Your search keyword '"Kunz TH"' showing total 118 results

1. Adhesion of Ni-structures on Al2O3 ceramic substrates used for the sacrificial layer technique

Author

Kunz, Th., Mohr, J., Ruzzu, A., Skrobanek, K. D., and Wallrabe, U.

Published

2000

2. Photoablation and microstructuring of polyestercarbonates and their blends with a XeCl excimer laser

Author

Kunz, Th., Stebani, J., Ihlemann, J., and Wokaun, A.

Published

1998

3. Bats go head under heels: the biomechanics of landing on a ceiling

Author

Riskin, DK, Bahlman, JW, TY, Hubel, Ratcliffe, John Morgan, Kunz, TH, and Swartz, SM

Published

2009

4. Adhesion of Ni-structures on Al2O3 ceramic substrates used for the sacrificial layer technique.

Author

Kunz, Th., Mohr, J., Ruzzu, A., Skrobanek, K. D., and Wallrabe, U.

Abstract

This study presents an investigation of the adhesion properties of a chromium-gold-titanium layer system, which is used in the LIGA process to create moveable microstructures. The main purpose has been the improvement of the process parameters to increase yield reliability. Three mechanisms affecting the adhesion have been identified. As a consequence of humidity adsorbed H2O reacts with Al2O3 to AlO(OH) (aluminum meta hydrates), which does not bond to the sputtered chromium layer. Thus the hydrate must be removed by cleaning the surface with Ar+-ions. Tight layers without pores could be realized by optimization pressure and temperature during sputtering of chromium and gold. Thus, diffusion of chromium or penetration of etchants into the gold layer as well as impact or diffusion of titanium into the gold layer could be prevented. In addition, a copper layer was introduced as a further intermediate layer by electroforming to improve the formation of stable nickel alloys at the interface between the sputtered gold and the electroplated nickel. These measures resulted in an improvement of the adhesion, so that full functional acceleration sensors were produced with a high yield. [ABSTRACT FROM AUTHOR]

Published

2000

5. X-ray photoelectron spectroscopy imaging of laser ablated poly(ether imide)

Author

Schnyder, B, Wambach, J, Kunz, Th, Hahn, Ch, and Kötz, R

Published

1999

6. Solar cell fabricated on welded thin flexible silicon

Author

Hessmann Maik Thomas, Kunz Thomas, Ahmad Taimoor, Li Da, Wittmann Stephan, Riecke Arne, Ebser Jan, Terheiden Barbara, Cvecek Kristian, Schmidt Michael, Auer Richard, and Brabec Chistoph J.

Subjects

Renewable energy sources, TJ807-830

Abstract

We present a thin-film crystalline silicon solar cell with an AM1.5 efficiency of 11.5% fabricated on welded 50 μm thin silicon foils. The aperture area of the cell is 1.00 cm2. The cell has an open-circuit voltage of 570 mV, a short-circuit current density of 29.9 mA cm-2 and a fill factor of 67.6%. These are the first results ever presented for solar cells on welded silicon foils. The foils were welded together in order to create the first thin flexible monocrystalline band substrate. A flexible band substrate offers the possibility to overcome the area restriction of ingot-based monocrystalline silicon wafers and the feasibility of a roll-to-roll manufacturing. In combination with an epitaxial and layer transfer process a decrease in production costs can be achieved.

Published

2015

7. Recrystallized thin-film silicon solar cell on graphite substrate with laser single side contact and hydrogen passivation

Author

Li Da, Wittmann Stephan, Kunz Thomas, Ahmad Taimoor, Gawehns Nidia, Hessmann Maik T., Ebser Jan, Terheiden Barbara, Auer Richard, and Brabec Christoph J.

Subjects

Renewable energy sources, TJ807-830

Abstract

Laser single side contact formation (LSSC) and the hydrogen passivation process are studied and developed for crystalline silicon thin film (CSiTF) solar cells on graphite substrates. The results demonstrate that these two methods can improve cell performance by increasing the open circuit voltage and fill factor. In comparison with our previous work, we have achieved an increase of 3.4% absolute cell efficiency for a 40 μm thick 4 cm2 aperture area silicon thin film solar cell on graphite substrate. Current density-voltage (J-V) measurement, quantum efficiency (QE) and light beam induced current (LBiC) are used as characterization methods.

Published

2015

8. Compound developmental eye disorders following inactivation of TGFβ signaling in neural-crest stem cells

Author

Suter Ueli, Hjalt Tord A, Leveen Per, Ille Fabian, Kunz Thomas, Schwerdtfeger Kerstin, Wurdak Heiko, Ittner Lars M, Karlsson Stefan, Hafezi Farhad, Born Walter, and Sommer Lukas

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Background Development of the eye depends partly on the periocular mesenchyme derived from the neural crest (NC), but the fate of NC cells in mammalian eye development and the signals coordinating the formation of ocular structures are poorly understood. Results Here we reveal distinct NC contributions to both anterior and posterior mesenchymal eye structures and show that TGFβ signaling in these cells is crucial for normal eye development. In the anterior eye, TGFβ2 released from the lens is required for the expression of transcription factors Pitx2 and Foxc1 in the NC-derived cornea and in the chamber-angle structures of the eye that control intraocular pressure. TGFβ enhances Foxc1 and induces Pitx2 expression in cell cultures. As in patients carrying mutations in PITX2 and FOXC1, TGFβ signal inactivation in NC cells leads to ocular defects characteristic of the human disorder Axenfeld-Rieger's anomaly. In the posterior eye, NC cell-specific inactivation of TGFβ signaling results in a condition reminiscent of the human disorder persistent hyperplastic primary vitreous. As a secondary effect, retinal patterning is also disturbed in mutant mice. Conclusion In the developing eye the lens acts as a TGFβ signaling center that controls the development of eye structures derived from the NC. Defective TGFβ signal transduction interferes with NC-cell differentiation and survival anterior to the lens and with normal tissue morphogenesis and patterning posterior to the lens. The similarity to developmental eye disorders in humans suggests that defective TGFβ signal modulation in ocular NC derivatives contributes to the pathophysiology of these diseases.

Published

2005

9. Developing novel photoresists: microstructuring of triazene containing copolyester films

Author

Hahn, Ch, Kunz, Th, Dahn, U, Nuyken, O, and Wokaun, A

Published

1998

10. Stress birefringence in vapour-grown CdTe and its correlation to the growth techniques

Author

Laasch, M., Kloess, G., Kunz, Th., Schwarz, R., Grasza, K., Eiche, C., and Benz, K.W.

Published

1996

11. Seasonal and Sexual Variation in Metabolism, Thermoregulation, and Hormones in the Big Brown Bat (Eptesicus fuscus).

Author

Richardson CS, Heeren T, and Kunz TH

Subjects

Animals, Chiroptera blood, Female, Male, Seasons, Sex Factors, Thyroxine blood, Body Temperature Regulation physiology, Chiroptera physiology, Energy Metabolism physiology, Hydrocortisone blood, Leptin blood

Abstract

In response to seasonal variation in energy availability and thermal environment, physiological and endocrine mechanisms have evolved in temperate zone animals. Seasonal changes in hormone activity affect metabolism, body temperature, and reproductive activity. We examined the seasonal regulatory role of hormones on basal metabolic rate (BMR) and regulatory nonshivering thermogenesis (RNST) in 98 female and 17 male adult Eptesicus fuscus (big brown bat). We measured BMR, RNST, and plasma levels of thyroid hormone (T 3 ), leptin, and cortisol in bats captured in maternity colonies in eastern Massachusetts from May to August (from arousal from the hibernation phase to the prehibernation phase). We hypothesized that all three hormones are seasonally primarily metabolic hormones and secondarily thermogenic hormones. In males, only BMR significantly changed seasonally. In females, all five variables significantly changed seasonally. The seasonal pattern of plasma leptin and cortisol levels correlated with the seasonal pattern of BMR, with an initial increase followed by a decrease, suggesting that leptin and cortisol are primarily metabolic hormones. The seasonal pattern of plasma T 3 levels generally paralleled the basic seasonal pattern of RNST, with both increasing at the second half of the season, suggesting that T 3 is primarily a thermogenic hormone. The observed decrease in plasma leptin levels may be necessary to allow for the observed seasonal decrease in BMR, with the similar cortisol pattern important for leptin regulation. While T 3 is needed to maintain BMR, it may play a more critical role in the seasonal regulation of RNST than of BMR.

