Your search keyword '"Waterfowl"' showing total 22,727 results

1. Limited evidence of biased offspring sex allocation in a cavity-nesting conspecific brood parasite.

Author

Wells, Caitlin, Lyon, Bruce, Thow, Caroline, Stair, Tez, Jones, Melissa, Hinton, Mitch, and Eadie, John

Subjects

alternative reproductive tactic, density, female philopatry, local resource competition, local resource enhancement, nest box study, offspring sex ratio, waterfowl

Abstract

Sex allocation theory predicts that mothers should bias investment in offspring toward the sex that yields higher fitness returns; one such bias may be a skewed offspring sex ratio. Sex allocation is well-studied in birds with cooperative breeding systems, with theory on local resource enhancement and production of helpers at the nest, but little theoretical or empirical work has focused on birds with brood parasitic breeding systems. Wood ducks (Aix sponsa) are a conspecific brood parasite, and rates of parasitism appear to increase with density. Because female wood ducks show high natal philopatry and nest sites are often limiting, local resource competition (LRC) theory predicts that females should overproduce male offspring-the dispersing sex-when competition (density) is high. However, the unique features of conspecific brood parasitism generate alternative predictions from other sex allocation theory, which we develop and test here. We experimentally manipulated nesting density of female wood ducks in 4 populations from 2013 to 2016, and analyzed the resulting sex allocation of >2000 ducklings. In contrast to predictions we did not find overproduction of male offspring by females in high-density populations, females in better condition, or parasitic females; modest support for LRC was found in overproduction of only female parasitic offspring with higher nest box availability. The lack of evidence for sex ratio biases, as expected for LRC and some aspects of brood parasitism, could reflect conflicting selection pressures from nest competition and brood parasitism, or that mechanisms of adaptive sex ratio bias are not possible.

Published

2024

2. Bird Habitat Value and Management Priorities of the California Winter Rice Habitat Incentive Program

Author

Peterson, Sarah H., Ackerman, Joshua T., Schacter, Carley R., Hartman, C. Alex, and Herzog, Mark P.

Subjects

bird diversity, Central Valley, rice agriculture, rice field, shorebird, water depth, water management, waterbird, waterfowl, working lands

Abstract

Flooding rice (Oryza sativa) agricultural fields during winter to facilitate rice straw decomposition has mitigated the loss of some of the natural wetlands in California’s Central Valley. We conducted bird surveys in 253 rice checks (2,158 ha) within 177 rice fields in the Sacramento Valley during the fall and winter of 2021–2022 and 2022–2023 to evaluate factors that influence bird use of winter-flooded, post-harvest rice fields enrolled in the California Winter Rice Habitat Incentive Program. We counted 143,932 birds from 57 species, including dabbling ducks (86.4%), geese (8.0%), shorebirds (0.9%), wading birds (0.7%), and other birds (4.0%). Extrapolating from the lowest densities observed in rice fields during the 70-day mandatory flooding period, we estimated that properties enrolled in this public–private partnership provided habitat for at least 271,312 birds day-1 (16,248 ha; 2021–2022) and 147,315 birds day-1 (8,448 ha; 2022–2023), totaling >10 million bird-use-days each winter. Water depth had the greatest influence on bird abundance and diversity. Relatively shallow water depths (≤13 cm) had greater abundance of shorebirds, wading birds, and geese, and higher diversity, whereas intermediate depths (~23 cm) resulted in the greatest dabbling duck abundance. Duck, goose, and wading bird abundances were greatest—and species richness and family diversity were highest—8 days after the onset of flooding in rice fields (typically late October), followed by a decline in bird use until 65 to 87 days post-flooding, after which bird use increased slightly. Bird abundance and species diversity were lowest in rice fields with the greatest hunting intensity (≥3 days week-1). We identified several habitat variables that could be managed and prioritized by land-owner incentive programs to increase bird use of winter-flooded rice, including water depth, variation in emergent vegetation height, mudflat habitat availability, rice check shape, hunting intensity, and post-harvest treatment of residual rice straw.

Published

2024

3. Surveying Waterfowl Broods in Wetlands Using Aerial Drones

Author

Mackell, Desmond A., Casazza, Michael L., Overton, Cory T., Buffington, Kevin J., Freeman, Chase M., Ackerman, Joshua T., and Thorne, Karen M.

Subjects

waterfowl, brood, duck, duckling, drone, Unmanned Aerial Vehicle, Unmanned Aerial System, UAS, UAV, brood survey

Abstract

Effective waterfowl management relies on the collection of relevant demographic data to inform land-management decisions; however, some types of data are difficult to obtain. For waterfowl, brood surveys are difficult to conduct because wetland habitats often obscure ducklings from being visually assessed. Here, we used Unoccupied Aerial Systems (UAS) to assess what wetland habitat characteristics influenced brood abundance in Suisun Marsh, California, USA. Using a thermal-imaging camera, we surveyed 17 wetland units that encompassed 332ha of flooded area on the premises of seven waterfowl hunting clubs during the waterfowl breeding season. Additionally, using a combination of multi-spectral imagery collected from the UAS flights and LiDAR data from the previous year, we mapped habitat composition within each unit to relate to brood observation counts. From June 3–7, 2019, we identified 113 individual broods comprising 827 ducklings. We found a positive relationship between the number of broods observed and the proportion of the unit that was flooded. We also found a positive relationship between the number of broods observed and the area of effective habitat—a metric of flooded habitat within two times the 95th-percentile Euclidean distance that all broods were observed from any vegetated cover. Brood surveys using UAS could complement the traditional Breeding Population Survey and provide local managers with fine-scale and timely information about shifts in brood abundance in the region.

Published

2024

4. Taking matters into their own hands: effects of effort and success on duck hunter satisfaction.

Author

Gruntorad, Matthew Philip, Vrtiska, Mark, Garrick, Matthew, and Chizinski, Christopher John

Subjects

*DUCK shooting, *SATISFACTION, *WATERFOWL, *DUCKS, *HUNTERS

Abstract

Due to the steady decline of duck hunter participation, several studies have investigated means to bolster the duck hunter population. Fulfilling satisfaction will likely promote continued participation and research suggests that seeing ducks and harvesting ducks are among the most important attributes to duck hunter satisfaction. We explored how hunter effort and success affected hunter satisfaction during five duck-hunting seasons in the Central Flyway. As part of this exploration, we investigated how efforts such as hunting multiple days of the season, hunting at multiple locations, and scouting for ducks prior to the hunting season affected duck-hunter success and satisfaction. Hunter success was positively affected by hunter effort. We found that overall satisfaction with the season was partially affected by a combination of hunter effort and hunter success. Our findings suggest that hunters are at least partially responsible for achieving satisfaction from their duck-hunting experiences. [ABSTRACT FROM AUTHOR]

Published

2024

5. Body mass changes of dabbling and diving ducks wintering in California.

Author

Herzog, Mark P., Ackerman, Joshua T., Kohl, Jeffrey D., Fettig, Brady L., Hartman, C. Alex, Peterson, Sarah H., Casazza, Michael L., and Fleskes, Joseph P.

Subjects

*MALLARD, *WATERFOWL, *DUCKS, *ACQUISITION of data, *CINNAMON

Abstract

Bird body mass is often used as an index of body condition and fluctuates throughout the year in response to environmental conditions and avian life‐history events. We examined the body mass of 59,572 ducks representing 13 species (7 dabbling duck species and 6 diving duck species) harvested within the 3 regions of the Central Valley in California, USA (Sacramento Valley, Suisun Marsh, San Joaquin Valley). Data collection occurred in winter during 5 hunting seasons (2014–2015, 2015–2016, 2017–2018, 2018–2019, 2019–2020). For all species, age, and sex classes, the body mass of dabbling ducks varied temporally and was lowest at the end of the hunting season in late January, declining from the beginning of the hunting season in mid‐October (northern pintail [Anas acuta]: −11.4% to −20.4%; northern shoveler [Spatula clypeata]: −3.5% to −17.3%; cinnamon teal [Anas cyanoptera]: −5.0% to −17.1%; American wigeon [Mareca americana]: −6.9% to −12.2%; American green‐winged teal [Anas carolinensis]: −5.9% to −11.9%; mallard [Anas platyrhynchos]: −1.8% to −9.6%; gadwall [Mareca strepera]: −2.2% to −8.4%). As expected, adults (after hatch‐year) were heavier than immature (hatch‐year) birds (within males: 0.6–8.6%; within females: 0.1–6.6%) and males were heavier than females (within adults: 3.1–38.6%; within immatures: 5.4–33.5%) at the end of the hunting season in all species. Within dabbling duck species, body masses did not differ among regions at the beginning of the hunting season but were heavier in the Sacramento Valley (0.5–14.4%) than other areas by the end of the hunting season. In contrast, body masses of diving ducks did not vary substantially during the hunting season or among regions. Diving ducks demonstrated inconsistent changes in mass from the beginning to the end of the season (lesser scaup [Aythya affinis]: 3.4% to 12.3%; canvasback [Aythya valisineria]: 5.1% to 6.1%; bufflehead [Bucephala albeola]: −3.2% to 1.6%; ring‐necked duck [Aythya collaris]: −4.9% to 2.6%; common goldeneye [Bucephala clangula]: −3.2% to −2.4%; ruddy duck [Oxyura jamaicensis]: −16.5% to 5.5%). The substantial temporal and spatial differences in dabbling duck body masses suggest that habitat quality (as measured by caloric value of the available food) or quantity may decline during winter and varies regionally within California's Central Valley. [ABSTRACT FROM AUTHOR]

Published

2024

6. Habitat selection of non‐breeding American black ducks in an urban estuary.

Author

Mezebish Quinn, Tori, Paton, Peter W., Gerber, Brian D., Kilburn, Jennifer E., and McWilliams, Scott R.

Subjects

*WATERFOWL, *AFRICAN Americans, *AQUACULTURE, *DUCKS, *ESTUARIES, *SHELLFISH

Abstract

Shellfish aquaculture is a globally expanding industry, including in urban estuaries that support non‐breeding waterfowl. The effects of shellfish aquaculture on the spatial distribution of non‐breeding waterfowl, however, are poorly understood and depend on the ecology of waterfowl and cultivated shellfish species. We investigated how proximity to shellfish aquaculture influenced habitat selection and movement patterns of American black ducks (Anas rubripes) during the non‐breeding season (~Oct–May) in 2020–2023 in Rhode Island, USA. The extent to which proximity to aquaculture influenced habitat selection of black ducks depended on factors specific to individuals' primary non‐breeding sites, although proximity to aquaculture did not have biologically meaningful influences on black duck movement rates across all sites. Black ducks across sites consistently selected for areas better suited for aquaculture (i.e., areas of potential future development) relative to areas poorly suited for aquaculture (i.e., areas less likely to be developed). The continued expansion of aquaculture into preferred black duck habitats will increase black duck interactions with aquaculture and therefore should be considered in the decision‐making process for siting future aquaculture leases. Future studies should quantify the extent to which continued expansion of aquaculture in those preferred coastal habitats directly influences black ducks. [ABSTRACT FROM AUTHOR]

Published

2024

7. Nest box-mounted PIT tag readers reveal cryptic recruits of cavity-nesting waterfowl in south Louisiana.

Author

Miranda, Katie E., Ringelman, Kevin M., and Bakner, Dylan L.

