Your search keyword '"Manlove K"' showing total 13 results

1. Female elk contacts are neither frequency nor density dependent

Author

Cross, P. C., Creech, T. G., Ebinger, M. R., Manlove, K., Irvine, K., Henningsen, J., Rogerson, J., Scurlock, B. M., and Creel, S.

Published

2013

2. Video reviews. Pediatric massage: for the child with special needs.

Author

Manlove K

Published

2000

3. Comparative genomic analysis identifies potential adaptive variation in Mycoplasma ovipneumoniae .

Author

Andrews KR, Besser TE, Stalder T, Top EM, Baker KN, Fagnan MW, New DD, Schneider GM, Gal A, Andrews-Dickert R, Hunter SS, Beckmen KB, Christensen L, Justice-Allen A, Konetchy D, Lehman CP, Manlove K, Miyasaki H, Nordeen T, Roug A, and Cassirer EF

Subjects

Animals, Sheep microbiology, Genomics, Reindeer microbiology, China, Sheep Diseases microbiology, Adaptation, Physiological genetics, Australia, Pneumonia, Mycoplasma microbiology, Pneumonia, Mycoplasma veterinary, Mycoplasma ovipneumoniae genetics, Goats microbiology, Phylogeny, Genome, Bacterial

Abstract

Mycoplasma ovipneumoniae is associated with respiratory disease in wild and domestic Caprinae globally, with wide variation in disease outcomes within and between host species. To gain insight into phylogenetic structure and mechanisms of pathogenicity for this bacterial species, we compared M. ovipneumoniae genomes for 99 samples from 6 countries (Australia, Bosnia and Herzegovina, Brazil, China, France and USA) and 4 host species (domestic sheep, domestic goats, bighorn sheep and caribou). Core genome sequences of M. ovipneumoniae assemblies from domestic sheep and goats fell into two well-supported phylogenetic clades that are divergent enough to be considered different bacterial species, consistent with each of these two clades having an evolutionary origin in separate host species. Genome assemblies from bighorn sheep and caribou also fell within these two clades, indicating multiple spillover events, most commonly from domestic sheep. Pangenome analysis indicated a high percentage (91.4 %) of accessory genes (i.e. genes found only in a subset of assemblies) compared to core genes (i.e. genes found in all assemblies), potentially indicating a propensity for this pathogen to adapt to within-host conditions. In addition, many genes related to carbon metabolism, which is a virulence factor for Mycoplasmas, showed evidence for homologous recombination, a potential signature of adaptation. The presence or absence of annotated genes was very similar between sheep and goat clades, with only two annotated genes significantly clade-associated. However, three M. ovipneumoniae genome assemblies from asymptomatic caribou in Alaska formed a highly divergent subclade within the sheep clade that lacked 23 annotated genes compared to other assemblies, and many of these genes had functions related to carbon metabolism. Overall, our results suggest that adaptation of M. ovipneumoniae has involved evolution of carbon metabolism pathways and virulence mechanisms related to those pathways. The genes involved in these pathways, along with other genes identified as potentially involved in virulence in this study, are potential targets for future investigation into a possible genomic basis for the high variation observed in disease outcomes within and between wild and domestic host species.

Published

2024

4. Defining an epidemiological landscape that connects movement ecology to pathogen transmission and pace-of-life.

Author

Manlove K, Wilber M, White L, Bastille-Rousseau G, Yang A, Gilbertson MLJ, Craft ME, Cross PC, Wittemyer G, and Pepin KM

Subjects

Geography, Disease Transmission, Infectious, Ecology, Epidemiology, Movement

Abstract

Pathogen transmission depends on host density, mobility and contact. These components emerge from host and pathogen movements that themselves arise through interactions with the surrounding environment. The environment, the emergent host and pathogen movements, and the subsequent patterns of density, mobility and contact form an 'epidemiological landscape' connecting the environment to specific locations where transmissions occur. Conventionally, the epidemiological landscape has been described in terms of the geographical coordinates where hosts or pathogens are located. We advocate for an alternative approach that relates those locations to attributes of the local environment. Environmental descriptions can strengthen epidemiological forecasts by allowing for predictions even when local geographical data are not available. Environmental predictions are more accessible than ever thanks to new tools from movement ecology, and we introduce a 'movement-pathogen pace of life' heuristic to help identify aspects of movement that have the most influence on spatial epidemiology. By linking pathogen transmission directly to the environment, the epidemiological landscape offers an efficient path for using environmental information to inform models describing when and where transmission will occur., (© 2022 John Wiley & Sons Ltd. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published