Published

2018

12. Drivers of variation in species impacts for a multi-host fungal disease of bats.

Author

Langwig KE, Frick WF, Hoyt JR, Parise KL, Drees KP, Kunz TH, Foster JT, and Kilpatrick AM

Subjects

Animals, Conservation of Natural Resources, Environment, Host Specificity, Illinois epidemiology, Mid-Atlantic Region epidemiology, Mycoses epidemiology, Mycoses microbiology, New England epidemiology, Prevalence, Seasons, Temperature, Ascomycota physiology, Chiroptera physiology, Hibernation, Microclimate, Mycoses veterinary

Abstract

Disease can play an important role in structuring species communities because the effects of disease vary among hosts; some species are driven towards extinction, while others suffer relatively little impact. Why disease impacts vary among host species remains poorly understood for most multi-host pathogens, and factors allowing less-susceptible species to persist could be useful in conserving highly affected species. White-nose syndrome (WNS), an emerging fungal disease of bats, has decimated some species while sympatric and closely related species have experienced little effect. We analysed data on infection prevalence, fungal loads and environmental factors to determine how variation in infection among sympatric host species influenced the severity of WNS population impacts. Intense transmission resulted in almost uniformly high prevalence in all species. By contrast, fungal loads varied over 3 orders of magnitude among species, and explained 98% of the variation among species in disease impacts. Fungal loads increased with hibernating roosting temperatures, with bats roosting at warmer temperatures having higher fungal loads and suffering greater WNS impacts. We also found evidence of a threshold fungal load, above which the probability of mortality may increase sharply, and this threshold was similar for multiple species. This study demonstrates how differences in behavioural traits among species-in this case microclimate preferences-that may have been previously adaptive can be deleterious after the introduction of a new pathogen. Management to reduce pathogen loads rather than exposure may be an effective way of reducing disease impact and preventing species extinctions.This article is part of the themed issue 'Tackling emerging fungal threats to animal health, food security and ecosystem resilience'., (© 2016 The Author(s).)

Published

2016

13. Airplane tracking documents the fastest flight speeds recorded for bats.

Author

McCracken GF, Safi K, Kunz TH, Dechmann DK, Swartz SM, and Wikelski M

Abstract

The performance capabilities of flying animals reflect the interplay of biomechanical and physiological constraints and evolutionary innovation. Of the two extant groups of vertebrates that are capable of powered flight, birds are thought to fly more efficiently and faster than bats. However, fast-flying bat species that are adapted for flight in open airspace are similar in wing shape and appear to be similar in flight dynamics to fast-flying birds that exploit the same aerial niche. Here, we investigate flight behaviour in seven free-flying Brazilian free-tailed bats ( Tadarida brasiliensis ) and report that the maximum ground speeds achieved exceed speeds previously documented for any bat. Regional wind modelling indicates that bats adjusted flight speeds in response to winds by flying more slowly as wind support increased and flying faster when confronted with crosswinds, as demonstrated for insects, birds and other bats. Increased frequency of pauses in wing beats at faster speeds suggests that flap-gliding assists the bats' rapid flight. Our results suggest that flight performance in bats has been underappreciated and that functional differences in the flight abilities of birds and bats require re-evaluation.

Published

2016

14. Population genetic structure of a common host predicts the spread of white-nose syndrome, an emerging infectious disease in bats.

Author

Wilder AP, Kunz TH, and Sorenson MD

Subjects

Animals, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging microbiology, Geography, Hibernation, Models, Theoretical, Mycoses epidemiology, North America epidemiology, Nose microbiology, Population Dynamics, Sequence Analysis, DNA, Chiroptera genetics, Chiroptera microbiology, Communicable Diseases, Emerging veterinary, Genetics, Population, Mycoses veterinary

Abstract

Landscape complexity influences patterns of animal dispersal, which in turn may affect both gene flow and the spread of pathogens. White-nose syndrome (WNS) is an introduced fungal disease that has spread rapidly throughout eastern North America, causing massive mortality in bat populations. We tested for a relationship between the population genetic structure of the most common host, the little brown myotis (Myotis lucifugus), and the geographic spread of WNS to date by evaluating logistic regression models of WNS risk among hibernating colonies in eastern North America. We hypothesized that risk of WNS to susceptible host colonies should increase with both geographic proximity and genetic similarity, reflecting historical connectivity, to infected colonies. Consistent with this hypothesis, inclusion of genetic distance between infected and susceptible colonies significantly improved models of disease spread, capturing heterogeneity in the spatial expansion of WNS despite low levels of genetic differentiation among eastern populations. Expanding our genetic analysis to the continental range of little brown myotis reveals strongly contrasting patterns of population structure between eastern and western North America. Genetic structure increases markedly moving westward into the northern Great Plains, beyond the current distribution of WNS. In western North America, genetic differentiation of geographically proximate populations often exceeds levels observed across the entire eastern region, suggesting infrequent and/or locally restricted dispersal, and thus relatively limited opportunities for pathogen introduction in western North America. Taken together, our analyses suggest a possibly slower future rate of spread of the WNS pathogen, at least as mediated by little brown myotis., (© 2015 John Wiley & Sons Ltd.)

Published

2015

15. Host and pathogen ecology drive the seasonal dynamics of a fungal disease, white-nose syndrome.

Author

Langwig KE, Frick WF, Reynolds R, Parise KL, Drees KP, Hoyt JR, Cheng TL, Kunz TH, Foster JT, and Kilpatrick AM

Subjects

Animals, Chiroptera physiology, Hibernation, Mycoses, Seasons, United States, Ascomycota physiology, Chiroptera microbiology

Abstract

Seasonal patterns in pathogen transmission can influence the impact of disease on populations and the speed of spatial spread. Increases in host contact rates or births drive seasonal epidemics in some systems, but other factors may occasionally override these influences. White-nose syndrome, caused by the emerging fungal pathogen Pseudogymnoascus destructans, is spreading across North America and threatens several bat species with extinction. We examined patterns and drivers of seasonal transmission of P. destructans by measuring infection prevalence and pathogen loads in six bat species at 30 sites across the eastern United States. Bats became transiently infected in autumn, and transmission spiked in early winter when bats began hibernating. Nearly all bats in six species became infected by late winter when infection intensity peaked. In summer, despite high contact rates and a birth pulse, most bats cleared infections and prevalence dropped to zero. These data suggest the dominant driver of seasonal transmission dynamics was a change in host physiology, specifically hibernation. Our study is the first, to the best of our knowledge, to describe the seasonality of transmission in this emerging wildlife disease. The timing of infection and fungal growth resulted in maximal population impacts, but only moderate rates of spatial spread., (© 2014 The Author(s) Published by the Royal Society. All rights reserved.)

Published

2015

16. Species undersampling in tropical bat surveys: effects on emerging biodiversity patterns.

Author

Meyer CF, Aguiar LM, Aguirre LF, Baumgarten J, Clarke FM, Cosson JF, Estrada Villegas S, Fahr J, Faria D, Furey N, Henry M, Jenkins RK, Kunz TH, Cristina MacSwiney González M, Moya I, Pons JM, Racey PA, Rex K, Sampaio EM, Stoner KE, Voigt CC, von Staden D, Weise CD, and Kalko EK

Subjects

Animals, Tropical Climate, Biodiversity, Chiroptera physiology, Conservation of Natural Resources methods

Abstract

Undersampling is commonplace in biodiversity surveys of species-rich tropical assemblages in which rare taxa abound, with possible repercussions for our ability to implement surveys and monitoring programmes in a cost-effective way. We investigated the consequences of information loss due to species undersampling (missing subsets of species from the full species pool) in tropical bat surveys for the emerging patterns of species richness (SR) and compositional variation across sites. For 27 bat assemblage data sets from across the tropics, we used correlations between original data sets and subsets with different numbers of species deleted either at random, or according to their rarity in the assemblage, to assess to what extent patterns in SR and composition in data subsets are congruent with those in the initial data set. We then examined to what degree high sample representativeness (r ≥ 0·8) was influenced by biogeographic region, sampling method, sampling effort or structural assemblage characteristics. For SR, correlations between random subsets and original data sets were strong (r ≥ 0·8) with moderate (ca. 20%) species loss. Bias associated with information loss was greater for species composition; on average ca. 90% of species in random subsets had to be retained to adequately capture among-site variation. For nonrandom subsets, removing only the rarest species (on average c. 10% of the full data set) yielded strong correlations (r > 0·95) for both SR and composition. Eliminating greater proportions of rare species resulted in weaker correlations and large variation in the magnitude of observed correlations among data sets. Species subsets that comprised ca. 85% of the original set can be considered reliable surrogates, capable of adequately revealing patterns of SR and temporal or spatial turnover in many tropical bat assemblages. Our analyses thus demonstrate the potential as well as limitations for reducing survey effort and streamlining sampling protocols, and consequently for increasing the cost-effectiveness in tropical bat surveys or monitoring programmes. The dependence of the performance of species subsets on structural assemblage characteristics (total assemblage abundance, proportion of rare species), however, underscores the importance of adaptive monitoring schemes and of establishing surrogate performance on a site by site basis based on pilot surveys., (© 2014 The Authors. Journal of Animal Ecology © 2014 British Ecological Society.)

