Occurrence of Sarcocystis Lankester, 1882, in wild geese in Saskatchewan

1981 ◽  
Vol 59 (8) ◽  
pp. 1621-1624 ◽  
Author(s):  
G. Wobeser ◽  
F. A. Leighton ◽  
R. J. Cawthorn
Keyword(s):  
Skeletal Muscle ◽  
Cyst Wall ◽  
The Other ◽  
Canada Geese ◽  
Snow Goose ◽  
Snow Geese ◽  
Lesser Snow Geese ◽  
Anser Caerulescens Caerulescens ◽  
Lesser Snow Goose ◽  
Primary Cyst

Skeletal and cardiac muscle from wild geese dead of avian cholera was examined for Sarcocystis sp. infection. Microscopic cysts of Sarcocystis sp. were found in skeletal muscle of 42 of 88 Lesser Snow Geese, Anser caerulescens caerulescens, 1 of 7 Ross Geese, Anser rossi, and 1 of 3 Canada Geese, Branta canadensis, collected during April and May in central Saskatchewan. Two types of microcysts were present in skeletal muscle; one type had finger-like protrusions on the primary cyst wall; the other had a relatively smooth primary cyst wall. Both types were found in one Lesser Snow Goose. Microscopic cysts were found in the heart of 8 of 150 Lesser Snow Geese and 3 of 35 Ross Geese. All cysts in the myocardium had a smooth primary cyst wall.

scholarly journals Composition of Eggs and Neonates of Canada Geese and Lesser Snow Geese

The Auk ◽  
2001 ◽  
Vol 118 (3) ◽  
pp. 687-697 ◽  
Author(s):  
Shannon S. Badzinski ◽  
C. Davison Ankney ◽  
James O. Leafloor ◽  
Kenneth F. Abraham
Keyword(s):  
Body Size ◽  
Small Body ◽  
High Arctic ◽  
Canada Goose ◽  
Canada Geese ◽  
Snow Goose ◽  
Colonial Nesting ◽  
Snow Geese ◽  
Lesser Snow Geese ◽  
Lesser Snow Goose

AbstractWe collected eggs, neonates, and adults of Canada Geese (Branta canadensis interior) and Lesser Snow Geese (Chen caerulescens caerulescens) from Akimiski Island, Nunavut, during the 1996 breeding season. This was done to assess interspecific differences in egg composition, egg-nutrient catabolism, developmental maturity, tissue maturity, and body reserves, and to relate observed differences in those variables to ecological conditions historically experienced by Canada Geese and Lesser Snow Geese. Eggs of both species had identical proportional compositions, but Canada Goose embryos catabolized 13% more of their egg protein, whereas Lesser Snow Goose embryos catabolized 9% more of their egg lipid. Neonate Canada Geese and Lesser Snow Geese had similar protein reserves, relative to body size, but Lesser Snow Geese had relatively smaller lipid reserves than did Canada Geese. Relative to conspecific adults, Lesser Snow Goose goslings generally were structurally larger at hatch than were Canada Goose goslings. Neonate Lesser Snow Geese had more developmentally mature keels, wings, and breast muscles, and larger gizzards and caeca for their body size, than did neonate Canada Geese. Despite hatching from smaller eggs and having a shorter period of embryonic growth, skeletal muscles and gizzard tissues of Lesser Snow Geese were more functionally mature than those of Canada Geese. Increased lipid use during embryonic development could account for how Lesser Snow Geese hatched in a more developmentally and functionally mature state. In turn, differences in developmental and functional maturity of Lesser Snow Geese, as compared to Canada Geese, likely are adaptations that offset metabolic costs associated with their small body size, or to selection pressures associated with high arctic environmental conditions and colonial nesting and brood rearing.

