On the relationship among birds and Trema micrantha in montane forests of Hispaniola

Avian frugivores are of great interest to ecologists because they play an important role in ecosystem functioning, and can serve as important components in habitat restoration. In the Neotropics, observational studies have demonstrated the importance of a variety of fruit trees to numerous bird species, but undoubtedly other tree species exist that are a key resource for birds. I explored the relationship between Trema micrantha (L.) Blume, which produces superabundant fruit nearly continuously, and its disperser assemblage in Hispaniolan pine forest and montane broadleaf forest in the Sierra de Bahoruco, Dominican Republic. In 174 hours of observation at sixteen trees I recorded 513 visits by nineteen species of birds. Birds did not visit Trema in numbers reflecting their relative abundance in each habitat. The most frequent consumer of Trema fruit was the migratory Cape May Warbler, Setophaga tigrina (Gmelin, 1789), but other frequent visitors included the Black-throated Blue Warbler, S. caerulescens (Gmelin, 1789), and the endemic Palmchat, Dulus dominicus (Linnaeus, 1766), and Hispaniolan Highland-Tanager, Xenoligea montana (Chapman, 1917). I recorded 85 aggressive interactions among nine species of birds in Trema trees, with female Cape May Warblers involved in most of these. There was no evidence that Trema was dependent on any one species of bird for dispersal of its seeds, and despite the large proportion of visits by the Cape May Warbler, I found no evidence that any species of bird was dependent upon fruit from Trema. Rather, because male Cape May Warblers dominate females and defend nectar sources in these habitats, I suggest that for female  Cape May Warblers, these scattered Trema trees represent a known, reliable, and accessible source of food which they can defend. Trema trees will benefit these bird species as a food resource, but may also function as a target for many other birds moving across the landscape, thereby facilitating the dispersal of a wider variety of seeds and the restoration of deforested sites

Spatial stream modeling of Louisiana Waterthrush (\u3ci\u3eParkesia motacilla\u3c/i\u3e) foraging substrate and aquatic prey in a watershed undergoing shale gas development

We demonstrate the use of spatial stream network models (SSNMs) to explore relationships between a semiaquatic bioindicator songbird, Louisiana Waterthrush (Parkesia motacilla), and stream monitoring and benthic macroinvertebrate data in an area undergoing shale gas development. SSNMs allowed us to account for spatial autocorrelation inherent to these environmental data types and stream properties that traditional modeling approaches cannot capture to elucidate factors that affect waterthrush foraging locations. We monitored waterthrush along 58.1 km of 1st- and 2nd-order headwater stream tributaries (n = 14) in northwestern West Virginia over a two year period (2013–2014), sampled benthic macroinvertebrates in waterthrush territories, and collected wetted perimeter stream channel and water chemistry data along a 50 m fixed point stream grid. Spatial models outperformed traditional regression models and made a statistical difference in whether stream covariates of interest were considered relatable to waterthrush foraging. Waterthrush foraging probability index (FPI) was greater in areas where family and genus-level multi-metric indices of biotic stream integrity were higher (i.e. WVSCI and GLIMPSS). Waterthrush were found foraging both among stream flow connected and unconnected sampled sites on relatively further upstream locations where WVSCI and GLIMPSS were predicted to be highest. While there was no significant relationship found between FPI and shale gas land use on a catchment area scale, further information on waterthrush trophic dynamics and bioaccumulation of surface contaminants is needed before establishing the extent to which waterthrush foraging may be affected by shale gas development

