Two new species of Hurleyella Runyon amp; Robinson (Diptera: Dolichopodidae), with the first record from the Neotropics.

Two new species of the long-legged fly genus Hurleyella Runyon Robinson, 2010 are described and illustrated: Hurleyella belizensis sp. nov. from Belize and Hurleyella salina sp. nov. from alkali areas of the Northern Rockies of the USA (Idaho, Montana, Wyoming). The discovery of these new species greatly extends the known distribution of Hurleyella northward in the Nearctic and southward into the Neotropics. Notes, photos of habitats, a distribution map, and a key to the four known species of Hurleyella are provided.

Influences of potential oil and gas development and future climate on Sage-grouse declines and redistribution.

Multiple environmental stressors impact wildlife populations, but we often know little about their cumulative and combined influences on population outcomes. We generally know more about past effects than potential future impacts, and direct influences such as changes of habitat footprints than indirect, long-term responses in behavior, distribution, or abundance. Yet, an understanding of all these components is needed to plan for future landscapes that include human activities and wildlife. We developed a case study to assess how spatially explicit individual-based modeling could be used to evaluate future population outcomes of gradual landscape change from multiple stressors. For Greater Sage-grouse in southwest Wyoming, USA, we projected oil and gas development footprints and climate-induced vegetation changes 50 years into the future. Using a time-series of planned oil and gas development and predicted climate-induced changes in vegetation, we recalculated habitat selection maps to dynamically modify future habitat quantity, quality, and configuration. We simulated long-term Sage-grouse responses to habitat change by allowing individuals to adjust to shifts in habitat availability and quality. The use of spatially explicit individual-based modeling offered a useful means of evaluating delayed indirect impacts of landscape change on wildlife population outcomes. The inclusion of movement and demographic responses to oil and gas infrastructure resulted in substantive changes in distribution and abundance when cumulated over several decades and throughout the regional population. When combined, additive development and climate-induced vegetation changes reduced abundance by up to half of the original size. In our example, the consideration of only a single population stressor the final possible population size by as much as 50%. Multiple stressors and their cumulative impacts need to be broadly considered through space and time to avoid underestimating the impacts of multiple gradual changes and overestimating the ability of populations to withstand change.

Serological survey for antibodies against pestiviruses in Wyoming domestic sheep.

Pestiviruses including Bovine viral diarrhea virus type 1 (BVDV-1), BVDV-2 and Border disease virus (BDV) have been reported in both sheep and cattle populations, together with the HoBi-like, an emerging group of pestiviruses. Pestivirus control programs in the United States have focused on the control of BVDV-1 and 2. The incidence of pestivirus infection in sheep in the United States and the risk of transmission between cattle and sheep populations are unknown. The aim of this study was to perform serological surveillance for pestivirus exposure in sheep from an important sheep producing state in the Unites States, Wyoming. For this, sera from 500 sheep, collected across the state of Wyoming (US) in 2015-2016, were examined by comparative virus neutralization assay against four species/proposed species of pestiviruses: BVDV-1, BVDV-2, BDV and HoBi-like virus. Rates of exposure varied between geographic regions within the state. The overall pestivirus prevalence of antibodies was 5.6%. Antibodies were most frequently detected against BVDV-1 (4%), and the highest antibody titers were also against BVDV-1. Data from this study highlights understanding of the dynamics of sheep pestivirus exposure, consideration of reference strains used for VN assays, transmission patterns, and potential vaccination history should be taken into account in implementation of control measures against pestiviruses in sheep and for successful BVDV control programs in cattle.

Redescription of Cletocamptus albuquerquensis and C. dominicanus (Harpacticoida: Canthocamptidae incertae sedis), and description of two new species from the US Virgin Islands and Bonaire.

The history surrounding the identity of Cletocamptus albuquerquensis (Herrick, 1894) and C. dominicanus Kiefer, 1934 is very complex. This complexity has been exacerbated by incomplete, and in some cases erroneous, original descriptions of these two species. Also, new records from other locations did not describe the significant characters needed to clearly delineate them. This led several authors to consider C. dominicanus as a synonym of C. albuquerquensis, among other taxonomical considerations regarding, for example, the status of Marshia brevicaudata Herrick, 1894. Inspection of biological material from Saskatchewan (southern Canada), Wyoming (central US), Trinidad and Tobago, and the British Virgin Islands, identified by other researchers as C. albuquerquensis, as well as of newly collected material from Great Salt Lake (Utah, central US), Puerto Rico, Culebra Island, Vieques Island, St. John Island (US Virgin Islands), San Salvador (Bahamas), and Santa Marta (Colombia), revealed that C. albuquerquensis and C. dominicanus are distinct and identifiable species, distributed in a more restricted area than previously thought. Additionally, we describe a new species, C. tainoi sp. nov., from St. John Island (US Virgin Islands), and we propose another new species, C. chappuisi sp. nov., for two males from Bonaire previously identified as C. albuquerquensis. Finally, we give some observations on tube-pore-like structures, previously overlooked, on the endopod of the male leg three.

