Heidi K. Swanson scite author profile

Considerable progress has been made in the development of statistical tools to quantify trophic relationships using stable isotope ratios, including tools that address size and overlap of isotopic niches. We build upon recent progress and propose a new probabilistic method for determining niche region and pairwise niche overlap that can be extended beyond two dimensions, provides directional estimates of niche overlap, accounts for species-specific distributions in niche space, and, unlike geometric methods, produces consistent and unique bivariate projections of multivariate data. We define the niche region (NR) as a given 95% (or user-defined a) probability region in multivariate space. Overlap is calculated as the probability that an individual from species A is found in the N(R) of species B. Uncertainty is accounted for in a Bayesian framework, and is the only aspect of the methodology that depends on sample size. Application is illustrated with three-dimensional stable isotope data, but practitioners could use any continuous indicator of ecological niche in any number of dimensions. We suggest that this represents an advance in our ability to quantify and compare ecological niches in a way that is more consistent with Hutchinson's concept of an "n-dimensional hypervolume".

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Towards reconciliation: 10 Calls to Action to natural scientists working in Canada

Wong

Ballegooyen

Ignace³

et al. 2020

FACETS

142

145

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In 2015, after documenting testimonies from Indigenous survivors of the residential school system in Canada, the Truth and Reconciliation Commission released 94 Calls to Action to enable reconciliation between Indigenous and non-Indigenous Canadians. Without personal connections to Indigenous communities, many Canadians fail to grasp the depth of intergenerational impacts of residential schools and associated systemic racism. Consequently, reconciliation remains an elusive concept. Here we outline 10 Calls to Action to natural scientists to enable reconciliation in their work. We focus on natural scientists because a common connection to the land should tie the social license of natural scientists more closely to Indigenous communities than currently exists. We also focus on natural sciences because of the underrepresentation of Indigenous peoples in this field. We draw on existing guidelines and our experiences in northern Canada. Our 10 Calls to Action are triggered by frustration. The authors have witnessed examples where natural scientists treat Indigenous communities with blatant disrespect or with ignorance of Indigenous rights. These 10 Calls to Action challenge the scientific community to recognize that reconciliation requires a new way of conducting natural science, one that includes and respects Indigenous communities, rights, and knowledge leading to better scientific and community outcomes.

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Anadromy in Arctic populations of lake trout (Salvelinus namaycush): otolith microchemistry, stable isotopes, and comparisons with Arctic char (Salvelinus alpinus)

Swanson

Kidd

Babaluk

et al. 2010

Can. J. Fish. Aquat. Sci.

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In the family Salmonidae, lake trout ( Salvelinus namaycush ) are considered the least tolerant of salt water. There are, however, sporadic reports of lake trout in coastal, brackish habitats in the Canadian Arctic. Otolith microchemistry analyses conducted on lake trout and Arctic char ( Salvelinus alpinus ) from four Arctic lakes in the West Kitikmeot region of Nunavut, Canada, revealed that 37 of 135 (27%) lake trout made annual marine migrations. Anadromous lake trout were in significantly better condition (K = 1.17) and had significantly higher C:N ratios (3.71) than resident lake trout (K = 1.05 and C:N = 3.34). Anadromous lake trout also had significantly higher δ15N (mean = 16.4‰), δ13C (mean = –22.3‰), and δ34S (mean = 13.43‰) isotope ratios than resident lake trout (means = 12.84‰, –26.21‰, and 1.93‰ for δ15N, δ13C, and δ34S, respectively); results were similar for Arctic char and agree with results from previous studies. Mean age of first migration for lake trout was 13 years, which was significantly older than that for Arctic char (5 years). This could be a reflection of size-dependent salinity tolerance in lake trout, but further research is required. These are the first detailed scientific data documenting anadromy in lake trout.

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Heidi K. Swanson

A new probabilistic method for quantifying n‐dimensional ecological niches and niche overlap

Towards reconciliation: 10 Calls to Action to natural scientists working in Canada

Anadromy in Arctic populations of lake trout (Salvelinus namaycush): otolith microchemistry, stable isotopes, and comparisons with Arctic char (Salvelinus alpinus)

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