Dataset: Luminoxyscape maximum depth

Name: Maximum depths of the visual luminoxyscape for four species of marine invertebrate larvae from CalCOFI stations between La Jolla, California to Point Conception between 1984-2019
Published: 2021-09-24
Keywords: vision, marine invertebrate, larvae, crustacean, cephalopod, oceans

Cite This Dataset

DOI:10.26008/1912/bco-dmo.859867.1

Spatial Extent: N:34.4655 E:-117.286666 S:31.99666 W:-120.823333

Temporal Extent: 1984-01-05 - 2019-07-25

Project:

Vision-mediated influence of low oxygen on the physiology and ecology of marine larvae (Vision under hypoxia)

Principal Investigator:

Lisa A. Levin (University of California-San Diego, UCSD-SIO)

Co-Principal Investigator:

Nicholas Oesch (University of California-San Diego, UCSD)

Contact:

Lillian R. McCormick (University of California-San Diego, UCSD-SIO)

BCO-DMO Data Manager:

Taylor Heyl (Woods Hole Oceanographic Institution, WHOI BCO-DMO)

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

Version:

Version Date:

2021-09-24

Restricted:

Validated:

Yes

Current State:

Final no updates expected

Maximum depths of the visual luminoxyscape for four species of marine invertebrate larvae from CalCOFI stations between La Jolla, California to Point Conception between 1984-2019

Abstract:

In this dataset, the maximum depths of the visual luminoxyscape for four species of marine invertebrate larvae were recorded. Data in this study are from CalCOFI stations restricted to an area from La Jolla, California to Point Conception and 215 kilometers maximum offshore (Station 60). We analyzed daytime casts (09:00-16:00) of both discrete bottle data and continuous CTD casts to represent the date range of 1984-2019 and used the oxygen and irradiance measurements to determine the visual luminoxyscape for each of the larval species. This range was bounded by the oxygen (partial pressure) where the pO2 would permit 50% minimum retinal function (V50; 13, 7.2, 10.2, and 6.8 kPa for larvae of 'Doryteuthis opalescens', 'Octopus bimaculatus', 'Metacarcinus gracilis', and 'Pleuroncodes planipes', respectively), and where there is sufficient irradiance for a visual response (0.0311 µmol photons m-2 s-1) for each species. Additionally, oxygen limits for metabolism were used to determine the depth of occurrence of the Pcrit (the oxygen below which the animal cannot maintain a constant metabolic rate). The depths of occurrence for metabolic limits were determined for larvae of 'D. opalescens' and 'O. bimaculatus'.

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Archival Copy

Version Date	Archive	Persistent Identifier (PID)	Date PID Issued
2021-09-24	Marine Biological Laboratory/Woods Hole Oceanographic Institution Library (MBLWHOI DLA)	10.26008/1912/bco-dmo.859867.1	2022-01-24

Methods & Sampling

This dataset is a subset of data from the "Luminoxyscape environmental" dataset (BCO-DMO dataset 860397). In this "Luminoxyscape maximum depth" dataset, we provide the rows of information for the maximum depths only. The "Depth" column refers to the maximum depth of either oxygen limitation for vision (V50), oxygen limitation for metabolism (Pcrit), or irradiance limitation (Light_Lim). All species and limits are presented in one, combined data frame.

All corresponding environmental hydrographic cast data were collected by the California Cooperative Oceanic Fisheries Investigations (CalCOFI) long-term monitoring system. All information regarding the sampling program can be found on https://calcofi.org/about/. Briefly, CalCOFI and the Southern California Coastal Ocean Observing System (SCCOOS) samples a random array within a gridded station map during quarterly cruises and conducts vertical hydrographic casts to ~500-meters (m) depth (or 10 m above bottom where bottom depth < 500 m). More information can be found at: https://calcofi.org/index.php. All data used can be found in their original form at: https://calcofi.org/data/oceanographic-data/ctd-cast-files/.