Published

2015

17. Mercury in bats from the northeastern United States.

Author

Yates DE, Adams EM, Angelo SE, Evers DC, Schmerfeld J, Moore MS, Kunz TH, Divoll T, Edmonds ST, Perkins C, Taylor R, and O'Driscoll NJ

Subjects

Age Factors, Animals, Energy Intake, Environmental Pollutants blood, Female, Hair chemistry, Male, Mercury blood, Mid-Atlantic Region, New England, Reproduction, Sex Factors, Species Specificity, Chiroptera physiology, Environmental Pollutants metabolism, Mercury metabolism

Abstract

This study examines mercury exposure in bats across the northeast U.S. from 2005 to 2009. We collected 1,481 fur and 681 blood samples from 8 states and analyzed them for total Hg. A subset (n = 20) are also analyzed for methylmercury (MeHg). Ten species of bats from the northeast U.S. are represented in this study of which two are protected by the Endangered Species Act (ESA 1973) and two other species are pending review. There are four objectives in this paper: (1) to examine correlates to differences in fur-Hg levels among all of the sampling sites, including age, sex, species, and presence of a Hg point source; (2) define the relationship between blood and fur-Hg levels and the factors that influence that relationship including age, sex, species, reproductive status, and energetic condition; (3) determine the relationships between total Hg and MeHg in five common eastern bat species; and (4) assess the distribution of Hg across bat populations in the northeast. We found total blood and fur mercury was eight times higher in bats captured near point sources compared to nonpoint sources. Blood-Hg and fur-Hg were well correlated with females on average accumulating two times more Hg in fur than males. On average fur MeHg accounted for 86 % (range 71-95 %) of the total Hg in bat fur. Considering that females had high Hg concentrations, beyond that of established levels of concern, suggests there could be negative implications for bat populations from high Hg exposure since Hg is readily transferred to pups via breast milk. Bats provide an integral part of the ecosystem and their protection is considered to be of high priority. More research is needed to determine if Hg is a stressor that is negatively impacting bat populations.

Published

2014

18. Hibernating little brown myotis (Myotis lucifugus) show variable immunological responses to white-nose syndrome.

Author

Moore MS, Reichard JD, Murtha TD, Nabhan ML, Pian RE, Ferreira JS, and Kunz TH

Subjects

Animals, Cytokines blood, Cytokines immunology, Female, Immunoglobulins blood, Immunoglobulins immunology, Leukocyte Count, Seasons, United States, Animal Diseases immunology, Animal Diseases microbiology, Ascomycota immunology, Chiroptera immunology, Chiroptera microbiology, Hibernation immunology, Mycoses veterinary

Abstract

White-nose syndrome (WNS) is an emerging infectious disease devastating hibernating North American bat populations that is caused by the psychrophilic fungus Geomyces destructans. Previous histopathological analysis demonstrated little evidence of inflammatory responses in infected bats, however few studies have compared other aspects of immune function between WNS-affected and unaffected bats. We collected bats from confirmed WNS-affected and unaffected sites during the winter of 2008-2009 and compared estimates of their circulating levels of total leukocytes, total immunoglobulins, cytokines and total antioxidants. Bats from affected and unaffected sites did not differ in their total circulating immunoglobulin levels, but significantly higher leukocyte counts were observed in bats from affected sites and particularly in affected bats with elevated body temperatures (above 20°C). Bats from WNS-affected sites exhibited significantly lower antioxidant activity and levels of interleukin-4 (IL-4), a cytokine that induces T cell differentiation. Within affected sites only, bats exhibiting visible fungal infections had significantly lower antioxidant activity and levels of IL-4 compared to bats without visible fungal infections. Overall, bats hibernating in WNS-affected sites showed immunological changes that may be evident of attempted defense against G. destructans. Observed changes, specifically elevated circulating leukocytes, may also be related to the documented changes in thermoregulatory behaviors of affected bats (i.e. increased frequencies in arousal from torpor). Alterations in immune function may reflect expensive energetic costs associated with these processes and intrinsic qualities of the immunocapability of hibernating bats to clear fungal infections. Additionally, lowered antioxidant activity indicates a possible imbalance in the pro- versus antioxidant system, may reflect oxidative tissue damage, and should be investigated as a contributor to WNS-associated morbidity and mortality.

Published

2013

19. Effects of sunlight on behavior and 25-hydroxyvitamin D levels in two species of Old World fruit bats.

Author

Southworth LO, Holick MF, Chen TC, and Kunz TH

Abstract

It has long been accepted that most vertebrate animals meet their vitamin D requirements from exposure of skin to UV-B (UV-B) radiation. Many factors affect this endogenous synthesis of vitamin D, including season, latitude, time of day, age, presence of hair, and degree of skin pigmentation. Most bats roost in dark places by day and forage at night, and thus have little or no potential for sunlight exposure. Notwithstanding, some tropical species are diurnal and are known to roost in the canopy of trees where they may be exposed to sunlight for up to 12 h each day. In this study, two species of captive tropical bats (both species are active at night but one, Rousettus aegyptiacus, roosts in caves, tombs, and buildings, whereas the other, Pteropus hypomelanus, roosts in trees) were evaluated for their ability to endogenously synthesize vitamin D. Following timed periods of sunlight exposure, blood plasma was analyzed using a competitive protein binding assay (CPBA) to determine concentrations of 25-hydroxyvitamin D [25(OH)D], the major circulating vitamin D metabolite. The ability to photoconvert provitamin D (7-dehydrocholesterol, 7-DHC) in the sub-tropical winter was determined using sunlight exposed borosilicate samples of 7-DHC in hourly increments. Finally, both species were evaluated in their preference for a roost site by the release of individuals into sunlight or shade in timed trials., Our Results Support the Hypotheses: (1) when exposed to natural sunlight, both species exhibited an ability to endogenously synthesize vitamin D, although significant differences were found between the two, (2) photoconversion of 7-DHC to previtamin D3 is possible during the mid-day hours of a sub-tropical winter day and (3) captive, cave roosting R. aegyptiacus will choose shaded roost sites while captive P. hypomelanus will show no preference for either shade or sun.

Published

2013

20. Sociality, density-dependence and microclimates determine the persistence of populations suffering from a novel fungal disease, white-nose syndrome.

Author

Langwig KE, Frick WF, Bried JT, Hicks AC, Kunz TH, and Kilpatrick AM

Subjects

Animal Diseases, Animals, Humidity, Population Density, Social Behavior, Temperature, Chiroptera microbiology, Hibernation, Microclimate, Mycoses veterinary

Abstract

Disease has caused striking declines in wildlife and threatens numerous species with extinction. Theory suggests that the ecology and density-dependence of transmission dynamics can determine the probability of disease-caused extinction, but few empirical studies have simultaneously examined multiple factors influencing disease impact. We show, in hibernating bats infected with Geomyces destructans, that impacts of disease on solitary species were lower in smaller populations, whereas in socially gregarious species declines were equally severe in populations spanning four orders of magnitude. However, as these gregarious species declined, we observed decreases in social group size that reduced the likelihood of extinction. In addition, disease impacts in these species increased with humidity and temperature such that the coldest and driest roosts provided initial refuge from disease. These results expand our theoretical framework and provide an empirical basis for determining which host species are likely to be driven extinct while management action is still possible., (© 2012 Blackwell Publishing Ltd/CNRS.)

Published

2012

21. Vascular contrast enhanced micro-CT imaging of "radiators" in the Brazilian free-tailed bat (Tadarida brasiliensis).

Author

Reichard JD, Kunz TH, Keller C, and Prajapati SI

Subjects

Animals, Brazil, Wings, Animal diagnostic imaging, Body Temperature Regulation physiology, Chiroptera physiology, Contrast Media, Wings, Animal blood supply, Wings, Animal physiology, X-Ray Microtomography methods

Abstract

The Brazilian free-tailed bat (Tadarida brasiliensis) exhibits a highly vascularized, hairless thermal window (or "radiator") on the proximal ventral surfaces of extended wings and body. We identified this character using thermal infrared imaging and investigated the vasculature using barium sulfate enhanced microcomputed tomography (micro-CT). Micro-CT images revealed unique arrangements of arteries and veins in the region of the radiator positioned perpendicular to the axis of the body. Coupling micro-CT imaging with analysis of surface temperature profiles, we concluded that radiators aid in thermoregulation during flight in variable environments. This study represents the first application of contrast enhanced micro-CT to visualize vasculature of bats and thus exhibits a promising technique for further investigations of cardiovascular function and anatomy in bats., (Copyright © 2012 Wiley Periodicals, Inc.)

