4 research outputs found
Diet and Habitat of Mountain Woodland Caribou Inferred from Dung Preserved in 5000-year-old Alpine Ice in the Selwyn Mountains, Northwest Territories, Canada
Get PDFAlpine ice patches are unique repositories of cryogenically preserved archaeological artefacts and biological specimens. Recent melting of ice in the Selwyn Mountains, Northwest Territories, Canada, has exposed layers of dung accumulated during seasonal use of ice patches by mountain woodland caribou of the ancestral Redstone population over the past ca. 5250 years. Although attempts to isolate the DNA of known caribou parasites were unsuccessful, the dung has yielded numerous well-preserved and diverse plant remains and palynomorphs. Plant remains preserved in dung suggest that the ancestral Redstone caribou population foraged on a variety of lichens (30%), bryophytes and lycopods (26.7%), shrubs (21.6%), grasses (10.5%), sedges (7.8%), and forbs (3.4%) during summer use of alpine ice. Dung palynomorph assemblages depict a mosaic of plant communities growing in the caribou’s summer habitat, including downslope boreal components and upslope floristically diverse herbaceous communities. Pollen and spore content of dung is only broadly similar to late Holocene assemblages preserved in lake sediments and peat in the study region, and differences are likely due to the influence of local vegetation and animal forage behaviour. The 5000-year legacy of summer use of alpine ice patches by mountain woodland caribou suggests that these small, long-lived features may be important for the health of caribou populations in the Selwyn/Mackenzie Mountain range.Les névés des régions alpines constituent des réserves uniques d’artefacts archéologiques et de spécimens biologiques préservés cryogéniquement. La fonte récente des glaces de la chaîne de Selwyn, dans les Territoires du Nord-Ouest, au Canada, a mis au jour des couches de déjections animales qui ont été accumulées lors de l’usage saisonnier des névés par le caribou des bois des montagnes de la population ancestrale de Redstone au cours des quelques 5 250 dernières années. Bien que les tentatives visant à isoler l’ADN des parasites connus du caribou aient échoué, les déjections ont permis de repérer de nombreux restes et palynomorphes de végétaux bien préservés et variés. Les restes de végétaux qui ont été conservés dans les déjections animales laissent croire que la population de caribou ancestrale de Redstone s’alimentait d’une variété de lichens (30 %), de bryophytes et de lycopodes (26,7 %), d’arbrisseaux (21,6 %), de graminées (10,5 %), de foin plat (7,8 %) et de plantes herbacées non graminoïdes (3,4 %) lorsqu’ils utilisaient la glace alpine pendant l’été. Les assemblages de palynomorphes provenant des déjections laissent entrevoir la croissance d’une mosaïque de peuplements végétaux au sein de l’habitat d’été du caribou, ce qui comprend des composantes boréales en pentes descendantes et des peuplements végétaux herbacés floristiquement variés en pentes ascendantes. La teneur en pollen et en spores des déjections animales est seulement largement similaire aux assemblages de l’Holocène tardif préservés dans les sédiments lacustres et dans la tourbe de la région visée par l’étude. Les différences sont vraisemblablement attribuables à l’influence de la végétation locale et au comportement alimentaire des animaux. L’utilisation estivale des névés des régions alpines par le caribou des bois des montagnes ces 5 000 dernières années laisse entrevoir que ces petites caractéristiques longévives pourraient revêtir de l’importance pour la santé des populations de caribou de la chaîne de Selwyn et des monts Mackenzie
Guidelines for the safe use of disposable gloves with amphibian larvae in light of pathogens and possible toxic effects
Get PDFConservation of herpetofauna in northern landscapes: Threats and challenges from a Canadian perspective
No full textThe scientific community is increasingly aware that many amphibian and reptile species have experienced dramatic decreases in abundance and distribution, with at least 43% of amphibian species exhibiting population declines and 19% of all reptile species threatened with extinction since 2000. Species suffer from a suite of threats including habitat destruction, alteration and fragmentation, introduced species, over-exploitation, climate change, UV-B radiation, chemical contaminants, diseases and the synergisms among them. These worldwide threats are also present in northern landscapes and in Canada in particular where 20 amphibian and 37 reptile species are listed as at-risk by the Committee on the Status of Endangered Wildlife in Canada (COSEWIC). In fact, with more than 80° in longitude and 40° in latitude, Canada presents both a diversity of northern ecosystems and a range of threats to its herpetofauna at least equal to other countries. The physical scale of Canada, its varied climate, its economic realities, and the legislative differences among levels of government and their respective mandates have long challenged traditional approaches to conservation. However, science and stewardship are leading forces in the conservation of emblematic species at risk in Canada and can serve to inform best practices elsewhere. Recent advances in data analysis and management have transformed our understanding of populations in northern landscapes. Canadian amphibians and reptiles, most of which are cold-adapted species at the northern edge of their distribution, can serve as case studies to improve modeling of population dynamics, create cogent, science-based policies, and prevent further declines of these taxa