In this analysis, we used data from CalCOFI stations restricted to an area from La Jolla, California to Point Conception (Line 80.0- Line 93.3; 32.95-34.46 °N at shoreline) and 215 kilometers maximum offshore (Station 60; 119.57-121.150 °W). We analyzed daytime casts (09:00-16:00) of both discrete bottle data and continuous CTD casts. This dataset has combined bottle and CTD casts to represent the date range 1984-2019. We used the oxygen and irradiance measurements to determine the visual luminoxyscape for each of the larval species. This range was bounded by the oxygen (partial pressure) where the pO2 would permit 50% minimum retinal function (V50; 13, 7.2, 10.2, and 6.8 kPa for larvae of Doryteuthis opalescens, Octopus bimaculatus, Metacarcinus gracilis, and Pleuroncodes planipes, respectively), and where there is sufficient irradiance for a visual response (0.0311 µmol photons m-2 s-1) for each species.

The "limits" are calculating depths where those oxygen and irradiance requirements would no longer be met. This would be the 'visual luminoxyscape depth' (VLD); these depths are the maximum depths presented in this metadata file. Oxygen values for oxygen limits for visual physiology were taken from McCormick et al., 2019.

Additionally, oxygen limits for metabolism were used to determine the depth of occurrence of the Pcrit (the oxygen below which the animal cannot maintain a constant metabolic rate). This was calculated in McCormick, 2019. The depths of occurrence for metabolic limits were determined for larvae of D. opalescens and O. bimaculatus.

Instruments:
Full details of the instrumentation on the CalCOFI CTD can be found here: https://calcofi.org/sampling-info/methods/bottle-sampling-methods/. Wherever possible, we used the cruise-corrected data in the "final" cast files provided by CalCOFI, indicating the files already QC by CalCOFI data managers.

For this analysis, we primarily used data from oxygen optodes [SBE 13 (1998-2003) and SBE 43 (2003-2019); SeaBird Scientific] and PAR irradiance sensors [QSP-200L (1998-2010); QSP-2300 (2003-2019); Biospherical Instruments, Inc.].

Code:
There are 3 R files associated with this dataset: Luminox_May21_Part1_ann.R, Luminox_May21_Part2_ann.R, and Luminox_May21_Part3_ann.R. These are further described in the attached file "Luminoxyscape_Code_Description_of_Files.txt". In general:
The code (separated into 3 parts for simplicity and organization) is the entire code dataset from the Luminoxyscape project. The code covers everything including the quality-control for data downloaded directly from CalCOFI (https://calcofi.org/data/oceanographic-data/ctd-cast-files/) in Part 1, the analysis of maximum depths in Part 2 (associated with data "Luminoxyscape maximum depth", and the final analysis for the paper (McCormick et al., Limnology and Oceanography Letters, accepted) including code for all statistics in the analysis and graphs used in the figures. The code is clean and works, but is designed to show the process of the analysis for the project, rather than direct reproducibility. Contact information is included for those who wish to ask questions. All code was run using R (v3.6.3) run through RStudio (v. 2021.09.0).

Data Processing Description

Data Processing:
Full details on the CTD processing procedure can be found here: https://calcofi.org/sampling-info/methods/bottle-sampling-methods/

Programs used to analyze data include SeaBird SBEDataProcessing version 7.26.7

BCO-DMO Processing:
- Converted dates to ISO8601 format in a new column;
- Adjusted field/parameter names to comply with BCO-DMO naming conventions;
- Missing data identifier ‘NA’ replaced with 'nd' (BCO-DMO's default missing data identifier);
- Added a conventional header with dataset name, PI names, version date;
- In the ENSO_Cat column, replaced "La Ni√±a" with "La Nina" and "El Ni√±o" with "El Nino".