2022

5. Using transcriptomics to predict and visualize disease status in bighorn sheep ( Ovis canadensis ).

Author

Bowen L, Manlove K, Roug A, Waters S, LaHue N, and Wolff P

Abstract

Increasing risk of pathogen spillover coupled with overall declines in wildlife population abundance in the Anthropocene make infectious disease a relevant concern for species conservation worldwide. While emerging molecular tools could improve our diagnostic capabilities and give insight into mechanisms underlying wildlife disease risk, they have rarely been applied in practice. Here, employing a previously reported gene transcription panel of common immune markers to track physiological changes, we present a detailed analysis over the course of both acute and chronic infection in one wildlife species where disease plays a critical role in conservation, bighorn sheep ( Ovis canadensis ). Differential gene transcription patterns distinguished between infection statuses over the course of acute infection and differential correlation (DC) analyses identified clear changes in gene co-transcription patterns over the early stages of infection, with transcription of four genes-TGFb, AHR, IL1b and MX1-continuing to increase even as transcription of other immune-associated genes waned. In a separate analysis, we considered the capacity of the same gene transcription panel to aid in differentiating between chronically infected animals and animals in other disease states outside of acute disease events (an immediate priority for wildlife management in this system). We found that this transcription panel was capable of accurately identifying chronically infected animals in the test dataset, though additional data will be required to determine how far this ability extends. Taken together, our results showcase the successful proof of concept and breadth of potential utilities that gene transcription might provide to wildlife disease management, from direct insight into mechanisms associated with differential disease response to improved diagnostic capacity in the field., (Published by Oxford University Press 2022.)

Published

2022

6. Disease Ecology of a Low-Virulence Mycoplasma ovipneumoniae Strain in a Free-Ranging Desert Bighorn Sheep Population.

Author

Johnson BM, Stroud-Settles J, Roug A, and Manlove K

Abstract

Infectious pneumonia associated with the bacterial pathogen Mycoplasma ovipneumoniae is an impediment to bighorn sheep ( Ovis canadensis ) population recovery throughout western North America, yet the full range of M. ovipneumoniae virulence in bighorn sheep is not well-understood. Here, we present data from an M. ovipneumoniae introduction event in the Zion desert bighorn sheep ( Ovis canadensis nelsoni ) population in southern Utah. The ensuing disease event exhibited epidemiology distinct from what has been reported elsewhere, with virtually no mortality (0 adult mortalities among 70 animals tracked over 118 animal-years; 1 lamb mortality among 40 lambs tracked through weaning in the two summers following introduction; and lamb:ewe ratios of 34.9:100 in the year immediately after introduction and 49.4:100 in the second year after introduction). Individual-level immune responses were lower than expected, and M. ovipneumoniae appeared to fade out approximately 1.5 to 2 years after introduction. Several mechanisms could explain the limited burden of this M. ovipneumoniae event. First, most work on M. ovipneumoniae has centered on Rocky Mountain bighorn sheep ( O. c. candensis ), but the Zion bighorns are members of the desert subspecies ( O. c. nelsoni ). Second, the particular M. ovipneumoniae strain involved comes from a clade of strains associated with weaker demographic responses in other settings. Third, the substructuring of the Zion population may have made this population more resilient to disease invasion and persistence. The limited burden of the disease event on the Zion bighorn population underscores a broader point in wildlife disease ecology: that one size may not fit all events.

Published

2022

7. Author Correction: Genetic structure of Mycoplasma ovipneumoniae informs pathogen spillover dynamics between domestic and wild Caprinae in the western United States.

Author

Kamath PL, Manlove K, Cassirer EF, Cross PC, and Besser TE

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

8. Genetic structure of Mycoplasma ovipneumoniae informs pathogen spillover dynamics between domestic and wild Caprinae in the western United States.

Author

Kamath PL, Manlove K, Cassirer EF, Cross PC, and Besser TE

Subjects

Animals, Biodiversity, Geography, Host-Pathogen Interactions genetics, Mycoplasma ovipneumoniae isolation & purification, Phylogeny, Recombination, Genetic genetics, United States, Animals, Domestic microbiology, Animals, Wild microbiology, Goats microbiology, Mycoplasma ovipneumoniae genetics, Sheep microbiology

