Janice M. Gilbert scite author profile

Most plant diversity-function studies have been conducted in terrestrial ecosystems and have focused on plant productivity and nutrient uptake/retention, with a notable lack of attention paid to belowground processes (e.g., root dynamics, decomposition, trace gas fluxes). Here we present results from a mesocosm experiment in which we assessed how the richness of emergent macrophyte functional groups influences aboveground and belowground plant growth and microbial-mediated functions related to carbon and nitrogen cycling, with an emphasis on methane (CH4) efflux and potential denitrification rates. We found that an increase in the richness of wetland plant functional groups enhanced belowground plant biomass, altered rooting patterns, and decreased methane efflux, while having no effect on aboveground plant production or denitrification potential. We hypothesize that the greater root production and increased rooting depth in the highest diversity treatments enhanced CH4 oxidation to a relatively greater degree than methane production, leading to an overall decrease in CH4 efflux across our plant functional group richness gradient.

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Periphyton bioconcentrates pesticides downstream of catchment dominated by agricultural land use

Rooney

Davy

Gilbert

et al. 2020

Science of The Total Environment

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Variation in glyphosate effects and accumulation in emergent macrophytes

Sesin¹,

Davy²,

Dorken³

et al. 2021

MBI

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Wave exposure and hydrologic connectivity create diversity in habitat and zooplankton assemblages at nearshore Long Point Bay, Lake Erie

Thomasen

Gilbert

Chow‐Fraser

2013

Journal of Great Lakes Research

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Janice M. Gilbert

Effects of Macrophyte Functional Group Richness on Emergent Freshwater Wetland Functions

Periphyton bioconcentrates pesticides downstream of catchment dominated by agricultural land use

Variation in glyphosate effects and accumulation in emergent macrophytes

Wave exposure and hydrologic connectivity create diversity in habitat and zooplankton assemblages at nearshore Long Point Bay, Lake Erie

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