Liberalized harvest regulations have not affected overabundant Snow Geese in Northern Manitoba

The Condor ◽  
2019 ◽  
Vol 121 (2) ◽  
Author(s):  
David N Koons ◽  
Lise M Aubry ◽  
Robert F Rockwell
Keyword(s):  
Management Effectiveness ◽  
Snow Goose ◽  
The North ◽  
Snow Geese ◽  
Lesser Snow Geese ◽  
Anser Caerulescens Caerulescens ◽  
New Findings ◽  
Lesser Snow Goose ◽  
Adaptive Resource ◽  
Improved Methods

Abstract Large amounts of money are spent each year to control overabundant species that imperil biodiversity and ecosystem functioning across the globe. Lesser Snow Geese (Anser caerulescens caerulescens) are emblematic of this issue, as their overabundance has affected a whole suite of plant, insect, and bird communities via a trophic cascade that managers have attempted to stop before it spreads further across the North American (sub)Arctic. To achieve this goal, liberalized harvest measures designed to decrease Lesser Snow Goose survival and abundance were implemented almost 2 decades ago. Our previous quantitative assessment of management effectiveness indicated that the growing Lesser Snow Goose population quickly overwhelmed a satiated hunter population despite liberalized harvest regulations, eventually reducing the fraction of Lesser Snow Geese being harvested each year. Consistent with the philosophy of adaptive resource management, we apply improved methods to additional years of monitoring data to evaluate the ongoing impact of harvest conservation efforts on Lesser Snow Goose harvest rates. Our previous results suggested little effect of liberalized harvest regulations on harvest rates, but our new findings suggest even less of an impact. Harvest rates have recently stabilized at ~3%, the lowest levels observed over the last 48 yr of our study. Barring adverse effects of environmental change on natural mortality or reproductive success, additional measures will need to be taken to reduce Lesser Snow Goose overabundance and their ecosystem damage.

scholarly journals Hybridization and Population Subdivision Within and Between Ross's Geese and Lesser Snow Geese: A Molecular Perspective

The Condor ◽  
2002 ◽  
Vol 104 (2) ◽  
pp. 432-436 ◽  
Author(s):  
Jason D. Weckstein ◽  
Alan D. Afton ◽  
Robert M. Zink ◽  
Ray T. Alisauskas
Keyword(s):  
Control Region ◽  
Mtdna Control Region ◽  
Data Set ◽  
Snow Goose ◽  
Chen Caerulescens ◽  
Snow Geese ◽  
Lesser Snow Geese ◽  
Lesser Snow Goose ◽  
Chen Caerulescens Caerulescens ◽  
Ross's Geese

AbstractWe reanalyzed Quinn's (1992) mtDNA control region data set including new sequences from nine Lesser Snow Geese (Chen caerulescens caerulescens) and 10 Ross's Geese (Chen rossi) and found the same divergent lineages that Quinn (1992) attributed to vicariant separation of Lesser Snow Goose populations during the Pleistocene. However, peculiar patterns of mtDNA control region sequence variation, including a multimodal mismatch distribution of mtDNA sequences with two levels of population structuring and the sharing of two divergent haplotype lineages, are consistent with two hybridization episodes in Chen geese. Comparisons of mtDNA variation with historical and allozyme data sets compiled by Cooke et al. (1988) are consistent with the hypothesis that sharing of two mtDNA haplotype lineages between Ross's Goose and Lesser Snow Goose resulted from hybridization (Avise et al. 1992). Furthermore, population structure found within one haplotype cluster is consistent with Cooke et al.‘s (1988) hypothesis of past allopatry between blue and white Lesser Snow Geese.Hibridización y Subdivisión dentro y entre Poblaciones de Chen rossi y Chen caerulescens caerulescens: Una Perspectiva MolecularResumen. Reanalizamos los datos de la región de control del ADN mitocondrial (ADNmt) de Quinn (1992), junto con nuevas secuencias de nueve individuos de la especie Chen caerulescens caerulescens y 10 de Chen rossi. Encontramos los mismos linajes divergentes que Quinn (1992) atribuyó a la separación vicariante de las poblaciones de C. c. caerulescens durante el Pleistoceno. Sin embargo, encontramos que las dos especies comparten dos linajes de haplotipos divergentes, y la distribución de “mismatch” en secuencias del ADNmt mostró multimodalidad con dos niveles de estructuración de la población. Estos patrones peculiares están de acuerdo con la hipótesis de que hubo dos episodios de hibridización en gansos del género Chen. Los datos históricos y de aloenzimas compilados por Cooke et al. (1988) también apoyan esta hipótesis (Avise et al. 1992). Además, la estructura de la población dentro de un grupo de haplotipos es consistente con la hipótesis de Cooke et al. (1988) acerca de la pasada alopatría entre los morfos azul y blanco de C. c. caerulescens.

