Dataset: Raman Spectra of Bivalve Larvae
Deployment: lab_North_Raman_Spectra

Raman spectra from several different bivalve species.

Principal Investigator:

Elizabeth North (University of Maryland Center for Environmental Science, UMCES/HPL)

Dr Christine Thompson (University of Maryland Center for Environmental Science, UMCES/HPL)

BCO-DMO Data Manager:

Shannon Rauch (Woods Hole Oceanographic Institution, WHOI BCO-DMO)

Project:

Can Raman spectroscopy be used as a high-accuracy method to identify bivalve larvae? (Raman Spec Bivalves)

Current State:

Final no updates expected

Version:

10 Nov 2014

Version Date:

2014-11-10

Data URL:

https://osprey.bco-dmo.org/dataset-deployment/537942/data

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Description

This data set contains Raman spectra of the following species: Argopecten irradians, Crassostrea gigas, Crassostrea virginica, Gemma gemma, Geukensia demissa, Ischadium recurvum, Macoma mitchelli, Mercenaria mercenaria, Mulinia lateralis, Mya arenaria, Mytilopsis leucophaeata, Ostrea lurida, Rangia cuneata, Tagelus plebeius, Spisula solidissma, Panopea generosa. Detailed information on the source and preparation of larvae can be found in Thompson et al. (in prep). All spectra were acquired by Adam Schlenger and Christine Thompson.

Methods & Sampling

Dataset acquisition description

Detailed information on the source and preparation of larvae can be found in Thompson et al. (in prep). All spectra were acquired by Adam Schlenger and Christine Thompson. The following information on the acquisition and processing of the spectra that comprise this dataset was quoted from Thompson et al. (in prep):

"Raman spectra were acquired with an XploRA confocal Raman microscope by Horiba Jobin Yvon, Inc. The system includes a flat field spectrograph with a multichannel air cooled CCD detector and color camera optically coupled to an Olympus BX41 microscope. We used three lasers: a 532 nm 25 mW solid-state laser, a 638 nm 25 mW laser diode, and a 785 nm 25 mW laser diode. The lasers ran through a 100x objective using a 1200 grove mm-1 grating and hole and slit size of 300 µm and 100 µm, respectively. Spectra were recorded in the range of 200-2000 cm-1. Spectra were acquired from 20 larval shells for each sample by averaging 3 accumulations with an exposure time of 10 s. For one shell in each sample, three spectra were taken from different positions on the shell. Spectral acquisition was controlled using Horiba’s LabSpec software (version 6). Wavelength calibration was performed on the XploRA system using a neon light source that was calibrated daily with a silicon wafer.

All spectra were first pre-processed to remove noise and other variability. Immediately after acquisition, noise was removed using a smoothing function in LabSpec. Baseline correction was then performed using a freely-available integrated software system for processing Raman spectra (Reisner et al. 2011) implemented in MATLAB (v. R2011a). Next, all wavenumbers were shifted to ensure the aragonite peak for all spectra fell at 1085 cm-1 and then spectra were standardized to the intensity of the aragonite peak on a scale of 0 to 1."

The two columns of numbers in each file correspond to wavenumber with units of cm-1 (first column) and relative intensity which is unitless (second column).

References:
Reisner, L.A., Cao, A., & Pandya, A.K. 2011. An integrated software system for processing, analyzing, and classifying Raman spectra. Chemom Intell Lab Syst 105:83–90. doi: 10.1016/j.chemolab.2010.09.011

Thompson, C.M., North, E.W., Kennedy, V.S., & White, S.N. In prep. Classifying bivalve larvae using shell pigments identified by Raman spectra. Analytical and Bioanalytical Chemistry.

Data Processing Description

Dataset Processing Description

BCO-DMO downloaded the original data files from the DropBox URL provided by Dr. E. North. BCO-DMO created additional data columns for serving based on the file name conventions and metadata. See the original metadata form describing the file name conventions: Metadata_for_Raman_Spectra_of_Bivalve_Larvae (PDF file).

More information about this dataset deployment

Funding

Award Number	Funding Source
OCE-1240266	NSF Division of Ocean Sciences

Instruments

Raman Microscope

Supplied Name: XploRA confocal Raman microscope

Supplied Description:

Raman spectra were acquired with an XploRA confocal Raman microscope by Horiba Jobin Yvon, Inc. The system includes a flat field spectrograph with a multichannel air cooled CCD detector and color camera optically coupled to an Olympus BX41 microscope. The investigators used three lasers: a 532 nm 25 mW solid-state laser, a 638 nm 25 mW laser diode, and a 785 nm 25 mW laser diode. See more information about the Raman microscope on the UMCES website.

Instrument Type

Generic Name: Raman Microscope

Generic Description:

The Raman microscope is a laser-based microscopic device used to perform Raman spectroscopy. The Raman microscope begins with a standard optical microscope, and adds an excitation laser, laser rejection filters, a spectrometer or monochromator, and an optical sensitive detector such as a charge-coupled device (CCD), or photomultiplier tube, (PMT). One example is the XploRA confocal Raman microscope (information from the manufacturer).

Parameters

Supplied Name	Supplied description	Supplied Units	Standard Name
wavelength	Wavelength of the laser light source used (532, 638, or 785).	nanometers (nm)	wavelength_general
species_name	Name of the species.	text	species
species_code	Unique species code.	text	taxon_code
year	4-digit year of spawning.	YYYY	year
loc_code	Unique sample location code.	text	Site_ID
location	Sample location.	text	site
city	City of the sample location.	text	site
state	2-letter abbreviation for the state of the sample location.	text	site
day	Age of larvae in days in the format DX where X = how many days old the larva was. For specimens where age was unclear: DS = d-stage; VE = veliger; PV = pedi-veliger larvae (unclear how old); R = larvae released from brood (for brooding species); H = larvae at time of harvest (for brooding species). For RCSL samples, day 13 is written as 13D	number of days	age
loc_additional	Additional location marker for some samples of Mytilopsis leucophaeata; Mulinia lateralis; and Macoma mitchelli. CT = Choptank River (Maryland USA). nd = not applicable/no additional location code.	text	site
shell_num	Shell number in the format SXX where XX = number shell (1-20 usually).	alphanumeric	no_bcodmo_term
position	Position number in the format PX where X = position (some shells had multiple positions for spectra).	alphanumeric	no_bcodmo_term
file_name	Name of the original spectra file containing the wavenumber and relative_intensity. Notes: sd = standardized to aragonite 1085 peak; pp = post-processed (flattened, noise reduction).	text	no_bcodmo_term
wavenumber	Wavenumber.	per centimeter (cm-1)	no_bcodmo_term
relative_intensity	Relative intensity.	unitless	no_bcodmo_term

Database

Contribute Data

Dataset: Raman Spectra of Bivalve Larvae
Deployment: lab_North_Raman_Spectra

Dataset acquisition description

Dataset Processing Description

Database

Contribute Data

Dataset: Raman Spectra of Bivalve LarvaeDeployment: lab_North_Raman_Spectra

Dataset acquisition description

Dataset Processing Description

Dataset: Raman Spectra of Bivalve Larvae
Deployment: lab_North_Raman_Spectra