Published

2012

22. Cutaneous water loss and lipids of the stratum corneum in two syntopic species of bats.

Author

Muñoz-Garcia A, Ro J, Reichard JD, Kunz TH, and Williams JB

Subjects

Animals, Atmospheric Pressure, Body Temperature physiology, Body Weight physiology, Ceramides chemistry, Ceramides metabolism, Chromatography, High Pressure Liquid, Chromatography, Reverse-Phase, Chromatography, Thin Layer, Densitometry, Male, Mass Spectrometry, Reference Standards, Species Specificity, Chiroptera physiology, Epidermis physiology, Lipid Metabolism physiology, Water Loss, Insensible physiology

Abstract

The lipid matrix of the stratum corneum (SC), the outer layer of the epidermis of mammals and birds, constitutes the barrier to diffusion of water vapor through the skin. The lipids of the SC are structured in the intercellular spaces of the mammalian epidermis in ordered layers, called lamellae, which have been postulated to prevent water loss. Lipids in the mammalian SC are mainly cholesterol, free fatty acids and ceramides, the latter forming the structural support for the lamellae. However, knowledge on how the lipid composition of the SC alters cutaneous water loss (CWL) in mammals is rudimentary, and is largely derived from studies on laboratory animals and humans. We measured CWL of individuals of two species of syntopic bats, Tadarida brasiliensis and Myotis velifer. In the first study of its kind on wild mammals, we correlated CWL with the lipid composition of the SC, measured using thin layer chromatography and high performance liquid chromatography coupled with atmospheric pressure photoionization mass spectrometry. Surface-specific CWL was 20.6% higher in M. velifer than in T. brasiliensis, although differences were not significant. Compared with individuals of M. velifer, individuals of T. brasiliensis had more classes, and a higher proportion, of polar ceramides in the SC, a feature associated with lower CWL. Individuals of T. brasiliensis also had a class of non-polar ceramides that presumably spans the lamellae and gives more cohesiveness to the lipid matrix of the SC. We conclude that qualitative and quantitative modifications of the lipid composition of the SC contribute to regulate CWL of these two species of bats., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2012

23. Social organization and genetic structure: insights from codistributed bat populations.

Author

Rossiter SJ, Zubaid A, Mohd-Adnan A, Struebig MJ, Kunz TH, Gopal S, Petit EJ, and Kingston T

Subjects

Animals, Ecological and Environmental Phenomena, Ecosystem, Gene Flow, Hierarchy, Social, Microsatellite Repeats, Species Specificity, Chiroptera genetics, Population, Sexual Behavior, Animal, Social Behavior

Abstract

The impact of ecology and social organization on genetic structure at landscape spatial scales, where gene dynamics shape evolution as well as determine susceptibility to habitat fragmentation, is poorly understood. Attempts to assess these effects must take into account the potentially confounding effects of history. We used microsatellites to compare genetic structure in seven bat species with contrasting patterns of roosting ecology and social organization, all of which are codistributed in an ancient forest habitat that has been exceptionally buffered from radical habitat shifts. Over one thousand individuals were captured at foraging sites and genotyped at polymorphic microsatellite loci. Analyses of spatially explicit genotype data revealed interspecies differences in the extent of movement and gene flow and genetic structure across continuous intact forest. Highest positive genetic structure was observed in tree-roosting taxa that roost either alone or in small groups. By comparison, a complete absence of genetic autocorrelation was noted in the cave-roosting colonial species across the study area. Our results thus reveal measurable interspecies differences in the natural limits of gene flow in an unmodified habitat, which we attribute to contrasting roosting ecology and social organization. The consequences of ecology and behaviour for gene flow have important implications for conservation. In particular, tree-roosting species characterized by lower vagility and thus gene flow will be disproportionally impacted by landscape-scale forest clearance and habitat fragmentation, which are prevalent in the study region. Our method also highlights the usefulness of rapid sampling of foraging bats for assaying genetic structure, particularly where roosting sites are not always known., (© 2011 Blackwell Publishing Ltd.)

Published

2012

24. Molecular phylogeny of hipposiderid bats from Southeast Asia and evidence of cryptic diversity.

Author

Murray SW, Campbell P, Kingston T, Zubaid A, Francis CM, and Kunz TH

Subjects

Animals, Asia, Southeastern, Bayes Theorem, Chiroptera anatomy & histology, Chiroptera classification, DNA, Mitochondrial classification, DNA, Mitochondrial isolation & purification, Echolocation physiology, Female, Genetic Speciation, Genetic Variation, Male, Mitochondria genetics, Models, Genetic, Sequence Analysis, DNA, Biological Evolution, Cell Nucleus genetics, Chiroptera genetics, Computational Biology, DNA, Mitochondrial genetics, Phylogeny

Abstract

Old World leaf-nosed bats (Hipposideridae) are among the most widespread and ecologically diverse groups of insectivorous bats in the Old World tropics. However, phylogenetic relationships in Hipposideridae are poorly resolved at both the generic and species levels, and deep genetic divergence within several Southeast Asian species suggests that current taxonomy underestimates hipposiderid diversity in this region. We used mitochondrial and nuclear sequence data to conduct the first extensive molecular phylogenetic analysis of Southeast Asian hipposiderid bats. Inclusion of multiple samples per taxon allowed testing for evidence of evolutionarily distinct lineages within taxa currently defined as single species. In contrast to earlier phylogenies based on morphometrics, molecular data support monophyly of Hipposideros, but are ambiguous regarding the monophyly of Hipposideridae. With a few exceptions, molecular data also support currently recognized species groups classified by qualitative morphological characters. Widespread paraphyly and polyphyly within many currently recognized species of Hipposideros indicates that evolutionary diversity in the genus is underrepresented by current nomenclature. Comparison of available morphological and echolocation data suggest that both geographic isolation and ecological selection have contributed to the diversification of Southeast Asian hipposiderid bats., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2012

25. Bats track and exploit changes in insect pest populations.

Author

McCracken GF, Westbrook JK, Brown VA, Eldridge M, Federico P, and Kunz TH

Subjects

Animal Feed analysis, Animals, Ecosystem, Feces chemistry, Genetic Markers genetics, Polymerase Chain Reaction, Population Dynamics, Species Specificity, Chiroptera, Feeding Behavior, Moths genetics, Pest Control, Biological methods

Abstract

The role of bats or any generalist predator in suppressing prey populations depends on the predator's ability to track and exploit available prey. Using a qPCR fecal DNA assay, we document significant association between numbers of Brazilian free-tailed bats (Tadarida brasiliensis) consuming corn earworm (CEW) moths (Helicoverpa zea) and seasonal fluctuations in CEW populations. This result is consistent with earlier research linking the bats' diet to patterns of migration, abundance, and crop infestation by important insect pests. Here we confirm opportunistic feeding on one of the world's most destructive insects and support model estimates of the bats' ecosystem services. Regression analysis of CEW consumption versus the moth's abundance at four insect trapping sites further indicates that bats track local abundance of CEW within the regional landscape. Estimates of CEW gene copies in the feces of bats are not associated with seasonal or local patterns of CEW abundance, and results of captive feeding experiments indicate that our qPCR assay does not provide a direct measure of numbers or biomass of prey consumed. Our results support growing evidence for the role of generalist predators, and bats specifically, as agents for biological control and speak to the value of conserving indigenous generalist predators.

Published

2012

26. Climate and weather impact timing of emergence of bats.

Author

Frick WF, Stepanian PM, Kelly JF, Howard KW, Kuster CM, Kunz TH, and Chilson PB

Subjects

Animals, Behavior, Animal, Population Dynamics, Temperature, Chiroptera physiology, Climate, Weather

Abstract

Interest in forecasting impacts of climate change have heightened attention in recent decades to how animals respond to variation in climate and weather patterns. One difficulty in determining animal response to climate variation is lack of long-term datasets that record animal behaviors over decadal scales. We used radar observations from the national NEXRAD network of Doppler weather radars to measure how group behavior in a colonially-roosting bat species responded to annual variation in climate and daily variation in weather over the past 11 years. Brazilian free-tailed bats (Tadarida brasiliensis) form dense aggregations in cave roosts in Texas. These bats emerge from caves daily to forage at high altitudes, which makes them detectable with Doppler weather radars. Timing of emergence in bats is often viewed as an adaptive trade-off between emerging early and risking predation or increased competition and emerging late which restricts foraging opportunities. We used timing of emergence from five maternity colonies of Brazilian free-tailed bats in south-central Texas during the peak lactation period (15 June-15 July) to determine whether emergence behavior was associated with summer drought conditions and daily temperatures. Bats emerged significantly earlier during years with extreme drought conditions than during moist years. Bats emerged later on days with high surface temperatures in both dry and moist years, but there was no relationship between surface temperatures and timing of emergence in summers with normal moisture levels. We conclude that emergence behavior is a flexible animal response to climate and weather conditions and may be a useful indicator for monitoring animal response to long-term shifts in climate.

