Posted: September 19th, 2023

Effect of Temperature on Energy Budgets of Cyprinus Carpio

 

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[VJG1]

I. OXYGEN CONSUMPTION

Introduction

On a global scale, variation in temperature separates geographical extent and occurrences of organisms into different latitudinal gradients and habitat choice. This separation was attributed to the physiological tolerance and adaptation of each organisms to variation in climates with latitudes (Addo-Bediako et al, 2000; Angilletta et al, 2002). Temperature variation further impact the behavior of fish in such a case that variation in temperature signals changes in the life cycles especially reproduction as well as metabolic activity i.e. preparation for aestivation or during drought periods (Dolomatov et al, 2013). These responses are important factor in the successful survival and continuity of fish species.

Moreover, the variation in temperature as well as body size of fish play a significant impact on the growth and bioenergetics of fish (Jobling, 1994 as cited in Sun et al 2014). Fish growth was strongly correlated to changes in environmental temperature and is mainly due to variation on food preferences and consumption of fish (Sun et al, 2014). Thus, fish tends to choose low temperature to satisfy energy requirements when availability of food is low. This shows that the metabolic demand influences plasticity of fish species to variation in temperature, which in effect shows the variation in food availability, to satisfy energy requirements and growth (Killen, 2014).

Additionally, studies show that the oxygen consumption of fish was highly dependent on the variation of environmental temperature. Further, the rates of consumption of oxygen was often used as measure for metabolic activity of the fish (various authors as cited in Lefevre et al, 2014 and Turker, 2011). This further indicates the state of physiological environmental structure at specific temperature controls metabolic activity of fish. Therefore, at higher temperature there is an elevated response on the metabolic rates which affects energy budgets of fish as well as growth (Turker, 2011).

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In this study, we will measure the oxygen consumption of the Common carp. Common carp or Cyprinus carpio have significant ecological and economic impact with worldwide distribution (Fishbase, 2015) which best qualify as subject species for this study. This species can tolerate varying levels of oxygen concentration and were sensitive to changes of oxygen levels in the water (Soncini et al, 2000; Moyson et al, 2015). Thus, this study aimed to measure the effect of temperature on the aerobic metabolism of the common carp, Cyprinus carpio. The oxygen consumption of common carp will be measured and responses to the rate of oxygen consumption with changes in temperature gradients will be observed. The rate of response will then be correlated to the aerobic metabolism of common carp and further to energy budgets.

Materials and Methods

a. Preparation of Samples and Reagents

Oxygen consumption of the fish Common Carp, Cyprinus carpio, was measured using confinement method at specific temperatures. First, the weight of the fish was measured and then fish are placed into different containers with defined temperature measurements, high (28°C) and low (18°C) temperatures as well as a control (28°C) without the fish to account for microbial respiration. Each container holds a single fish and left for 30 minutes for high temperature and 45 minutes for low temperature. Container are carefully sealed to prevent interaction with the atmosphere and presence of bubbles was removed.

The oxygen concentration of the water is measured using the Winkler titration method. The following are the reagents added to each 50mL Winkler bottle during the experiment with the adjusted concentration: 1 mL MnCl (400g MnCl₂ 5H₂O in 1L), 1 mL Alkaline KI (400g NaOH + 400g KI in 1L), 1 mL concentrated H₂S₂O₄, Na₂S₂O₃ stock of 0.2M (49.5g Na₂S₂O₃ 5H₂O in 1L and diluted 100x for the titration) and starch (10g in 1L).

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b. Titration for Oxygen Consumption

Water was collected for each bottles with temperature gradients before and after placing the fish into the bottles. Two replicates has been made for each temperature gradients and the control.

Titration for oxygen concentration was made by pipetting 100mL of the water from each of the bottles with different temperatures and pipetted into the Winkler bottle. Then, MnCl and alkaline KI was added one after another. The bottle was tightly closed and shaken vigorously for 15 to 20 minutes. H₂S₂O₄ was added into the solution after precipitate forms in the bottom of the bottle. The solution was then shaken again until precipitates disappear. Then, 50mL of the solution was transferred into a beaker and Na₂S₂O₃ was added until it is completely transparent and yellow coloration disappears. Drops of starch was then added and titrated until the color disappears. Then, Na₂S₂O₃ was titrated into the solution until the blue coloration by starch almost disappear. The amount of titrated Na₂S₂O₃ was then measured and noted down.

c. Calculations

The oxygen concentration ( in the water was calculated using the formula:

where: was the volume of the titrated Na₂S₂O₃ in L; was the concentration of Na₂S₂O₃ in µM and denotes the volume of the titrated sample in L.

