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Auteurs principaux: Cimon, Stéphanie, Deslauriers, Annie, Cusson, Mathieu
Format: Dataset Open Access
Langue:en
Publié: PANGAEA 2021
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Accès en ligne:https://doi.org/10.1594/PANGAEA.931118
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author Cimon, Stéphanie
Deslauriers, Annie
Cusson, Mathieu
author_facet Cimon, Stéphanie
Deslauriers, Annie
Cusson, Mathieu
collection Datos científicos de ciencias marinas y ambientales
contents We evaluated single and interactive effects of density reduction of Zostera marina L., a habitat-forming species, shading, and sediment nutrient enrichment on the response of microalgal epiphyte load on eelgrass leaves. We estimated the epiphyte (microalgae) load on eelgrass by scraping eelgrass leaves with a microscope slide under filtered seawater. During Period T1, we selected and scraped the leaves of three randomly selected shoots. We then filtered the water containing the scraped epiphytes through preweighed GF/F filters, and we assessed the epiphyte load as the dry weight of epiphytes divided by the dry weight of the collected scraped shoots.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_931118
institution PANGAEA
language en
publishDate 2021
publisher PANGAEA
record_format pangaea
spellingShingle Biomass (dry weight) of epiphytic microalgae measured through a multi-factorial in situ experiment of 10 weeks in a eelgrass bed in St. Lawrence Estuary (Baie-Saint-Ludger, Canada)
Cimon, Stéphanie
Deslauriers, Annie
Cusson, Mathieu
Abundance; DATE/TIME; Density; Dried at 60°C until weight was stable; Eelgrass; Epiphytes, biomass as dry weight, per Zostera biomass; intertidal; invertebrates; MULT; Multiple investigations; multiple stress; Nutrient; Period; Plot; Quebec, Canada; Sample code/label; Shading; StLawrence_Estuary; stress interaction; Treatment
We evaluated single and interactive effects of density reduction of Zostera marina L., a habitat-forming species, shading, and sediment nutrient enrichment on the response of microalgal epiphyte load on eelgrass leaves. We estimated the epiphyte (microalgae) load on eelgrass by scraping eelgrass leaves with a microscope slide under filtered seawater. During Period T1, we selected and scraped the leaves of three randomly selected shoots. We then filtered the water containing the scraped epiphytes through preweighed GF/F filters, and we assessed the epiphyte load as the dry weight of epiphytes divided by the dry weight of the collected scraped shoots.
title Biomass (dry weight) of epiphytic microalgae measured through a multi-factorial in situ experiment of 10 weeks in a eelgrass bed in St. Lawrence Estuary (Baie-Saint-Ludger, Canada)
topic Abundance; DATE/TIME; Density; Dried at 60°C until weight was stable; Eelgrass; Epiphytes, biomass as dry weight, per Zostera biomass; intertidal; invertebrates; MULT; Multiple investigations; multiple stress; Nutrient; Period; Plot; Quebec, Canada; Sample code/label; Shading; StLawrence_Estuary; stress interaction; Treatment
url https://doi.org/10.1594/PANGAEA.931118