RELATIVE ABUNDANCE AND MICROHABITAT OF FOUR SYMPATRIC ANTPITTAS IN AN INTERANDEAN VALLEY OF SOUTHERN ECUADOR

Exploring mechanisms that determine species coexistence is a key step to understand community organization and patterns of distribution of biodiversity. Anpittas, genus Grallaria, offer a great opportunity to measure coexistence mechanisms among closely related species. Antpittas are terrestrial insectivores with a specialized foraging technique and limited dispersal abilities; these factors could produce high levels of niche overlap and consequently reduce the chances of stable coexistence. We explored niche partitioning in space among four antpitta species (Rufous Antpitta, Chesnut-crowned Antpitta, Undulated Antpitta, Tawny Antpitta) which coexist in a tropical Andean valley located in southern Ecuador. We determined the abundance of each antpitta species in mature native forest, shrub, pasture, and páramo habitats, and gathered data about the microhabitat of each species. Abundance was determined using point counts, territories were located by triangulating on individual calls, and microhabitat characteristics were measured within each territory. We found no differences in the abundance or probability of occurrence of species among habitats for Rufous Antpitta, Chesnut-crowned Antpitta, and Undulated Anpitta, but Tawny Antpitta was restricted to páramo. At the microhabitat level, Rufous and Chesnut-crowned Antpittas shared similar vegetation characteristics, with the important presence of shrubs. Undulated Antpitta occurred in a microhabitat characterized by the presence of trees and a ground cover of mosses, while Tawny Antpitta occupied microhabitats with an open vegetation. In general our results suggest that closely related birds could partition their niche at different spatial scales, which could promote the coexistence of species in the tropical Andes

Avian community characteristics and demographics reveal how conservation value of regenerating tropical dry forest changes with forest age

Expansion of secondary forests following the abandonment of agriculture may have important implications for bird conservation, but few studies have examined the dynamics of this process. We studied bird use of a chronosequence of differently-aged abandoned pastures regenerating to dry forest to better understand how the value of these habitats to birds changes over time. In a five year study on Hispaniola, we recorded 7,315 net captures of 60 species of landbirds in sites that began the study at two, five, 10, and 20 years post-abandonment, and in mature native dry forest. Twenty-five species made up 97% of all net captures. Highest capture rates were in the two youngest sites. These early-successional habitats had many over-wintering Neotropical migrants; among residents, granivores and frugivores predominated. In contrast, both the twenty-year-old and mature forest sites had few migrants, more resident insectivores and omnivorous species, and a greater proportion of endemics. Age and sex ratios, body condition and site persistence suggest early successional sites were sub-optimal for most over-wintering migrants, but habitat improved with age for three migratory species; results for permanent residents varied among species. Remnant trees and understory shrubs in the agroecological matrix likely contributed to avian diversity in regenerating dry forest sites, and proximity to mature forest also likely affected the diversity and abundance of birds in regenerating habitat. Our study shows that regenerating forests do not fully compensate for loss of mature dry forest habitat, even after 24 years of regeneration; natural restoration of complex microhabitats in dry forest sites converted to agriculture may take decades or longer. The highest value of regenerating forests may be as habitat for some over-wintering Neotropical migrants, and in creating a buffer zone that enhances biodiversity conservation by re-integrating these lands into the protected tracts of mature forest needed by the islands more unique and endemic bird species

Gemfibrozil Inhibits Legionella pneumophila and Mycobacterium tuberculosis Enoyl Coenzyme A Reductases and Blocks Intracellular Growth of These Bacteria in Macrophages

We report here that gemfibrozil (GFZ) inhibits axenic and intracellular growth of Legionella pneumophila and of 27 strains of wild-type and multidrug-resistant Mycobacterium tuberculosis in bacteriological medium and in human and mouse macrophages, respectively. At a concentration of 0.4 mM, GFZ completely inhibited L. pneumophila fatty acid synthesis, while at 0.12 mM it promoted cytoplasmic accumulation of polyhydroxybutyrate. To assess the mechanism(s) of these effects, we cloned an L. pneumophila FabI enoyl reductase homolog that complemented for growth an Escherichia coli strain carrying a temperature-sensitive enoyl reductase and rendered the complemented E. coli strain sensitive to GFZ at the nonpermissive temperature. GFZ noncompetitively inhibited this L. pneumophila FabI homolog, as well as M. tuberculosis InhA and E. coli FabI

Parental investment and brood reduction in the blue-footed booby (Sula nebouxii)

Master of ScienceNatural Resources and EnvironmentUniversity of Michiganhttp://deepblue.lib.umich.edu/bitstream/2027.42/114154/1/39015012648823.pd