Subjects

*BIRDHOUSES, *NEST building, *WATERFOWL, *TRANSPONDERS, *PARASITISM

Abstract

Black-bellied Whistling-Ducks (Dendrocygna autumnalis; BBWD) are rapidly expanding northward into the core range of the eastern Wood Duck (Aix sponsa; WODU), yet little is known about BBWD nesting ecology. Typical field methods to study cavity-nesting waterfowl (i.e., weekly nest monitoring) preclude a full understanding of important breeding information, including nest prospecting and parasitic egg laying. To address this, we used subcutaneous passive integrated transponder (PIT) tags embedded in adults and PIT tag readers mounted on nest boxes with the objective to (1) identify individuals that used nest boxes but were not physically captured on a nest, (2) quantify box visitation, and (3) quantify BBWD pair and WODU hen behaviors during the prospecting, laying, and incubation periods. We deployed RFID readers on 40 nest boxes from March–December 2022 in Louisiana with the potential to detect BBWD and WODU marked with PIT tags in 2020–2022. We detected 48 (BBWD n = 26, WODU n = 22) adults of both species via RFID readers, and 33% (n = 16) of individuals (50% of BBWD, n = 12; 14% of WODU, n = 3) were never otherwise recaptured in 2022, meaning that traditional field methods for cavity-nesting waterfowl fail to document a substantial number of birds potentially contributing to the population via parasitism. We also used Bayesian generalized linear models to determine that both species visited a similar number of "new" (< 1 year old) and "old" (> 1 year old) nest boxes (β = 0.66, CI = -0.30, 1.64). However, BBWD preferentially visited (and subsequently nested in) old boxes at a significantly higher rate than WODU (β = 1.32, CI = 0.97, 1.66). Due to the generalist nature and rapid expansion of BBWD, an apparent aversion to newly installed boxes was unexpected, especially since there were several successful WODU nests in the new boxes before BBWD began nesting in 2022. Our study is one of the first to evaluate BBWD nesting behaviors within the core WODU breeding range, and the first to use nest box-mounted PIT tag readers to observe BBWD behavior. [ABSTRACT FROM AUTHOR]

Published

2024

8. Incidence of erysipelas in waterfowl in Poland – clinical and pathological investigations.

Author

Nowak, T., Wódz, K., Kwieciński, P., Kwieciński, A., and Dec, M.

Subjects

*AGE groups, *GEESE, *CLINICAL pathology, *WATERFOWL, *ANATOMICAL pathology

Abstract

1. Erysipelas in geese and ducks is an infectious disease causing considerable economic losses in the poultry sector in Poland. The aim of this study was to determine the distribution of erysipelas cases in age groups of geese and in periods of the calendar year and to assess macroscopic lesions in birds infected with Erysipelothrix rhusiopathiae.2. The study used 286 geese and 16 ducks delivered to the laboratory for diagnosis in the years 2019–2021. The birds came from 99 different farms. E. rhusiopathiae from clinical samples were cultured on Columbia blood agar and identified by real-time PCR. Pathological lesions were characterised during anatomopathological examination.3. Distribution of erysipelas cases in age groups of geese and periods of the calendar year differed significantly from the assumed even distribution. Most cases were noted in August and September in birds aged between 11 and 13 weeks. Necropsy of birds infected with E. rhusiopathiae showed anatomopathological lesions characteristic of generalised infection, affecting multiple organs.4. The uneven distribution of erysipelas cases in geese in different age groups and periods of the calendar year suggested that both the age of the birds and climatic conditions are predisposing factors for infection. [ABSTRACT FROM AUTHOR]

Published

2024

9. The habitat preferences of invasive raccoon dog imply elevated risks for wetland-associated prey species.

Author

Toivonen, Pyry, Laaksonen, Toni, Piironen, Antti, and Selonen, Vesa

Subjects

*RACCOON dog, *HABITAT selection, *TOP predators, *HABITAT conservation, *AGRICULTURE, *HOME range (Animal geography)

Abstract

Habitat preferences of invasive predators determine where and for which prey species they pose a threat upon. This is crucial information for the conservation of endangered prey species because invasive predators pose additional predation on top of that caused by natural predators. In large parts of Europe, the most common invasive mesopredator is the raccoon dog (Nyctereutes procyonoides). To understand the risk that the raccoon dog poses for wetland-associated species, we collected information about its habitat preferences near these habitats. We used data on 24 GPS-collared raccoon dogs from three landscape types in Finland, to study their spatial and temporal habitat preferences. We first determined their home ranges, within which we then examined habitat use and preferences. Raccoon dogs showed generalist habitat use, which was evident in their wide range of used habitats. However, in spring and summer, during the breeding seasons of waterfowl and amphibians, they preferred wetlands and peatlands. They also preferred shorelines and the edges of forests and agricultural fields. During autumn and winter, raccoon dogs did not prefer wetlands. These findings support the conclusion that the raccoon dog's habitat preferences pose a particular threat to wetland-associated species, such as nesting waterfowl and amphibians. The species' habitat preferences coupled with high numbers of this invasive mesopredator pose additional predation for endangered wetland-associated species on top of that of native predators. [ABSTRACT FROM AUTHOR]

Published

2024

10. Potential use of poultry farms by wild waterfowl in California's Central Valley varies across space, times of day, and species: implications for influenza transmission risk.

Author

Teitelbaum, Claire S., Casazza, Michael L., Overton, Cory T., Sullivan, Jeffery D., Matchett, Elliott L., McDuie, Fiona, Lorenz, Austen A., Ackerman, Joshua T., De La Cruz, Susan E. W., and Prosser, Diann J.

Subjects

*WILDLIFE conservation, *AVIAN influenza A virus, *POULTRY farming, *ANIMAL behavior, *HABITAT selection, *POULTRY farms

Abstract

Interactions between wildlife and livestock can lead to cross‐species disease transmission, which incurs economic costs and threatens wildlife conservation. Wild waterfowl are natural hosts of avian influenza viruses (AIVs), are often abundant near poultry farms, and have been linked to outbreaks of AIVs in poultry. Interspecific and seasonal variation in waterfowl movement and habitat use means that the risk of disease transmission between wild birds and poultry inevitably varies across species, space, and time. Here, we used GPS telemetry data from 10 waterfowl species in and near California's Central Valley, a region where both wild waterfowl and domestic poultry are abundant, to study selection of poultry farms by waterfowl across diel, seasonal, and annual cycles. We found that waterfowl selected for wetlands, open water, protected areas, and croplands, which meant that they generally avoided habitats that were likely to be used for poultry farming. These selection patterns were linked to species' ecology and diel behavioral patterns, such that avoidance of poultry habitats was stronger for local or partial migrants than for long‐distance migrants, and stronger during daytime than at night. We then combined these habitat selection results with data on poultry farm locations to map risk of waterfowl–poultry contact across the Central Valley. Average selection strength at poultry farms was low, suggesting that current placement of poultry farms is generally effective for limiting risk of contact with wild birds. When we combined these habitat selection results with data on species' abundances and AIV infection prevalence, we found dramatic variation in potential AIV transmission risk among species. These results could be used to prioritize surveillance and biosecurity efforts for regions and times of relatively high risk. More generally, these results highlight that fine‐scale movement data can help identify interspecific, seasonal, and diel patterns in animal behaviors that affect wildlife and poultry health. [ABSTRACT FROM AUTHOR]

Published

2024

11. Highly Pathogenic Avian Influenza A Virus in Wild Migratory Birds, Qinghai Lake, China, 2022.

Author

Xiaoqing Zhang, Jiaying Wu, Yanhai Wang, Mengchan Hao, Haizhou Liu, Sanling Fan, Juan Li, Jianqing Sun, Yubang He, Yuan Zhang, and Jianjun Chen

Subjects

*AVIAN influenza A virus, *MIGRATORY birds, *AVIAN influenza, *WATERFOWL, *LAKES

Abstract

In July 2022, an outbreak of highly pathogenic avian influenza A(H5N1) virus clade 2.3.4.4b occurred among migratory birds at Qinghai Lake in China. The virus circulated in June, and reassortants emerged after its introduction into the area. Surveillance in 2023 showed that the virus did not establish a stable presence in wild waterfowl. [ABSTRACT FROM AUTHOR]

Published

2024

12. Broad geographic variation in age- and sex-dependent origin of harvested eurasian wigeon (Mareca penelope) revealed by stable-hydrogen (δ2H) isotope analyses of feathers.

Author

Holopainen, Sari, Piironen, Antti, Kusack, Jackson W., Hobson, Keith A., Ellis, Matthew B., Sørensen, Iben Hove, Warrender, Heather, and Laaksonen, Toni

Subjects

LIFE cycles (Biology), WILDLIFE conservation, GAUSSIAN processes, BIRD breeding, ISOTOPIC analysis, FEATHERS, MIGRATORY birds

Abstract

Migratory waterfowl are a harvested resource shared among multiple European countries, exposing them to potential overexploitation. Management of take is challenging since the life cycle of migratory waterfowl consists of several stages distributed among several locations, with possible spatio-temporal overlap among populations with differing population trends. Successful harvest management in such situations requires knowledge about the connections between breeding and non-breeding locations, and where birds are harvested. Breeding populations of Eurasian wigeon (Mareca penelope) are declining in Finland, underlining the need for more effective harvest management. Relative proportions and temporal distribution of local breeding birds and migrants from a larger Russian breeding population within the Finnish hunting bag has been unknown to date. We studied spatio-temporal origins of Finnish harvested wigeon by measuring stable-hydrogen (δ2H) isotope values from legally harvested birds. We modelled the changes in δ2H values of the feather samples within the hunting season using Gaussian processes and found that the origin of harvested wigeon in Finland changed during the hunting season and differed by age and sex. In juveniles and adult females but not in adult males, origin of harvested birds shifted from local and possibly western Russian birds to more long-distance migratory birds during the harvest season. These patterns likely reflected sex- and age-specific differences in migratory behaviour of Eurasian wigeon in the East Atlantic flyway, which can be used to guide future management and conservation of this species through the implementation of spatio-temporal harvest regulation. [ABSTRACT FROM AUTHOR]

Published

2024

13. Can waterfowl buffer the mortality risk induced by GPS tags? A cautionary tale for applied inference across species.

Author

Setash, Casey M., Behney, Adam C., Gammonley, James H., Overton, Cory T., Casazza, Michael L., Letourneux, Frédéric, Buderman, Frances E., Schummer, Michael L., Luukkonen, Benjamin Z., Huck, Nathaniel R., Beatty, Karen E., Legagneux, Pierre, and Koons, David N.