Abstract

Spillover diseases have significant consequences for human and animal health, as well as wildlife conservation. We examined spillover and transmission of the pneumonia-associated bacterium Mycoplasma ovipneumoniae in domestic sheep, domestic goats, bighorn sheep, and mountain goats across the western United States using 594 isolates, collected from 1984 to 2017. Our results indicate high genetic diversity of M. ovipneumoniae strains within domestic sheep, whereas only one or a few strains tend to circulate in most populations of bighorn sheep or mountain goats. These data suggest domestic sheep are a reservoir, while the few spillovers to bighorn sheep and mountain goats can persist for extended periods. Domestic goat strains form a distinct clade from those in domestic sheep, and strains from both clades are found in bighorn sheep. The genetic structure of domestic sheep strains could not be explained by geography, whereas some strains are spatially clustered and shared among proximate bighorn sheep populations, supporting pathogen establishment and spread following spillover. These data suggest that the ability to predict M. ovipneumoniae spillover into wildlife populations may remain a challenge given the high strain diversity in domestic sheep and need for more comprehensive pathogen surveillance.

Published

2019

9. Ecological interventions to prevent and manage zoonotic pathogen spillover.

Author

Sokolow SH, Nova N, Pepin KM, Peel AJ, Pulliam JRC, Manlove K, Cross PC, Becker DJ, Plowright RK, McCallum H, and De Leo GA

Subjects

Animals, Animals, Wild, Humans, Models, Biological, Communicable Diseases, Emerging prevention & control, Communicable Diseases, Emerging veterinary, Zoonoses prevention & control

Abstract

Spillover of a pathogen from a wildlife reservoir into a human or livestock host requires the pathogen to overcome a hierarchical series of barriers. Interventions aimed at one or more of these barriers may be able to prevent the occurrence of spillover. Here, we demonstrate how interventions that target the ecological context in which spillover occurs (i.e. ecological interventions) can complement conventional approaches like vaccination, treatment, disinfection and chemical control. Accelerating spillover owing to environmental change requires effective, affordable, durable and scalable solutions that fully harness the complex processes involved in cross-species pathogen spillover. This article is part of the theme issue 'Dynamic and integrative approaches to understanding pathogen spillover'.

Published

2019

10. A pilot study of the effects of Mycoplasma ovipneumoniae exposure on domestic lamb growth and performance.

Author

Besser TE, Levy J, Ackerman M, Nelson D, Manlove K, Potter KA, Busboom J, and Benson M

Subjects

Animals, Female, Lung microbiology, Lung physiology, Male, Pilot Projects, Sheep, Sheep Diseases microbiology, Sheep Diseases physiopathology, Sheep, Domestic physiology, Swine growth & development, Swine microbiology, Mycoplasma ovipneumoniae pathogenicity, Pneumonia, Mycoplasma microbiology, Pneumonia, Mycoplasma physiopathology, Sheep, Domestic growth & development, Sheep, Domestic microbiology

Abstract

Mycoplasma ovipneumoniae is a globally distributed pathogen that has been associated with pneumonia in both domestic and wild Caprinae. It is closely related to M. hyopneumoniae, a respiratory pathogen of swine that is associated with decreased growth rates of pigs as well as clinical respiratory disease. In order to assess the effects of M. ovipneumoniae on lamb performance, we generated a cohort of lambs free of M. ovipneumoniae by segregation of test negative ewes after lambing, then compared the growth and carcass quality traits of M. ovipneumoniae-free and -colonized lambs from weaning to harvest. Some signs of respiratory disease were observed during the feeding trial in both lamb groups, but the M. ovipneumoniae-exposed group included more affected lambs and higher average disease scores. At harvest, lungs of lambs in both groups showed few grossly visible lesions, although the M. ovipneumoniae-exposed group did exhibit increased microscopic lung lesions (P<0.05). In addition, M. ovipneumoniae exposed lambs produced lower average daily gains (P<0.05), and lower yield grade carcasses (P<0.05) compared to those of non-exposed lambs. The results demonstrated the feasibility of test and segregation for elimination of M. ovipneumoniae from groups of sheep and suggested that this pathogen may impair lamb growth and productivity even in the absence of overt respiratory disease., Competing Interests: I have read the journal's policy and the authors of this manuscript have the following competing interests. This specific study was supported by funding competitively awarded by the Wild Sheep Foundation. Additional research funding for the authors' respiratory disease related research has been received from the WSU Rocky Crate Endowment for Wild Sheep Disease Research, the US Department of Agriculture (including the Animal Plant Health Inspection Service and the US Forest Service), the US Geologic Survey, numerous chapters and affiliates of the Wild Sheep Foundation, and the WSU Fowler Emerging Infectious Diseases endowment. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2019