Grazing intensity differentially regulates ANPP response to precipitation in North American semiarid grasslands.

Grazing intensity elicits changes in the composition of plant functional groups in both shortgrass steppe (SGS) and northern mixed-grass prairie (NMP) in North America. How these grazing intensity-induced changes control aboveground net primary production (ANPP) responses to precipitation remains a central open question, especially in light of predicted climate changes. Here, we evaluated effects of four levels (none, light, moderate, and heavy) of long-term (>30 yr) grazing intensity in SGS and NMP on: (1) ANPP; (2) precipitation-use efficiency (PUE, ANPP : precipitation); and (3) precipitation marginal response (PMR; slope of a linear regression model between ANPP and precipitation). We advance prior work by examining: (1) the consequences of a range of grazing intensities (more grazed vs. ungrazed); and (2) how grazing-induced changes in ANPP and PUE are related both to shifts in functional group composition and physiological responses within each functional group. Spring (April-June) precipitation, the primary determinant of ANPP, was only 12% higher in NMP than in SGS, yet ANPP and PUE were 25% higher. Doubling grazing intensity in SGS and nearly doubling it in NMP reduced ANPP and PUE by only 24% and 33%, respectively. Increased grazing intensity reduced C3 graminoid biomass and increased C4 grass biomass in both grasslands. Functional group shifts affected PUE through biomass reductions, as PUE was positively associated with the relative abundance of C3 species and negatively with C4 species across both grasslands. At the community level, PMR was similar between grasslands and unaffected by grazing intensity. However, PMR of C3 graminoids in SGS was eightfold higher in the ungrazed treatment than under any grazed level. In NMP, PMR of C3 graminoids was only reduced under heavy grazing intensity. Knowing the ecological consequences of grazing intensity provides valuable information for mitigation and adaptation strategies in response to predicted climate change. For example, moderate grazing (the recommended rate) in SGS would sequester the same amount of aboveground carbon as light grazing because ANPP was nearly the same. In contrast, reductions in grazing intensity in NMP from moderate to light intensity would increase the amount of aboveground carbon sequestrated by 25% because of increased ANPP.

First record of the genus Caenophanes Foerster (Hymenoptera: Braconidae: Doryctinae) for America north of Mexico with a description of a new species from Wyoming USA .

The first species of Caenophanes Foerster recorded from America north of Mexico is described: Caenophanes harlowi Haimowitz and Marsh, and a key to distinguish the two described New World species is provided. We discuss evidence that suggests that Caenophanes is likely to have cosmopolitan distribution and may be more common than might be anticipated from the current number of described species.

Phytogeographic implications of fossil endocarps of Menispermaceae from the Paleocene of Colombia.

PREMISE OF THE STUDY: Fossil leaves of Menispermaceae were previously described from the Paleocene of Colombia. Because of strong homoplasy of leaf characters, the fossils could not be placed more specifically within recognized clades, and additional data were needed to specify intrafamilial and paleogeographic relationships during the Paleocene. METHODS: Fossil endocarps of Menispermaceae were collected from the Cerrejón Formation, the recently discovered Bogotá flora, and Wyoming (∼60 Ma). We surveyed the endocarp morphology of almost all extant genera, conducted character optimization, a molecular scaffold analysis, and critically reviewed the related fossil genera. KEY RESULTS: Parallel syndromes of fruit characters have appeared in unrelated clades of the family according to current phylogenetic reconstructions. However, mapping selected endocarp characters across those clades that contain horseshoe-shaped endocarps facilitates identification and phylogenetic assessment of the fossils. Three fossil species are recognized. One of them belongs to the extant genus Stephania, which today grows only in Africa and Australasia. Palaeoluna gen. nov. is placed within the pantropical clade composed of extant Stephania, Cissampelos, and Cyclea; this morphogenus is also recognized from the Paleocene of Wyoming. Menispina gen. nov. shows similarity with several unrelated clades. CONCLUSIONS: The new fossils from Colombia reveal a complex paleobiogeographic history of the recognized clades within Menispermaceae, suggesting a more active exchange among neotropical, paleotropical, North American, and European paleoforests than previously recognized. In addition, the new fossils indicate that neotropical forests were an important biome for the radiation and dispersal of derived lineages in Menispermaceae after the Cretaceous-Paleogene boundary.

