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The Anomura presents the greatest degree of morphological disparity in the decapod Crustacea, with body forms ranging from the symmetrical and asymmetrical hermit crabs to squat lobsters and king crabs. The phylogeny of the anomurans has been fraught with controversy. Recent debate has focused primarily on the phenomenon of carcinization, the evolution of crab-like form from a non-crab-like ancestor, focused chiefly on derivation of king crabs from asymmetrical hermit crabs—the \"hermit to king\" hypothesis. We show by phylogenetic analysis of five nuclear protein-coding gene sequences that hermit crabs have a single origin, but surprisingly, that almost all other major clades and body forms within the Anomura, are derived from within the hermit crabs. The crab-like form and squat lobster form have each evolved at least twice from separate symmetrical hermit crab ancestors. In each case, a carcinization trend can be posited via a transition series from the initial symmetrical long-tailed hermit crab form, through the intermediate squat lobster or asymmetrical hermit crab form, to the final crab-like form. Adaptation to dextral shell habitation evolved at least twice, once in an exclusively deep-water clade and once in the common ancestor of all other asymmetrical hermit crabs (from which king crabs are derived). These remarkable cases of parallelism suggest considerable phenotypic flexibility within the hermit crab ground plan, with a general tendency toward carcinization. Rather than having a separate origin from other major clades, hermit crabs have given rise to most other major anomuran body types.

Translocation experiments, in which researchers displace animals and then monitor their movements to return home, are commonly used as tools to assess functional connectivity of fragmented landscapes. Such experiments are purported to have important advantages of being time efficient and of standardizing \"motivation\" to move across individuals. Yet, we lack tests of whether movement behavior of translocated birds reflects natural behavior of unmanipulated birds. We compared the routine movement behavior of a tropical hummingbird, the Green Hermit ( Phaethornis guy ), to that of experimentally translocated individuals. We tested for differences in site selection patterns during movement at two spatial scales (point and path levels). We also compared movement rates between treatments. Behaviors documented during translocation experiments reflected those observed during routine movements. At the point level, both translocated and non-translocated birds showed similar levels of preference for mature tropical forest. At the path level, step selection functions showed both translocated and non-translocated hummingbirds avoiding movement across non-forested matrix and selecting streams as movement corridors. Movement rates were generally higher during translocation experiments. However, the negative influence of forest cover on movement rates was proportionately similar in translocation and routine movement treatments. We report the first evidence showing that movement behavior of birds during translocation experiments is similar to their natural movement behavior. Therefore, translocation experiments may be reliable tools to address effects of landscape structure on animal movement. We observed consistent selection of landscape elements between translocated and non-translocated birds, indicating that both routine and translocation movement studies lead to similar conclusions regarding the effect of landscape structure and forest composition on functional connectivity. Our observation that hummingbirds avoid non-forest matrix and select riparian corridors also provides a potential mechanism for pollen limitation in fragmented tropical forest.

Significance The song of the hermit thrush, a common North American songbird, is renowned for its apparent musicality and has attracted the attention of musicians and ornithologists for more than a century. Here we show that hermit thrush songs, like much human music, use pitches that are mathematically related by simple integer ratios and follow the harmonic series. Our findings add to a small but growing body of research showing that a preference for small-integer ratio intervals is not unique to humans and are thus particularly relevant to the ongoing nature/nurture debate about whether musical predispositions such as the preference for consonant intervals are biologically or culturally driven. Many human musical scales, including the diatonic major scale prevalent in Western music, are built partially or entirely from intervals (ratios between adjacent frequencies) corresponding to small-integer proportions drawn from the harmonic series. Scientists have long debated the extent to which principles of scale generation in human music are biologically or culturally determined. Data from animal “song” may provide new insights into this discussion. Here, by examining pitch relationships using both a simple linear regression model and a Bayesian generative model, we show that most songs of the hermit thrush ( Catharus guttatus ) favor simple frequency ratios derived from the harmonic (or overtone) series. Furthermore, we show that this frequency selection results not from physical constraints governing peripheral production mechanisms but from active selection at a central level. These data provide the most rigorous empirical evidence to date of a bird song that makes use of the same mathematical principles that underlie Western and many non-Western musical scales, demonstrating surprising convergence between human and animal “song cultures.” Although there is no evidence that the songs of most bird species follow the overtone series, our findings add to a small but growing body of research showing that a preference for small-integer frequency ratios is not unique to humans. These findings thus have important implications for current debates about the origins of human musical systems and may call for a reevaluation of existing theories of musical consonance based on specific human vocal characteristics.