Data Files

File
Luminox_May21_Part1_ann.R (Octet Stream, 85.09 KB) MD5:4f7e3ae38a46156b3377b5280b9524a1 An annotated file showing the processing and quality control of the downloaded oceanographic data from CalCOFI (https://calcofi.org/data/). This includes loading the data files, the data frame set up, oxygen conversions, and calculating maximum depth of the casts for both early data (discrete bottle samples only) and cast data (using a CTD). Additional details about CalCOFI data can be found on their site. Details about the structure of the datasets can be found in the description for "Luminoxyscape environmental", doi: 10.26008/1912/bco-dmo.860397.1
Luminox_May21_Part2_ann.R (Octet Stream, 66.88 KB) MD5:b145062773a02e86f4299231dc8d196a An annotated file showing the main analysis for the maximum depth of the visual luminoxyscape (additional details in the "Luminoxyscape maximum depth" file description, doi 10.26008/1912/bco-dmo.859867.1). This includes combining quality-controlled data frames for oceanographic data, narrowing the dataset to the stations of interest, adding in El-Nino Southern Oscillation data, and calculating the maximum depths of the luminoxyscape.
Luminox_May21_Part3_ann.R (Octet Stream, 61.48 KB) MD5:bf2fe7f12ff19d133770d5dfc5df643f An annotated file showing the statistical analyses and code for publication figures for this study. This includes calculating the average/standard deviation/standard error of the maximum depths of the luminoxyscape (see "Luminoxyscape maximum depth" file description, doi 10.26008/1912/bco-dmo.859867.1), conducting the statistics, and making the figures for publication.
Luminoxyscape_Code_Description_of_Files.txt (Octet Stream, 2.77 KB) MD5:bdd74fcdbfb3ba12e7be87d5707bde0a Text file describing the three R files associated with the Luminoxyscape datasets: "Luminoxyscape maximum depth": doi 10.26008/1912/bco-dmo.859867.1 "Luminoxyscape environmental": doi 10.26008/1912/bco-dmo.860397.1
luminoxyscape_max_depth.csv (Comma Separated Values (.csv), 1.17 MB) MD5:a7725ca211166fab7ed618dec4c2a249 Primary data file for dataset ID 859867

More Information about this dataset

Funding Sources

Funding Source	Award Number
NSF Division of Ocean Sciences	OCE-1829623

Deployments

None available yet

Instruments

CTD Sea-Bird SBE 911plus

Supplied Name: CalCOFI CTD

Supplied Description:

CalCOFI's primary hydrographic instrument is a Seabird 911+ CTD equipped with dual temperature, conductivity and oxygen sensors mounted on a 24-10L bottle rosette. Additional CTD sensors mounted on the rosette frame include a fluorometer, transmissometer, nitrate sensor, PAR, pH and altimeter.

Instrument Type

Generic Name: CTD Sea-Bird SBE 911plus

Acronym: CTD SBE 911plus

Community Identifier: http://vocab.nerc.ac.uk/collection/L22/current/TOOL0058/

Generic Description:

The Sea-Bird SBE 911 plus is a type of CTD instrument package for continuous measurement of conductivity, temperature and pressure. The SBE 911 plus includes the SBE 9plus Underwater Unit and the SBE 11plus Deck Unit (for real-time readout using conductive wire) for deployment from a vessel. The combination of the SBE 9 plus and SBE 11 plus is called a SBE 911 plus. The SBE 9 plus uses Sea-Bird's standard modular temperature and conductivity sensors (SBE 3 plus and SBE 4). The SBE 9 plus CTD can be configured with up to eight auxiliary sensors to measure other parameters including dissolved oxygen, pH, turbidity, fluorescence, light (PAR), light transmission, etc.). more information from Sea-Bird Electronics

Photosynthetically Available Radiation Sensor

Supplied Name: PAR irrandiance sensor QSP-2300

Supplied Description:

PAR irradiance sensor QSP-2300 from Biospherical Instruments, Inc. (http://www.biospherical.com/).

Instrument Type

Generic Name: Photosynthetically Available Radiation Sensor

Acronym: PAR sensor

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/122/

Generic Description:

A PAR sensor measures photosynthetically available (or active) radiation. The sensor measures photon flux density (photons per second per square meter) within the visible wavelength range (typically 400 to 700 nanometers). PAR gives an indication of the total energy available to plants for photosynthesis. This instrument name is used when specific type, make and model are not known.