Three-year prevalence and incidence of diabetes among American Indian youth in Montana and Wyoming, 1999 to 2001.

OBJECTIVES: To estimate the prevalence and incidence of type 2 diabetes among American Indian youth. STUDY DESIGN: Medical records were reviewed annually for all patients with diabetes who were <20 years of age at 6 Indian Health Service facilities in Montana and Wyoming. All cases < or =5 years of age or weight per age < or =10th percentile at diagnosis or with islet cell antibodies were considered as probable type 1. Among the remaining cases, probable type 2 diabetes was defined when a child had one or more of the following characteristics: weight per age > or =95th percentile or acanthosis nigricans at diagnosis, elevated C-peptide or insulin, family history of type 2 diabetes; treatment with oral agents with or without insulin or no hypoglycemic therapy after 1 year of follow-up. RESULTS: From 1999 to 2001, 53% of prevalent cases and 70% of incident cases were categorized as probable type 2 diabetes. The average annual prevalence of probable type 1 and type 2 diabetes was 0.7 and 1.3 per 1000. The average annual incidence rates for probable type 1, and type 2 diabetes were 5.8, 23.3 per 100,000. CONCLUSIONS: The incidence of probable type 2 diabetes was approximately 4 times higher than type 1 diabetes among American Indian youth in Montana and Wyoming

The effects of UV radiation A and B on diurnal variation in photosynthesis in three taxonomically and ecologically diverse microbial mats.

Photosynthetic primary production, the basis of most global food chains, is inhibited by UV radiation. Evaluating UV inhibition is therefore important for assessing the role of natural levels of UV radiation in regulating ecosystem behavior as well as the potential impact of stratospheric ozone depletion on global ecosystems. As both photosynthesis and UV fluxes are subject to diurnal variations, we examined the diurnal variability of the effect of UV radiation on photosynthesis in three diverse algal mats. In one of the mats (Cyanidium caldarium) a small mean decrease in primary productivity over the whole day occurred when both UVA and UVB were screened out. In two of the mats (Lyngbya aestuarii and Zygogonium sp.) we found a mean increase in the total primary productivity over the day when UVB alone was screened and a further increase when UVA and UVB were both screened out. Variations in the effects of UV radiation were found at different times of the day. This diurnal variability may be because even under the same solar radiation flux, there are different factors that may control photosynthetic rate, including nutritional status and other physiological processes in the cell. The results show the importance of assessing the complete diurnal productivity. For some of the time points the increase in the mean was still within the standard deviations in primary productivity, illustrating the difficulty in dissecting UV effects from other natural variations.

Access of Native Americans to renal transplantation in Arizona and New Mexico.

Lower rates of transplantation among minority groups are a nationally recognized phenomenon. Native Americans (NA) nationally have nearly four times the risk of end-stage renal disease (ESRD) as compared with white (W) Americans and are significantly overrepresented in the Network 15 ESRD population. To understand more about NA and W transplant rates, we looked at all reported Arizona (AZ) and New Mexico (NM) resident cases from the Network No. 15 data base. Age of onset, sex, primary diagnosis, payment source, transplant donor source, and other factors were examined. NA experienced a slightly earlier onset of ESRD than W, and diabetes mellitus was the primary ESRD diagnosis for 63-73% of NA and for 34-39% of W. Because age distribution and frequency of diabetes mellitus of the NA ESRD population differ from those of W in the Network, age-specific and diagnosis-specific transplant rates were examined. Age-adjusted transplant rates per 100 ESRD patients for AZ were 16.4 (NA) and 21.0 (W) and for NM 14.2 (NA) and 22.4 (W). Diagnosis-specific age-adjusted transplant rates for patients with the primary diagnoses of diabetes mellitus and glomerulonephritis, the two most common causes of ESRD among NA, showed a large difference between W and NA rates. Age-adjusted rates for diabetes were: AZ 8.4% (NA) and 14.5% (W); NM 9.8% (NA) and 15.9% (W). Age-adjusted rates for patients with glomerulonephritis were: AZ 23.7% (NA) and 28.0% (W); NM 22.3% (NA) and 33.0% (W). In all comparisons and in both the W and NA ESRD populations, women were transplanted at lower rates than men. NA experienced a greater delay from onset of treated ESRD to transplant than W. Payment source and transplant donor source did not appear to be significantly different between NA and W. The lower transplant rates in NA versus W in Network No. 15 cannot be explained by age- or diagnosis-specific factors.

