Affinities and Historical Zoogeography of the New Zealand Short-Tailed Bat, Mystacina tuberculata Gray 1843, Inferred from DNA-Hybridization Comparisons

We carried out DNA-hybridization comparisons among representatives of the major groups of Chiroptera to determine the phylogenetic position of the New Zealand short-tailed bat, Mystacina tuberculata. All analyses confirmed the noctilionoid affinity of this species suggested by an earlier serological study, with support from taxon jackknifing and at bootstrap levels of 98% or higher. However, a specific association with Noctilio was not found in more than 13% of the bootstrapped trees. The most precise of the thermal-stability indices employed (T _m, the median melting temperature of hybridized sequences) demonstrated a sister-group relationship of Mystacina to all noctilionoids, with Noctilio the first branch within Noctilionoidea but separated from the Mystacina lineage by a very short internode. Our determination of the timing of the divergence of Mystacina from noctilionoids is 54 myrbp. This estimate is based on independent indications that extant bat lineages began to diversify in the latest Cretaceous and is much earlier than the tentative estimate of 35 myrbp inferred from serology. Even if the diversification of all living bats occurred as early as 83 myrbp, as some authors have suggested, separation of Mystacinidae—on that basis, at 66 myrbp—could not have taken place soon enough for this taxon to be isolated on New Zealand before New Zealand separated from the rest of Gondwanaland. However, any of these dates would allow for the distribution of the noctilionoid–mystacinid common ancestor in South America, Australia, and Antarctica before the final sundering of Australia from Antarctica and for the divergence of Mystacinidae as a possible result of that event. This hypothesis is supported by the presence of fossil mystacinids in early and mid-Miocene deposits at Bullock Creek and Riversleigh, Queensland, showing that Mystacinidae had been resident in Australia from at least 25–20 myrbp. The most obvious scenario explaining the presence of Mystacinidae in New Zealand is therefore fortuitous dispersal from Australia across the Tasman Sea.     

Feeding by the short‐tailed bat (Mystacina tuberculata) on fruit and possibly nectar

New Zealand's short‐tailed bat (Mystacina tuberculata Gray, 1843) feeds on fruit, insects, and possibly nectar in North Island kauri (Agathis australis) forest. Fruits eaten by members of a colony of 500 bats in May included those of Freycinetia baueriana (Pandanaceae), Collospermum hastatum, and C. microspermum (Liliaceae). Pollen analyses of bat guano, and of the stomach contents of 4 short‐tailed bats from Omahuta Forest (Lat. 35°10'S) and 3 from Stewart Island and adjacent islands (Lat. 47°15'S), showed that most of the pollen was from flowers of Metrosideros and Leptospermum (Myrtaceae), Knightia excelsa (Proteaceae), and Collospermum, and that spores of the tree fern Cyathea (Cyatheaceae) were present also. Both Metrosideros and Knightia have abundant nectar. The partially extensile tongue of Mystacina is tipped with a brush of fine papillae, possibly to extract nectar and pollen; but the pollen and spores in the bat stomachs and guano could have come from insects eaten by the bats. Transverse ridges on the tongue may assist removal of juice from ripe fruits. These bats may disperse the small seeds of Freycinetia baueriana. The anatomical modifications of Mystacina for terrestrial and arboreal locomotion may have evolved primarily in response to its frugivorous and suspected nectarivorous habits.     

A new bat‐fly family from New Zealand (Diptera: Mystacinobiidae)

Mystacinobia zelandica n.sp. is described. It is the sole member of Mystacinobia new genus and of Mystacinobiidae new family, and belongs to the superfamily Drosophiloidea. The species lives in large communities in roosts of the New Zealand short‐tailed bat, Mystacina tuberculata, and requires temperatures around 30°c for development and survival. Adults are physogastric, apterous, and have reduced eyes. The claws are adapted for movement over bat fur, but the mouthparts are not modified for blood‐feeding. Adults and larvae feed on guano. Eggs are laid in clusters in roost wood, and have non‐functional respiratory horns. Larvae have elongate anterior spiracles, tubular posterior spiracles, and 5 pairs of anal papillae. The puparium has a reduced operculum. Dispersal to new roosts depends entirely on transport by Mystacina, and as many as 10 phoretic flies have been found embedded in fur of individual bats leaving a roost to feed at night. The species has reached a degree of sociality which includes group oviposition, partial overlapping of generations, clustering of all stages, mutual grooming, male polymorphism, and extension of the males’ life‐span beyond the reproductive phase to form a sound‐producing guard caste which probably prevents the bats from interfering with the bat‐fly community. Mystacinobia zelandica is part of the New Zealand Endemic (Archaic) Element, which also includes Mystacina tuberculata.     

