Data from: Acute copper exposure alters respiratory physiology and upper thermal limits in green crab (Carcinus maenas) at three global capture sites

Griffin, Robert 1 ; Stewart, Connor B.1; Martin, Sidney1; Wu, Fangshuai1; Alessi, Daniel S.1; Blewett, Tamzin A.1

Published Apr 27, 2026 on Dryad. https://doi.org/10.5061/dryad.m37pvmdh7

Data files

Apr 27, 2026 version files 48.82 KB

Acute_Copper_Exposure...Data.xlsx

44.67 KB
README.md

4.15 KB

Abstract

The green crab (Carcinus maenas) is a globally invasive species, inhabiting marine environments around the world, and known for its tolerance to environmental perturbations. While the green crab is a common model species in ecotoxicology, it is critical to understand their relative sensitivities to toxicants and how this may vary among distinct populations. Here, we use a multi-stressor approach to evaluate the influence of acute copper exposure on the upper thermal tolerance of green crabs native to the Swedish North Sea and invasive to the Canadian Pacific and Atlantic Coastlines. Throughout thermal ramping, green crabs exhibited an increase in ṀO₂ from the 16 ºC acclimation temperature to a peak ṀO₂ at 33.5 – 34.5 ºC, followed by an abrupt decline and a subsequent collapse at their upper thermal limits. Corresponding thermal limits in green crabs decreased following both low (200 µg L^-1) and high (600 µg L^-1) copper exposure, exhibiting consistent reductions in upper thermal limits ~ 2 °C sooner, with oxygen consumption reaching a peak at 31.5 – 33 °C, and respiratory failure occurring between 36.5 – 36.8 °C in tested locations. This data therefore suggests few notable differences between capture locations, and while acute copper exposure is unlikely to influence green crab cardiorespiratory function in temperatures ranging from 16 to 28 °C, during extreme weather events or within shallow sun-exposed environments, prolonged exposure to temperatures exceeding 30 °C in combination with high Cu contamination would increase green crab susceptibility to thermal stress.

Dataset DOI: 10.5061/dryad.m37pvmdh7

Description of the data and file structure

Data from: Acute copper exposure alters respiratory physiology and upper thermal limits in green crab (Carcinus maenas) at three global capture sites

This dataset Acute_Copper_Exposure...Data.xlsx contains temperatures, metabolic rates, and heart rates for acute warming exposure under variable copper contamination in C. maenas captured from the Canadian Pacific, Canadian Atlantic, and Swedish Coastlines.

Files and variables

File: Acute_Copper_Exposure...Data

Data pages are separated by Copper exposure treatment and population capture location.

Pacific 0: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas invasive to the Canadian Pacific, exposed to 0 ug L^-1 copper and acute warming.
Pacific 200: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas invasive to the Canadian Pacific, exposed to 200 ug L^-1 copper and acute warming.
Pacific 600: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas invasive to the Canadian Pacific, exposed to 600 ug L^-1 copper and acute warming.
Atlantic 0: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas invasive to the Canadian Atlantic, exposed to 0 ug L^-1 copper and acute warming.
Atlantic 200: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas invasive to the Canadian Atlantic, exposed to 200 ug L^-1 copper and acute warming.
Atlantic 600: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas invasive to the Canadian Atlantic, exposed to 600 ug L^-1 copper and acute warming.
Swedish 0: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas endemic to Sweden, exposed to 0 ug L^-1 copper and acute warming.
Swedish 200: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas endemic to Sweden, exposed to 200 ug L^-1 copper and acute warming.
Swedish 600: Displays data collected for metabolic rate (MO₂), thermal tolerance limits, and organ accumulation in C. maenas endemic to Sweden, exposed to 600 ug L^-1 copper and acute warming.
Columns Include:
MO₂ - R#: Represents the metabolic rate of C. maenas in mg of oxygen consumed, per kilogram, per hour (mg O₂ kg^-1 h^-1 ), and the replicate number (R#)
MO₂-Peak R# Represents the temperature in degrees Celsius at peak metabolic rate of C. maenas, and the replicate number (R#)
MO₂-Fail R# Represents the temperature in degrees Celsius at metabolic rate failure of C. maenas and the replicate number (R#)
HR - Fail R#: Represents the temperature in degrees Celsius, heart rate failure of C. maenas, and the replicate number (R#)
H-Cu R#: Represents the accumulation of copper in microgram per gram of wet weight (ug g^-1) of C. maenas heart tissue and the replicate number (R#)
G5-Cu R#: Represents the accumulation of copper in microgram per gram of wet weight (ug g^-1) of C. maenas gill 5 tissue and the replicate number (R#)
G8-Cu R#: Represents the accumulation of copper in microgram per gram of wet weight (ug g^-1) of C. maenas gill 8 tissue and the replicate number (R#)
"-" Notates that data is not available
The average represents the mean value of all replicates in the row
SD represents the standard deviation of the mean for replicates in the row
SEM represents the standard error of the mean for replicates in the row

Code/software

Microsoft Excel is required to view this data; no additional packages are required.