Published

2012

27. Risk factors associated with mortality from white-nose syndrome among hibernating bat colonies.

Author

Wilder AP, Frick WF, Langwig KE, and Kunz TH

Subjects

Animals, Female, Male, Mid-Atlantic Region, Mycoses mortality, New England, Proportional Hazards Models, Risk Factors, Species Specificity, Ascomycota physiology, Chiroptera microbiology, Chiroptera physiology, Hibernation, Mycoses veterinary

Abstract

White-nose syndrome (WNS) is a disease responsible for unprecedented mortality in hibernating bats. First observed in a New York cave in 2006, mortality associated with WNS rapidly appeared in hibernacula across the northeastern United States. We used yearly presence-absence data on WNS-related mortality among hibernating bat colonies in the Northeast to determine factors influencing its spread. We evaluated hazard models to test hypotheses about the association between the timing of mortality and colony-level covariates, such as distance from the first WNS-affected site, colony size, species diversity, species composition and type of hibernaculum (cave or mine). Distance to origin and colony size had the greatest effects on WNS hazard over the range of observations; the type of hibernaculum and species composition had weaker effects. The distance effect showed a temporal decrease in magnitude, consistent with the pattern of an expanding epizootic. Large, cave-dwelling bat colonies with high proportions of Myotis lucifugus or other species that seek humid microclimates tended to experience early mortality. Our results suggest that the timing of mortality from WNS is largely dependent on colony location, and large colonies tend to be first in an area to experience high mortality associated with WNS.

Published

2011

28. Chemical characterization of milk oligosaccharides of the island flying fox (Pteropus hypomelanus) (Chiroptera: Pteropodidae).

Author

Senda A, Kobayashi R, Fukuda K, Saito T, Hood WR, Kunz TH, Oftedal OT, and Urashima T

Subjects

Animals, Colostrum chemistry, Female, Lactose analysis, Lactose isolation & purification, Magnetic Resonance Spectroscopy, Oligosaccharides analysis, Oligosaccharides isolation & purification, Chiroptera metabolism, Milk chemistry, Oligosaccharides chemistry

Abstract

Although a considerable amount of information has accumulated about oligosaccharides in the milk and colostrum of representatives of various mammalian orders, nothing is so far known concerning these sugars in the milk of any bat species (order Chiroptera). In this study, we determined that the following oligosaccharides occur in milk of the island flying fox, Pteropus hypomelanus (Chiroptera: Pteropidae): Gal(α1-3)Gal(β1-4)Glc (isoglobotriose), Gal(β1-4)GlcNAc(β1-3)Gal(β1-4)Glc (lacto-N-neotetraose), Gal(β1-4)GlcNAc(β1-3)[Gal(β1-4)GlcNAc(β1-6)]Gal(β1-4)Glc (lacto-N-neohexaose) and Neu5Gc(α2-3)Gal(β1-4)Glc (3'-NGc-SL). However, lactose was found to be the dominant saccharide in this milk, as in most eutherian mammals. The biologic importance of oligosaccharides in Chiropteran milks warrants further study., (© 2011 The Authors. Animal Science Journal © 2011 Japanese Society of Animal Science.)

Published

2011

29. White-nose syndrome: is this emerging disease a threat to European bats?

Author

Puechmaille SJ, Frick WF, Kunz TH, Racey PA, Voigt CC, Wibbelt G, and Teeling EC

Subjects

Animals, Ascomycota classification, Ascomycota genetics, Biological Evolution, Chiroptera immunology, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging pathology, Communicable Diseases, Emerging physiopathology, Conservation of Natural Resources, Dermatomycoses epidemiology, Dermatomycoses pathology, Dermatomycoses physiopathology, Europe epidemiology, Phylogeny, Population Density, Ascomycota physiology, Chiroptera microbiology, Chiroptera physiology, Communicable Diseases, Emerging veterinary, Dermatomycoses veterinary

Abstract

White-nose syndrome (WNS) is a newly emergent disease that potentially threatens all temperate bat species. A recently identified fungus, Geomyces destructans, is the most likely causative agent of this disease. Until 2009, WNS and G. destructans were exclusively known from North America, but recent studies have confirmed this fungus is also present in Europe. We assembled an international WNS consortium of 67 scientists from 29 countries and identified the most important research and conservation priorities to assess the risk of WNS to European bats. Here, we review what is known about WNS and G. destructans and detail the conservation and research recommendations aimed at understanding and containing this emerging infectious disease., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

30. Condition of wings is an important criterion of bat health: a response to Francl et al.

Author

Reichard JD, Fuller NW, and Kunz TH

Subjects

Animals, Female, Male, Ascomycota pathogenicity, Chiroptera, Dermatomycoses veterinary, Wings, Animal pathology

Published

2011

31. Free-ranging little brown myotis (Myotis lucifugus) heal from wing damage associated with white-nose syndrome.

Author

Fuller NW, Reichard JD, Nabhan ML, Fellows SR, Pepin LC, and Kunz TH

Subjects

Animals, Dermatomycoses epidemiology, Dermatomycoses pathology, Female, Hibernation, New England epidemiology, Pregnancy, Recovery of Function physiology, Seasons, Syndrome, Wound Healing physiology, Ascomycota pathogenicity, Chiroptera microbiology, Dermatomycoses veterinary, Wings, Animal injuries, Wings, Animal pathology

Abstract

White-nose syndrome (WNS) is having an unprecedented impact on hibernating bat populations in the eastern United States. While most studies have focused on widespread mortality observed at winter hibernacula, few have examined the consequences of wing damage that has been observed among those bats that survive hibernation. Given that WNS-related wing damage may lead to life-threatening changes in wing function, we tested the hypothesis that reduced abundance of free-ranging little brown myotis (Myotis lucifugus) with severe wing damage as the summer progresses is due to healing of wing tissue. Photographs of captured and recaptured adult females were examined for wing damage and healing rates were calculated for each category of wing damage index (WDI = 0-3). We found that free-ranging bats with severe wing damage were able to heal to a lower WDI score within 2 weeks. Bats with the most severe wing damage had faster healing rates than did individuals with less damage. We also found a significant relationship between body condition and WDI for adult females captured in the early weeks of the active season. Our results support the hypothesis that some bats can heal from severe wing damage during the active season, and thus may not experience increased mortality associated with reduced functions of wings. We urge researchers and wildlife managers to use caution when interpreting data on WDI to assess the impact of WNS on bat populations, especially during the later months of the active season.

Published

2011

32. Win-win for wind and wildlife: a vision to facilitate sustainable development.

Author

Kiesecker JM, Evans JS, Fargione J, Doherty K, Foresman KR, Kunz TH, Naugle D, Nibbelink NP, and Niemuth ND

Subjects

Animals, Ecosystem, Humans, United States, Animals, Wild, Electric Power Supplies, Wind

Abstract

Wind energy offers the potential to reduce carbon emissions while increasing energy independence and bolstering economic development. However, wind energy has a larger land footprint per Gigawatt (GW) than most other forms of energy production, making appropriate siting and mitigation particularly important. Species that require large unfragmented habitats and those known to avoid vertical structures are particularly at risk from wind development. Developing energy on disturbed lands rather than placing new developments within large and intact habitats would reduce cumulative impacts to wildlife. The U.S. Department of Energy estimates that it will take 241 GW of terrestrial based wind development on approximately 5 million hectares to reach 20% electricity production for the U.S. by 2030. We estimate there are ∼7,700 GW of potential wind energy available across the U.S., with ∼3,500 GW on disturbed lands. In addition, a disturbance-focused development strategy would avert the development of ∼2.3 million hectares of undisturbed lands while generating the same amount of energy as development based solely on maximizing wind potential. Wind subsidies targeted at favoring low-impact developments and creating avoidance and mitigation requirements that raise the costs for projects impacting sensitive lands could improve public value for both wind energy and biodiversity conservation.

Published

2011

33. Possible cross-species transmission of circoviruses and cycloviruses among farm animals.

Author

Li L, Shan T, Soji OB, Alam MM, Kunz TH, Zaidi SZ, and Delwart E

Subjects

Animals, Cattle, Cattle Diseases transmission, Chickens, Chiroptera, Circoviridae genetics, Circoviridae Infections transmission, Cluster Analysis, DNA, Viral chemistry, DNA, Viral genetics, Goat Diseases transmission, Goats, Molecular Sequence Data, Phylogeny, Poultry Diseases transmission, Sequence Analysis, DNA, United States, Cattle Diseases virology, Circoviridae classification, Circoviridae isolation & purification, Circoviridae Infections veterinary, Goat Diseases virology, Poultry Diseases virology

Abstract

Circoviruses consist of highly prevalent and genetically diverse porcine and avian pathogens. The genomes of cycloviruses, a proposed new genus in the family Circoviridae, were recently identified in human and chimpanzee faeces. Here, six cyclovirus and four circovirus genomes from the tissues of chickens, goats, cows, and a bat were amplified and sequenced using rolling-circle amplification and inverse PCR. A goat cyclovirus was nearly identical to a cyclovirus from a cow. USA beef contained circoviruses with >99% similarity to porcine circovirus 2b. Circoviruses in chicken were related to those of pigeons. The close genetic similarity of a subset of cycloviruses and circoviruses replicating in distinct animal species may reflect recent cross-species transmissions. Further studies will be required to determine the impact of these highly prevalent infections on the health of farm animals.

Published

2011

34. Is tissue maturation necessary for flight? Changes in body composition during postnatal development in the big brown bat.

