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Academic literature on the topic 'Ducks Waterfowl Bird populations'
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Journal articles on the topic "Ducks Waterfowl Bird populations"
1
Fedynich, Alan M., Danny B. Pence, Paul N. Gray, and James F. Bergan. "Helminth community structure and pattern in two allopatric populations of a nonmigratory waterfowl species (Anas fulvigula)." Canadian Journal of Zoology 74, no. 7 (1996): 1253–59. http://dx.doi.org/10.1139/z96-139.
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Helminth communities of mottled ducks (Anas fulvigula) from Florida and Texas were species rich and diverse. The helminth component community in the mottled duck population from Texas contained more species than were found in the Florida host population. However, infracommunities of birds from Florida and Texas contained 9.5 ± 0.7 (mean ± SE) and 9.3 + 0.7 species, respectively. Similarity indices indicated less commonality of helminth species between the 2 host populations; 23 of the 42 species found across the 2 populations co-occurred. Eight helminth species from each host population were recurrent group or associate members; however, only 3 species (Amidostomum acutum, Capillaria contorta, and Tetrameres spp.) maintained group membership across both host populations. Maritrema paracadiae and Psilochasmus oxyurus were absent in birds from Florida but were recurrent group members in the host population from Texas. Only 2 recurrent group members (A. acutum and Epomidiostomum uncinatum) in birds from Florida were members of the same feeding guild and shared the same microhabitat. Three distinct feeding guilds, each containing 2 species, were found in birds from Texas. Results suggest that habitat diversity of the host plays an important part in determining species richness; however, important helminth species in both mottled duck populations are those commonly found in other Anatini from North America.
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Petrie, Mark J., Joseph P. Fleskes, Mike A. Wolder, Craig R. Isola, Gregory S. Yarris, and Daniel A. Skalos. "Potential Effects of Drought on Carrying Capacity for Wintering Waterfowl in the Central Valley of California." Journal of Fish and Wildlife Management 7, no. 2 (2016): 408–22. http://dx.doi.org/10.3996/082015-jfwm-082.
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Abstract We used the bioenergetics model TRUEMET to evaluate potential effects of California's recent drought on food supplies for waterfowl wintering in the Central Valley under a range of habitat and waterfowl population scenarios. In nondrought years in the current Central Valley landscape, food supplies are projected to be adequate for waterfowl from fall through early spring (except late March) even if waterfowl populations reach North American Waterfowl Management Plan goals. However, in all drought scenarios that we evaluated, food supplies were projected to be exhausted for ducks by mid- to late winter and by late winter or early spring for geese. For ducks, these results were strongly related to projected declines in winter-flooded rice fields that provide 45% of all the food energy available to ducks in the Central Valley in nondrought water years. Delayed flooding of some managed wetlands may help alleviate food shortages by providing wetland food resources better timed with waterfowl migration and abundance patterns in the Central Valley, as well as reducing the amount of water needed to manage these habitats. However, future research is needed to evaluate the impacts of delayed flooding on waterfowl hunting, and whether California's existing water delivery system would make delayed flooding feasible. Securing adequate water supplies for waterfowl and other wetland-dependent birds is among the greatest challenges facing resource managers in coming years, especially in the increasingly arid western United States.
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Link, William A., John R. Sauer, and Daniel K. Niven. "A Hierarchical Model for Regional Analysis of Population Change Using Christmas Bird Count Data, with Application to the American Black Duck." Condor 108, no. 1 (2006): 13–24. http://dx.doi.org/10.1093/condor/108.1.13.
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Abstract Analysis of Christmas Bird Count (CBC) data is complicated by the need to account for variation in effort on counts and to provide summaries over large geographic regions. We describe a hierarchical model for analysis of population change using CBC data that addresses these needs. The effect of effort is modeled parametrically, with parameter values varying among strata as identically distributed random effects. Year and site effects are modeled hierarchically, accommodating large regional variation in number of samples and precision of estimates. The resulting model is complex, but a Bayesian analysis can be conducted using Markov chain Monte Carlo techniques. We analyze CBC data for American Black Ducks (Anas rubripes), a species of considerable management interest that has historically been monitored using winter surveys. Over the interval 1966–2003, Black Duck populations showed distinct regional patterns of population change. The patterns shown by CBC data are similar to those shown by the Midwinter Waterfowl Inventory for the United States.