Subjects

*LIFE history theory, *VITAL statistics, *ANIMAL behavior, *BODY size, *ROCK groups

Abstract

GPS tags have become a common tool in ecological studies of animal behaviour and demography despite previous research indicating negative impacts on vital rates across a variety of taxa. Many researchers face tradeoffs when deciding whether they are an appropriate tool because GPS tags may impact vital rates, but they provide detailed data on movements and behaviour that often cannot be obtained in other ways. Using band recovery data, we evaluated the strength of effects induced by GPS tags on annual mortality of adult females across 13 waterfowl taxa, and examined whether taxa with a slower life-history strategy and larger body size were more resilient to GPS tag effects than their fast-lived counterparts with small body size. All species were exposed to hunting, which may interact with underlying processes affecting the impact of GPS tags on mortality, but also allowed for robust analysis of overall annual mortality. Hazard ratios, indicating the risk of death for individuals wearing GPS tags compared to those wearing only metal bands, ranged from 1.13 to 3.25 and the mean proportional difference in survival between marker types across species was 0.33. The magnitude of tag effects was surprisingly consistent across life-history tempo and body size, indicating that slower-lived species did not buffer the effect of wearing GPS tags. Our results highlight that even large, long-lived species, which are generally better at buffering their mortality against environmental adversity, are not immune to the effects GPS tags can have on survival and mortality. The results of our study emphasize the importance of testing for such effects across taxa in future research as technology advances. [ABSTRACT FROM AUTHOR]

Published

2024

14. Migration tracking assists harvest management of overabundant Canada geese in Manitoba, Canada.

Author

Neufeld, Leanne R., Baldwin, Frank, and Fraser, Kevin C.

Subjects

*CANADA goose, *BIRD migration, *SPRING, *WATERFOWL, *GEESE

Abstract

Similar to other jurisdictions across North America, populations of temperate‐nesting giant Canada geese (Branta canadensis maxima) have increased to unprecedented levels in Manitoba, Canada, causing extensive damage to crops and property, posing risks to human safety, and mostly avoiding mortality risk from fall hunting seasons. As a result, this population in southern Manitoba was declared overabundant in 2019, through an amendment to the Canada Migratory Birds Regulations. Management authorities sought to increase harvest rates by introducing an additional hunting period in spring, or conservation season, wherein harvest could be concentrated on this population. An important consideration was the need to avoid additional harvest on non‐target populations that do not meet the criteria to be classified as overabundant, specifically, sub‐arctic nesting Canada geese (Branta canadensis interior) and mid‐continent cackling geese (Branta hutchinsii hutchinsii). To investigate differences in migration timing of populations, and ultimately determine start and closure dates for the spring conservation season, we deployed light‐level geolocators on adult females of each population between 2016 and 2018. We used Bayesian approaches to derive locations from light‐level data and generalized linear mixed models to investigate potential differences in timing of international border crossing among goose populations. Migration data confirmed that movement of these populations overlapped extensively in fall, but in spring, a narrow period existed where mainly the target population was present. Our findings provide the basis for decisions about timing of spring conservation seasons for overabundant temperate‐nesting Canada geese in Manitoba, the first season of its kind for this population in North America. Additionally, our work represents the first large‐scale use of light‐level geolocator technology for assisting with waterfowl harvest management decisions. [ABSTRACT FROM AUTHOR]

Published

2024

15. Chipped-Stone Crescents from the Terminal Pleistocene–Early Holocene of Far Western North America and the Transverse Projectile Point Hypothesis.

Author

Amick, Daniel S.

Subjects

*PROJECTILE points, *ARCHAEOLOGICAL assemblages, *HOLOCENE Epoch, *WATERFOWL, *WETLANDS

Abstract

Crescents are a distinctive component of several terminal Pleistocene–early Holocene (TP–EH) toolkits in the Far West, including the concave-based projectile point techno-complex, as demonstrated by archaeological associations, toolstone preferences, and manufacturing techniques. Archaeological and paleoenvironmental evidence suggests regular association with periods of wetland expansion across this region. Numerous speculative hypotheses have been proposed for the possible function(s) of these tools, but little direct investigation or testing has been conducted. This study uses the method of multiple working hypotheses to investigate these competing propositions. It draws on multiple lines of evidence from morphological and techno-functional patterns of tool damage and rejuvenation developed from a large artifact assemblage; analogs from ethnographic, historic, and archaeological cases; paleoenvironmental and ecological observations; an actualistic experimental program; and applications of foraging and design theories. Results show how morphological variation often reflects original blank form and individual tool life-history. Patterned recycling strategies include occasional manufacture from concave-base projectile points and conversion into gravers. The combined evidence best supports the hypothesized interpretation of lunate crescents as specialized transverse projectile points used primarily for open-water hunting of waterfowl by early foragers of the Great Basin and California, especially during episodic and localized increases in their abundance. These conclusions contribute to the growing picture of diversity and adaptive flexibility among early foragers in the Far West and further indicate waterfowl as a significant but temporally and spatially variable dietary component. [ABSTRACT FROM AUTHOR]

Published

2024

16. Deficient by Design? Why Australia's Ramsar Convention Implementation Deficits are Symptomatic of Outdated Treaty Reception Mechanisms.

Author

Bury, Carina

Subjects

*CONVENTION on Wetlands of International Importance Especially as Waterfowl Habitat, *WETLANDS, *WATERFOWL, *HABITATS, *TREATIES

Published

2024

17. A deep dive into the waterbird community of an urban oasis: implications for park management.

Author

Wise, August, Rosener, Anya, Martin, Arina, Cote, Melissa, Hopwood, Christopher D., Schwartz, Elizabeth, Tharp, Riley, and Blake, Stephen

Subjects

CICONIIFORMES, WILDLIFE conservation, WATER depth, HABITAT conservation, FOREST reserves

Abstract

The rapid decline in avifauna populations across North America underscores the urgency of implementing effective conservation strategies. While waterfowl species have generally increased in abundance due to investments in habitat restoration and species management, most other waterbird species have declined. In contrast to the widespread decline of natural habitat for waterbirds, urban greenspaces have proliferated. However, the extent to which urban greenspaces provide habitat for waterbirds is largely unknown. We measured waterbird abundance in Forest Park, Saint Louis, which contains a large expanse of restored waterways. Between 2020 and 2022, we used point counts to quantify alpha and beta diversity of waterbirds across five waterbodies. We also quantified several environmental factors hypothesized to influence waterbird presence including weather, bathymetry, water quality, and prey abundance. We assessed environmental drivers of alpha and gamma diversity using generalized linear mixed models, and beta diversity with Jaccard's similarity indices and Mantel tests. Water depth and depth heterogeneity were the strongest determinants of alpha diversity. Measured environmental variables did not predict beta diversity but improved model fit when testing gamma diversity. Forest Park is a regionally important urban habitat for waterbirds, hosting 62% (38 species) of the total regional species pool, including nine species of conservation concern and two state endangered species. Urban parks can contribute to waterbird conservation despite habitat loss elsewhere if park managers prioritize habitat restoration. In addition to the total area of waterways, water depth and water depth homogeneity are important considerations to maximize waterbird species diversity in urban greenspaces. [ABSTRACT FROM AUTHOR]

Published

2024

18. Long‐term observation of waterfowl migration in the south‐east of the forest zone of Western Siberia, Russia

Author

I. G. Korobitsyn, O. Yu. Tyutenkov, A. S. Panin, E. B. Murzakhanov, and A. V. Bazdyrev

Subjects

migrations, waterfowl, population counts, long‐term dynamics, western siberia, Ecology, QH540-549.5

Abstract

The aim of this research is an analysis of the long‐term dynamics of the composition and number of migratory waterfowl in the southeast of the forest zone of Western Siberia.Visual observations of waterfowl migration were carried out in the format of daily 2‐hour morning counts in April‐May through a period 18 years (1998–2023) near the Tomsk on the Tom river. Additionally, in 2002–2003, simultaneous migration was also observed on the Ob river in the southern, central and northern parts of the Tomsk region. The method of E.I. Gavrilova and E.V. Kumari was used with some modifications. Birds were counted which were transit flying via the territory, as well as birds sitting on the lake water in the area of the observation point.Twenty‐one species of waterfowl have been registered. Analysis of long‐term dynamics has revealed a trend towards a decrease in the total number of migrating waterfowl. In the most abundant species, Anas acuta, this trend is statistically significant. In some species – Anas strepera and Cygnus Cygnus – the trend of dynamics is positive.Most likely reason for the decline in waterfowl numbers is excessive spring hunting. A reduced hunting duration or the introduction of a moratorium every few years may be among the responses required. We suggest using the period of mass migration to monitor the waterfowl resource. This period is shorter and when the greatest number of birds migrate.

Published

2024

19. Using an adaptive modeling framework to identify avian influenza spillover risk at the wild-domestic interface

Author

Diann J. Prosser, Cody M. Kent, Jeffery D. Sullivan, Kelly A. Patyk, Mary-Jane McCool, Mia Kim Torchetti, Kristina Lantz, and Jennifer M. Mullinax

Subjects

Avian influenza, Waterfowl, Poultry, Spillover events, Wild to domestic interface, Medicine, Science

Abstract

Abstract The wild to domestic bird interface is an important nexus for emergence and transmission of highly pathogenic avian influenza (HPAI) viruses. Although the recent incursion of HPAI H5N1 Clade 2.3.4.4b into North America calls for emergency response and planning given the unprecedented scale, readily available data-driven models are lacking. Here, we provide high resolution spatial and temporal transmission risk models for the contiguous United States. Considering virus host ecology, we included weekly species-level wild waterfowl (Anatidae) abundance and endemic low pathogenic avian influenza virus prevalence metrics in combination with number of poultry farms per commodity type and relative biosecurity risks at two spatial scales: 3 km and county-level. Spillover risk varied across the annual cycle of waterfowl migration and some locations exhibited persistent risk throughout the year given higher poultry production. Validation using wild bird introduction events identified by phylogenetic analysis from 2022 to 2023 HPAI poultry outbreaks indicate strong model performance. The modular nature of our approach lends itself to building upon updated datasets under evolving conditions, testing hypothetical scenarios, or customizing results with proprietary data. This research demonstrates an adaptive approach for developing models to inform preparedness and response as novel outbreaks occur, viruses evolve, and additional data become available.