Author

Hood WR, Oftedal OT, and Kunz TH

Subjects

Animals, Animals, Newborn, Calcification, Physiologic physiology, Calcium metabolism, Female, Lactation, Magnesium metabolism, Phosphorus metabolism, Weaning, Body Composition, Chiroptera growth & development, Flight, Animal physiology

Abstract

Patterns of offspring development reflect the availability of energy and nutrients, limitations on an individual's capacity to use available resources, and tradeoffs between the use of nutrients to support current metabolic demands and tissue growth. To determine if the long period of offspring dependency in bats is associated with the need for an advanced state of tissue maturation prior to flight, we examined body composition during postnatal growth in the big brown bat, Eptesicus fuscus. Despite their large size at birth (22% of maternal mass), newborn bats are relatively immature, containing 82% body water in fat-free mass. However, the total body water content of newborn bat pups decreases to near-adult levels in advance of weaning, while concentrations of total body fat and protein exceed adult values. In contrast to many other mammals, postnatal growth of bat pups was characterized by relatively stable concentrations of calcium and phosphorus, but declining concentrations of magnesium. These levels remained stable or rebounded in late postnatal development. This casts doubt on the hypothesis that low rates of mineral transfer necessitate an extended lactation period in bats. However, our finding of near-adult body composition at weaning is consistent with the hypothesis that extended lactation in bats is necessary for the young to achieve sufficient tissue maturity to undertake the active flight necessary for independent feeding. In this respect, bats differ from most other mammals but resemble birds that must engage in active flight to achieve nutritional independence.

Published

2011

35. The little brown bat, M. lucifugus, displays a highly diverse V H, D H and J H repertoire but little evidence of somatic hypermutation.

Author

Bratsch S, Wertz N, Chaloner K, Kunz TH, and Butler JE

Subjects

Animals, Somatic Hypermutation, Immunoglobulin, Antibody Diversity, Chiroptera genetics, Chiroptera immunology, Genes, Immunoglobulin, Immunoglobulin Heavy Chains genetics

Abstract

Myotis lucifugus populations in Northeastern US are being decimated by a fungal disease. Since almost nothing is known about the immune system of bats, we are characterizing the immunoglobulin genes of bats. We show that M. lucifugus has a diverse V(H) gene repertoire comprised of five of the seven human V(H) gene families and an estimated 236V(H)3 genes. 95% of these germline VH3 genes differ in FR3. A comparison of 67 expressed V(H)3 genes with 75 germline V(H)3 genes revealed a mutation frequency similar to fetal piglets never exposed to environmental antigens. Analysis of CDR3 regions identified at least 13 putative J(H) segments and a large D(H) repertoire. The low mutation frequency, highly diverse V(H), D(H), and J(H) germline repertoire suggests that this species may rely more on combinatorial and junctional diversity than on somatic hypermutation raising questions about the ability of M. lucifugus to respond rapidly to emerging pathogens., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

36. Conservation. Economic importance of bats in agriculture.

Author

Boyles JG, Cryan PM, McCracken GF, and Kunz TH

Subjects

Animals, Ascomycota, Chiroptera microbiology, Dermatomycoses veterinary, Ecosystem, Energy-Generating Resources, Population Dynamics, Public Policy, United States, Wind, Agriculture economics, Chiroptera physiology, Conservation of Natural Resources

Published

2011

37. Variation in physiological stress between bridge- and cave-roosting Brazilian free-tailed bats.

Author

Allen LC, Turmelle AS, Widmaier EP, Hristov NI, McCracken GF, and Kunz TH

Subjects

Animals, Chiroptera parasitology, Female, Hydrocortisone blood, Lactation metabolism, Pregnancy, Texas, Chiroptera physiology, Ecosystem, Stress, Physiological

Abstract

Since the late 1980s, Brazilian free-tailed bats (Tadarida brasiliensis) have increasingly used bridges as roosts in the southern United States. We examined differences in blood cortisol levels, body condition, and parasite load, as measures of physiological stress in bats roosting in bridges and bats roosting in caves. We collected data during three periods, coinciding with female phases of reproduction. For all measures, bats were captured during the nightly emergence from the roost and immediately sampled. Cortisol levels were significantly higher during pregnancy and lactation and in individuals with lower body-condition scores (length of forearm to mass ratio) and significantly higher in bats roosting in caves than in those roosting in bridges. Thus, we concluded that individuals of this species that roost in bridges are not chronically stressed and seem to be unaffected by human activities present at bridges. This is a rare documented instance where a human-dominated environment does not appear to be adversely affecting the physiological health of a free-ranging animal., (©2010 Society for Conservation Biology.)

Published

2011

38. The two suborders of chiropterans have the canonical heavy-chain immunoglobulin (Ig) gene repertoire of eutherian mammals.

Author

Butler JE, Wertz N, Zhao Y, Zhang S, Bao Y, Bratsch S, Kunz TH, Whitaker JO Jr, and Schountz T

Subjects

Amino Acid Sequence, Animals, Base Sequence, Chiroptera immunology, Humans, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Sequence Alignment, Chiroptera genetics, Genes, Immunoglobulin genetics

Abstract

Bats comprise 20% of all mammals, yet little is known about their immune system and virtually nothing about their immunoglobulin genes. We show that four different bat species transcribe genes encoding IgM, IgE, IgA and IgG subclasses, the latter which have diversified after speciation; the canonical pattern for eutherian mammals. IgD transcripts were only recovered from insectivorous bats and were comprised of CH1, CH3 and two hinge exons; the second hinge exon was fused to CH3. IgA in all species resembles human IgA2 with the putative cysteine forming the bridge to the light chain found at position 77. Sequence comparisons yielded no evidence for a diphyletic origin of the suborders. Bats show no close similarity to another mammalian order; the strongest association was with carnivores. Data reveal that CH diversity and VDJ and CDR3 organization are similar to other eutherian mammals, although the expressed VH3 family repertoire was unusually diverse., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

39. DNA-based detection of the fungal pathogen Geomyces destructans in soils from bat hibernacula.

Author

Lindner DL, Gargas A, Lorch JM, Banik MT, Glaeser J, Kunz TH, and Blehert DS

Subjects

Animals, Ascomycota genetics, Chiroptera physiology, Hibernation, Molecular Sequence Data, Mycoses microbiology, Phylogeny, United States, Ascomycota classification, Ascomycota isolation & purification, Chiroptera microbiology, DNA, Fungal genetics, Mycoses veterinary, Soil Microbiology

Abstract

White-nose syndrome (WNS) is an emerging disease causing unprecedented morbidity and mortality among bats in eastern North America. The disease is characterized by cutaneous infection of hibernating bats by the psychrophilic fungus Geomyces destructans. Detection of G. destructans in environments occupied by bats will be critical for WNS surveillance, management and characterization of the fungal lifecycle. We initiated an rRNA gene region-based molecular survey to characterize the distribution of G. destructans in soil samples collected from bat hibernacula in the eastern United States with an existing PCR test. Although this test did not specifically detect G. destructans in soil samples based on a presence/absence metric, it did favor amplification of DNA from putative Geomyces species. Cloning and sequencing of PCR products amplified from 24 soil samples revealed 74 unique sequence variants representing 12 clades. Clones with exact sequence matches to G. destructans were identified in three of 19 soil samples from hibernacula in states where WNS is known to occur. Geomyces destructans was not identified in an additional five samples collected outside the region where WNS has been documented. This study highlights the diversity of putative Geomyces spp. in soil from bat hibernacula and indicates that further research is needed to better define the taxonomy of this genus and to develop enhanced diagnostic tests for rapid and specific detection of G. destructans in environmental samples.

Published

2011

40. Ecosystem services provided by bats.

Author

Kunz TH, Braun de Torrez E, Bauer D, Lobova T, and Fleming TH

Subjects

Agriculture economics, Agriculture methods, Animals, Arthropods, Conservation of Natural Resources economics, Environment, Food Chain, Humans, Pest Control, Biological economics, Pest Control, Biological methods, Pollination physiology, Seed Dispersal physiology, Chiroptera physiology, Conservation of Natural Resources methods, Ecosystem

Abstract

Ecosystem services are the benefits obtained from the environment that increase human well-being. Economic valuation is conducted by measuring the human welfare gains or losses that result from changes in the provision of ecosystem services. Bats have long been postulated to play important roles in arthropod suppression, seed dispersal, and pollination; however, only recently have these ecosystem services begun to be thoroughly evaluated. Here, we review the available literature on the ecological and economic impact of ecosystem services provided by bats. We describe dietary preferences, foraging behaviors, adaptations, and phylogenetic histories of insectivorous, frugivorous, and nectarivorous bats worldwide in the context of their respective ecosystem services. For each trophic ensemble, we discuss the consequences of these ecological interactions on both natural and agricultural systems. Throughout this review, we highlight the research needed to fully determine the ecosystem services in question. Finally, we provide a comprehensive overview of economic valuation of ecosystem services. Unfortunately, few studies estimating the economic value of ecosystem services provided by bats have been conducted to date; however, we outline a framework that could be used in future studies to more fully address this question. Consumptive goods provided by bats, such as food and guano, are often exchanged in markets where the market price indicates an economic value. Nonmarket valuation methods can be used to estimate the economic value of nonconsumptive services, including inputs to agricultural production and recreational activities. Information on the ecological and economic value of ecosystem services provided by bats can be used to inform decisions regarding where and when to protect or restore bat populations and associated habitats, as well as to improve public perception of bats., (© 2011 New York Academy of Sciences.)