A "cryptic" microbial mat: a new model ecosystem for extant life on Mars.

If life were present on Mars to day, it would face potentially lethal environmental conditions such as a lack of water, frigid temperatures, ultraviolet radiation, and soil oxidants. In addition, the Viking missions did not detect near-surface organic carbon available for assimilation. Autotrophic organisms that lived under a protective layer of sand or gravel would be able to circumvent the ultraviolet radiation and lack of fixed carbon. Two terrestrial photosynthetic near-surface microbial communities have been identified, one in the inter- and supertidal of Laguna Ojo de Liebre (Baja California Sur, Mexico) and one in the acidic gravel near several small geysers in Yellowstone National Park (Wyoming, U.S.A.). Both communities have been studied with respect to their ability to fix carbon under different conditions, including elevated levels of inorganic carbon. Although these sand communities have not been exposed to the entire suite of Martian environmental conditions simultaneously, such communities can provide a useful model ecosystem for a potential extant Martian biota.

Elevated CO2: impact on diurnal patterns of photosynthesis in natural microbial ecosystems.

Algae, including blue-green algae (cyanobacteria), are the major source of fixed carbon in many aquatic ecosystems. Previous work has shown that photosynthetic carbon fixation is often enhanced in the presence of additional carbon dioxide (CO2). This study was undertaken to determine if this CO2 fertilization effect extended to microbial mats, and, if so, at what times during the day might the addition of CO2 affect carbon fixation. Four microbial mats from diverse environments were selected, including mats from a hypersaline pond (area 5, Exportadora de Sal, Mexico), the marine intertidal (Lyngbya, Laguna Ojo de Liebre, Mexico), an acidic hotspring (Cyanidium, Nymph Creek, Yellowstone National Park), and an acidic stream at ambient temperature (Zygogonium, Yellowstone National Park). Carbon fixation in the absence of additional CO2 essentially followed the rising and falling sunlight levels, except that during the middle of the day there was a short dip in carbon fixation rates. The addition of CO2 profoundly enhanced carbon fixation rates during the daylight hours, including during the midday dip. Therefore, it is unlikely that the midday dip was due to photoinhibition. Surprisingly, enhancement of carbon fixation was often greatest in the early morning or late afternoon, times when carbon fixation would be most likely to be light limited.

A comparison of marijuana use among Mexican-American and Anglo rural youth utilizing a matched-set analysis.

Attitudes and practices regarding marijuana use are examined in a sample of Mexican-American and Anglo adolescents living in Wyoming. The Mexican-American respondents were matched with Anglos who shared similar social and demographic characteristics, and matched-set analysis was used to determine significant differences on the basis of racial/ethnic identity. On all measures, Mexican-American youth were found to have significantly more positive attitudes toward marijuana and more extensive marijuana use. The implications of these findings are discussed.

Babesia moshkovskii (Schurenkova, 1938) Laird and Lari, 1957; from the prairie falcon, Falco mexicanus, in Wyoming; with comments on other parasites found in this host.

Babesia moshkovskiiwas found in the blood of 6 of 30 downy (D) Prairie Falcons and in none of 5 adults (A) from Wyoming. Intestinal parasites included Neodiplostomum (C) spathula (A,3), Cladotaenia globifera, (A,1), Physaloptera sp., (A,1), and Serratospiculum amaculatum, (a,4). ornithodorus concanensis, (D,3), Thrassis francisi, (D,1), Opisocrostis sp., (D.1), Degeeriella rufa, (D,2), Simulium (E.) canonicola (D,2), and an unidentified hippoboscid fly, (D,2) were external parasites. It is considered that the soft tick, O. concanensis, is the most likely vector of the hematozoon. The morphological forms of B.moshkovskii are described and discussed. This is the first report of an avian babesoid on this continent.