Ross' Goose and Lesser Snow Goose colonies in the central Canadian Arctic

1983 ◽  
Vol 61 (1) ◽  
pp. 168-173 ◽  
Author(s):  
R. H. Kerbes ◽  
M. R. McLandress ◽  
G. E. J. Smith ◽  
G. W. Beyersbergen ◽  
B. Godwin
Keyword(s):  
Canadian Arctic ◽  
Snow Goose ◽  
White Phase ◽  
Snow Geese ◽  
Lesser Snow Geese ◽  
Lesser Snow Goose ◽  
Blue Phase ◽  
Nesting Resources ◽  
Anser Rossii

A total of 133 700 nesting Ross' Geese and Lesser Snow Geese (Anser rossii and Anser c. caerulescens), in 30 colonies, were photographed in the central Canadian Arctic, Queen Maud Gulf, N.W.T., in June 1976. Estimated species totals were 77 300 Ross' Geese and 56 400 Lesser Snow Geese (of which 15% were blue phase). Species totals were calculated from a photographic census of all Ross' Geese and white phase Snow Geese combined with assumptions based on the estimated proportion of blue phase Snow Geese in each of the 10 largest colonies and the estimated proportion of Ross' Geese in the largest colony. Comparison with a previous visual nesting inventory suggested that from 1967 to 1976 Ross' Geese doubled in number while Lesser Snow Geese increased fivefold. Nesting resources do not appear to be limited.

The prevalence and pathogenicity of gizzard nematodes of the genera Amidostomum and Epomidiostomum (Trichostrongylidae) in the lesser snow goose (Chen caerulescens caerulescens)

1984 ◽  
Vol 62 (9) ◽  
pp. 1849-1852 ◽  
Author(s):  
Benjamin N. Tuggle ◽  
John L. Crites
Keyword(s):  
Snow Goose ◽  
Mean Intensity ◽  
Chen Caerulescens ◽  
Progressive Degeneration ◽  
Snow Geese ◽  
Lesser Snow Geese ◽  
Lesser Snow Goose ◽  
Mucosal Lining ◽  
Chen Caerulescens Caerulescens ◽  
Amidostomum Anseris

Three species of trichostrongylid nematodes were removed from the gizzards of 25 lesser snow geese, Chen caerulescens caerulescens, collected at Winisk, Ont. A 100% prevalence of infection was noted in the sampled population with each bird harboring two or more of the following species: Epomidiostomum crami (prevalence, 92%; mean intensity, 18.7 ± 13.3), Amidostomum anseris (prevalence, 84%; mean intensity, 9.6 ± 9.8), and Amidostomum spatulatum (prevalence, 84%; mean intensity, 11.2 ± 9.8). When large burdens (>30) of both A. anseris and A. spatulatum were present in the mucosal lining of the gizzard, progressive degeneration of the epithilium and koilin linings was noted in 16% of the geese examined. Severe necrotic granulomata observed in the gizzard muscle of 36% of the geese were associated with sizable burdens (>25) of E. crami which were found burrowed in the gizzard muscle.