Knowledge of stopovers made by migratory birds comes mostly from studies at relatively fine spatial scales. While this focus yields important information about processes at those scales, it ignores possible processes acting at broader spatial scales. We established an array of three automated radio-telemetry receiver towers housing ten antennas arranged to sample a landscape and its associated airspace at Lake Erie in southern Canada. We used digitally coded tags to monitor the behavior of multiple Swainson's and Hermit Thrushes (Catharus ustulatus and C. guttatus) simultaneously during fall 2008. The towers registered flight activity of 86% of the 69 radio-tagged individuals, whose flights occurred predominantly shortly after the end of evening civil twilight. We recorded 15 nocturnal flights that were not departure flights, indicating that during stopover passerines make nocturnal flights for purposes other than the continuation of migration. The flights we recorded were distributed throughout the night, and in eight cases they resulted in individuals moving many kilometers. These multiple instances of nocturnal landscape-scale movements represent an ecological process that is not detectable when the focus of sampling is too small. We suggest that in most studies of passerines' stopover ecology, researchers need to consider temporal and spatial scales more carefully.

Unambiguous examples of ecological causation of sexual dimorphism are rare, and the best evidence involves sexual differences in trophic morphology. We show that moderate female-biased sexual dimorphism in bill curvature is the ancestral condition in hermit hummingbirds (Phaethornithinae), and that it is greatly amplified in species such as Glaucis hirsutus and Phaethornis guy, where bills of females are 60 per cent more curved than bills of males. In contrast, bill curvature dimorphism is lost or reduced in a lineage of short-billed hermit species and in specialist Eutoxeres sicklebill hermits. In the hermits, males tend to be larger than females in the majority of species, although size dimorphism is typically small. Consistent with earlier studies of hummingbird feeding performance, both raw regressions of traits and phylogenetic independent contrasts supported the prediction that dimorphism in bill curvature of hermits is associated with longer bills. Some evidence indicates that differences between sexes of hermit hummingbirds are associated with differences in the use of food plants. We suggest that some hermit hummingbirds provide model organisms for studies of ecological causation of sexual dimorphism because their sexual dimorphism in bill curvature provides a diagnostic clue for the food plants that need to be monitored for studies of sexual differences in resource use.

European earthworms (Lumbricus spp.) are spreading into previously earthworm-free forests in the United States and Canada and causing substantial changes, including homogenization of soil structure, removal of the litter layer, and reduction in arthropod abundance and species richness of understory plants. Whether these changes affect songbirds that nest and forage on the forest floor is unknown. In stands with and without earthworms in the Chequamegon-Nicolet National Forest, Wisconsin (U. S. A.), we surveyed for, monitored nests of, and measured attributes of habitat of Ovenbirds (Seiurus aurocapillus) and Hermit Thrushes (Catharus guttatus), both ground-dwelling songbirds, and we sampled earthworms at survey points and nests. Bird surveys indicated significantly lower densities of Ovenbirds and Hermit Thrushes in relation to Lumbricus invasions at survey point and stand extents (3.1 and 15-20 ha, respectively). Modeling of Ovenbird nest survival (i. e., the probability that nestlings successfully fledge) indicated that lower survival probabilities were associated with increased sedge cover and decreased litter depth, factors that are related to Lumbricus invasions, possibly due to reduced nest concealment or arthropod abundance. Our findings provide compelling evidence that earthworm invasions may be associated with local declines of forest songbird populations. Las lombrices terrestres europeas (Lumbricus spp.) se están dispersando hacia bosques previamente libres de lombrices de tierra en Estados Unidos y Canadá y están provocando daños sustanciales, incluyendo la homogenización de la estructura de suelo, remoción de la capa de hojarascay reducción de la abundancia de artropodos y de la riqueza de plantas del sotobosque. Se desconoce si estos cambios afectan a las aves canoras que anidan y forrajean sobre el suelo del bosque. En parcelas con y sin lombrices en el Bosque Nacional Chequamegon-Nicolet, Wisconsin (E. U. A.), muestreamos a, monitoreamos nidos de y medimos atributos del hábitat de Seiurus aurocapillus y Catharus guttatus, especies de aves canoras que habitan sobre el suelo, y muestreamos lombrices de tierra en los puntos de muestreo y en los nidos. Los muestreos de aves indicaron densidades significativamente menores de S. aurocapillus guttatus en relación con las invasiones de Lumbricus en el punto de muestreo laparcela 01 15-20 ha, respectivamente). El modelado de la supervivencia de nidos de S. aurocapillus (i.e., la probabilidad de que las crías vuelen exitosamente) indicó que las menores probabilidades de supervivencia se asociaron con el incremento de la cobertura de arbustos y el decremento de la profundidad de la hojarasca, factores que están relacionados con las invasionesde Lumbricus, posiblemente debido a la reducción en el ocultamiento de nidos la abundancia de artrópodos.Nuestros resultados proporcionan evidencia irrefutable de que las invasiones de lombrices terrestres se pueden asociar con declinaciones locales de poblaciones de aves canoras de bosque.

