_version_ 1867171886272610304
author Miller, Cale A
Urrutti, Pierre
Gattuso, Jean-Pierre
Comeau, Steeve
Lebrun, Anaïs
Alliouane, Samir
Schlegel, Robert
Gazeau, Frédéric
author_facet Miller, Cale A
Urrutti, Pierre
Gattuso, Jean-Pierre
Comeau, Steeve
Lebrun, Anaïs
Alliouane, Samir
Schlegel, Robert
Gazeau, Frédéric
collection Datos científicos de ciencias marinas y ambientales
contents An ex situ experimental mesocosm system was employed to test the effects of climate change drivers temperature, salinity, and reduced light on Arctic kelp communities in Ny-Ålesund, Svalbard from 03/07/2021 –26/08/2021. Three experimental conditions (with 3x replicates) manipulating temperature and salinity as offset values from a dynamic real-time control condition were used to increase temperature on the order of +3.3 and +5.3 °C, freshening by a decrease of ~ 4 and ~ 5 in salinity, along with a static irradiance attenuation at 30 and 50 %. In each mesocosm, oxygen (% O2, temperature, salinity, and flow rate were monitored minutely for 2 months using in situ optical and conductivity sensors paired with flow meters plumbed to the incoming water line. Data were logged on a microSD card. The collected environmental temperature and salinity data were paired with O2 concentration measured during closed incubations which occurred weekly over the experimental period to assess the effects on kelp community metabolism.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_961785
institution PANGAEA
language en
publishDate 2023
publisher PANGAEA
record_format pangaea
spellingShingle Measurements of An Autonomous Flow through Salinity and Temperature Perturbation Mesocosm System for a Multi-stressor Experiment
Miller, Cale A
Urrutti, Pierre
Gattuso, Jean-Pierre
Comeau, Steeve
Lebrun, Anaïs
Alliouane, Samir
Schlegel, Robert
Gazeau, Frédéric
Climate change; Conductivity digital sensor, Aqualabo, PC4E; DATE/TIME; ecosystems; experimental system; Flow rate; MESO; Mesocosm experiment; multi-stressors; Ny_Ålesund_Mesocosm_2021; Ny-Ålesund, Spitsbergen; Oxygen Optical digital sensor, Aqualabo, PODOC; Oxygen saturation; Replicate; Salinity; Temperature, water; Vortex flow meter, ifm electronic gmbh, SV3150
An ex situ experimental mesocosm system was employed to test the effects of climate change drivers temperature, salinity, and reduced light on Arctic kelp communities in Ny-Ålesund, Svalbard from 03/07/2021 –26/08/2021. Three experimental conditions (with 3x replicates) manipulating temperature and salinity as offset values from a dynamic real-time control condition were used to increase temperature on the order of +3.3 and +5.3 °C, freshening by a decrease of ~ 4 and ~ 5 in salinity, along with a static irradiance attenuation at 30 and 50 %. In each mesocosm, oxygen (% O2, temperature, salinity, and flow rate were monitored minutely for 2 months using in situ optical and conductivity sensors paired with flow meters plumbed to the incoming water line. Data were logged on a microSD card. The collected environmental temperature and salinity data were paired with O2 concentration measured during closed incubations which occurred weekly over the experimental period to assess the effects on kelp community metabolism.
title Measurements of An Autonomous Flow through Salinity and Temperature Perturbation Mesocosm System for a Multi-stressor Experiment
topic Climate change; Conductivity digital sensor, Aqualabo, PC4E; DATE/TIME; ecosystems; experimental system; Flow rate; MESO; Mesocosm experiment; multi-stressors; Ny_Ålesund_Mesocosm_2021; Ny-Ålesund, Spitsbergen; Oxygen Optical digital sensor, Aqualabo, PODOC; Oxygen saturation; Replicate; Salinity; Temperature, water; Vortex flow meter, ifm electronic gmbh, SV3150
url https://doi.org/10.1594/PANGAEA.961785