Published

2024

20. Development of a multienzyme isothermal and lateral flow dipstick combination assay for the rapid detection of goose astrovirus II.

Author

Yinchu Zhu, Liu Chen, Xin Xu, Weicheng Ye, Zheng Ni, Suxin Huo, Jionggang Hua, Tao Yun, Huochun Yao, Hongyu Wang, and Cun Zhang

Subjects

ISOTHERMAL flows, VIRAL genes, GENETIC transcription, GEESE, WATERFOWL

Abstract

Introduction: Goose astrovirus (GAstV) is a newly emerging pathogen that is currently widespread among geese, causing visceral gout and leading to substantial gosling mortalities, posing a severe threat to the waterfowl industry. GAstV II is the predominant epidemic strain, characterized by its high morbidity and mortality rate. Consequently, there is an urgent necessity to develop an effective diagnostic approach to control the dissemination of GAstV II, particularly in clinical farms with limited laboratory resources. Methods: In this study, a novel multi-enzyme isothermal rapid amplification (MIRA) and lateral flow dipstick (LFD) combined assay was developed. Different primers designed specific targeting a highly conserved region within the viral RdRp gene for the detection of GAstV II. Primers optimized and MIRA-LFD assay analyzed its performance regarding limits of detection, specificity, and efficiency of detection. Results: The developed MIRA amplification is conducted at a constant temperature and accomplished within 10 minutes. Subsequent naked-eye observation of the LFD strips merely takes 5 minutes. The established MIRALFD method exhibits high specificity, with no cross-reaction with other pathogens and attains a detection sensitivity of 1 copy/ml, which is consistent with the reverse transcription quantitative PCR (RT-qPCR) assay. Further evaluation with clinical samples indicates that the accuracy of this MIRA-LFD method correlates well with RT-qPCR for the detection of GAstV II. Conclusion: In summary, the convenience, sensitivity, and rapidity of this newly developed detection method offer a significant advantage for on-site diagnosis of GAstV II. [ABSTRACT FROM AUTHOR]

Published

2024

21. Duckling survival increased with availability of flooded wetland habitat and decreased with salinity concentrations in a brackish marsh.

Author

Peterson, Sarah H, Ackerman, Joshua T, Hartman, C Alex, Greenawalt, Andrew C, Casazza, Michael L, and Herzog, Mark P

Subjects

*MALLARD, *BRACKISH waters, *SURVIVAL rate, *WATERFOWL, *WETLANDS, *DUCKLINGS

Abstract

Waterfowl population recruitment is sensitive to duckling survival. We quantified predator types and survival rates for Anas platyrhynchos (Mallard) and Mareca strepera (Gadwall) ducklings in one of the largest brackish water marshes in western North America (Suisun Marsh, California) using 556 radio-tagged ducklings from 284 broods tracked during the 2016 to 2019 breeding seasons. Overall, 78% of ducklings died and 84% of mortalities occurred < 7 days after hatch. After hatching in upland fields, survival was greater for broods that hatched closer to flooded wetlands; broods had a ≥ 75% chance of surviving the move from the nest to water when nests were located ≤ 140 m from the nearest wetland and ≤ 50% chance of surviving when nests were located ≥ 970 m from the nearest wetland. Predation accounted for 91% of mortalities and was attributed to mammals (27.6%), birds (22.0%), snakes (4.4%), and unknown predators (46.0%). Anas platyrhynchos survival to fledging (54 days) was only 3.2% and 0.9% during 2 drier years and 11.7% and 16.7% during 2 wetter years. Mareca strepera survival to fledging was 9.4% to 11.2% among years. Daily survival rates for ducklings generally increased with the amount of flooded wetlands within 0.5 km (A. platyrhynchos) and 1.0 km (M. strepera) of the nest at hatch. Additionally, survival rates increased with duckling age and body mass at hatch for both species and decreased with hatch date for A. platyrhynchos but not M. strepera , which may be partially due to the earlier onset of A. platyrhynchos nesting. For ducklings that survived the initial move to water, survival rates were negatively correlated with salinity and this effect was more pronounced for younger ducklings. Anas platyrhynchos survival to 7 days post hatch decreased by 9.1% (wetter year) to 31.4% (drier year) when ducklings were in 12 ppt water (99th quantile of cumulative salinity concentrations experienced by ducklings) versus 0.5 ppt water. Mareca strepera survival to 7 days decreased by 7.4% when ducklings were in 12 ppt vs. 0.5 ppt water. Our results suggest that maintaining a network of low salinity wetlands within 1 km of upland nesting sites would likely improve duckling survival rates, especially during the critical 7-day period after hatch. [ABSTRACT FROM AUTHOR]

Published

2024

22. Uncovering habitat associations and thresholds—insights for managing breeding waterfowl in Eastern Canada.

Author

Frei, Barbara, Cox, Amelia R., Brown, Andrea, Dyson, Matthew E., Meyer, Shawn, Hanson, Alan, Hick, Kristina, Gilliland, Scott G., Lepage, Christine, Tétreault, Mathieu, and Roy, Christian

Abstract

Context: Understanding how habitat influences species abundance is crucial in developing ecologically sound wildlife conservation management plans. Exploring habitat associations and ecological thresholds in species’ responses allows for better conservation and management on a landscape-scale. Objectives: This work aimed to identify habitat drivers and response thresholds of waterfowl and waterbird species’ densities in eastern Canada to support key landscape-level decisions for habitat conservation and wetland management. Methods: We developed predictive abundance models for 17 species across eastern Canada from 2001 to 2015 using data from four regional surveys and identified areas where prioritizing enhancement of wetlands would increase the breeding density of five priority waterfowl species. Results: Habitat associations and spatial abundance patterns varied across species, but most species responded strongly to forest composition, agriculture, and wetland features. Threshold effects occurred and varied among species, yet generally once 14% of a plot was covered in wetlands, positive effects of increased wetland diminished for most species. Our results allow for the targeting of investments in increasing wetland area along portions of eastern Canada that provide the best opportunities to increase breeding densities for priority waterfowl species. Conclusions: Understanding species-habitat associations and response thresholds allows for landscape management and planning and prioritization of limited resources. We suggest that management and wetland enhancement efforts for waterfowl in eastern Canada should be guided by predictive models and response thresholds of key habitat attributes to best prioritize actions that will have the biggest positive impact on multiple species. [ABSTRACT FROM AUTHOR]

Published

2024

23. Harvest of waterfowl and Sandhill Crane in rural Alaska: Geographic and seasonal patterns.

Author

Naves, Liliana C. and Schamber, Jason L.

Subjects

*CRANES (Birds), *MIGRATORY birds, *WATERFOWL, *ALASKA Natives, *BIRD conservation, *BIRD food

Abstract

We estimated the annual harvest of waterfowl and Sandhill Crane Grus canadensis and their eggs by Alaska's rural residents and described seasonal and geographic patterns. Subsistence in Alaska refers to patterns of resource use typical of rural, remote regions where Indigenous people are a high proportion of the population. Rural communities in Alaska rely on the legally-allowed spring-summer harvest of migratory birds for food and socio-cultural wellbeing, in addition to harvests in the fall-winter general hunting season. We based harvest estimates on a large dataset (637 community-years) composed from multiple sources. The estimated annual average harvest of waterfowl and Sandhill Crane by rural residents was 270,641 birds/year (68% in spring-summer, 32% in fall-winter) and 36,692 eggs/year in the 2004–2015 reference period. Harvest estimates for ducks, swans, and Sandhill Crane were lower than in the 1980s–1990s. Harvest amounts, seasonality, and species composition distinguished regional patterns for the Pacific-Aleutian mainland and islands, Bering Sea mainland, St. Lawrence-Diomede islands, North Slope, and Interior Alaska-Upper Copper River. Rural residents accounted for 79% of the total waterfowl harvest in Alaska and high proportions of the total Pacific Flyway harvest for several species of sea ducks, geese, swans, and Sandhill Crane. Alaska's Indigenous people are important partners in harvest management and conservation of migratory birds. Harvest data are needed to inform efficient and appropriate decisions to achieve management goals. This study can facilitate collaboration for harvest management and conservation across Alaska and the flyways by helping diverse users to understand their contributions to the total harvest. [ABSTRACT FROM AUTHOR]

Published

2024

24. Establishment and application of quadruple fluorescence quantitative RT-PCR method for the identification of waterfowl astrovirus.

Author

Yang Li, Juan Luo, Fuyou Zhang, Jiajing Shang, Chunran Deng, Yingjie Feng, Ge Meng, Wenming Jiang, Xiaohui Yu, Guanhui Liu, and Hualei Liu

Subjects

WATERFOWL, VIRAL diarrhea, FLUORESCENCE, QUANTITATIVE research, NUCLEOTIDE sequencing, GEESE, AVIAN influenza A virus

Abstract

Avian astrovirus can infect a variety of poultry species and cause viral diarrhea, with a wide epidemic range strong pathogenicity and a high incidence. Among them, Duck astrovirus 3(DAstV-3), Duck astrovirus 4(DAstV-4), Goose astrovirus 1(GoAstV-1) and Goose astrovirus 2(GoAstV-2) are four types of astroviruses newly discovered in waterfowl in recent years. In order to realize the rapid detection of these four kinds of waterfowl stellate viruses, specific primers and probes were engineered to target a highly conserved region of ORF1b gene of DAstV-3, GoAstV-1 and GoAstV-2 and the ORF2 gene of DAstV-4, and a quadruple fluorescence quantitative RT-PCR method was developed. The results indicate that the method established in this study has good specificity and no cross reactivity with other pathogens. This method can detect viruses with a minimum concentration of 1 × 101 copies/µL for DAstV-4, GoAstV-1 and GoAstV-2, respectively, while the minimum concentration for DAstV-3 is 1 × 102 copies/µL. Compared with the routinely used RT-PCR method, the limit of detection by the multiplex RT-PCR lower. Both intra- and inter-assay variability tests revealed excellent reproducibility. This method was then used to analyze 269 field samples, and the results were verified by genome sequencing. In conclusion, this study presents a sensitive, accurate, and specific method for detecting DAstV-3, DAstV-4, GoAstV-1, and GoAstV-2 in a single reaction, enabling the monitoring and differential diagnosis of these four types of waterfowl astroviruses. [ABSTRACT FROM AUTHOR]