Published

2011

41. Specific alterations in complement protein activity of little brown myotis (Myotis lucifugus) hibernating in white-nose syndrome affected sites.

Author

Moore MS, Reichard JD, Murtha TD, Zahedi B, Fallier RM, and Kunz TH

Subjects

Animals, Blood Bactericidal Activity, Candida albicans physiology, Chiroptera physiology, Escherichia coli physiology, Female, Male, Models, Statistical, Mycoses blood, Mycoses immunology, Mycoses microbiology, Sample Size, Seasons, Staphylococcus aureus physiology, Syndrome, Chiroptera immunology, Chiroptera microbiology, Complement System Proteins immunology, Hibernation immunology, Mycoses veterinary

Abstract

White-nose syndrome (WNS) is the most devastating condition ever reported for hibernating bats, causing widespread mortality in the northeastern United States. The syndrome is characterized by cutaneous lesions caused by a recently identified psychrophilic and keratinophylic fungus (Geomyces destructans), depleted fat reserves, atypical behavior, and damage to wings; however, the proximate cause of mortality is still uncertain. To assess relative levels of immunocompetence in bats hibernating in WNS-affected sites compared with levels in unaffected bats, we describe blood plasma complement protein activity in hibernating little brown myotis (Myotis lucifugus) based on microbicidal competence assays using Escherichia coli, Staphylococcus aureus and Candida albicans. Blood plasma from bats collected during mid-hibernation at WNS-affected sites had higher bactericidal ability against E. coli and S. aureus, but lower fungicidal ability against C. albicans when compared with blood plasma from bats collected at unaffected sites. Within affected sites during mid-hibernation, we observed no difference in microbicidal ability between bats displaying obvious fungal infections compared to those without. Bactericidal ability against E. coli decreased significantly as hibernation progressed in bats collected from an affected site. Bactericidal ability against E. coli and fungicidal ability against C. albicans were positively correlated with body mass index (BMI) during late hibernation. We also compared complement activity against the three microbes within individuals and found that the ability of blood plasma from hibernating M. lucifugus to lyse microbial cells differed as follows: E. coli>S. aureus>C. albicans. Overall, bats affected by WNS experience both relatively elevated and reduced innate immune responses depending on the microbe tested, although the cause of observed immunological changes remains unknown. Additionally, considerable trade-offs may exist between energy conservation and immunological responses. Relationships between immune activity and torpor, including associated energy expenditure, are likely critical components in the development of WNS.

Published

2011

42. A tale of two genomes: contrasting patterns of phylogeographic structure in a widely distributed bat.

Author

Turmelle AS, Kunz TH, and Sorenson MD

Subjects

Animals, Base Sequence, Caribbean Region, DNA, Mitochondrial genetics, Female, Gene Flow, Genetic Variation, Male, Mexico, North America, Phylogeny, Phylogeography, Selection, Genetic, Sequence Analysis, DNA, South America, Chiroptera classification, Chiroptera genetics, Genome

Abstract

One of the most widely distributed bats in the New World, the big brown bat (Eptesicus fuscus) exhibits well-documented geographic variation in morphology and life history traits, suggesting the potential for significant phylogeographic structure as well as adaptive differentiation among populations. In a pattern broadly consistent with morphologically defined subspecies, we found deeply divergent mitochondrial lineages restricted to different geographic regions. In contrast, sequence data from two nuclear loci suggest a general lack of regional genetic structure except for peripheral populations in the Caribbean and Mexico/South America. Coalescent analyses suggest that the striking difference in population structure between genomes cannot be attributed solely to different rates of lineage sorting, but is likely due to male-mediated gene flow homogenizing nuclear genetic diversity across most of the continental range. Despite this ongoing gene flow, selection has apparently been effective in producing and maintaining adaptive differentiation among populations, while strong female site fidelity, maintained over the course of millions of years, has produced remarkably deep divergence among geographically isolated matrilines. Our results highlight the importance of evaluating multiple genetic markers for a more complete understanding of population structure and history., (© 2010 Blackwell Publishing Ltd.)

Published

2011

43. Response of a specialist bat to the loss of a critical resource.

Author

Chaverri G and Kunz TH

Subjects

Animals, Ecosystem, Chiroptera physiology

Abstract

Human activities have negatively impacted many species, particularly those with unique traits that restrict their use of resources and conditions to specific habitats. Unfortunately, few studies have been able to isolate the individual and combined effects of different threats on population persistence in a natural setting, since not all organisms can be associated with discrete habitat features occurring over limited spatial scales. We present the results of a field study that examines the short-term effects of roost loss in a specialist bat using a conspicuous, easily modified resource. We mimicked roost loss in the natural habitat and monitored individuals before and after the perturbation to determine patterns of resource use, spatial movements, and group stability. Our study focused on the disc-winged bat Thyroptera tricolor, a species highly morphologically specialized for roosting in the developing furled leaves of members of the order Zingiberales. We found that the number of species used for roosting increased, that home range size increased (before: mean 0.14±SD 0.08 ha; after: 0.73±0.68 ha), and that mean association indices decreased (before: 0.95±0.10; after: 0.77±0.18) once the roosting habitat was removed. These results demonstrate that the removal of roosting resources is associated with a decrease in roost-site preferences or selectivity, an increase in mobility of individuals, and a decrease in social cohesion. These responses may reduce fitness by potentially increasing energetic expenditure, predator exposure, and a decrease in cooperative interactions. Despite these potential risks, individuals never used roost-sites other than developing furled leaves, suggesting an extreme specialization that could ultimately jeopardize the long-term persistence of this species' local populations., (© 2011 Chaverri, Kunz.)

Published

2011

44. Thermoregulation during flight: body temperature and sensible heat transfer in free-ranging Brazilian free-tailed bats (Tadarida brasiliensis).

Author

Reichard JD, Fellows SR, Frank AJ, and Kunz TH

Subjects

Animals, Body Temperature physiology, Chiroptera anatomy & histology, Convection, Female, Male, Texas, Wings, Animal anatomy & histology, Wings, Animal physiology, Body Temperature Regulation physiology, Chiroptera physiology, Flight, Animal physiology

Abstract

Bat wings are important for thermoregulation, but their role in heat balance during flight is largely unknown. More than 80% of the energy consumed during flight generates heat as a by-product, and thus it is expected that bat wings should dissipate large amounts of heat to prevent hyperthermia. We measured rectal (T(r)) and surface (T(s)) temperatures of Brazilian free-tailed bats (Tadarida brasiliensis) as they emerged from and returned to their daytime roosts and calculated sensible heat transfer for different body regions (head, body, wings, and tail membrane). Bats' T(r) decreased from 36.8°C during emergence flights to 34.4°C during returns, and T(s) scaled positively with ambient temperature (T(a)). Total radiative heat loss from bats was significantly greater for a radiative sink to the night sky than for a sink with temperature equal to T(a). We found that free-ranging Brazilian free-tailed bats, on average, do not dissipate heat from their wings by convection but instead dissipate radiative heat (L) to the cloudless night sky during flight ([Formula: see text] W). However, within the range of T(a) measured in this study, T. brasiliensis experienced net heat loss between evening emergence and return flights. Regional hypothermia reduces heat loss from wings that are exposed to potentially high convective fluxes. Additional research is needed to establish the role of wings in evaporative cooling during flight in bats.

Published

2010

45. Grand challenges in migration biology.

Author

Bowlin MS, Bisson IA, Shamoun-Baranes J, Reichard JD, Sapir N, Marra PP, Kunz TH, Wilcove DS, Hedenström A, Guglielmo CG, Åkesson S, Ramenofsky M, and Wikelski M

Subjects

Animals, Ecosystem, Environment, Genome physiology, Phenotype, Animal Migration physiology, Biological Evolution, Ecology

Abstract

Billions of animals migrate each year. To successfully reach their destination, migrants must have evolved an appropriate genetic program and suitable developmental, morphological, physiological, biomechanical, behavioral, and life-history traits. Moreover, they must interact successfully with biotic and abiotic factors in their environment. Migration therefore provides an excellent model system in which to address several of the "grand challenges" in organismal biology. Previous research on migration, however, has often focused on a single aspect of the phenomenon, largely due to methodological, geographical, or financial constraints. Integrative migration biology asks 'big questions' such as how, when, where, and why animals migrate, which can be answered by examining the process from multiple ecological and evolutionary perspectives, incorporating multifaceted knowledge from various other scientific disciplines, and using new technologies and modeling approaches, all within the context of an annual cycle. Adopting an integrative research strategy will provide a better understanding of the interactions between biological levels of organization, of what role migrants play in disease transmission, and of how to conserve migrants and the habitats upon which they depend., (© The Author 2010. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved.)

