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      Evaluation of Proctophyllodes huitzilopochtlii on feathers from Anna’s ( Calypte anna) and Black-chinned ( Archilochus alexandri) Hummingbirds: Prevalence assessment and imaging analysis using light and tabletop scanning electron microscopy

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          Abstract

          Proctophyllodes huitzilopochtlii Atyeo & Braasch 1966 (Acariformes: Astigmata: Proctophyllodidae), a feather mite, was found on feathers collected from five hummingbird species in California. This mite has not been previously documented on feathers from Anna’s ( Calypte anna [Lesson 1829]) or Black-chinned ( Archilochus alexandri [Bourcier & Mulsant 1846]) Hummingbirds. A total of 753 hummingbirds were evaluated for the presence of mites by species (Allen’s n = 112; Anna’s n = 500; Black-chinned n = 122; Rufous n = 18; Calliope n = 1), sex (males n = 421; females n = 329; 3 unidentified), and age (juvenile n = 199; after-hatch-year n = 549; 5 unidentified). Of these 753 hummingbirds evaluated, mites were present on the rectrices of 40.9% of the birds. Significantly more Anna’s Hummingbirds were positive for rectricial mites (59.2%) compared with 8.2% of Black-chinned, 0.9% of Allen’s, 5.6% of Rufous Hummingbirds, and 0% for Calliope (p-value < 0.0001). Across all hummingbird species, male hummingbirds (44.9%) had a higher prevalence of rectricial mites compared to female hummingbirds (36.2%; p-value = 0.004), while juvenile hummingbirds (46.2%) had a non-significantly higher prevalence compared to after-hatch-year hummingbirds (39.0%; p-value = 0.089). On average, the percentage of the long axis of the rachis occupied by mites for the outer rectrices (R4 and R5) was 19%, compared to 11% for inner rectrices (R1 and R2), a significant difference (p-value = <0.0001). There was a marginal lack of significance for symmetrical distribution of tail mites with the mean left side percentage of long axis of the rachis occupied by mites being 16% and very close to the mean right side score of 18% (p-value = 0.003). The identification of the feather mite species was based on light microscopic morphometry, and mite distribution on feathers was further evaluated using tabletop scanning electron microscopy (TSEM). The hummingbird–feather mite relationship is not well understood, but the specialized TSEM technique may be especially useful in examining natural positioning and developmental aspects of the mites since it allows in situ feather examination of live mites.

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          Feather mites (Acari: Astigmata): ecology, behavior, and evolution.

          Birds host many lineages of symbiotic mites, but the greatest diversity is shown by the three superfamilies of astigmatan feather mites: Analgoidea, Pterolichoidea, and Freyanoidea. Members of this diphyletic grouping have colonized all parts of the avian integument from their ancestral nidicolous habitat. Whereas some clearly feed on feather pith or skin, acting as parasites, other feather mites are paraphages and consume feather oils without causing structural damage. Sexual dimorphism in feather mites is often extreme, and little is known of the function of many elaborate male structures. Abundance and location of vane-dwelling mites is affected by season, temperature, light, humidity, and host body condition. Because transmission between hosts usually depends on host body contact, it is unsurprising that feather mite phylogeny often parallels host phylogeny; however, recent cladistic analyses have also found evidence of host-jumping and "missing the boat" in several mite lineages.
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            Winter range expansion of a hummingbird is associated with urbanization and supplementary feeding