Photosynthetically Available Radiation Sensor

Supplied Name: PAR irrandiance sensor QSP-200L

Supplied Description:

PAR irradiance sensor QSP-200L from Biospherical Instruments, Inc. (http://www.biospherical.com/)

Instrument Type

Generic Name: Photosynthetically Available Radiation Sensor

Acronym: PAR sensor

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/122/

Generic Description:

Sea-Bird SBE 13 Dissolved Oxygen Sensor

Supplied Name:

Supplied Description:

Instrument Type

Generic Name: Sea-Bird SBE 13 Dissolved Oxygen Sensor

Acronym: SBE-13 DO

Generic Description:

Dissolved oxygen sensor with either a Beckmann (SBE 13B) or YSI polarographic element (SBE 13Y limited to 2000m depth). Designed to interface with the SBE 9 and 9plus CTD underwater units. An optional plenum to connect into the pumped plumbing system was available but usage with the membrane exposed was possible. Replaced by the SBE 43 in 2001.

Sea-Bird SBE 43 Dissolved Oxygen Sensor

Supplied Name:

Supplied Description:

Instrument Type

Generic Name: Sea-Bird SBE 43 Dissolved Oxygen Sensor

Acronym: SBE-43 DO

Community Identifier: http://vocab.nerc.ac.uk/collection/L22/current/TOOL0036/

Generic Description:

The Sea-Bird SBE 43 dissolved oxygen sensor is a redesign of the Clark polarographic membrane type of dissolved oxygen sensors. more information from Sea-Bird Electronics

Parameters

Date and time formats are described in python strftime() syntax.