Miocene Fossils Reveal Ancient Roots for New Zealand’s Endemic Mystacina (Chiroptera) and Its Rainforest Habitat

The New Zealand endemic bat family Mystacinidae comprises just two Recent species referred to a single genus, Mystacina. The family was once more diverse and widespread, with an additional six extinct taxa recorded from Australia and New Zealand. Here, a new mystacinid is described from the early Miocene (19–16 Ma) St Bathans Fauna of Central Otago, South Island, New Zealand. It is the first pre-Pleistocene record of the modern genus and it extends the evolutionary history of Mystacina back at least 16 million years. Extant Mystacina species occupy old-growth rainforest and are semi-terrestrial with an exceptionally broad omnivorous diet. The majority of the plants inhabited, pollinated, dispersed or eaten by modern Mystacina were well-established in southern New Zealand in the early Miocene, based on the fossil record from sites at or near where the bat fossils are found. Similarly, many of the arthropod prey of living Mystacina are recorded as fossils in the same area. Although none of the Miocene plant and arthropod species is extant, most are closely related to modern taxa, demonstrating potentially long-standing ecological associations with Mystacina.     

Laboulbeniales hyperparasites (Fungi,Ascomycota) of bat flies: Independent origins and host associations

The aim of this study was to explore the diversity of ectoparasitic fungi (Ascomycota, Laboulbeniales) that use bat flies (Diptera, Hippoboscoidea) as hosts. Bat flies themselves live as ectoparasites on the fur and wing membranes of bats (Mammalia, Chiroptera); hence this is a tripartite parasite system. Here, we collected bats, bat flies, and Laboulbeniales, and conducted phylogenetic analyses of Laboulbeniales to contrast morphology with ribosomal sequence data. Parasitism of bat flies by Laboulbeniales arose at least three times independently, once in the Eastern Hemisphere (Arthrorhynchus) and twice in the Western Hemisphere (Gloeandromyces, Nycteromyces). We hypothesize that the genera Arthrorhynchus and Nycteromyces evolved independently from lineages of ectoparasites of true bugs (Hemiptera). We assessed phylogenetic diversity of the genus Gloeandromyces by considering the LSU rDNA region. Phenotypic plasticity and position‐induced morphological adaptations go hand in hand. Different morphotypes belong to the same phylogenetic species. Two species, G. pageanus and G. streblae, show divergence by host utilization. In our assessment of coevolution, we only observe congruence between the Old World clades of bat flies and Laboulbeniales. The other associations are the result of the roosting ecology of the bat hosts. This study has considerably increased our knowledge about bats and their associated ectoparasites and shown the necessity of including molecular data in Laboulbeniales taxonomy.     

Survival of PIT-tagged lesser short-tailed bats (

Introduced mammalian predators are a major threat to New?Zealand?s wildlife, including bats. Controlling these predators using traps and poison baits can reduce their impact on bat populations. However, lesser short-tailed bats (Mystacina tuberculata) are potentially susceptible to toxins used for pest control in New?Zealand forests because of their broad diet and habit of feeding on the ground. Therefore, the risk of secondary poisoning should always be assessed before new toxins are used in areas inhabited by lesser short-tailed bats. We measured survivorship of a sample of lesser short-tailed bats monitored before, during and after deployment of the first-generation anticoagulant toxin pindone in the Eglinton Valley, Fiordland, during late winter and summer 2009?2010. Pindone-laced cereal baits were deployed in bait stations from September to late December 2009 in an effort to control rats (Rattus spp.). Communal roosts of the one lesser short-tailed bat colony in the valley are located entirely within or immediately adjacent to the area poisoned. Minimum number alive was determined for the sampled bat population after monitoring the occupancy of colonial roosts by individually PIT-tagged bats through the study period. Survivorship of bats was high throughout the monitoring period, with 319 of 322 bats (99%) recorded in the pre-monitoring period (August) known to be alive in October 2009 and 312 of 322 bats (97%) known to still be alive in January 2010. We conclude that lesser short-tailed bats did not consume pindone baits and that their survival was probably enhanced by rat control in the study area.     