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Обуховська, О. В. "ПРИРОДНІ РЕЗЕРВУАРИ MYCOPLASMA GALLISEPTICUM". Вісник Полтавської державної аграрної академії, № 4 (8 грудня 2012): 107–11. http://dx.doi.org/10.31210/visnyk2012.04.28.
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Доведено, що декоративна та дика птиця можебути природним резервуаром Mycoplasma gallisepticum.За умов утримання на обмеженій територіїптиці різних видів відбувається передача збудникавід типових (курки, індички, фазани) до нетипових(качки, гусаки, лебеді) хазяїв. У такому разі серо-позитивність у водоплавної птиці може сягатизначення 12,73 %, мікоплазманосійство – 5,45 %від усього поголів’я. Виявлено, що в популяціях ди-кої водоплавної птиці (огарів) близько 17 % особинє потенційними мікоплазманосіями.
 It has been proved that decorative and wild bird may be thenatural reservoir of Mycoplasma gallisepticum. It has beenprovided that content for the limited territory of birds ofdifferent species of parasite transmission occurs from the typical(chickens, turkeys, pheasants) to the unusual (ducks, geese,swans). The seropositivity among waterfowl can reach values of12.73 %, the mikoplazmacarrier – 5.45 % of the total population. It was revealed that in populations of wildwaterfowl (ogarej) up to 17 % of individuals are potentialmikoplazmacarriers.
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Pantin-Jackwood, Mary J., Mar Costa-Hurtado, Eric Shepherd, et al. "Pathogenicity and Transmission of H5 and H7 Highly Pathogenic Avian Influenza Viruses in Mallards." Journal of Virology 90, no. 21 (2016): 9967–82. http://dx.doi.org/10.1128/jvi.01165-16.
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ABSTRACTWild aquatic birds have been associated with the intercontinental spread of H5 subtype highly pathogenic avian influenza (HPAI) viruses of the A/goose/Guangdong/1/96 (Gs/GD) lineage during 2005, 2010, and 2014, but dispersion by wild waterfowl has not been implicated with spread of other HPAI viruses. To better understand why Gs/GD H5 HPAI viruses infect and transmit more efficiently in waterfowl than other HPAI viruses, groups of mallard ducks were challenged with one of 14 different H5 and H7 HPAI viruses, including a Gs/GD lineage H5N1 (clade 2.2) virus from Mongolia, part of the 2005 dispersion, and the H5N8 and H5N2 index HPAI viruses (clade 2.3.4.4) from the United States, part of the 2014 dispersion. All virus-inoculated ducks and contact exposed ducks became infected and shed moderate to high titers of the viruses, with the exception that mallards were resistant to Ck/Pennsylvania/83 and Ck/Queretaro/95 H5N2 HPAI virus infection. Clinical signs were only observed in ducks challenged with the H5N1 2005 virus, which all died, and with the H5N8 and H5N2 2014 viruses, which had decreased weight gain and fever. These three viruses were also shed in higher titers by the ducks, which could facilitate virus transmission and spread. This study highlights the possible role of wild waterfowl in the spread of HPAI viruses.IMPORTANCEThe spread of H5 subtype highly pathogenic avian influenza (HPAI) viruses of the Gs/GD lineage by migratory waterfowl is a serious concern for animal and public health. H5 and H7 HPAI viruses are considered to be adapted to gallinaceous species (chickens, turkeys, quail, etc.) and less likely to infect and transmit in wild ducks. In order to understand why this is different with certain Gs/GD lineage H5 HPAI viruses, we compared the pathogenicity and transmission of several H5 and H7 HPAI viruses from previous poultry outbreaks to Gs/GD lineage H5 viruses, including H5N1 (clade 2.2), H5N8 and H5N2 (clade 2.3.4.4) viruses, in mallards as a representative wild duck species. Surprisingly, most HPAI viruses examined in this study replicated well and transmitted among mallards; however, the three Gs/GD lineage H5 HPAI viruses replicated to higher titers, which could explain the transmission of these viruses in susceptible wild duck populations.
