Javascript must be enabled to continue!
Effects of temperature on metabolic scaling in black carp
View through CrossRef
The surface area (SA) of organs and cells may vary with temperature, which changes the SA exchange limitation on metabolic flows as well as the influence of temperature on metabolic scaling. The effect of SA change can intensify (when the effect is the same as that of temperature) or compensate for (when the effect is the opposite of that of temperature) the negative effects of temperature on metabolic scaling, which can result in multiple patterns of metabolic scaling with temperature among species. The present study aimed to examine whether metabolic scaling in black carp changes with temperature and to identify the link between metabolic scaling and SA at the organ and cellular levels at different temperatures. The resting metabolic rate (RMR), gill surface area (GSA) and red blood cell (RBC) size of black carp with different body masses were measured at 10 °C and 25 °C, and the scaling exponents of these parameters were compared. The results showed that both body mass and temperature independently affected the RMR, GSA and RBC size of black carp. A consistent scaling exponent of RMR (0.764, 95% CI [0.718–0.809]) was obtained for both temperatures. The RMR at 25 °C was 2.7 times higher than that at 10 °C. At both temperatures, the GSA scaled consistently with body mass by an exponent of 0.802 (95% CI [0.759–0.846]), while RBC size scaled consistently with body mass by an exponent of 0.042 (95% CI [0.010–0.075]). The constant GSA scaling can explain the constant metabolic scaling as temperature increases, as metabolism may be constrained by fluxes across surfaces. The GSA at 10 °C was 1.2 times higher than that at 25 °C, which suggests that the constraints of GSA on the metabolism of black carp is induced by the higher temperature. The RBC size at 10 °C was 1.1 times higher than that at 25 °C. The smaller RBC size (a larger surface-to-volume ratio) at higher temperature suggests an enhanced oxygen supply and a reduced surface boundary limit on
b
R
, which offset the negative effect of temperature on
b
R
.
Title: Effects of temperature on metabolic scaling in black carp
Description:
The surface area (SA) of organs and cells may vary with temperature, which changes the SA exchange limitation on metabolic flows as well as the influence of temperature on metabolic scaling.
The effect of SA change can intensify (when the effect is the same as that of temperature) or compensate for (when the effect is the opposite of that of temperature) the negative effects of temperature on metabolic scaling, which can result in multiple patterns of metabolic scaling with temperature among species.
The present study aimed to examine whether metabolic scaling in black carp changes with temperature and to identify the link between metabolic scaling and SA at the organ and cellular levels at different temperatures.
The resting metabolic rate (RMR), gill surface area (GSA) and red blood cell (RBC) size of black carp with different body masses were measured at 10 °C and 25 °C, and the scaling exponents of these parameters were compared.
The results showed that both body mass and temperature independently affected the RMR, GSA and RBC size of black carp.
A consistent scaling exponent of RMR (0.
764, 95% CI [0.
718–0.
809]) was obtained for both temperatures.
The RMR at 25 °C was 2.
7 times higher than that at 10 °C.
At both temperatures, the GSA scaled consistently with body mass by an exponent of 0.
802 (95% CI [0.
759–0.
846]), while RBC size scaled consistently with body mass by an exponent of 0.
042 (95% CI [0.
010–0.
075]).
The constant GSA scaling can explain the constant metabolic scaling as temperature increases, as metabolism may be constrained by fluxes across surfaces.
The GSA at 10 °C was 1.
2 times higher than that at 25 °C, which suggests that the constraints of GSA on the metabolism of black carp is induced by the higher temperature.
The RBC size at 10 °C was 1.
1 times higher than that at 25 °C.
The smaller RBC size (a larger surface-to-volume ratio) at higher temperature suggests an enhanced oxygen supply and a reduced surface boundary limit on
b
R
, which offset the negative effect of temperature on
b
R
.
Related Results
Invasive Asian Carps in North America
Invasive Asian Carps in North America
<em>Abstract</em>.—The Asian black carp <em>Mylopharyngodon piceus </em>is of interest to the aquaculture industry in the United States as a biological cont...
Effect of experimental intensification measures on physiological and biochemical parameters of pond fish
Effect of experimental intensification measures on physiological and biochemical parameters of pond fish
Purpose. A study of physiological and biochemical parameters of age-1+ common carp and age-2+ Chinese carps to obtain a general assessment of the physiological state of their body ...
On Flores Island, do "ape-men" still exist? https://www.sapiens.org/biology/flores-island-ape-men/
On Flores Island, do "ape-men" still exist? https://www.sapiens.org/biology/flores-island-ape-men/
<span style="font-size:11pt"><span style="background:#f9f9f4"><span style="line-height:normal"><span style="font-family:Calibri,sans-serif"><b><spa...
Invasive Asian Carps in North America
Invasive Asian Carps in North America
<em>Abstract</em>.—Efforts are underway in the United States to promote the commercial harvest of silver carp <em>Hypophthalmichthys molitrix </em>and bighe...
State of the reproductive potential of the domestic breeding stock of herbivorous fish
State of the reproductive potential of the domestic breeding stock of herbivorous fish
The industry program provides for increasing the share of highly productive carp, including herbivores (whit carp, silver carp, grass carp and black carp), in the total production ...
Biosensor-Based Comparison of Stress Responses in Qingtian Paddy Field Carp (Cyprinus carpio var. qingtianensis) and Xingguo Red Carp (Cyprinus carpio var. singuonensis) Under Acute Shallow Water Conditions
Biosensor-Based Comparison of Stress Responses in Qingtian Paddy Field Carp (Cyprinus carpio var. qingtianensis) and Xingguo Red Carp (Cyprinus carpio var. singuonensis) Under Acute Shallow Water Conditions
The domestication of common carp in rice paddies (5–20 cm depth) is challenging, as the fish must withstand drastic fluctuations in temperature and dissolved oxygen, restricted mov...
Anti-carbamylated protein antibodies in premenopausal rheumatoid arthritis women: relation to disease activity and bone loss
Anti-carbamylated protein antibodies in premenopausal rheumatoid arthritis women: relation to disease activity and bone loss
Abstract
Objectives
Anti-carbamylated protein antibodies (anti-CarP Abs) are present in patients with RA, however, their associa...
Physicochemical Process, Crustacean, andMicrocystisBiomass Changes In Situ Enclosure after Introduction of Silver Carp at Meiliang Bay, Lake Taihu
Physicochemical Process, Crustacean, andMicrocystisBiomass Changes In Situ Enclosure after Introduction of Silver Carp at Meiliang Bay, Lake Taihu
In order to control cyanobacteria blooms with silver carp in Lake Taihu, an in situ experiment was carried out by stocking silver carp at a biomass of 35, 70, and 150 g m-3and no c...

