Katie McMahen scite author profile

Katie McMahen

5Publications

8Citation Statements Received

116Citation Statements Given

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169

Affiliations

University of British Columbia, Newmont Mining (United States)

Publications

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Towards an integrated perspective of biological conservation and ecological restoration

McMahen

Bommel

2020

Restoration Ecology

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Biological conservation and ecological restoration differ in their motivations, objectives, and dominant concepts. These differences translate into a dichotomy between the two disciplines in academia, which we illustrate through a review of the scientific literature. Conversely, in practice, conservation and restoration are part of an environmental management continuum and are often used as complementary tools. While we found an increasing transdisciplinary trend in the literature, there is much room for improvement. Optimized implementation of conservation and restoration actions is critical for addressing the increasing pressures of global change and we propose steps to better integrate the two disciplines.

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Soil microbial legacies influence plant survival and growth in mine reclamation

McMahen

Guichon

Anglin

et al. 2022

Ecology and Evolution

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Plants alter soil biological communities, generating ecosystem legacies that affect the performance of successive plants, influencing plant community assembly and successional trajectories. Yet, our understanding of how microbe‐mediated soil legacies influence plant establishment is limited for primary successional systems and forest ecosystems, particularly for ectomycorrhizal plants. In a two‐phase greenhouse experiment using primary successional mine reclamation materials with or without forest soil additions, we conditioned soil with an early successional shrub with low mycorrhizal dependence (willow, Salix scouleriana) and a later‐successional ectomycorrhizal conifer (spruce, Picea engelmannii × glauca). The same plant species and later‐successional plants (spruce and/or redcedar, Thuja plicata, a mid‐ to late‐successional arbuscular mycorrhizal conifer) were grown as legacy‐phase seedlings in conditioned soils and unconditioned control soils. Legacy effects were evaluated based on seedling survival and biomass, and the abundance and diversity of root fungal symbionts and pathogens. We found negative intraspecific (same‐species) soil legacies for willow associated with pathogen accumulation, but neutral to positive intraspecific legacies in spruce associated with increased mycorrhizal fungal colonization and diversity. Our findings support research showing that soil legacy effects vary with plant nutrient acquisition strategy, with plants with low mycorrhizal dependence experiencing negative feedbacks and ectomycorrhizal plants experiencing positive feedbacks. Soil legacy effects of willow on next‐stage successional species (spruce and redcedar) were negative, potentially due to allelopathy, while ectomycorrhizal spruce had neutral to negative legacy effects on arbuscular mycorrhizal redcedar, likely due to the trees not associating with compatible mycorrhizae. Thus, positive biological legacies may be limited to scenarios where mycorrhizal‐dependent plants grow in soil containing legacies of compatible mycorrhizae. We found that soil legacies influenced plant performance in mine reclamation materials with and without forest soil additions, indicating that initial restoration actions may potentially exert long‐term effects on plant community composition, even in primary successional soils with low microbial activity.

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Small-volume additions of forest topsoil improve root symbiont colonization and seedling growth in mine reclamation

McMahen

Anglin

Lavkulich

et al. 2022

Applied Soil Ecology

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Conifer seedling establishment on a rock disposal site at the Mount Polley Mine to assess competitive effects of various herbaceous groundcovers when using biosolids as a soil amendment

Hunt¹,

Holmes²,

McMahen

2018

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Investigation of ecosystem legacy-based mine reclamation techniques : effects of soil transfers, forest connectivity and plant–soil feedbacks on soil food web recovery and plant establishment

McMahen

2020

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Katie McMahen

Towards an integrated perspective of biological conservation and ecological restoration

Soil microbial legacies influence plant survival and growth in mine reclamation

Small-volume additions of forest topsoil improve root symbiont colonization and seedling growth in mine reclamation

Conifer seedling establishment on a rock disposal site at the Mount Polley Mine to assess competitive effects of various herbaceous groundcovers when using biosolids as a soil amendment

Investigation of ecosystem legacy-based mine reclamation techniques : effects of soil transfers, forest connectivity and plant–soil feedbacks on soil food web recovery and plant establishment

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