Adaptive Evolution of the Myo6 Gene in Old World Fruit Bats (Family: Pteropodidae)

Myosin VI (encoded by the Myo6 gene) is highly expressed in the inner and outer hair cells of the ear, retina, and polarized epithelial cells such as kidney proximal tubule cells and intestinal enterocytes. The Myo6 gene is thought to be involved in a wide range of physiological functions such as hearing, vision, and clathrin-mediated endocytosis. Bats (Chiroptera) represent one of the most fascinating mammal groups for molecular evolutionary studies of the Myo6 gene. A diversity of specialized adaptations occur among different bat lineages, such as echolocation and associated high-frequency hearing in laryngeal echolocating bats, large eyes and a strong dependence on vision in Old World fruit bats (Pteropodidae), and specialized high-carbohydrate but low-nitrogen diets in both Old World and New World fruit bats (Phyllostomidae). To investigate what role(s) the Myo6 gene might fulfill in bats, we sequenced the coding region of the Myo6 gene in 15 bat species and used molecular evolutionary analyses to detect evidence of positive selection in different bat lineages. We also conducted real-time PCR assays to explore the expression levels of Myo6 in a range of tissues from three representative bat species. Molecular evolutionary analyses revealed that the Myo6 gene, which was widely considered as a hearing gene, has undergone adaptive evolution in the Old World fruit bats which lack laryngeal echolocation and associated high-frequency hearing. Real-time PCR showed the highest expression level of the Myo6 gene in the kidney among ten tissues examined in three bat species, indicating an important role for this gene in kidney function. We suggest that Myo6 has undergone adaptive evolution in Old World fruit bats in relation to receptor-mediated endocytosis for the preservation of protein and essential nutrients.     

Non-native pollen found in short-tailed bat (

We analysed pollen in short-tailed bat guano samples from Rangataua Forest and from guano and pollen found in bat holding bags used in the Kaimanawa Range, central North Island. Fifty seven percent of the pollen from Rangataua was from a previously unrecorded source and was tentatively identified as Trachycarpus fortunei (Chinese windmill palm). The significant remaining pollen was identified as Collospermum (15%) and Nothofagus (14%) from Rangataua, and Collospermum (90%) and Nothofagus (6%) from Kaimanawa. While the presence of Collospermum from both sites is consistent with previous work, pollen from T. fortunei, an exotic palm growing near Rangataua Forest, has not previously been found in association with short-tailed bats. Despite nocturnal surveillance with automated bat detectors and infra-red video cameras, we failed to confirm bat visitation to these palms. Nothofagus is wind-pollinated and pollen extracted from samples taken from both sites is probably wind-borne contamination. A collation of data from all available studies on the pollen found associated with short-tailed bats throughout New Zealand reveals that flowers from just four plant groups appear to be regularly used by bats: Collospermum spp., Knightia excelsa, Metrosideros spp. and, apparently, T. fortunei.     

Intrinsic and extrinsic factors affecting dietary specialization in Neotropical frugivorous bats

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Comparative hindlimb bone morphology in noctilionid fisher bats (Chiroptera: Noctilionidae), with emphasis on Noctilio leporinus postnatal development

The hindlimbs allow bats to attach to the mother from birth, and roost during independent life. Despite the great morphological diversity in Chiroptera, the hindlimbs morphology and its postnatal development have been poorly studied. Postnatal development of hindlimbs in Noctilio leporinus is described, further comparing the morphology of adults with that of Noctilio albiventris and previously reported species (Desmodus rotundus, Artibeus lituratus, Molossus molossus). The ossification ending sequence at autopodium elements of N. leporinus does not follow the distal to proximal directional sequence described for D. rotundus, exhibiting a heterochronic delayed ossification ending for the digits of N. leporinus regarding other hindlimb elements, associated with the bigger relative autopodium size of this fisher bat regarding other bat species. Noctilionid bats share the same adult hindlimb bone morphology, except for differences at hindlimb proportions and calcar ossification degree. There are differences in the number and position of bony processes, slots and sesamoids of adult noctilionid fisher bats regarding previously reported species; most differences are concentrated at the autopodium and are related to an increased surface for muscular insertion and the structural support of claws. These facts seem to be closely associated with functional demands of the feeding strategy of noctilionid fisher bats.     