Published

2010

46. Thermal windows on Brazilian free-tailed bats facilitate thermoregulation during prolonged flight.

Author

Reichard JD, Prajapati SI, Austad SN, Keller C, and Kunz TH

Subjects

Animals, Brazil, Energy Metabolism, Phylogeny, Regional Blood Flow physiology, Texas, Animal Migration physiology, Body Temperature Regulation physiology, Chiroptera physiology, Flight, Animal physiology, Wings, Animal blood supply

Abstract

The Brazilian free-tailed bat (Tadarida brasiliensis) experiences challenging thermal conditions while roosting in hot caves, flying during warm daylight conditions, and foraging at cool high altitudes. Using thermal infrared cameras, we identified hot spots along the flanks of free-ranging Brazilian free-tailed bats, ventral to the extended wings. These hot spots are absent in syntopic cave myotis (Myotis velifer), a species that forages over relatively short distances, and does not engage in long-distance migration. We hypothesized that the hot spots, or "radiators," on Brazilian free-tailed bats may be adaptations for migration, particularly in this long-distance, high-flying species. We examined the vasculature of radiators on Brazilian free-tailed bats with transillumination to characterize the unique arrangements of arteries and veins that are positioned perpendicular to the body in the proximal region of the wing. We hypothesized that these radiators aid in maintaining heat balance by flushing the uninsulated thermal window with warm blood, thereby dissipating heat while bats are flying under warm conditions, but shunting blood away and conserving heat when they are flying in cooler air at high altitudes. We also examined fluid-preserved specimens representing 122 species from 15 of 18 chiropteran families and radiators appeared present only in species in the family Molossidae, including both sedentary and migratory species and subspecies. Thus, the radiator appears to be a unique trait that may facilitate energy balance and water balance during sustained dispersal, foraging, and long-distance migration., (© The Author 2010. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved.)

Published

2010

47. An emerging disease causes regional population collapse of a common North American bat species.

Author

Frick WF, Pollock JF, Hicks AC, Langwig KE, Reynolds DS, Turner GG, Butchkoski CM, and Kunz TH

Subjects

Animals, Animals, Wild, Canada epidemiology, Chiroptera physiology, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging microbiology, Communicable Diseases, Emerging mortality, Dermatomycoses epidemiology, Dermatomycoses microbiology, Ecosystem, Extinction, Biological, Hibernation, Models, Statistical, Nonlinear Dynamics, Population Dynamics, Population Surveillance, Stochastic Processes, Syndrome, United States epidemiology, Ascomycota, Chiroptera microbiology, Communicable Diseases, Emerging veterinary, Dermatomycoses veterinary

Abstract

White-nose syndrome (WNS) is an emerging disease affecting hibernating bats in eastern North America that causes mass mortality and precipitous population declines in winter hibernacula. First discovered in 2006 in New York State, WNS is spreading rapidly across eastern North America and currently affects seven species. Mortality associated with WNS is causing a regional population collapse and is predicted to lead to regional extinction of the little brown myotis (Myotis lucifugus), previously one of the most common bat species in North America. Novel diseases can have serious impacts on naïve wildlife populations, which in turn can have substantial impacts on ecosystem integrity.

Published

2010

48. Bat guano virome: predominance of dietary viruses from insects and plants plus novel mammalian viruses.

Author

Li L, Victoria JG, Wang C, Jones M, Fellers GM, Kunz TH, and Delwart E

Subjects

Animals, California, Chiroptera genetics, Disease Outbreaks, Disease Reservoirs virology, Genome, Viral, Humans, Metagenomics methods, Phylogeny, Sequence Analysis, DNA, Texas, Virus Diseases epidemiology, Virus Diseases genetics, Virus Diseases transmission, Virus Diseases virology, Viruses classification, Zoonoses transmission, Zoonoses virology, Chiroptera virology, Diet, Feces virology, Insecta virology, Mammals virology, Plants virology, Viruses genetics

Abstract

Bats are hosts to a variety of viruses capable of zoonotic transmissions. Because of increased contact between bats, humans, and other animal species, the possibility exists for further cross-species transmissions and ensuing disease outbreaks. We describe here full and partial viral genomes identified using metagenomics in the guano of bats from California and Texas. A total of 34% and 58% of 390,000 sequence reads from bat guano in California and Texas, respectively, were related to eukaryotic viruses, and the largest proportion of those infect insects, reflecting the diet of these insectivorous bats, including members of the viral families Dicistroviridae, Iflaviridae, Tetraviridae, and Nodaviridae and the subfamily Densovirinae. The second largest proportion of virus-related sequences infects plants and fungi, likely reflecting the diet of ingested insects, including members of the viral families Luteoviridae, Secoviridae, Tymoviridae, and Partitiviridae and the genus Sobemovirus. Bat guano viruses related to those infecting mammals comprised the third largest group, including members of the viral families Parvoviridae, Circoviridae, Picornaviridae, Adenoviridae, Poxviridae, Astroviridae, and Coronaviridae. No close relative of known human viral pathogens was identified in these bat populations. Phylogenetic analysis was used to clarify the relationship to known viral taxa of novel sequences detected in bat guano samples, showing that some guano viral sequences fall outside existing taxonomic groups. This initial characterization of the bat guano virome, the first metagenomic analysis of viruses in wild mammals using second-generation sequencing, therefore showed the presence of previously unidentified viral species, genera, and possibly families. Viral metagenomics is a useful tool for genetically characterizing viruses present in animals with the known capability of direct or indirect viral zoonosis to humans.

Published

2010

49. Ecology of rabies virus exposure in colonies of Brazilian free-tailed bats (Tadarida brasiliensis) at natural and man-made roosts in Texas.

Author

Turmelle AS, Allen LC, Jackson FR, Kunz TH, Rupprecht CE, and McCracken GF

Subjects

Animals, Behavior, Animal, Disease Reservoirs veterinary, Female, Male, Rabies epidemiology, Social Behavior, Texas epidemiology, Chiroptera, Rabies veterinary, Rabies virus isolation & purification

Abstract

Previous studies have investigated rabies virus (RABV) epizootiology in Brazilian free-tailed bats (Tadarida brasiliensis) in natural cave roosts. However, little is known about geographic variation in RABV exposure, or if the use of man-made roosts by this species affects enzootic RABV infection dynamics within colonies. We sampled rabies viral neutralizing antibodies in bats at three bridge and three cave roosts at multiple time points during the reproductive season to investigate temporal and roost variation in RABV exposure. We report seropositive bats in all age and sex classes with minimal geographic variation in RABV seroprevalence among Brazilian free-tailed bat colonies in south-central Texas. While roost type was not a significant predictor of RABV seroprevalence, it was significantly associated with seasonal fluctuations, suggesting patterns of exposure that differ between roosts. Temporal patterns suggest increased RABV seroprevalence after parturition in cave colonies, potentially related to an influx of susceptible young, in contrast to more uniform seroprevalence in bridge colonies. This study highlights the importance of life history and roost ecology in understanding patterns of RABV seroprevalence in colonies of the Brazilian free-tailed bat.

Published

2010

50. Response to vaccination with a commercial inactivated rabies vaccine in a captive colony of Brazilian free-tailed bats (Tadarida brasiliensis).

Author

Turmelle AS, Allen LC, Schmidt-French BA, Jackson FR, Kunz TH, McCracken GF, and Rupprecht CE

Subjects

Animals, Antibodies, Viral blood, Female, Male, Rabies prevention & control, Vaccination, Vaccines, Inactivated immunology, Chiroptera, Rabies veterinary, Rabies Vaccines immunology

Abstract

A captive colony of Brazilian free-tailed bats (Tadarida brasiliensis) was vaccinated with a commercial monovalent inactivated rabies virus (RABV) vaccine (RABVAC 1). Baseline rabies virus neutralizing antibodies (VNA) and the response to vaccination were measured in 50 bats. Rabies VNA was detected in the plasma of 64% (27/42) of bats that had been vaccinated 1 yr prior, but only 19% (8/42) had levels considered adequate. Rabies VNA was detected in the plasma of 63% (5/8) of bats with no record of previous vaccination, suggesting natural RABV exposure before captivity. All bats demonstrated a VNA response by 10 days postvaccination, and baseline titer significantly predicted humoral response to vaccination. No adverse reactions to vaccination or clinical signs of RABV infection were observed in the bats during a 6-mo observation period. Annual vaccination may maintain immunity against RABV infection in captive colonies of bats. Bat, rabies virus, Tadarida brasiliensis, vaccination, virus neutralizing antibodies.

Published

2010