Supplied Name	Supplied description	Supplied Units	Standard Name
Cast_ID	Unique cast identification given for each individual hydrographic cast performed by CalCOFI. Character string.	unitless	cast
Line	CalCOFI sampling grid lines are north/south on a latitudinal grid. See CalCOFI website for details and map. Numeric format.	unitless	grid_line
Station	Station. CalCOFI sampling grid stations are east/west on a longitudinal grid. See CalCOFI website for details and map. Numeric format.	unitless	station
ISO_DateTime_UTC	Date/time (in UTC) in ISO8601 format: YYYY-MM-DDThh:mm:ssZ Format: %Y-%m-%dT%H:%M:%SZ	unitless	ISO_DateTime_UTC
dt_PST	Date/time in Pacific Standard Time (PST). Format: YYYY-MM-DD hh:mm:ss	unitless	DateTime
Hour	Hour of the day in PST. Format is numeric 1-23.	unitless	hour_local
Month	Month of the year. Numeric, 1-12.	unitless	month_local
Year	Year of the data. Numeric.	unitless	year
Depth	Depth of data (CTD cast or bottle measurement) Numeric.	meters	depth
Temperature	Temperature. Numeric.	degrees Celsius	temp
Salinity	Salinity in PSU. Numeric.	PSU	sal_ctd
SigTheta	Sigma theta is the density of seawater calculated with in situ salinity, potential temperature, and pressure =0 minus 1000 kg m-3.	1000 kg m-3	sigma_0
PAR	Photosynthetically Active Radiation. A measure of irradiance between ~400-700 nm.	µmol photons m-2 s-1	PAR
PARCorr	PAR weighted to the animal’s spectral sensitivity. In this case, all PAR was multiplied by 0.34, as the percentage of PAR each species could detect. See McCormick et al., 2019 for additional details.	µmol photons m-2 s-1	PAR
Comb	A combined Line/Station code used for sorting data.	unitless	sta_id
Latitude	Latitude of the cast. Numeric format.	decimal degrees North	lat
Longitude	Longitude of the cast. Numeric format.	decimal degrees East (West is negative)	lon
O2_mL_L	Oxygen concentration. Numeric format.	milliliters per liter	O2
O2_uM	Oxygen content	µmol photons per kiligram	O2
O2_matm	Oxygen content. Numeric	milliatmospheres	O2
O2_kPa	Oxygen content. Numeric.	partial pressure units (kPa)	O2
Season	Season for data. Winter (December, January, February); Spring (March, April, May); Summer (June, July, August); and Fall (September, October, November)	unitless	season
Dist_land	Distance from land, calculated as the spherical distance from the station to the corresponding shore station, or distance from the nearest island, for stations close to the Channel Islands.	kilometers	len_track
Light_Lim	Whether the larvae of all 4 species would have sufficient irradiance for >5% visual function at that specific cast depth bin. TRUE: Animals would have irradiance for >5% visual function; FALSE: Animals would have irradiance for <5% visual function. Based on McCormick et al., 2019. Character format (TRUE/FALSE).	unitless	irradiance
Do_50	Whether larvae of Doryteuthis opalescens would have oxygen sufficient for >50% visual function at the specific cast depth bin. Character format, TRUE/FALSE. TRUE: Larvae would have oxygen for >50% visual function. FALSE: Larvae would have oxygen for <50% visual function.	unitless	no_bcodmo_term
Ob_50	Whether larvae of Octopus bimaculatus would have oxygen sufficient for >50% visual function at the specific cast depth bin. Character format, TRUE/FALSE. TRUE: Larvae would have oxygen for >50% visual function. FALSE: Larvae would have oxygen for <50% visual function.	unitless	no_bcodmo_term
Cg_50	Whether larvae of Metacarcinus gracilis would have oxygen sufficient for >50% visual function at the specific cast depth bin. Character format, TRUE/FALSE. TRUE: Larvae would have oxygen for >50% visual function. FALSE: Larvae would have oxygen for <50% visual function.	unitless	no_bcodmo_term
Pp_50	Whether larvae of Pleuroncodes planipes would have oxygen sufficient for >50% visual function at the specific cast depth bin. Character format, TRUE/FALSE. TRUE: Larvae would have oxygen for >50% visual function. FALSE: Larvae would have oxygen for <50% visual function.	unitless	no_bcodmo_term
Do_met	Whether larvae of D. opalescens would have oxygen sufficient for maintaining a stable metabolic rate (oxygen > Pcrit) at the specific cast depth bin. Character format, TRUE/FALSE. TRUE: Larvae would have oxygen >Pcrit. FALSE: Larvae would have oxygen for <Pcrit.	unitless	no_bcodmo_term
Ob_met	Whether larvae of O. bimaculatus would have oxygen sufficient for maintaining a stable metabolic rate (oxygen > Pcrit) at the specific cast depth bin. Character format, TRUE/FALSE. TRUE: Larvae would have oxygen >Pcrit. FALSE: Larvae would have oxygen for <Pcrit.	unitless	no_bcodmo_term
Loc	Categorical location of the station; whether the station was considered nearshore (“NS”; <30 km from shore) or offshore (“OS”; 30-215 km from shore). Character.	unitless	station
ONI	Oceanic Niño Index from the NOAA Climate Prediction Center. The Index measures the temperature anomaly in the 3.4 region in the equatorial Pacific. Numeric; positive values indicate warming, negative values indicate cooling. Data taken from: https://origin.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ONI_v5.php	unitless	no_bcodmo_term
ENSO_Cat	Categorical description of El Niño-Southern Oscillation phase. Categories were determined using the ONI. Winter/Spring ONI values of >=1 were considered “El Nino” years, values <= -1 were considered “La Nina” years; all other years were considered “non-ENSO” years.	unitless	no_bcodmo_term
Species	The species for which the maximum depth of the visual luminoxyscape was calculated. Categories are: “D. opalescens”= Doryteuthis opalescens, “O. bimaculatus”= Octopus bimaculatus, “M. gracilis”= Metacarcinus gracilis, “P. planipes”= Pleuroncodes planipes. and “All” refers to the limit being suitable for all 4 species.	unitless	species
MD_Limit	Oxygen limit for the maximum depth of the visual luminoxyscape. Categories are: “V50”= the oxygen level at which there would be 50% retinal function for the respective species, “Pcrit”= the oxygen limit for metabolism, below which the larvae cannot maintain a stable metabolic rate, or “Light.Lim”= the minimum irradiance level that would facilitate >5% retinal function for the larvae.	unitless	no_bcodmo_term

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Dataset: Luminoxyscape maximum depth