Seawater temperatures at study sites in the Gulf of Maine prior to and during an outplant experiment that was conducted from April to August 2021

Website: https://www.bco-dmo.org/dataset/911409
Data Type: Other Field Results
Version: 1
Version Date: 2023-10-12

Project
» Local adaptation and the evolution of plasticity under predator invasion and warming seas: consequences for individuals, populations and communities (evolution of plasticity)
ContributorsAffiliationRole
Trussell, Geoffrey C.Northeastern UniversityPrincipal Investigator
Corbett, James J.Northeastern UniversityStudent
Rauch, ShannonWoods Hole Oceanographic Institution (WHOI BCO-DMO)BCO-DMO Data Manager

Abstract
This dataset contains seawater temperatures at study sites in the Gulf of Maine prior to and during an outplant experiment that was conducted from April to August 2021.


Coverage

Spatial Extent: N:44.8192 E:-66.9661 S:42.4215 W:-70.9076
Temporal Extent: 2021-03-04 - 2021-08-06

Methods & Sampling

To assess local and regional variation in shell thickness plasticity, we conducted a field experiment that utilized 12 Littorina obtusata populations in the Gulf of Main (GOM), with 6 in the northern Gulf and 6 in the southern Gulf (see Related Datasets). Seawater temperature was recorded at high tide at study sites prior to and during the outplant experiment. All temperature data were recorded by Tidbit temperature loggers (Onset Computer Corporation) placed in the intertidal zone at +1.5 meters Mean Low Water. Temperature was sampled at 5-minute intervals and temperature values corresponding to daily high tides were extracted for statistical analyses.


Data Processing Description

Data were first recorded manually on paper and then transferred to digital spreadsheets. Fidelity between paper and digital versions of the data were proofed by both Corbett and Trussell.


BCO-DMO Processing Description

- Imported original file named Data from Local and Regional Geographic Variation in Inducible Defenses.Temperature.Pre.Expt.xlsx" into the BCO-DMO system.
- Renamed fields/columns to comply with BCO-DMO naming conventions.
- Removed degrees symbols from LATITUDE and LONGITUDE columns.
- Made LONGITUDE values negative because they're in the Western hemisphere.
- Converted DATE column to YYYY-MM-DD format.
- Saved the final file as "911409_v1_temps_outplant_expt.csv".


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Data Files

File
911409_v1_temps_outplant_expt.csv
(Comma Separated Values (.csv), 189.29 KB)
MD5:1c9d2d346aa141777972599bb345300d
Primary data file for dataset ID 911409, version 1.

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Related Publications

Corbett, J.J., Trussell, G.C. (In press). Local and regional geographic variation in inducible defenses. Ecology.
Results

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Related Datasets

IsRelatedTo
Trussell, G. C., Corbett, J. J. (2023) Littorina obtusata shell length, shell thickness, and tissue mass measured during a field experiment conducted at 12 sites in the Gulf of Maine from April to August 2021. Biological and Chemical Oceanography Data Management Office (BCO-DMO). (Version 1) Version Date 2023-10-11 doi:10.26008/1912/bco-dmo.911221.1 [view at BCO-DMO]

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Parameters

ParameterDescriptionUnits
PERIOD

Period of time when measurement was made (either 'Pre-Experiment' or 'During Experiment').

unitless
REGION

Region where the site is located (either 'NORTH' or 'SOUTH'). NORTH = Northern Gulf of Maine. SOUTH = Southern Gulf of Maine.

unitless
SITE

Name of the site.

unitless
LATITUDE

Latitude of the site. Positive values indicate North direction.

decimal degrees
LONGITUDE

Longitude of the site. Negative values indicate West direction.

decimal degrees
DATE

Date of measurement.

unitless
TEMPERATURE

Water temperature

degrees Celsius


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Instruments

Dataset-specific Instrument Name
Tidbit temperature loggers (Onset Computer Corporation)
Generic Instrument Name
Temperature Logger
Generic Instrument Description
Records temperature data over a period of time.


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Project Information

Local adaptation and the evolution of plasticity under predator invasion and warming seas: consequences for individuals, populations and communities (evolution of plasticity)


NSF Award Abstract:
Over the past two decades, the Gulf of Maine has experienced unprecedented warming that, among other things, has further enabled the invasive green crab to expand its range in rocky shore habitats. The adverse ecological impacts of this invasive predator have been documented worldwide. This study examines how geographic variation in the capacity of two common prey species to respond to the combination of this predator and warming ocean temperatures can shape prey feeding and performance and impact community structure and dynamics. Hence, this research enhances understanding of the evolution of phenotypes, their plasticity, and the nature of adaptation and its role in eco-evolutionary dynamics. More broadly, it informs understanding of how organisms and marine communities may respond to future environmental change. In addition, this project makes contributions to the STEM pipeline by providing middle and high school, undergraduate, and graduate students with cross-disciplinary training in evolutionary and community ecology. In collaboration with an institutional outreach program, the investigator is also developing web-based multimedia projects and teacher resource materials based on this research.

A central principle in ecology is that species residing in the middle of food chains must balance the benefits of eating with the risk of being eaten by their predators. Solving this foraging-predation risk trade-off often involves plasticity in prey traits with consequences for the evolution of adaptation and species interactions that drive community-level processes. Hence, the foraging-predation risk trade-off provides a powerful conceptual framework that links evolutionary and community ecology. Yet at the same time, other environmental stressors like temperature can shape this trade-off, adding complexity that makes it difficult to predict the capacity of organisms to adapt to environmental change and the consequences for communities. The investigator is conducting this study in rocky shore habitats of the Gulf of Maine (GOM) which have long been influenced by strong latitudinal temperature gradients and non-native species invasions. The overarching hypothesis is that predation risk and temperature are factors shaping geographic variation in plasticity and adaptation, with consequences for individuals, populations, and communities. First, the investigator is conducting field experiments to document geographic variation in the trait plasticity of two common prey species in the green crab's diet. Second, he is using reciprocal transplant experiments to examine trait plasticity in response to risk and water temperature, generating data to compare with similar experiments conducted in the late 90s prior to recent ocean warming and expansion in range of green crabs. Third, he is conducting a laboratory common garden experiment to evaluate the effects of risk and water temperature on trait plasticity. Finally, he is using reciprocal transplant experiments in the field to understand the interactive effects of risk and water temperature on prey foraging rates and the abundance of a species that plays an important role in intertidal community structure and dynamics.

This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.



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Funding

Funding SourceAward
NSF Division of Ocean Sciences (NSF OCE)

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