max_MO2: Maximum MO2 supported by flow rate
In respirometry: Tools for Conducting and Analyzing Respirometry Experiments
max_MO2 R Documentation
Maximum MO2 supported by flow rate
Description
Calculates the maximum oxygen consumption rate (MO2) supported by a respirometer with a given flow rate. Useful for ensuring an acclimating animal maintains a normoxic environment.
Usage
max_MO2(
flow_rate,
min_pO2 = 90,
pO2_in = 100,
temp = 25,
sal = 35,
atm_pres = 1013.25
)
Arguments
flow_rate
water flow rate into respirometer (liters / min).
min_pO2
minimum pO2 acceptable in respirometer (% air saturation). Default is 90% air saturation.
pO2_in
pO2 of water entering respirometer (% air saturation). Default is 100% air saturation.
temp
temperature (°C). Default is 25 °C.
sal
salinity (psu). Default is 35 psu.
atm_pres
atmospheric pressure (mbar). Default is 1013.25 mbar.
Value
The maximum whole-animal oxygen consumption rate (umol / hr) that can be sustained.
Note
Keep in mind that most organisms are very stressed upon being placed in a respirometer and their MO2 may be much higher than basal MO2.
Author(s)
Matthew A. Birk, matthewabirk@gmail.com
References
Steffensen JF. 1989. Some errors in respirometry of aquatic breathers: How to avoid and correct for them. Fish Physiol Biochem. 6:49–59. Equation 8.
See Also
min_flow, flush_water
Examples
max_MO2(flow_rate = 1)
# What is the maximum MO2 organism I can place in my respirometer and still maintain at
# least 75% air saturation when the intake fresh water is 1.5 LPM, 10 °C and 90% air saturated?
(max_mo2 <- max_MO2(flow_rate = 1.5, min_pO2 = 75, pO2_in = 90, temp = 10, sal = 0))
# If a 300 g individual has an MO2 of 2000 umol/hr, how big of an animal can I use?
scale_MO2(mass_1 = 300, MO2_1 = 2000, MO2_2 = max_mo2) # I can almost support a 1 kg individual!
respirometry documentation built on July 9, 2023, 5:30 p.m.
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| max_MO2 | R Documentation |
Maximum MO2 supported by flow rate
Description
Calculates the maximum oxygen consumption rate (MO2) supported by a respirometer with a given flow rate. Useful for ensuring an acclimating animal maintains a normoxic environment.
Usage
max_MO2(
flow_rate,
min_pO2 = 90,
pO2_in = 100,
temp = 25,
sal = 35,
atm_pres = 1013.25
)
Arguments
flow_rate |
water flow rate into respirometer (liters / min). |
min_pO2 |
minimum pO2 acceptable in respirometer (% air saturation). Default is 90% air saturation. |
pO2_in |
pO2 of water entering respirometer (% air saturation). Default is 100% air saturation. |
temp |
temperature (°C). Default is 25 °C. |
sal |
salinity (psu). Default is 35 psu. |
atm_pres |
atmospheric pressure (mbar). Default is 1013.25 mbar. |
Value
The maximum whole-animal oxygen consumption rate (umol / hr) that can be sustained.
Note
Keep in mind that most organisms are very stressed upon being placed in a respirometer and their MO2 may be much higher than basal MO2.
Author(s)
Matthew A. Birk, matthewabirk@gmail.com
References
Steffensen JF. 1989. Some errors in respirometry of aquatic breathers: How to avoid and correct for them. Fish Physiol Biochem. 6:49–59. Equation 8.
See Also
min_flow, flush_water
Examples
max_MO2(flow_rate = 1)
# What is the maximum MO2 organism I can place in my respirometer and still maintain at
# least 75% air saturation when the intake fresh water is 1.5 LPM, 10 °C and 90% air saturated?
(max_mo2 <- max_MO2(flow_rate = 1.5, min_pO2 = 75, pO2_in = 90, temp = 10, sal = 0))
# If a 300 g individual has an MO2 of 2000 umol/hr, how big of an animal can I use?
scale_MO2(mass_1 = 300, MO2_1 = 2000, MO2_2 = max_mo2) # I can almost support a 1 kg individual!
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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