Temporal Changes in Habitat Selection and Nest Spacing in a Colony of Ross' and Lesser Snow Geese

The Auk ◽  
1983 ◽  
Vol 100 (2) ◽  
pp. 335-343 ◽  
Author(s):  
M. Robert McLandress
Keyword(s):  
Nearest Neighbor ◽  
Average Distance ◽  
Habitat Preferences ◽  
Nearest Neighbors ◽  
Nest Density ◽  
Snow Goose ◽  
Snow Geese ◽  
Lesser Snow Geese ◽  
Average Size ◽  
Island Habitats

Abstract I studied the nesting colony of Ross' Geese (Chen rossii) and Lesser Snow Geese (C. caerulescens caerulescens) at Karrak Lake in the central Arctic of Canada in the summer of 1976. Related studies indicated that this colony had grown from 18,000 birds in 1966-1968 to 54,500 birds in 1976. In 1976, geese nested on islands that were used in the late 1960's and on an island and mainland sites that were previously unoccupied. Average nest density in 1976 was three-fold greater than in the late 1960's. Consequently, the average distance to nearest neighbors of Ross' Geese in 1976 was half the average distance determined 10 yr earlier. The mean clutch size of Ross' Geese was greater in island habitats where nest densities were high than in less populated island or mainland habitats. The average size of Snow Goose clutches did not differ significantly among island habitats but was larger at island than at mainland sites. Large clutches were most likely attributable to older and/or earlier nesting females. Habitat preferences apparently differed between species. Small clutches presumably indicated that young geese nested in areas where nest densities were low. The establishment of mainland nesting at Karrak Lake probably began with young Snow Geese using peripheral areas of the colony. Young Ross' Geese nested in sparsely populated habitats on islands to a greater extent than did Snow Geese. Ross' Geese also nested on the mainland but in lower densities than Ross' Geese nesting in similar island habitats. Successful nests with the larger clutches had closer conspecific neighbors than did successful nests with smaller clutches. The species composition of nearest neighbors changed significantly with distance from Snow Goose nests but not Ross' Goose nests. Nesting success was not affected by the species of nearest neighbor, however. Because they have complementary antipredator adaptations, Ross' and Snow geese may benefit by nesting together.

scholarly journals A comparison of drone imagery and ground-based methods for estimating the extent of habitat destruction by lesser snow geese (Anser caerulescens caerulescens) in La Pérouse Bay

PLoS ONE ◽  
2019 ◽  
Vol 14 (8) ◽  
pp. e0217049 ◽  
Author(s):  
Andrew F. Barnas ◽  
Brian J. Darby ◽  
Gregory S. Vandeberg ◽  
Robert F. Rockwell ◽  
Susan N. Ellis-Felege
Keyword(s):  
Habitat Destruction ◽  
Snow Geese ◽  
Lesser Snow Geese ◽  
Anser Caerulescens Caerulescens ◽  
Anser Caerulescens

Correlation of laying and hatching sequences in clutches of the lesser snow goose (Anser caerulescens caerulescens)

1981 ◽  
Vol 59 (7) ◽  
pp. 1201-1204 ◽  
Author(s):  
Susan M. Cargill ◽  
Fred Cooke
Keyword(s):  
Snow Goose ◽  
Stage Of Development ◽  
Asynchronous Hatching ◽  
Anser Caerulescens Caerulescens ◽  
Laying Sequence ◽  
Lesser Snow Goose ◽  
Anser Caerulescens

Lesser snow goose nests were monitored daily during laying and hatching. Within each clutch, eggs were numbered serially as they were laid. Subsequently, the order of hatching within clutches was determined. In nests where three to five eggs hatched, the sequence of hatching was strongly dependent on the laying sequence. This implies that some development of embryos occurred throughout the laying period, so that the young varied in the stage of development attained prior to the onset of incubation. This inequality persisted until hatching, resulting in the observed asynchrony. Evidence from other workers suggests that development during laying occurs in some other waterfowl species, but does not necessarily result in asynchronous hatching or correlation of hatching and laying sequences.

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