Published

2024

25. Wood ducks and hooded mergansers as interspecific brood parasites: An evaluation of parasitic egg survival.

Author

Bakner, Dylan L., Ringelman, Kevin M., Reynolds, Larry A., Kaminski, Richard M., Stephens, Scott E., and Davis, J. Brian

Subjects

*BROOD parasites, *BIRDHOUSES, *BROOD parasitism, *WATERFOWL, *DUCKS, *EGGS, *CUCKOOS

Abstract

Conspecific and interspecific brood parasitism are alternate reproductive strategies more pervasive in waterfowl than in any other group of birds. While previous research has measured costs incurred by nest hosts incubating parasitized clutches, few studies have focused on the relative success of parasites. Here, we evaluated the success of wood duck (Aix sponsa) and hooded merganser (Lophodytes cucullatus) eggs laid parasitically in Louisiana and Mississippi. We monitored nest boxes, assigned eggs in each nest as host or parasitic, and determined the number of eggs that hatched and failed. Across all study areas (1994–1999 and 2020–2023), we monitored 1750 wood duck and 377 hooded merganser nests; ~13% of wood duck and ~24% of hooded merganser nests were interspecifically parasitized. We modeled egg survival of 2925 host and 691 parasitic eggs from 197 successful nests (≥1 hatched egg, regardless of species). Wood duck eggs laid in hooded merganser nests had lower survival [0.293, CI = 95% credible intervals (after, CI) = 0.176, 0.439] than hooded merganser eggs (0.762, CI = 0.704, 0.810) laid in wood duck nests. Clutch size negatively influenced parasitic wood duck egg survival (β = −.24, CI = −0.39, −0.10) but had a slight positive influence on parasitic hooded merganser eggs (β =.08, CI = 0.04, 0.12). Our results revealed that hooded merganser eggs experience higher success when laid parasitically in wood duck nests, whereas wood duck eggs experience lower success when laid parasitically in hooded merganser nests. Our results reveal new complexity in waterfowl interspecific brood parasitism, where the success of parasitic eggs is species‐, host‐, and context‐specific. [ABSTRACT FROM AUTHOR]

Published

2024

26. First breeding record of the Black-winged Stilt (Himantopus himantopus, Linnaeus, 1758) in man-made wetlands, northeast Iran: Implications of agricultural expansion and farm damming.

Author

Pourebrahimi, Somayeh, Monfared, Morteza, Khani, Ali, Rastekar, Fatemeh, and Aliabadian, Mansour

Subjects

BLACK-winged stilt, BIRD breeding, BIRD habitats, AQUATIC plants

Abstract

The man-made farm dam surrounding the Kashaf-Rud Protected Area has created artificial wetlands, providing an ideal habitat for various bird species. One such species is the Blackwinged Stilt (Himantopus himantopus), which has made the dam its breeding ground. A total of 42 nests of black-winged Stilts were investigated during the study period from early May onwards in the Kashaf-Rud Protected Area. Our study revealed that nests were built on small patches near the water's edge without aquatic plant incorporation. The mean distance between nests was 3.97±3.281 m, with a mean distance from nests to water of 2.76±1.866 m. We found differences in the mean of clutch size and nest depth compared to previous research in Guilan province of Iran and southern part of Spain highlighting the influence of environmental conditions on nesting attributes within the species. Our results underscore the significance of wetlands in northeastern Iran as favorable habitats for a variety of waterbird species. [ABSTRACT FROM AUTHOR]

Published

2024

27. The first report and biological characterization of <italic>Avian Orthoavulavirus 16</italic> in wild migratory waterfowl and domestic poultry in China reveal a potential threat to birds.

Author

Sha, Yuxin, Yan, Weiwen, Liu, Xinxin, Chai, Haoran, Chen, Jianjun, Li, Hongjin, Wang, Mengjun, Jiang, Shanshan, Wang, Sijie, Ren, Yongning, Li, Hongli, Liu, Yifei, Stoeger, Tobias, Wajid, Abdul, Dodovski, Aleksandar, Gao, Chao, Mingala, Claro N., Andreychuk, Dmitry B., and Yin, Renfu

Subjects

*MIGRATORY birds, *POULTRY, *AVIAN influenza A virus, *VIRUS isolation, *WATERFOWL

Abstract

RESEARCH HIGHLIGHTSThe Avulavirus within the family Paramyxoviridae includes at least 22 different species, and is known to cause different types of infections and even be fatal in multiple avian species. There is limited knowledge of the genetic and biological information of Avulavirus species 2 to 22 in domestic and wild birds and the disease significance of these viruses in birds is not fully determined, although as many as 10 new distinct species have been identified from wild birds and domestic poultry around the world in the last decade. This study aimed to use PCR, virus isolation, and sequencing to genetically and biologically characterize Avian Orthoavulavirus 16 (AOAV-16) in wild birds and domestic poultry collected from different locations in China between 2014 and 2022. Of five isolated AOAV-16 strains (Y1 to Y5), only the Y4 strain had a haemagglutination (HA)-negative result. All of these isolates were low virulent viruses for chickens, except Y3 which was detected simultaneously with avian influenza virus (AIV) of H9N2 subtype. Furthermore, at least four different types of intergenic sequences (IGS) between the HN and L genes junction, and recombination events, as well as interspecific transmission by wild migratory birds, existed within the species AOAV-16. These findings and results of other reported AOAV-16 strains recommend strict control measures to limit contact between wild migratory birds and domestic poultry and imply potential threats to commercial poultry and even public health challenges worldwide.First confirmation of AOAV-16 in domestic and wild birds in China.AOAV-16 are low virulent viruses for chickens.Co-circulation/co-infection of AOAV-16 and H9N2 subtype AIV enhanced pathogenicity.Different intergenic sequences and recombination events exist within AOAV-16.First confirmation of AOAV-16 in domestic and wild birds in China.AOAV-16 are low virulent viruses for chickens.Co-circulation/co-infection of AOAV-16 and H9N2 subtype AIV enhanced pathogenicity.Different intergenic sequences and recombination events exist within AOAV-16. [ABSTRACT FROM AUTHOR]

Published

2024

28. Riding the wetland wave: Can ducks locate macroinvertebrate resources across the breeding season?

Author

Setash, Casey M., Behney, Adam C., Gammonley, James H., and Koons, David N.

Subjects

*WETLANDS, *LIFE cycles (Biology), *DUCKS, *HABITAT selection, *SEXUAL cycle, *WATERFOWL

Abstract

Food availability varies considerably over space and time in wetland systems, and consumers must be able to track those changes during energetically‐demanding points in the life cycle like breeding. Resource tracking has been studied frequently among herbivores, but receives less attention among consumers of macroinvertebrates. We evaluated the change in resource availability across habitat types and time and the simultaneous density of waterfowl consumers throughout their breeding season in a high‐elevation, flood‐irrigated system. We also assessed whether the macroinvertebrate resource density better predicted waterfowl density across habitats, compared to consistency (i.e., temporal evenness) of the invertebrate resource or taxonomic richness. Resource density varied marginally across wetland types but was highest in basin wetlands (i.e., ponds) and peaked early in the breeding season, whereas it remained relatively low and stable in other wetland habitats. Breeding duck density was positively related to resource density, more so than temporal resource stability, for all species. Resource density was negatively related to duckling density, however. These results have the potential to not only elucidate mechanisms of habitat selection among breeding ducks in flood‐irrigated landscapes but also suggest there is not a consequential trade‐off to selecting wetland sites based on energy density versus temporal resource stability and that good‐quality wetland sites provide both. [ABSTRACT FROM AUTHOR]

Published

2024

29. Long‐term changes in autumn–winter harvest distributions vary among duck species, months, and subpopulations.

Author

Verheijen, Bram H. F., Webb, Elisabeth B., Brasher, Michael G., and Hagy, Heath M.

Subjects

*MALLARD, *DUCKS, *SPECIES distribution, *SPECIES, *HABITAT conservation, *WINTER

Abstract

Our aim was to describe shifts in autumn and winter harvest distributions of three species of dabbling ducks (blue‐winged teal [Spatula discors], mallard [Anas platyrhynchos], and northern pintail [Anas acuta]) in the Central and Mississippi flyways of North America during 1960–2019. We measured shifts in band recovery distributions corrected for changes in hunting season dates and zones by using kernel density estimators to calculate 10 distributional metrics. We then assessed interannual and intraspecific variation by comparing species‐specific changes in distributional metrics for 4 months (October–January) and three geographically based subpopulations. During 1960–2019, band recovery distributions shifted west‐ and southwards (blue‐winged teal) or east‐ and northwards (mallard and northern pintail) by one hundred to several hundred kilometers. For all three species, the broad (95% isopleth) and core distributions (50% isopleth) showed widespread decreases in overlap and increases in relative area compared to a 1960–1979 baseline period. Shifts in band recovery distributions varied by month, with southward shifts for blue‐winged teal most pronounced in October and northward shifts for mallard and northern pintail greatest during December and January. Finally, distributional metric response varied considerably among mallard subpopulations, including 2–4‐fold differences in longitude, latitude, and overlap, whereas differences among subpopulations were minimal for blue‐winged teal and northern pintail. Our findings support the popular notion that winter (December–January) distributions of duck species have shifted north; however, the extent and direction of distributional changes vary among species and subpopulations. Long‐term distributional changes are therefore complex and summarizing shifts across species, months, or subpopulations could mask underlying finer‐scale patterns that are important to habitat conservation and population management. A detailed understanding of how species distributions have changed over time will help quantify important drivers of species occurrence, identify habitat management options, and could inform decisions on where to focus conservation or restoration efforts. [ABSTRACT FROM AUTHOR]

Published

2024

30. Genome analysis of gyroviruses identified in waterfowl in Arizona (USA).

Author

Sahnan, Shawnpreet, Olivo, Diego, Custer, Joy M., Bandoo, Rohan A., Jackson, Danny, Lund, Michael C., McGraw, Hannah, Regney, Melanie, Aguiar de Souza Penha, Victor, Neil, Julia, Drake, Dean, McGraw, Kevin, Varsani, Arvind, and Kraberger, Simona

Subjects

*WHOLE genome sequencing, *NUCLEOTIDE sequence, *SINGLE-stranded DNA, *WATERFOWL, *GENOMES, *POULTRY industry

Abstract

Gyroviruses are small single-stranded DNA (ssDNA) viruses that are largely associated with birds. Chicken anemia virus is the most extensively studied gyrovirus due to its disease impact on the poultry industry. However, we know much less about gyroviruses infecting other avian species. To investigate gyroviruses infecting waterfowl, we determined six complete genome sequences that fall into three gyrovirus groups, referred to as waterfowl gyrovirus 1 (n = 3), 2 (n = 2), and 3 (n = 1), in organs from hunter-harvested waterfowl from Arizona (USA). The waterfowl gyrovirus 1 variants were identified in multiple organs of a single American wigeon and represent a tentative new species. The waterfowl gyrovirus 2 variants were identified in the livers of two American wigeons and share >70% VP1 nucleotide sequence identity with gyrovirus 9, previously identified in the spleen of a Brazilian Pekin duck (MT318123) and a human fecal sample (KP742975). Waterfowl gyrovirus 3 was identified in a northern pintail spleen sample, and it shares >73% VP1 nucleotide sequence identity with two gyrovirus 13 sequences previously identified in Brazilian Pekin duck spleens (MT318125 and MT318127). These gyroviruses are the first to be identified in waterfowl in North America, as well as in American wigeons and northern pintails. [ABSTRACT FROM AUTHOR]

Published

2024

31. The Species Composition of the Definitive Hosts of the Trematode Bilharziella polonica (Schistosomatidae) of Southern Karelia (Northwestern Russia).