Ecology and evolutionary biology of fishing bats

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Normal embryonic development of the greater horseshoe bat Rhinolophus ferrumequinum,with special reference to nose leaf formation

The order Chiroptera (bats) is the second largest group of mammals, composed of more than 1,300 species. Although powered flight and echolocation in bats have attracted many biologists, diversity in bat facial morphology has been almost neglected. Some bat species have a “nose leaf,” a leaf-like epithelial appendage around their nostrils. The nose leaf appears to have been acquired at least three times independently in bat evolution, and its morphology is highly diverse among bats species. Internal tissue morphology of nose-leaves has been investigated through histological analyses of late-stage fetuses of some bat species possessing the nose leaf. However, the proximate factors that bring about chiropteran nose-leaves have not been identified. As an initial step to address the question above, we describe the normal embryonic development of the greater horseshoe bat Rhinolophus ferrumequinum, and examine development of the tissues associated with their nose leaf during embryogenesis through histological analyses. We found that the nose leaf of R. ferrumequinum is formed through two phases. First, the primordium of the nose leaf appears as two tissue bulges aligned top and bottom on the face at embryonic stages 15–16. Second, the sub-regions of the nose leaf are differentiated through ingrowth as well as outgrowth of the epithelium at stage 17. In embryogenesis of Carollia perspicillata, a phyllostomid species with a nose leaf, the nose leaf primordium is formed as a small tissue bulge on the nostril at stage 17. This tissue bulge grows into a dorsally projected thin epithelial structure. Such differences in the nose leaf developmental process between chiropteran lineages may suggest that distinct developmental mechanisms have been employed in each lineage's nose leaf evolution.     

Lactate Dehydrogenase Isozymes in the Tissues of Hibernating Bats (Chiroptera)

A comparative electrophoretic assay of lactate dehydrogenase (EC 1.1.1.27) isozymes has been carried out in the homogenates of the tissues of cardiac and skeletal muscles, liver, kidneys and lungs of five species of hibernating bats of the order Chiroptera: the northern bat Eptesicus nilssonii Keyserling and Blasius, the brown long-eared bat Plecotus auritus L., Brandt’s bat Myotis brandtii Eversmann, Daubenton’s bat Myotis daubentonii Kuhl, and the whiskered bat Myotis mystacinus Kuhl, which live in Karelia near the northern border of their distribution area. High contents of aerobic lactate dehydrogenase 1 and lactate dehydrogenase 2 isozymes have been detected in the skeletal muscle of the studied bats. The lactate dehydrogenase isozyme spectra of the tissues of kidneys and skeletal muscles from the smaller representatives of bats (the whiskered and Brandt’s bats) contained the highest content of H subunits among the studied species. In contrast, the predominance of M subunits has been revealed in the lactate dehydrogenase isozyme spectra of the kidneys of the northern and the brown long-eared bats. The discovered interspecies differences are discussed in the context of the adaptation of bats to hibernation.     

Eimeria eumopos n. sp. from a Colombian Bat Eumops trumbulli*

SYNOPSIS. Eimeria eumopos n. sp. (Coccidiida, Eimeriidae) from a Colombian bat Eumops trumbulli (Chiroptera, Molossidae) is described. This is the first recorded coccidium in a bat from the western hemisphere, and the sixth bat coccidium species described to date. The unsporulated oocysts in the bat feces are 30.9–24.0 by 28.9–23.2 μ (near 28.8 × 26.1 μ). Their outstanding feature is the pronounced pitting of the thick brownish oocyst wall.     

Parasitism,seasonality, and diversity of trombiculid mites (Trombidiformes: Parasitengona,Trombiculidae) infesting bats (Chiroptera) in Poland

The study aims to ascertain the diversity of trombiculid species associated with Chiroptera in Poland, and for the first time in the case of research on Central European Trombiculidae, we use both DNA and morphology in an integrative taxonomic approach to determine species identities of trombiculids. The research was carried out from 2015 to 2019. In total, 2725 larvae were collected from 300 specimens of bats belonging to 11 species. Deutonymphs were obtained through laboratory rearing of larvae; few larvae and deutonymphs were collected also from bats' daily roosts. The presence of trombiculid larvae on hosts was observed between July and April of the following year, with the highest numbers recorded in autumn, during bat swarming. Male bats were infested more often than females (16.4 vs. 6.6%). The highest infestation rate was recorded for Barbastella barbastellus, Myotis nattereri and Plecotus auritus, and the highest prevalence of chiggers (>?30%) for Myotis bechsteinii and P. auritus. The larvae found on bats occupied the areas with free access to the host’s skin: auricles, tragus, and snout. Morphological identification of specimens to the species level was hindered by the mosaic distribution of diagnostic traits. Morphological analyses indicated the presence of Leptotrombidium russicum and Leptotrombidium spp. in the examined material, whereas molecular analyses additionally suggested three other potential species assigned to the same genus based on the assessed scope of intrageneric variation (ASAP method). We argue that the identification of the parasitic larvae (chiggers) using morphological characters does not address the question of actual species boundaries, which, in turn, affects the inferences about host specificity and host range.