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Hobson, Keith A., Robert B. Brua, William L. Hohman, and Len I. Wassenaar. "Low Frequency of “Double Molt” of Remiges in Ruddy Ducks Revealed by Stable Isotopes: Implications for Tracking Migratory Waterfowl." Auk 117, no. 1 (2000): 129–35. http://dx.doi.org/10.1093/auk/117.1.129.
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Abstract Ratios of the stable carbon (δ13C) and hydrogen (δD) isotopes in newly grown remiges of Ruddy Ducks (Oxyura jamaicensis) are influenced by the isotopic character of food types and ambient water. Systematic isotopic foodweb and water differences between coastal wintering grounds and prairie breeding grounds of Ruddy Ducks provide the basis for using isotopic analyses of feathers to trace the location and timing of molt. Anecdotal evidence, based largely on captive birds, suggests that Ruddy Ducks replace their remiges twice each year (once each on the breeding and wintering grounds), but a recent literature analysis indicates that this phenomenon is rare. Thus, we investigated the extent to which a biannual molt of the remiges occurs in the wild and at the population level. We analyzed the stable isotopes of carbon (n = 57 birds) and hydrogen (n = 50 birds) in flight feathers to estimate the prevalence of the so-called “double molt” of remiges in free-living Ruddy Ducks. Our data showed that natural populations of Ruddy Ducks express an overwhelming unimodal distribution of isotope ratios in their remiges, suggesting that they undergo a single molt at or near the breeding grounds. Only 3 to 6 of 50 birds from Manitoba showed isotopic evidence consistent with growing remiges on the wintering grounds. Feathers from Ruddy Ducks harvested during the fall in the Mississippi Flyway had isotopic profiles consistent with growth on northern freshwater breeding sites. Thus, our results confirm that the replacement of remiges twice each year by Ruddy Ducks is rare, and they suggest that this dual stable-isotope technique can be used to infer general molting origins of North American waterfowl.
7
Lopsan, H. O. "Dynamics and features of manifestation of highly pathogenic avian influenza in the Republic of Tuva." Siberian Herald of Agricultural Science 50, no. 4 (2020): 72–79. http://dx.doi.org/10.26898/0370-8799-2020-4-9.
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The dynamics and features of the manifestation of highly pathogenic avian influenza A/H5N1 were studied on the territory of the Republic of Tuva, where it was first recorded in 2006 in wild migratory waterfowl of the duck family, mainly great crested grebe ducks. In the epizootic process of highly pathogenic avian flu on the territory of the Republic, causal-temporal relationships with the seasonal migration of wild waterfowl from the countries of South-East Asia have been noted. Epizootics of highly pathogenic avian flu were observed in 2006, 2009, 2010, 2014, 2015, 2016. In 2016, as a result of mutation of the H5N1 virus strain, an outbreak of highly pathogenic avian flu of the H5N8 strain was registered. Outbreaks of highly pathogenic avian flu H5 and H7 subtypes simultaneously with low pathogenic subtypes of avian flu H3 were noted in 2014, H9 – in 2013 and 2014. In the study of blood serum of birds in the years officially free from avian flu, antibodies to hemagglutinins of the virus of different subtypes were detected in 11.2-50.0% of cases. Despite the absence of bird mortality, this indicates a constant circulation of avian influenza agent in the body of waterfowl. On the territory of the Republic, avian flu has not spread among poultry due to natural-geographical, socio-economic conditions. The development of distant pasture farming does not provide for the maintenance and breeding of poultry in the unfavorable area of the lake UvsNuur; the local population does not have a tradition of hunting for wild fowl, which prevents contact between wild and domestic birds; there are no lakes or pond reservoirs near the only poultry farm in the Republic with a small stock, which prevents wild waterfowl from entering and passing through flying passages.
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Payne, Susan L., Pauline Delnatte, Jianhua Guo, J. Jill Heatley, Ian Tizard, and Dale A. Smith. "Birds and bornaviruses." Animal Health Research Reviews 13, no. 2 (2012): 145–56. http://dx.doi.org/10.1017/s1466252312000205.