Alexander Skutch hypothesized that increased parental activity can increase the risk of nest predation. We tested this hypothesis using ten open-nesting bird species in Arizona, USA. Parental activity was greater during the nestling than incubation stage because parents visited the nest frequently to feed their young during the nestling stage. However, nest predation did not generally increase with parental activity between nesting stages across the ten study species. Previous investigators have found similar results. We tested whether nest site effects might yield higher predation during incubation because the most obvious sites are depredated most rapidly. We conducted experiments using nest sites from the previous year to remove parental activity. Our results showed that nest sites have highly repeatable effects on nest predation risk; poor nest sites incurred rapid predation and caused predation rates to be greater during the incubation than nestling stage. This pattern also was exhibited in a bird species with similar (i.e. controlled) parental activity between nesting stages. Once nest site effects are taken into account, nest predation shows a strong proximate increase with parental activity during the nestling stage within and across species. Parental activity and nest sites exert antagonistic influences on current estimates of nest predation between nesting stages and both must be considered in order to understand current patterns of nest predation, which is an important source of natural selection.

Hummingbirds are the most common group of vertebrate pollinators in the Neotropics, associated with pollination of ornithophilous flowers. The group can be divided into hermits and non-hermits, in which hermits are often regarded as the most specialized group closely associated with more specialized ornithophilous plants. In this study, we investigated the association of ornithophilous flowers and hummingbirds in two small fragments of forest surrounded by an urban matrix. We characterized the species composition, abundance and phenology of the hummingbirds and ornithophilous plants and related pollinator abundance to floral resource availability. Our results were compared to published data from other forest areas from the Cerrado. In our study areas, the diversity of ornithophilous plants and hummingbirds was similar to what has been reported for forest fragments in the Cerrado. Nevertheless, we found Thalurania furcata, a non-hermit, acting as the most frequent hummingbird pollinator in contrast to more preserved areas in which a hermit, Phaethornis pretrei, is commonly found as the main pollinator for ornithophilous plants. The nectar energy availability at the plant population level was the only factor associated with hummingbird visitation rates, suggesting that a higher availability of nectar resources in the fragments attracts greater abundance of birds. The unusual setting of having a non-hermit species as the main hummingbird pollinator in forest areas suggests that habitat fragmentation can favor more generalist hummingbird species, and this potentially has consequence for the pollination of associated plants.

Fuel deposition rates of migrating birds may indicate the quality of habitat at stopover sites, yet little is known about how diet habits and food availability affect fat and protein metabolism in free-living songbirds at stopover sites. We compared plasma indicators of fat deposition (triglyceride), fat catabolism (B-hydroxybutyrate), and protein catabolism (uric acid) among passerine species that are frugivorous to a variable degree during autumn stopover on Block Island, Rhode Island. We also compared plasma lipid metabolites from 3 of these species that were captured at 2 stopover sites with different fruit abundance. The more frugivorous Hermit Thrushes (Catharus guttatus) had the highest plasma triglyceride, and uric acid was highest in the least frugivorous species sampled on Block Island, but other differences among species were not clearly related to diet. B-hydroxybutyrate was more variable among the species sampled on Block Island. Plasma triglyceride was significantly higher in Hermit Thrushes captured on Block Island, where fruit resources were abundant, than in Hermit Thrushes captured at a mainland site in southern Rhode Island, where less fruit was available. Our results suggest that diet habits may influence fat and protein metabolism in migrating passerines, but careful study design and statistical analyses are necessary to control for or minimize the effects of the many influential factors that affect plasma metabolites so they can be used to assess fuel deposition in free-living birds and to compare the quality of migration stopover sites.