/-0.8% for a model-based detector, 72.2+/-0.8% for an energy-based detector, and 98.4+/-0.2% for an optimal linear detector. The energy-based detector was 11 times faster than the model-based detector and 110 times faster than humans. Human accuracy was positively correlated with test duration (R(2)=0.43, P0.05), meaning that higher accuracy was achieved at the expense of slower performance. Species was a significant factor determining accuracy for all detectors (P0.001) because of call bandwidth: Narrowband calls concentrated energy in a narrower frequency band and were easier to detect. For a hypothetical recording system, range at 90% human detection accuracy varied from 10 to 35 m among species, while range dropped by approximately 20% using the automated detectors. The optimal detector outperformed humans by 5 dB and the automated methods by 9 dB. The results quantify the tradeoff between detector speed and accuracy and are useful for designing field studies of bats.

Published

2009

31. Behavioral flexibility positively correlated with relative brain volume in predatory bats

Author

John M. Ratcliffe, M. Brock Fenton, and Sara J. Shettleworth

Subjects

Behavior, Animal, Ecology, Foraging, Brain, Human echolocation, Context (language use), Phylogenetic comparative methods, Gleaning, Organ Size, Biology, Predation, Behavioral Neuroscience, Developmental Neuroscience, Chiroptera, Predatory Behavior, Brain size, Adaptation, Psychological, medicine, Animals, medicine.vector_of_disease, Microchiroptera

Abstract

We investigated the potential relationships between foraging strategies and relative brain and brain region volumes in predatory (animal-eating) echolocating bats. The species we considered represent the ancestral state for the order and approximately 70% of living bat species. The two dominant foraging strategies used by echolocating predatory bats are substrate-gleaning (taking prey from surfaces) and aerial hawking (taking airborne prey). We used species-specific behavioral, morphological, and ecological data to classify each of 59 predatory species as one of the following: (1) ground gleaning, (2) behaviorally flexible (i.e., known to both glean and hawk prey), (3) clutter tolerant aerial hawking, or (4) open-space aerial hawking. In analyses using both species level data and phylogenetically independent contrasts, relative brain size was larger in behaviorally flexible species. Further, relative neocortex volume was significantly reduced in bats that aerially hawk prey primarily in open spaces. Conversely, our foraging behavior index did not account for variability in hippocampus and inferior colliculus volume and we discuss these results in the context of past research.

Published

2005

32. Human rabies and bat bites

Author

Alan Jackson and M. Brock Fenton

Subjects

business.industry, Rabies, General Medicine, medicine.disease, Virology, Diagnosis, Differential, Chiroptera, Medicine, Animals, Humans, Bites and Stings, business, Rabies transmission

Published

2001

33. DNA fingerprinting provides evidence of discriminate suckling and non-random mating in little brown bats Myotis lucifugus

Author

M. Brock Fenton and E. M. Watt

Subjects

Male, Analysis of Variance, biology, Zoology, Mothers, Myotis lucifugus, biology.organism_classification, DNA extraction, DNA Fingerprinting, Animals, Suckling, Sexual Behavior, Animal, Genetic similarity, DNA profiling, Chiroptera, Genetics, Animals, Female, Mating, Ecology, Evolution, Behavior and Systematics, Crosses, Genetic

Abstract

Recent advances in DNA extraction and fingerprinting techniques allowed examination of genetic similarity of groups of Myotis lucifugus at maternity roosts. Mean percentage band-sharing between young was significantly higher than between mothers, suggesting fertilization success skewed for individual males or male lineages. Mean percentage band-sharing between presumed mothers and young was significantly higher than band-sharing between all other groups, suggesting that Myotis lucifugus preferentially suckle their own young.

Published

1995

34. Evidence of Latitudinal Migration in Tri-colored Bats, Perimyotis subflavus

Author

Erin E. Fraser, Judith L. Eger, Liam P. McGuire, Fred J. Longstaffe, and M. Brock Fenton

Subjects

Male, Hibernation, Time Factors, Range (biology), Population Dynamics, lcsh:Medicine, Growing season, Biology, Latitude, Species Specificity, Chiroptera, Animals, lcsh:Science, Perimyotis subflavus, Multidisciplinary, Ecology, Geography, Population Biology, Hydrogen isotope, lcsh:R, Computational Biology, Geochemistry, North America, Earth Sciences, Period (geology), Animal Migration, Female, lcsh:Q, Seasons, Zoology, Research Article

Abstract

Background Annual movements of tri-colored bats (Perimyotis subflavus) are poorly understood. While this species has been considered a regional migrant, some evidence suggests that it may undertake annual latitudinal migrations, similar to other long distance North American migratory bat species. Methodology/Principal Findings We investigated migration in P. subflavus by conducting stable hydrogen isotope analyses of 184 museum specimen fur samples and comparing these results (δDfur) to published interpolated δD values of collection site growing season precipitation (δDprecip). Results suggest that the male molt period occurred between June 23 and October 16 and 33% of males collected during the presumed non-molt period were south of their location of fur growth. For the same time period, 16% of females were south of their location of fur growth and in general, had not travelled as far as migratory males. There were strong correlations between δDfur from the presumed molt period and both growing season δDprecip (males – r 2 = 0.86; p40°N; males and females) and southern (

Published

2012

35. Sensory Biology: Echolocation from Click to Call, Mouth to Wing

Author

M. Brock Fenton and John M. Ratcliffe

Subjects

Communication, Wing, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Head (linguistics), business.industry, Click-to-call, Sensory biology, Human echolocation, Anatomy, Biology, General Biochemistry, Genetics and Molecular Biology, Chiroptera, Echolocation, Animals, Wings, Animal, General Agricultural and Biological Sciences, business

Abstract

Summary Echolocators use echoes of sounds they produce, clicks or calls, to detect objects. Usually, these signals originate from the head. New work reveals that three species of bats use their wings to generate echolocation signals.

36. Animal Behavior: Who Will Croak Next?

Author

John M. Ratcliffe and M. Brock Fenton

Subjects

Agricultural and Biological Sciences(all), biology, Biochemistry, Genetics and Molecular Biology(all), Ecology, Association Learning, Zoology, biology.organism_classification, Social learning, General Biochemistry, Genetics and Molecular Biology, Predation, Chiroptera, Predatory Behavior, Animals, Bufo marinus, Trachops cirrhosus, Animal behavior, Vocalization, Animal, Social Behavior, General Agricultural and Biological Sciences

Abstract

A recent study with the predatory bat Trachops cirrhosus has shown the importance for this species of social learning about novel prey using auditory, rather than visual or olfactory, cues.