     

Complete mitochondrial genome sequences of three bats species and whole genome mitochondrial analyses reveal patterns of codon bias and lend support to a basal split in Chiroptera

Order Chiroptera is a unique group of mammals whose members have attained self-powered flight as their main mode of locomotion. Much speculation persists regarding bat evolution; however, lack of sufficient molecular data hampers evolutionary and conservation studies. Of ~ 1200 species, complete mitochondrial genome sequences are available for only eleven. Additional sequences should be generated if we are to resolve many questions concerning these fascinating mammals. Herein, we describe the complete mitochondrial genomes of three bats: Corynorhinus rafinesquii, Lasiurus borealis and Artibeus lituratus. We also compare the currently available mitochondrial genomes and analyze codon usage in Chiroptera. C. rafinesquii, L. borealis and A. lituratus mitochondrial genomes are 16438 bp, 17048 bp and 16709 bp, respectively. Genome organization and gene arrangements are similar to other bats. Phylogenetic analyses using complete mitochondrial genome sequences support previously established phylogenetic relationships and suggest utility in future studies focusing on the evolutionary aspects of these species. Comprehensive analyses of available bat mitochondrial genomes reveal distinct nucleotide patterns and synonymous codon preferences corresponding to different chiropteran families. These patterns suggest that mutational and selection forces are acting to different extents within Chiroptera and shape their mitochondrial genomes.     

Comparative Analysis of the Amino Acid Spectrum of Blood Plasma in Chiroptera (<Emphasis Type="Italic">Vespertilio murinus</Emphasis> L., 1758 and <Emphasis Type="Italic">Myotis dasycneme</Emphasis> B., 1825) in the Fauna of the Ural Mountains

The article presents the results of a new comparative analysis of free amino acids in the blood plasma of representatives of insectivorous Chiroptera (Mammalia: Vespertilionidae) in the fauna of the Ural Mountains: the pond bat (Myotis dasycneme Boie, 1825) and the parti-colored bat (Vespertilio murinus Linnaeus, 1758). This is the first study to show the species variability of free amino acids in resident and migratory species of bats from different ecosystems of the Ural Region.     

Bat Response to Woodland Restoration within Urban Forest Fragments

In urban environments, woodland areas are typically fragmented and subject to invasive species encroachment, woody overgrowth, and natural succession. In response to negative impacts, conservationists and land managers have implemented restoration strategies to enhance the integrity of woodlands. Because woodland habitat is important for bats (Order Chiroptera), alterations to forest structures may affect how bats utilize forest fragments in urban environments. We evaluated relationships among restoration efforts, microhabitat characteristics and overall bat activity, and interspecific variation among bats in response to woodland characteristics. We monitored bats in nine woodland forest preserves representing various stages of restoration within the Chicago metropolitan area in 2004 and 2005. Overall bat activity was positively related to prescribed burning, invasive species removal, and small tree density (7.7‐20 cm dbh) and inversely related to shrub density and clutter at 0‐6 m heights. There was interspecific variation in response to alterations in woodland structure, with Lasiurus borealis (L. borealis) positively associated with small and medium (20.1‐33 cm) tree densities and inversely related to clutter at 0‐9 m; Myotis spp. positively associated with canopy cover, clutter at 6‐9 m, and small and medium tree densities; and Lasionycteris noctivagans (L. noctivagans) positively associated with more open forests. Eptesicus fuscus (E. fuscus) activity was not strongly associated with any measured vegetation variable. Our results demonstrate bats positively respond to some forms of woodland restoration in urban landscapes. However, species‐specific responses to vegetation differed and should be taken into consideration when developing management plans.     

Terrestrial locomotor behaviors of the big brown bat (Vespertilionidae: Eptesicus fuscus)

Mammal Research - Although living bats (Mammalia: Chiroptera) demonstrate a wide variety of terrestrial behaviors and abilities, most research on terrestrial locomotor behaviors of bats has focused...