Limacina helicina shell dissolution due to ocean acidification in the California Current Ecosystem from 2011-08-11 to 2013-08-29 (NCEI Accession 0155173)

Pteropod shell dissolution was determined on shells collected from 16 stations for the 2011 cruise and 20 stations during the 2013 cruise. The samples were stored in 90% buffered ethanol. Between 15 to 30 pteropods of Limacina helicina were picked from samples selected randomly. Following the method...

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Bibliographic Details
Format: Dataset
Language:unknown
Published: NOAA NCEI Environmental Data Archive 2017
Subjects:
DOC/NOAA/NESDIS/NODC > National Oceanographic Data Center, NESDIS, NOAA, U.S. Department of Commerce
DOC/NOAA/NESDIS/NCEI > National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce
DOC/NOAA/OAR/PMEL > Pacific Marine Environmental Laboratory, OAR, NOAA, U.S. Department of Commerce
0155173
155173
ARAGONITE SATURATION STATE
species abundance
microscope
Niskin bottle
survey - biological
US DOC; NOAA; OAR; Pacific Marine Environmental Laboratory
NODC Ocean Acidification Scientific Data Stewardship (OADS)
US DOC; NOAA; Office of Oceanic and Atmospheric Research; Ocean Acidification Program (OAP)
North Pacific Ocean
West Coast - US/Canada
oceanography
Ocean Acidification Data Stewardship (OADS) Project
Ocean Acidification Program (OAP)
WCOA2011
WCOA2013
Abundance of pteropods over the 100 m integrated water column
Bongo nets
California Current System
Columbia River
Integrated aragonite saturation state over 100 m
Limacina helicina
Percent of individuals affected by sever type of dissolution (Type II and Type III)
SEM
pteropods
scanning electron microscope
zooplankton splitter
317W20130803
32WC20110812
EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > CARBONATE
MICROSCOPES
NISKIN BOTTLES
OCEAN > PACIFIC OCEAN > NORTH PACIFIC OCEAN
Canada
Pacific
Sever
Ocean acidification
Online Access:https://search.dataone.org/view/{0E413E70-EF23-496E-84F9-A39D37403B2C}
Description
Summary:Pteropod shell dissolution was determined on shells collected from 16 stations for the 2011 cruise and 20 stations during the 2013 cruise. The samples were stored in 90% buffered ethanol. Between 15 to 30 pteropods of Limacina helicina were picked from samples selected randomly. Following the methods described in Bednarsek et al. (2012), shells were repeatedly washed with distilled water before being subjected to chemical shell dehydration, followed by a plasma etching procedure for periostracum removal. All treated shells were analyzed for shell dissolution using a scanning electron microscope (SEM) and identified for the presence of dissolution patterns and the type of more severe types of shell dissolution (Type II and Type III). Following the categorization scheme outlined in Bednarsek et al. (2012), Type II dissolution indicates deeper penetrating dissolution that precedes Type III, which affects large parts of shell crystalline structure, making shells less compact and more fragile. The data files show the percentage of individuals with Type II or Type III shell dissolution in relation to integrated omega saturation state in the upper100 m for each sampled station. For 2011, we also have data on the abundance of pteropods (ind m-2) in relation to integrated omega saturation state.

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