Author

Yakovleva, G. A.

Subjects

*SPECIES, *GREBES, *WATERFOWL, *TREMATODA, *MALLARD, BIRD infections

Abstract

A helminth fauna study of 398 waterfowl specimens belonging to 43 species living in southern Karelia wetlands (northwestern Russia) was conducted. This is the first time when data on the species composition and the infection of birds that are definitive hosts of Bilharziella polonica Schistosomatidae have been obtained. Bilharziella polonica has been recorded only in seven bird species, namely in the mallard, the Eurasia-n teal, the common goldeneye, the tufted duck, the northern shoveler, and the red-necked grebe; the infestation of the latter is noted in northwestern Russia for the first time. Of the bird species examined, this study describes the role of trematoda-infected birds in maintaining the focus of cercariosis, also known as "swimmer's itch," a disease pathogenic for humans. The data presented in our study indicates that the tremat-ode development cycle occurs successfully in the environment of Karelia. [ABSTRACT FROM AUTHOR]

Published

2024

32. Epidemiological investigation of fowl adenovirus (FAdV) infections in ducks and geese in Shandong Province, China.

Author

Wu, Bingrong, Jiang, Xiaoning, He, Dalin, Wei, Feng, Mao, Mingtian, Zhu, YuDong, Su, Hong, Tang, Yi, and Diao, Youxiang

Subjects

*GEESE, *POULTRY, *DUCKS, *AVIAN influenza A virus, *ADENOVIRUSES

Abstract

Outbreaks of fowl adenoviruses (FAdVs) infection with the main clinical signs of hepatitis-hydropericardium-syndrome or inclusion body hepatitis have been frequently reported in ducks and geese in recent years, causing economic losses for the Chinese waterfowl industry. This study investigated 792 samples (391 fattening ducks, 192 breeder ducks and 209 fattening geese) of suspected FAdV-infected waterfowl from 38 farms (21 fattening duck farms, nine breeder duck farms and eight fattening geese farms) in Shandong Province between 2019 and 2022. The results showed a 60.23% infection rate for FAdVs (477/792), while the infection rate for breeder ducks was almost the same as that for fattening geese (55.73% vs. 54.55%). Notably, co-infection with avian influenza virus H9N2 (H9N2), Tembusu virus (TMUV), duck hepatitis virus (DHV), duck circovirus (DuCV), goose astrovirus (GAstV) and duck parvovirus (DPV)/goose parvovirus (GPV) was common among the 477 FAdVs positive cases. Phylogenetic analysis of complete hexon genes of 22 FAdV strains in Shandong Province showed the presence of four species (FAdV-A, C, D, E) and five serotypes (FAdV-1, 4, 8a, 8b, 11). These findings provide the first data on the prevalence and co-infection status of FAdVs in Shandong Province and can be used as a basis for FAdV prevention in the field. Samples of suspected FAdV-infected waterfowl from farms in Shandong Province were collected from 2019 to 2022. Single infections with FAdV were less frequent than mixed infections. 477 out of 792 samples (60.23%) tested positive for FAdV nucleic acids. Detection rate of FAdV was 65.47% in fattening duck farms, 55.73% in breeder duck farms and 54.55% in fattening geese farms. [ABSTRACT FROM AUTHOR]

Published

2024

33. Ecological and anthropogenic drivers of waterfowl productivity are synchronous across species, space, and time.

Author

Weegman, Mitch D., Devries, James H., Clark, Robert G., Howerter, David W., Gibson, Daniel, Donnelly, J. Patrick, and Arnold, Todd W.

Subjects

MALLARD, AGRICULTURAL intensification, SPECIES, POPULATION dynamics, SPATIAL variation, WATERFOWL, RICE breeding

Abstract

Knowledge of interspecific and spatiotemporal variation in demography–environment relationships is key for understanding the population dynamics of sympatric species and developing multispecies conservation strategies. We used hierarchical random‐effects models to examine interspecific and spatial variation in annual productivity in six migratory ducks (i.e., American wigeon [Mareca americana], blue‐winged teal [Spatula discors], gadwall [Mareca strepera], green‐winged teal [Anas crecca], mallard [Anas platyrhynchos] and northern pintail [Anas acuta]) across six distinct ecostrata in the Prairie Pothole Region of North America. We tested whether breeding habitat conditions (seasonal pond counts, agricultural intensification, and grassland acreage) or cross‐seasonal effects (indexed by flooded rice acreage in primary wintering areas) better explained variation in the proportion of juveniles captured during late summer banding. The proportion of juveniles (i.e., productivity) was highly variable within species and ecostrata throughout 1961–2019 and generally declined through time in blue‐winged teal, gadwall, mallard, pintail, and wigeon, but there was no support for a trend in green‐winged teal. Productivity in Canadian ecostrata declined with increasing agricultural intensification and increased with increasing pond counts. We also found a strong cross‐seasonal effect, whereby more flooded rice hectares during winter resulted in higher subsequent productivity. Our results suggest highly consistent environmental and anthropogenic effects on waterfowl productivity across species and space. Our study advances our understanding of current year and cross‐seasonal effects on duck productivity across a suite of species and at finer spatial scales, which could help managers better target working‐lands conservation programs on both breeding and wintering areas. We encourage other researchers to evaluate environmental drivers of population dynamics among species in a single modeling framework for a deeper understanding of whether conservation plans should be generalized or customized given limited financial resources. [ABSTRACT FROM AUTHOR]

Published

2024

34. Effects of oil and gas development on duck nest survival in the Western Boreal Forest.

Author

Dyson, Matthew E., Slattery, Stuart M., and Fedy, Bradley C.

Abstract

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Published

2024

35. Birds as reservoirs: unraveling the global spread of Gamma- and Deltacoronaviruses

Author

Jinyue Guo, Jieheng He, Zhaoping Liang, Shujian Huang, and Feng Wen

Subjects

coronavirus, Gammacoronaviruses, Deltacoronaviruses, waterfowl, wild birds, cross-species transmission, Microbiology, QR1-502

Abstract

ABSTRACT Avian migration is a global phenomenon that transcends geographical boundaries. These migratory birds serve as unwitting carriers of diverse Gammacoronaviruses (γ-CoVs) and Deltacoronaviruses (δ-CoVs). While recombination events have been documented among γ-CoVs in avian species and β-CoVs in mammals, evidence for recombination between CoVs of distinct genera remains limited. This minireview examines the prevalence of CoVs in both domestic waterfowl (ducks and geese) and wild bird populations inhabiting various regions. We investigate the dissemination patterns of γ-CoVs and δ-CoVs among these populations, highlighting their shared characteristics. Furthermore, the review explores the intricate web of cross-species transmission of δ-CoVs from wild birds to mammals, with a particular focus on pigs. Understanding the distinct features of CoVs harbored by waterfowl and wild birds and their potential for cross-species transmission is crucial for preparedness and response to future CoV epidemics.

Published

2024

36. Biomarkers of oxidative stress and bioaccumulation of trace metals in waterbirds from different rice fields systems

Author

Fabiane Borba Bergmann, Jossiele Wesz Leitemperger, Marianna Basso Jorge, Hugo Leonardo da Cunha Amaral, Adalto Bianchini, Vania Lucio Loro, and Demetrio Luis Guadagnin

Subjects

Rice paddies, Waterfowl, Trace elements, Biomarkers, Environmental sciences, GE1-350

Abstract

Abstract We compared trace metal concentrations (Pb, Zn, Cd, Cu) in feathers and biomarkers in muscle and liver tissue of waterbirds from organic and conventional irrigated rice farms in South Brazil. Cu and Pb concentrations were higher in waterbirds from conventional farms, whereas Cd and Zn levels were elevated in organic farms. Birds foraging in organic farms exhibited lower CAT and SOD activity and higher NPSH, LPO, and PC concentrations compared to those in conventional farms. Higher Cu and Pb concentrations were associated with elevated SOD and CAT activity, more prevalent in birds frequenting conventional farms. Conversely, birds with higher Cd and Zn concentrations showed increased NPSH, LPO, and PC levels and were more common in organic farms. Our study underscores complex differences in trace metal accumulation and oxidative stress biomarkers among waterbirds in organic and conventional rice crops.

Published

2024

37. A rapid monitoring protocol to estimate unharvested corn biomass in waterfowl impoundments.

Author

Highway, Cory J., Masto, Nicholas M., Blake‐Bradshaw, Abigail G., Keever, Allison C., Feddersen, Jamie C., Hagy, Heath M., Combs, Daniel L., and Cohen, Bradley S.