11. The ecology of movement and behaviour: a saturated tripartite network for describing animal contacts.

Author

Manlove K, Aiello C, Sah P, Cummins B, Hudson PJ, and Cross PC

Subjects

Animals, Computer Simulation, Ecology methods, Homing Behavior, Spatio-Temporal Analysis, Behavior, Animal, Models, Biological, Movement

Abstract

Ecologists regularly use animal contact networks to describe interactions underlying pathogen transmission, gene flow, and information transfer. However, empirical descriptions of contact often overlook some features of individual movement, and decisions about what kind of network to use in a particular setting are commonly ad hoc Here, we relate individual movement trajectories to contact networks through a tripartite network model of individual, space, and time nodes. Most networks used in animal contact studies (e.g. individual association networks, home range overlap networks, and spatial networks) are simplifications of this tripartite model. The tripartite structure can incorporate a broad suite of alternative ecological metrics like home range sizes and patch occupancy patterns into inferences about contact network metrics such as modularity and degree distribution. We demonstrate the model's utility with two simulation studies using alternative forms of ecological data to constrain the tripartite network's structure and inform expectations about the harder-to-measure metrics related to contact., (© 2018 The Author(s).)

Published

2018

12. Disease introduction is associated with a phase transition in bighorn sheep demographics.

Author

Manlove K, Cassirer EF, Cross PC, Plowright RK, and Hudson PJ

Subjects

Animals, Animals, Wild, Population Dynamics, Population Growth, Sheep, Sheep Diseases, Sheep, Bighorn

Abstract

Ecological theory suggests that pathogens are capable of regulating or limiting host population dynamics, and this relationship has been empirically established in several settings. However, although studies of childhood diseases were integral to the development of disease ecology, few studies show population limitation by a disease affecting juveniles. Here, we present empirical evidence that disease in lambs constrains population growth in bighorn sheep (Ovis canadensis) based on 45 years of population-level and 18 years of individual-level monitoring across 12 populations. While populations generally increased (λ = 1.11) prior to disease introduction, most of these same populations experienced an abrupt change in trajectory at the time of disease invasion, usually followed by stagnant-to-declining growth rates (λ = 0.98) over the next 20 years. Disease-induced juvenile mortality imposed strong constraints on population growth that were not observed prior to disease introduction, even as adult survival returned to pre-invasion levels. Simulations suggested that models including persistent disease-induced mortality in juveniles qualitatively matched observed population trajectories, whereas models that only incorporated all-age disease events did not. We use these results to argue that pathogen persistence may pose a lasting, but under-recognized, threat to host populations, particularly in cases where clinical disease manifests primarily in juveniles., (© 2016 by the Ecological Society of America.)

Published

2016

13. Use of exposure history to identify patterns of immunity to pneumonia in bighorn sheep (Ovis canadensis).

Author

Plowright RK, Manlove K, Cassirer EF, Cross PC, Besser TE, and Hudson PJ

Subjects

Animals, Female, Male, Pneumonia epidemiology, Pneumonia immunology, Pneumonia mortality, Proportional Hazards Models, Sheep, Sheep Diseases mortality, United States epidemiology, Immunity immunology, Pneumonia veterinary, Sheep Diseases epidemiology, Sheep Diseases immunology, Sheep, Bighorn immunology

Abstract

Individual host immune responses to infectious agents drive epidemic behavior and are therefore central to understanding and controlling infectious diseases. However, important features of individual immune responses, such as the strength and longevity of immunity, can be challenging to characterize, particularly if they cannot be replicated or controlled in captive environments. Our research on bighorn sheep pneumonia elucidates how individual bighorn sheep respond to infection with pneumonia pathogens by examining the relationship between exposure history and survival in situ. Pneumonia is a poorly understood disease that has impeded the recovery of bighorn sheep (Ovis canadensis) following their widespread extirpation in the 1900s. We analyzed the effects of pneumonia-exposure history on survival of 388 radio-collared adults and 753 ewe-lamb pairs. Results from Cox proportional hazards models suggested that surviving ewes develop protective immunity after exposure, but previous exposure in ewes does not protect their lambs during pneumonia outbreaks. Paradoxically, multiple exposures of ewes to pneumonia were associated with diminished survival of their offspring during pneumonia outbreaks. Although there was support for waning and boosting immunity in ewes, models with consistent immunizing exposure were similarly supported. Translocated animals that had not previously been exposed were more likely to die of pneumonia than residents. These results suggest that pneumonia in bighorn sheep can lead to aging populations of immune adults with limited recruitment. Recovery is unlikely to be enhanced by translocating naïve healthy animals into or near populations infected with pneumonia pathogens.

Published

2013