Your search keyword '"J.-F. Giroux"' showing total 8 results

1. Effects of spring conditions on breeding propensity of Greater Snow Goose females

Author

E. T. Reed, G. Gauthier, and J.-F. Giroux

Subjects

Zoology, QL1-991

Published

2007

2. Effect of habitat use and diet on the gastrointestinal parasite community of an avian omnivore from an urbanized environment

Author

V. Aponte, S.A. Locke, M.-L. Gentes, J.-F. Giroux, D.J. Marcogliese, D. McLaughlin, and J. Verreault

Subjects

Nutrient, δ13C, Habitat, Ecology, Parasite hosting, Larus delawarensis, Animal Science and Zoology, Omnivore, δ15N, Biology, Temporal scales, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

With urbanization, anthropogenic foods have grown in importance for several species. A shift away from natural foods is likely to affect trophically transmitted parasites, although this has received limited attention in urban-adapted avian omnivores. We examined the effect of habitat use and diet on gastrointestinal parasite assemblages of Ring-billed Gulls (Larus delawarensis Ord, 1815) breeding in an urbanized region (Montréal, Quebec, Canada) using three approaches depicting different temporal scales. Birds were fitted with global positioning system data loggers to determine habitat-use patterns during a 2–3 day period. Stomach contents were examined, providing dietary information during the preceding hours. Liver carbon (δ13C) and nitrogen (δ15N) stable isotope signatures served as proxy of nutrient assimilation during the preceding 10 days. Endoparasite community variations were best explained by δ13C and δ15N ratios. Individuals with lower δ15N had lower parasite abundance, while δ13C was enriched in birds with less diverse parasites (fewer helminth genera). Tissue depletion in15N in Ring-billed Gulls from this colony has previously been associated with predominant consumption of human-related foods. The present study supports the hypothesis that Ring-billed Gulls exhibiting preference for anthropogenic food sources encounter fewer trophically transmitted parasites, which may have contributed, in part, to their population expansion during the last century.

Published

2014

3. Combined usage of stable isotopes and GPS-based telemetry to understand the feeding ecology of an omnivorous bird, the Ring-billed Gull (Larus delawarensis)

Author

É. Caron-Beaudoin, M.-L. Gentes, M. Patenaude-Monette, J.-F. Hélie, J.-F. Giroux, and J. Verreault

Subjects

Urban ecology, biology, Ecology, Stable isotope ratio, Telemetry, Larus delawarensis, Animal Science and Zoology, Omnivore, biology.organism_classification, Feeding ecology, Ring-billed gull, Ecology, Evolution, Behavior and Systematics

Abstract

The aim of the present study was to investigate the feeding ecology of an omnivorous bird, the Ring-billed Gull (Larus delawarensis Ord, 1815), breeding in a highly urbanized and heterogeneous landscape (Montréal area, Quebec, Canada). We used gastrointestinal (G.I.) tract content analysis, GPS-based tracking information, and stable isotope profiles of carbon (δ13C) and nitrogen (δ15N) in selected tissues and major food items. Based on GPS tracking data (1–3 days), Ring-billed Gulls were categorized according to their use of three main foraging habitats: agricultural, St. Lawrence River, and anthropogenic (comprising urban areas, landfills, and wastewater treatment plant basins). Ring-billed Gulls that foraged predominantly in anthropogenic habitats exhibited significantly lower δ15N in blood cells and higher total C to N ratios (C:N) in liver. These lower δ15N and higher C:N ratios were characteristic of profiles determined in food items consumed by Ring-billed Gulls at these urbanized sites (e.g., processed foods). The strong positive correlations between δ13C and δ15N in Ring-billed Gull tissues (plasma, blood cells, and liver) that differed in isotopic turnover times, as well as the strong positive correlations in both δ13C and δ15N between tissue pairs, indicated that Ring-billed Gulls exhibited conserved dietary habits throughout the nesting period. This study demonstrates that combining conventional dietary examination, tissue stable isotope analysis, and fine-scale GPS tracking information may improve our understanding of the large intrapopulation variations in foraging behaviour (and isotopic profiles) commonly observed in omnivorous birds.

Published

2013

4. Surviving on cached foods — the energetics of egg-caching by arctic foxes

Author

Dominique Berteaux, J.-F. Giroux, Vincent Careau, and Gilles Gauthier

Subjects

Arctic, Ecology, Vulpes, Energetics, Lagopus, Animal Science and Zoology, Biology, Adaptation, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

Food-caching by arctic foxes ( Vulpes lagopus (L., 1758)) is a behavioural adaptation thought to increase winter survival, especially in bird colonies where a large number of eggs can be cached during a short nesting season. In this paper, we measured the energy content of greater snow goose ( Chen caerulescens atlantica Kennard, 1927) eggs and evaluated their perishability when cached in tundra soil for a whole summer. We estimated that eggs lost only ~8% of their dry mass over 60 days of storage in the ground. We used published estimates on digestibility of nutrients by arctic foxes to estimate that fresh and stored goose eggs contained 816 and 730 kJ of metabolizable energy, respectively, a difference of 11%. Using information on arctic fox energetics, we evaluated that 145 stored eggs were required to sustain the growth of one pup from the age of 1 to 3 months (nutritional independence). Moreover, 23 stored eggs were energetically equivalent to the average fat deposit of an arctic fox during winter. Finally, we calculated that an adult arctic fox would need to recover 160–220 stored eggs to survive 6 months in resting conditions during cold winter temperatures. This value increased to 480 when considering activity cost. Based on egg acquisition and caching rates observed in many goose colonies, we conclude that cached eggs represent an important source of energy relative to the needs of an arctic fox during winter, and have thus a high fitness value.