Subjects

*WATERFOWL, *BIOMASS, *AUTUMN, *NATURAL resources, *FARMS

Abstract

Conservation planners use bioenergetic models to develop habitat objectives that satisfy energetic demands of waterfowl during nonbreeding periods. In turn, natural resource managers should estimate yield and availability of natural and cultivated waterfowl forage to monitor contributions to objectives and support adaptive resource management. Because bioenergetic models are particularly sensitive to unharvested flooded croplands, we developed a rapid methodology to estimate biomass of unharvested flooded corn (Zea mays) and tested our methodology in impounded corn fields planted and flooded in western Tennessee during autumn and winter of 2019–2021. We evaluated accuracy of our rapid assessment method and conducted simulations to assess variance‐bias trade‐offs relative to sample size. Rapid assessments lasted 20 min ± 10 minutes per field. Our rapid assessment method underestimated number of kernels per ear by 2.6% ± 0.5%. After adjusting for underestimation bias, corn biomass across all surveys was 5,500 kg/ha ± 250 kg/ha, which is similar yield to previous literature from waterfowl impoundment fields. Sampling 15 ears per field allowed field biomass to be estimated within acceptable accuracy (i.e., variance [SE] of mean percent error <1.8%). We recommend our rapid yield assessment method be incorporated into habitat monitoring protocols to efficiently and precisely estimate corn biomass for improved conservation planning initiatives. Additionally, our rapid assessment method allows managers to monitor field yield rapidly, enabling estimates of corn depletion and availability throughout the nonbreeding season for waterfowl to support management decisions. [ABSTRACT FROM AUTHOR]

Published

2024

38. The Demise of Waterfowl Hunting Ethics.

Author

Dieter, Chuck

Subjects

WATERFOWL, SNOW goose, HUNTING, CANADA goose, AUTUMN

Abstract

This article explores the decline of waterfowl hunting ethics, with a specific focus on the spring "Conservation Order" aimed at reducing the population of snow geese. The order was implemented due to the negative impact of snow geese on the Arctic tundra. However, the author argues that the order has resulted in a decline in hunting ethics and disrupted the migration patterns of snow geese. The article highlights changes in hunting practices, such as the use of electronic calls and extended shooting hours, which have contributed to the deterioration of waterfowl hunting ethics. The text also discusses the decline in the snow goose population and the impact of hunting on their reproductive output. The author criticizes the behavior of some hunters and advocates for a return to a regular fall hunting season with stricter limits. The article also mentions the successful recovery of damaged tundra and past achievements in waterfowl conservation efforts. [Extracted from the article]

Published

2024

39. Priority Bird Conservation Areas in California’s Sacramento–San Joaquin Delta

Author

Dybala, Kristen E., Sesser, Kristin A., Reiter, Matthew E., Shuford, W. David, Golet, Gregory H., Hickey, Catherine, and Gardali, Thomas

Subjects

California, Central Valley, conservation planning, landbird, riparian, shorebird, waterfowl, species distribution model, zonation

Abstract

Conserving bird populations is a key goal for management of the Sacramento–San Joaquin Delta ecosystem and is likely to have effects well beyond its boundaries. To inform bird- conservation strategies, we identified Priority Bird Conservation Areas for riparian landbirds and waterbirds in the Delta, defined as the most valuable 5% of the landscape for each group. We synthesized data from 2,547 surveys for riparian landbirds and 7,820 surveys for waterbirds to develop predictive distribution models, which then informed spatial prioritization analyses. We identified a total of 26,019 ha that are a high priority for conserving riparian landbirds, waterbirds, or both, representing the most important places in the Delta to protect and manage, as well as strategic areas where adjacent restoration could expand valuable habitat. These Priority Bird Conservation Areas include the Yolo Bypass Wildlife Area, Cosumnes River Preserve, Stone Lakes National Wildlife Refuge, and bufferlands that surround the Sacramento County Regional Sanitation District. However, we also found that over 60% of the Priority Bird Conservation Areas are not currently protected, indicating a vulnerability to changes in land cover or land use. We recommend advancing strategies for bird conservation in the Delta by developing more specific objectives and priorities, extending these analyses to include other bird species, and planning to mitigate the loss of Priority Bird Conservation Areas where they are most vulnerable to land cover change. The predictive models and analysis framework we developed represent the current state of the science on areas important to bird conservation, while also providing a foundation for an evolving bird-conservation strategy that reflects the Delta’s continuously evolving knowledge base and landscape.

Published

2023

40. Body mass dynamics in wintering mallards (Anas platyrhynchos) in the Lower Mississippi Alluvial Valley

Author

Veon, John T, DeGregorio, Brett A, Naylor, Luke W, Reinecke, Kenneth J, Dabbert, Brad C, Demarest, Dean W, Hartke, Kevin M, and Krementz, David G

Subjects

Climate Action, Waterfowl, Mallard, Body Mass, Climate, Fitness, Foraging Ecology, Environmental Science and Management, Ecology

Published

2023

41. Mallard brood movements and survival in an urbanized landscape.

Author

Dykstra, Laura R., Huang, Min T., and Rittenhouse, Tracy A. G.

Subjects

*ANIMAL clutches, *MALLARD, *WETLANDS, *GLOBAL Positioning System, *METROPOLITAN areas, *HABITAT selection, *URBAN ecology, *DUCKLINGS

Abstract

When selecting a nest site, mallards (Anas platyrhynchos) balance differing habitat requirements for the nesting and brood‐rearing periods, such that the juxtaposition of these habitats in the landscape may influence the female's reproductive strategy and reproductive success. Mallard populations in the northeastern United States have declined since the mid‐1990s, and increasing urban development in this region may pose risks to broods and cause high duckling mortality. We assessed mallard brood and duckling survival in the urbanized landscapes of Connecticut, USA, and evaluated whether differences in brood movements, home ranges, and habitat use in urbanized areas influence brood survival. We monitored 32 mallard broods from females with global positioning system (GPS) transmitters in Connecticut in 2021 and 2022. Apparent brood survival to 30 days (0.48, n = 29 broods) was comparable to previous estimates in the Northeast (range = 0.21–0.72), but individual duckling survival (0.18, n = 257 ducklings) was lower than many previous estimates for this region (range = 0.14–0.44), suggesting this parameter warrants continued evaluation because it may be contributing to population declines in Connecticut and the greater Northeast region. Mallard females demonstrated different reproductive strategies and seemed to prioritize either high‐quality nesting habitat or proximity to high‐quality brood‐rearing habitat. High‐quality nesting habitat is not necessarily near high‐quality brood‐rearing habitat, and 61% (17/28) of females moved their ducklings an average of 1.1 ± 0.9 km (SD) shortly after hatch to a brood‐rearing site, often traveling along small streams. A similar proportion of successful (9/12) and failed (7/13) broods moved. We provide evidence of limited availability of brood‐rearing habitat, as females moved long distances to brood‐rearing wetlands and only 1 brood made additional inter‐wetland moves. Management actions that create or modify nesting and brood‐rearing habitat should consider connectivity between these sites; females may choose to nest away from wetlands to minimize exposure to predators but may depend on small streams for travel to brood‐rearing wetlands. [ABSTRACT FROM AUTHOR]

Published

2024

42. Isolation and genetic characterization of waterfowl parvovirus in ducks in Northern Vietnam.

Author

Nguyen Thi Huong, Dong Van Hieu, Nguyen Thi Bich, Tran Van Khanh, Nguyen Thanh Ba, Chu Thi Ngoc Xuan, Quach Thi Minh Hien, Truong Ha Thai, and Chu Thi Thanh Huong

Subjects

*DUCKS, *DUCKLINGS, *WATERFOWL, *COMMUNICABLE diseases, *POLYMERASE chain reaction, *VIRUS virulence, REPRODUCTIVE isolation

Abstract

Background and Aim: Short beak and dwarfism syndrome (SBDS), a highly contagious disease, has been reported in duck farms in Vietnam since 2019. In this study, we evaluated the virulence and characterized the virus obtained from SBDS cases in North Vietnam. Materials and Methods: Polymerase chain reaction was used to detect waterfowl parvovirus in ducks, and the virus from positive samples was inoculated into 10-day-old duck-embryonated eggs to reproduce the disease in young ducklings to determine the virulence and subjected to phylogenetic analysis of non-structural (NS) and VP1 gene sequences. Results and Discussion: Goose parvovirus (GPV) was isolated from ducks associated with SDBS in Vietnam. The virus Han-GPV2001 is highly virulent when inoculated into 10-day-old duck embryos and 3-day-old ducklings. The mortality rate of duck embryos was 94.35% within 6 days of virus inoculation. Inoculating 3-day-old ducks with the virus stock with 104.03 EID50 through intramuscular and neck intravenous administration resulted in 80% and 66.67% of clinical signs of SDBS, respectively, were shown. Phylogenetic analysis based on the partial NS and VP1 gene sequences revealed that the viral isolate obtained in this study belonged to novel GPV (NGPV) and was closely related to previous Vietnamese and Chinese strains. Conclusion: A GPV strain, Han-GPV2001, has been successfully isolated and has virulence in duck-embryonated eggs as well as caused clinical signs of SBDS in ducks. Phylogenetic analyses of partial genes encoding NS and capsid proteins indicated that the obtained GPV isolate belongs to the NGPV group. [ABSTRACT FROM AUTHOR]

Published

2024

43. Duck identification and regulation preferences among waterfowl hunters: a pre-assessment of the Tier II bag limit.

Author

Gruntorad, Matthew P., Vrtiska, Mark P., Murano, Rocco J., Garrick, Matthew J., and Chizinski, Christopher J.

Subjects

*WATERFOWL, *HUNTERS, *DUCK shooting

Abstract

Tier II bag limit regulations were developed to lessen constraints to participation by new duck hunters. By opting for the three-duck bag limit, hunters would not be subject to the species and sex-specific regulations of the six-duck limit. We surveyed hunters in Nebraska and South Dakota to gain an understanding about how Tier II regulations would be received by the current waterfowl-hunting population. We found that less experienced hunters stated they had greater difficulty identifying ducks and were more likely to use Tier II than experienced hunters. A significant proportion of new waterfowl hunters may make use of Tier II, and these regulations may relieve hunting constraints in a meaningful way. Wildlife agencies may want to consider how hunters transition between bag-limit regulations from year-to-year and consider means to integrate Tier II into hunter R3 efforts. [ABSTRACT FROM AUTHOR]

Published

2024

44. Index case of H5N1 clade 2.3.4.4b highly pathogenic avian influenza virus in wild birds, South Korea, November 2023.

Author

Andrew Yong Cho, Young-Jae Si, Dong-Yeop Lee, Dong-Ju Kim, Daehun Kim, Hyesung Jeong, Chang-Seon Song, and Dong-Hun Lee

Subjects

INFLUENZA A virus, H5N1 subtype, AVIAN influenza A virus, BIRDS, GAUSSIAN Markov random fields

Abstract

This data report, published in the journal Frontiers in Veterinary Science, discusses the discovery of the H5N1 clade 2.3.4.4b highly pathogenic avian influenza virus in wild birds in South Korea in November 2023. The report provides information on the virus's origin and genotype, as well as details on sample collection, virus isolation, and genome sequencing. The findings contribute to our understanding of avian influenza viruses and their impact on wild bird populations. The study highlights the need for active surveillance of highly pathogenic avian influenza in wild birds to monitor its evolution and spread. [Extracted from the article]

Published

2024

45. Antimicrobial Susceptibility Profiles of Pasteurella multocida Isolates from Clinical Cases of Waterfowl in Hungary between 2022 and 2023.