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AbstractIn 2008, avian bornaviruses (ABV) were identified as the cause of proventricular dilatation disease (PDD). PDD is a significant condition of captive parrots first identified in the late 1970s. ABV infection has subsequently been shown to be widespread in wild waterfowl across the United States and Canada where the virus infects 10–20% of some populations of ducks, geese and swans. In most cases birds appear to be healthy and unaffected by the presence of the virus; however, infection can also result in severe non-suppurative encephalitis and lesions similar to those seen in parrots with PDD. ABVs are genetically diverse with seven identified genotypes in parrots and one in canaries. A unique goose genotype (ABV-CG) predominates in waterfowl in Canada and the northern United States. ABV appears to be endemic in North American waterfowl, in comparison to what appears to be an emerging disease in parrots. It is not known whether ABV can spread between waterfowl and parrots. The discovery of ABV infection in North American waterfowl suggests that European waterfowl should be evaluated for the presence of ABV, and also as a possible reservoir species for Borna disease virus (BDV), a related neurotropic virus affecting horses and sheep in central Europe. Although investigations have suggested that BDV is likely derived from a wildlife reservoir, for which the shrew and water vole are currently prime candidates, we suggest that the existence of other mammalian and avian reservoirs should not be discounted.
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Huang, Yanyan, Michelle Wille, Ashley Dobbin, et al. "A 4-year study of avian influenza virus prevalence and subtype diversity in ducks of Newfoundland, Canada." Canadian Journal of Microbiology 59, no. 10 (2013): 701–8. http://dx.doi.org/10.1139/cjm-2013-0507.
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The island of Newfoundland, Canada, is at the eastern edge of North America and has migratory bird connections with the continental mainland as well as across the North Atlantic Ocean. Here, we report a 4-year avian influenza virus (AIV) epidemiological study in ducks in the St. John’s region of Newfoundland. The overall prevalence of AIV detection in ducks during this study was 7.2%, with American Black Ducks contributing the vast majority of the collected samples and the AIV positives. The juvenile ducks showed a significantly higher AIV detection rate (10.6%) compared with adults (3.4%). Seasonally, AIV prevalence rates were higher in the autumn (8.4%), but positives were still detected in the winter (4.6%). Preliminary serology tests showed a high incidence of previous AIV infection (20/38, 52.6%). A total of 43 viruses were characterized for their HA–NA or HA subtypes, which revealed a large diversity of AIV subtypes and little recurrence of subtypes from year to year. Investigation of the movement patterns of ducks in this region showed that it is a largely non-migratory duck population, which may contribute to the observed pattern of high AIV subtype turnover. Phylogenetic analysis of 4 H1N1 and one H5N4 AIVs showed these viruses were highly similar to other low pathogenic AIV sequences from waterfowl in North America and assigned all gene segments into American-avian clades. Notably, the H1N1 viruses, which were identified in consecutive years, possessed homologous genomes. Such detection of homologous AIV genomes across years is rare, but indicates the role of the environmental reservoir in viral perpetuation.
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Miller, Michael R., and John McA. Eadie. "The Allometric Relationship between Resting Metabolic Rate and Body Mass in Wild Waterfowl (Anatidae) and an Application to Estimation of Winter Habitat Requirements." Condor 108, no. 1 (2006): 166–77. http://dx.doi.org/10.1093/condor/108.1.166.
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AbstractWe examined the allometric relationship between resting metabolic rate (RMR; kJ day−1) and body mass (kg) in wild waterfowl (Anatidae) by regressing RMR on body mass using species means from data obtained from published literature (18 sources, 54 measurements, 24 species; all data from captive birds). There was no significant difference among measurements from the rest (night; n = 37), active (day; n = 14), and unspecified (n = 3) phases of the daily cycle (P > 0.10), and we pooled these measurements for analysis. The resulting power function (aMassb) for all waterfowl (swans, geese, and ducks) had an exponent (b; slope of the regression) of 0.74, indistinguishable from that determined with commonly used general equations for nonpasserine birds (0.72–0.73). In contrast, the mass proportionality coefficient (b; y-intercept at mass = 1 kg) of 422 exceeded that obtained from the nonpasserine equations by 29%–37%. Analyses using independent contrasts correcting for phylogeny did not substantially alter the equation. Our results suggest the waterfowl equation provides a more appropriate estimate of RMR for bioenergetics analyses of waterfowl than do the general nonpasserine equations. When adjusted with a multiple to account for energy costs of free living, the waterfowl equation better estimates daily energy expenditure. Using this equation, we estimated that the extent of wetland habitat required to support wintering waterfowl populations could be 37%–50% higher than previously predicted using general nonpasserine equations.