            Anthropogenic changes to the landscape and climate cause novel ecological and evolutionary pressures, leading to potentially dramatic changes in the distribution of biodiversity. Warm winter temperatures can shift species' distributions to regions that were previously uninhabitable. Further, urbanization and supplementary feeding may facilitate range expansions and potentially reduce migration tendency. Here we explore how these factors interact to cause non-uniform effects across a species's range. Using 17 years of data from the citizen science programme Project FeederWatch, we examined the relationships between urbanization, winter temperatures and the availability of supplementary food (i.e. artificial nectar) on the winter range expansion (more than 700 km northward in the past two decades) of Anna's hummingbirds ( Calypte anna ). We found that Anna's hummingbirds have colonized colder locations over time, were more likely to colonize sites with higher housing density and were more likely to visit feeders in the expanded range compared to the historical range. Additionally, their range expansion mirrored a corresponding increase over time in the tendency of people to provide nectar feeders in the expanded range. This work illustrates how humans may alter the distribution and potentially the migratory behaviour of species through landscape and resource modification.
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              Glaucalges Tytonis Sp. N. (Analgoidea, Xolalgidae) From The Barn Owl Tyto Alba (Strigiformes, Tytonidae): Compiling Morphology With Dna Barcode Data For Taxon Descriptions In Mites (Acari)

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                Author and article information

                Contributors
                Role: Data curationRole: Writing – review & editing
                Role: Data curationRole: Writing – review & editing
                Role: Data curationRole: Writing – review & editing
                Role: Data curationRole: ValidationRole: Writing – review & editing
                Role: ConceptualizationRole: Writing – review & editing
                Role: Data curationRole: Writing – review & editing
                Role: Formal analysis
                Role: ConceptualizationRole: Data curationRole: Funding acquisitionRole: InvestigationRole: MethodologyRole: Project administrationRole: Writing – original draft
                Role: Editor
                Journal
                PLoS One
                PLoS ONE
                plos
                plosone
                PLoS ONE
                Public Library of Science (San Francisco, CA USA )
                1932-6203
                14 February 2018
                2018
                : 13
                : 2
                : e0191323
                Affiliations
                [1 ] Department of Veterinary Microbiology and Pathology, Washington State University, Pullman, Washington, United States of America
                [2 ] Department of Pathology, Microbiology, and Immunology, University of California, Davis, Davis, California, United States of America
                [3 ] Department of Environmental Science and Policy, University of California, Davis, Davis, California, United States of America
                [4 ] Department of Ecology and Evolutionary Biology, Museum of Zoology, University of Michigan, Ann Arbor, Michigan, United States of America
                [5 ] Electron Microscopy Core Laboratory, Department of Cell Biology and Human Anatomy, University of California Davis Health System, University of California, Davis, Davis, California, United States of America
                [6 ] Department of Medicine and Epidemiology, School of Veterinary Medicine, University of California, Davis, Davis, California, United States of America
                Universidad de Granada, SPAIN
                Author notes

                Competing Interests: The authors have declared that no competing interests exist.

                Author information
                http://orcid.org/0000-0003-1823-7420
                Article
                PONE-D-17-02376
                10.1371/journal.pone.0191323
                5812578
                29444089
                a01c0c10-eec6-443c-9404-b2dfd51ae119
                © 2018 Yamasaki et al

                This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

                History
                : 18 January 2017
                : 3 January 2018
                Page count
                Figures: 10, Tables: 3, Pages: 18
                Funding
                This study was partially funded by donations from Dr. Grant Patrick (Tell) and the Hunter-Jelks Fund (Tell).
                Categories
                Research Article
                Biology and Life Sciences
                Organisms
                Eukaryota
                Animals
                Invertebrates
                Arthropoda
                Mites
                Biology and Life Sciences
                Zoology
                Animal Anatomy
                Feathers
                Research and Analysis Methods
                Microscopy
                Light Microscopy
                Research and Analysis Methods
                Microscopy
                Electron Microscopy
                Scanning Electron Microscopy
                Biology and Life Sciences
                Organisms
                Eukaryota
                Animals
                Vertebrates
                Amniotes
                Birds
                Biology and Life Sciences
                Developmental Biology
                Life Cycles
                Nymphs
                Research and Analysis Methods
                Imaging Techniques
                Morphometry
                Medicine and Health Sciences
                Pathology and Laboratory Medicine
                Pathogenesis
                Host-Pathogen Interactions
                Custom metadata
                All relevant data are within the paper.

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                Uncategorized

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