Author

Kerek, Ádám, Szabó, Ábel, and Jerzsele, Ákos

Subjects

PASTEURELLA multocida, DRUG resistance in microorganisms, POULTRY industry, DRUG resistance in bacteria, BACTERIAL growth, WATERFOWL

Abstract

Simple Summary: In this study, the antibiotic susceptibility of Pasteurella multocida strains isolated from clinical cases in waterfowl was examined. Pasteurella multocida can cause potentially severe diseases, usually due to predisposing factors. Our investigations involved determining the minimal inhibitory concentration (MIC), which is the lowest concentration of a substance that still effectively inhibits bacterial growth. Our results indicate that a significant portion of the isolates remained susceptible to most antibiotics, with some exceptions showing resistance to enrofloxacin. This study highlights the problem of antibiotic resistance and the importance of appropriate antibiotic selection for effective disease management. The findings of this research encourage further studies on antibiotic susceptibility and optimal treatment strategies to preserve waterfowl health. The waterfowl industry represents a narrow, yet economically significant, sector within the poultry industry. Although less prominent, the waterfowl sector is nonetheless of equal importance to any other livestock sector in terms of antimicrobial resistance and animal health issues. This study assesses the antimicrobial resistance profile of Pasteurella multocida bacterial strains isolated from clinical cases in Hungary's duck and goose populations, determining the minimal inhibitory concentration (MIC) of 27 samples collected from 15 different locations. The results indicate that the isolated strains were susceptible to most antibiotics, except for notable resistance to enrofloxacin. These findings support that Pasteurella multocida largely retained its susceptibility. However, the observed resistance to enrofloxacin suggests overuse of fluoroquinolones, which indicates the potential need for stricter regulation of their use in the poultry industry. [ABSTRACT FROM AUTHOR]

Published

2024

46. Biomarkers of oxidative stress and bioaccumulation of trace metals in waterbirds from different rice fields systems.

Author

Bergmann, Fabiane Borba, Leitemperger, Jossiele Wesz, Jorge, Marianna Basso, da Cunha Amaral, Hugo Leonardo, Bianchini, Adalto, Loro, Vania Lucio, and Guadagnin, Demetrio Luis

Subjects

TRACE metals, PADDY fields, WATER birds, OXIDATIVE stress, RICE farming, BIOMARKERS

Abstract

We compared trace metal concentrations (Pb, Zn, Cd, Cu) in feathers and biomarkers in muscle and liver tissue of waterbirds from organic and conventional irrigated rice farms in South Brazil. Cu and Pb concentrations were higher in waterbirds from conventional farms, whereas Cd and Zn levels were elevated in organic farms. Birds foraging in organic farms exhibited lower CAT and SOD activity and higher NPSH, LPO, and PC concentrations compared to those in conventional farms. Higher Cu and Pb concentrations were associated with elevated SOD and CAT activity, more prevalent in birds frequenting conventional farms. Conversely, birds with higher Cd and Zn concentrations showed increased NPSH, LPO, and PC levels and were more common in organic farms. Our study underscores complex differences in trace metal accumulation and oxidative stress biomarkers among waterbirds in organic and conventional rice crops. [ABSTRACT FROM AUTHOR]

Published

2024

47. Optimised PCR assays for detecting elusive waterfowl from environmental DNA.

Author

Honka, Johanna, Kvist, Laura, Olli, Suvi, Laaksonen, Toni, and Aspi, Jouni

Subjects

*DNA primers, *CANADA goose, *WATERFOWL, *SPECIES distribution, *DNA, *SWANS, *AQUATIC mammals, *GEESE

Abstract

For many aquatic and semiaquatic mammal, amphibian and fish species, environmental DNA (eDNA) methods are employed to detect species distribution and to monitor their presence, but eDNA is much less employed for avian species. Here, we developed primers for the detection of true geese and swan species using eDNA and optimised a PCR protocol for eDNA. We selected taiga bean goose (Anser fabalis fabalis) as our focal (sub)species and sampled water from lakes, from which the presence of taiga bean goose was visually confirmed. To test, if taiga bean goose DNA could be detected among DNA of other goose species, we similarly sampled eDNA from a zoo pond housing several Anatidae species. We were able to detect taiga bean goose DNA in all but one of the tested lakes, including the zoo pond. The primers developed are not species‐specific, but rather specific to the genus Anser, due to the close relatedness of Anser species, which prevented the development of species‐specific primers and the use of, for example, quantitative PCR. We also developed eDNA primers for Branta species and Cygnus species and tested these primers using the same samples. Canada goose (B. canadensis) and barnacle goose (B. leucopsis) DNA were only detected in the zoo pond (in which they were present), as the sampled natural lakes fall outside the range of these species. We detected whooper swan (C. cygnus) DNA in three lakes and the zoo pond (in which the species was present). The eDNA method presented here provides a potential means to monitor elusive goose species and to study the co‐occurrence of large waterfowl. [ABSTRACT FROM AUTHOR]

Published

2024

48. Isolation and genetic characteristics of Novel H4N1 Avian Influenza viruses in ChongQing, China.

Author

He, Jinyue, Deng, Jing, Wen, Xianxian, Yan, Mengyuan, Liu, Yang, Zhou, Yunqiu, Du, XuBin, Yang, Han, and Peng, Xiaobin

Subjects

*AVIAN influenza A virus, *WHOLE genome sequencing, *POULTRY farms, *ENVIRONMENTAL sampling, *NUCLEIC acids, *WATERFOWL, REPRODUCTIVE isolation

Abstract

Background: Avian influenza viruses (AIVs) constitute significant zoonotic pathogens encompassing a broad spectrum of subtypes. Notably, the H4 subtype of AIVs has a pronounced ability to shift hosts. The escalating prevalence of the H4 subtype heightens the concern for its zoonotic potential, signaling an urgent need for vigilance. Methods: During the period from December 2021 to November 2023, we collected AIV-related environmental samples and assessed them using a comprehensive protocol that included nucleic acid testing, gene sequencing, isolation culture, and resequencing. Results: In this study, a total of 934 environmental samples were assessed, revealing a remarkably high detection rate (43.66%, 289/662) of AIV in the live poultry market. Notably, the H4N1 subtype AIV (cs2301) was isolated from the live poultry market and its complete genome sequence was successfully determined. Subsequent analysis revealed that cs2301, resulting from a reassortment event between wild and domesticated waterfowl, exhibits multiple mutations and demonstrates potential for host transfer. Conclusions: Our research once again demonstrates the significant role of wild and domesticated waterfowl in the reassortment process of avian influenza virus, enriching the research on the H4 subtype of AIV, and emphasizing the importance of proactive monitoring the environment related to avian influenza virus. [ABSTRACT FROM AUTHOR]

Published

2024

49. Mottled ducks, feral mallards, and their hybrids in Florida.

Author

Bielefeld, Ronald R., Sylvia, Andrea L., Bankovich, Brittany A., McBride, K. Mark, and Orange, Jeremy P.

Subjects

*MALLARD, *DUCKS, *METROPOLITAN areas, *CORRECTION factors, *FEATHERS, *INTROGRESSION (Genetics), *AERIAL surveys

Abstract

The nonmigratory and endemic Florida mottled duck (Anas fulvigula fulvigula) is facing conservation threats from the combined effects of urbanization and introgressive hybridization with feral mallards (Anas platyrhynchos) and mallard x mottled duck hybrids. In the past, the status of the Florida mottled duck population was assessed during annual aerial surveys and most brown ducks (mottled ducks, mallards, and hybrids of them) detected during the survey would have been mottled ducks. But the release of domesticated mallards for aesthetic purposes has led to increases in the prevalence of mallards-hybrids (mallards or mallard x mottled duck hybrids) throughout peninsular Florida, USA, and because it is impossible to differentiate among mottled ducks, female mallards, and hybrids during aerial surveys, helicopter surveys were halted in 2009 until state researchers could conduct a range-wide study to determine what proportion of brown ducks are mottled ducks versus mallards-hybrids. We used plumage keys and high-resolution photography to categorize brown ducks from 557 wetland grid points as either mottled ducks or mallards-hybrids. Of the 5,179 brown ducks categorized, 40.1% were mottled ducks and 59.9% were mallardshybrids. We used logistic regression analysis to model the interactive effect of a site's latitude and level of urbanization (urban gradient value within a 2-km buffer) to generate a predictive raster surface (1-km resolution) of the study area with values corresponding to the probability that a brown duck observed within a cell is a pure mottled duck. Predicted values will be used as correction factors when estimating final mottled duck population abundance from brown-duck survey data. Additionally, the predictive raster surface will be used to identify wetlands where mottled ducks remain predominant so that these sites can be targeted for preservation. Overall, mallards-hybrids outnumbered mottled ducks throughout most of peninsular Florida, especially in more urbanized regions, and their current prevalence rate presents a serious conservation threat, via hybridization, to extant mottled duck populations. [ABSTRACT FROM AUTHOR]

Published

2024

50. Exploring the population dynamics of waterfowl hunters using a mark-recapture approach.

Author

Graham, Katherine A., Vrtiska, Mark P., Humburg, Dale D., Powell, Larkin A., Raedeke, Andrew H., Devers, Patrick K., and Chizinski, Christopher J.

Subjects

*WATERFOWL, *LICENSE system, *HABITAT conservation, *HUNTERS, *SOCIAL support, *VITAL statistics, *POPULATION dynamics

Abstract

The number of waterfowl hunters in the United States has declined since the 1980s despite relatively abundant waterfowl populations and liberal hunting regulations. Programs focused on recruiting, retaining, and reactivating (R3) waterfowl hunters have become important to avoid further losses in traditional revenue for habitat management and protection and political support for waterfowl conservation and management. We focus on 4 waterfowl hunter population vital rates (i.e., recruitment rate, retention probability, license purchase probability, realized population growth rate), which can be used to improve the effectiveness of waterfowl hunter R3 activities and initiatives by providing a deeper understanding of waterfowl hunter population dynamics to determine who programs should target, where programs should be targeted, and finally the evaluation of programs. To do so, we analyzed Nebraska state electronic license data from 2012-2019 using Pradel survival and recruitment models in a mark-recapture framework. Female waterfowl hunter recruitment was higher than males; however, retention and license purchase probabilities were lower. Recruitment was highest in younger generations and retention highest in older generations. License purchase probabilities were highest among those in the oldest and youngest generations. The availability of hunting opportunity increased license purchase probabilities but had a minimal influence on retention and no association with recruitment. There were weak relationships between rurality and recruitment, and retention and license purchase probabilities. Finally, belonging to Ducks Unlimited was positively associated with higher license purchase and retention probabilities. Targeting an increase in license purchase probability by promoting social support for hunters through conservation organization membership should be a focus of waterfowl hunter R3 efforts to have the greatest influence on increasing waterfowl hunter participation. [ABSTRACT FROM AUTHOR]

Published

2024