Published

2008

5. Habitat use and behaviour of Greater Snow Geese during movements from nesting to brood-rearing areas

Author

I. Duclos, Gilles Gauthier, J.-F. Giroux, and Julien Mainguy

Subjects

Habitat, Ecology, Foraging, Nesting (process), Animal Science and Zoology, Precocial, Greater Snow Goose, Biology, Snow, Ecology, Evolution, Behavior and Systematics, Brood, Chen caerulescens atlantica

Abstract

Many precocial birds make long-distance movements with their young after hatch to reach the best foraging sites. On Bylot Island, Nunavut, a large number of Greater Snow Goose ( Chen caerulescens atlantica L., 1758) families move 30 km from the main nesting colony (MNC) to reach the main brood-rearing area (MBR) soon after hatch. Geese moving from the MNC to the MBR generally rear lighter and smaller goslings than geese that avoid this movement by both nesting and rearing their brood at the MBR. In this study, we tested the hypotheses that use of low-quality habitats and an increase in the time spent walking at the expense of foraging during movements could explain the reduced growth of goslings in those families. We conducted visual observations to compare habitat use and selection as well as behaviour of geese during brood movements from the MNC to the MBR (i.e., at a transit area) with those of families that had already settled at the MBR. We also conducted aerial tracking to monitor habitat use of 16 radio-marked females during and after brood movements. Streams, wet polygons, and lakes, considered high-quality habitats in terms of feeding opportunities and predator refuges, were preferred, while upland, a low-quality habitat, was avoided at both the transit area and the MBR. However, broods were found in the upland habitat more often during movements than once settled on a rearing site. The behaviour of unmarked geese at the transit site did not differ from that of geese at the MBR. We suggest that reduced food intake in low-quality habitats during movements, but not the increase in time spent walking, may explain the reduction in growth observed at fledging in goslings moving from the MNC to the MBR.

Published

2006

6. Roost fidelity of Pink-footed GeeseAnser brachyrhynchusin north-east Scotland

Author

J. F. Giroux

Subjects

Fishery, Geography, geography.geographical_feature_category, biology, Ecology, Estuary, North east, biology.organism_classification, Anser brachyrhynchus, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Full moon

Abstract

The use of wintering roosts in north-east Scotland by Pink-footed Geese was studied by following 10 birds fitted with radio transmitters. Pinkfeet changed their roosting sites approximately every 10 nights between December and April. On average, each bird visited 3.4 different roosts returning to the same sites on many occasions. Some shifts followed disturbances at the roosts resulting from shooting, trapping and other human activities. Others took place during periods of harsh weather or while geese were field feeding at night during a full moon. A switch from inland roosts to a nearby estuary coincided with the end of the shooting season along the estuary.

Published

1991

7. The enigmatic rings of the James Bay Lowland: a probable geological origin

Author

J J Veillette and J F Giroux

Subjects

Archaeology, Bay, Geology

Published

1999

8. Effects of simulated feeding by snow geese on Scirpus americanus rhizomes

Author

J. F. Giroux and Jean C. Bedard

Subjects

geography, geography.geographical_feature_category, Growing season, Bulrush, Biology, biology.organism_classification, Rhizome, Transplantation, Agronomy, Salt marsh, Botany, Shoot, Ecology, Evolution, Behavior and Systematics, Overwintering, Scirpus

Abstract

We simulated the feeding of Greater Snow Geese (Chen caerulescens atlantica) on the rhizomes of three-square bulrush (Scirpus americanus) in a tidal marsh along the St. Lawrence River estuary in Quebec. During the spring staging period, aboveground biomass is unavailable and geese feed solely on rhizomes and overwintering buds. An experiment was designed to test the effect of three factors on subsequent growth of Scirpus: the intensity of removal (3 to 77% removal of belowground biomass), the number of "bites" (1, 2 or 3 sections removed) and the number of adventitious buds removed (1, 2 or 3). Rhizomes were dug out in May, treated and transplanted into 85-1 basins sunk in the marsh and filled with marsh soil freed of all plant material. Growth was observed weekly until the end of the growing season in August. Shoots and rhizomes were then collected, dried and weighed to obtain biomass estimates. The net above- and belowground production of Scirpus was inversely related to the initial rhizome biomass removed. At a high level of removal (>35%), the cumulative number of shoots was significantly reduced as early as two weeks after transplantation. The relative reduction in production of the treated rhizomes compared to the control plants was also related to the intensity of removal. An increased number of bites reduced production and the removal of an increased number of adventitious buds further amplified the effect of removal on rhizome production. These experimental results show that even low intensity of feeding by Snow Geese can reduce the production of Scirpus marshes.

Published

1987