To calculate the oxygen consumption of the fish (, the following equation was used:

where: was the oxygen concentration in control expressed in µM; was the oxygen concentration in the chamber containing fish in µM; was the volume of the chamber containing the fish in L; was the volume of the fish in L; was the weight of the fish in g; and was the amount of time the fish spent in the chambers.

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The calculation for the rate of consumption of the oxygen ( by the fish was made using the following equation:

where: was the oxygen consumption rate at temperature 1; was the rate of oxygen consumption at temperature 2; was the lower temperature in oxygen consumption determination; and was the higher temperature in the determination of the oxygen consumption.

Results

Table 1 shows the comparison of the oxygen consumption of Cyprinus carpio in different temperatures. It appears that the oxygen consumption of fish () was twice as high in high temperature (12.75µM/g/h) compared to O₂ consumption in low temperature (7.69µM/g/h). Moreover, the oxygen concentration is low in high temperature (78µM) than in low temperature (417µM). Looking at the sensitivity of the fish species to changes in water temperature, it shows that the oxygen consumption of the fish nearly doubles when the temperature was increased by 10°C.

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Table 1. Oxygen consumption of Cyprinus carpio and values
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High Temp. [28°C] Is My Paper Original? 100%—we promise! Every paper’s written fresh from scratch—no AI, no copying—just solid research and proper citations from our expert writers. You can even request a plagiarism report to see it’s 95%+ unique, giving you total confidence it’s submission-ready and one-of-a-kind.	078.0	12.75	1.66
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II. PROTEIN MEASUREMENT

Introduction

Proteins are macromolecules which are consists of long-chains of amino acids. They are important part of functional activities of living organisms such as DNA replication, molecule transport and metabolic reaction (Wikipedia, 2015). In fish, proteins are primarily used by the species for growth as well as for energy and life support during starvation, aestivation or migration events. Protein requirements of different fish species varies depending on feeding preferences, such that carnivorous fishes requires more proteins than herbivorous and omnivorous fishes (Craig et al, 2009) such as the common carp, Cyprinus carpio.

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As feeds, proteins are responsible part of fish diet which affects growth. Research shows that if fish was fed less than satiation in daily basis, the growth was faster than fed more than satiation (Cho et al, 2001). Additionally, during periods of food availability, fish retains additional energy such as lipids and proteins within the organs i.e. liver which varies with body sizes and species (Lupatsch et al, 2003). Moreover, the protein requirement of fish is generally higher in fish than in any animals. Therefore, efficient utilization of proteins were highly significant for fish than in any animals, especially commercial aquaculture fishes i.e. Cyprinus carpio (Stanković et al, 2011).

Moreover, consumption of endogenous protein as energy source provides maintenance of metabolic activities especially during starvation periods (Rios et al, 2011) i.e. migration, reproduction or aestivation periods. As the fish enter the starvation stage i.e. migration of fish, the lipid reserves were consumed during half of this period and proteins will become a significant source of energy to survive after lipids are consumed (Mommsen 2004; Rios et al, 2011).

In this study, we aimed to measure the amount of energy available in the liver of the common carp, Cyprinus carpio. The liver of the common carp will be homogenized and the weight of proteins will be measured using the optical density of the homogenates.

Materials and Methods

a. Homogenate Preparation

Homogenates are prepared by carefully removing the liver of the fish. Then, deionized water was added to the fish liver and diluted 12x to make the homogenates. Table 2 shows the weight of the liver and the fish for each homogenates.

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Table 2. Weights of the liver and fish used in the preparation of the homogenates.
Liver Sample (Homogenate)	Weight of liver (g)	Weight of Fish (g) How Fast for Rush Jobs? We can crank out a killer paper in 24 hours—quality locked in, no shortcuts. Just set your deadline when you order, and our pros will hustle to deliver, even if you’re racing the clock. Perfect for those last-minute crunches without compromising on the good stuff.
1	0.26	21.07
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3	0.33	20.97
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b. Measurement of the Standard Curve and the Proteins of the Fish

The standard curve solution was prepared using Bovine Serum Albumin (BSA) as reference with NaOH as reagent (250µg/ml BSA in 0.01 N NaOH). Table 3 shows the adjusted volumes of BSA and NaOH used in each of the prepared solution. Two replicates have been made for each of the standard curve solution.

Table 3. Adjusted volumes of BSA and NaOH used in the preparation of the standard curve
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000	000	100 Do You Do Quick Revisions? Yep—need changes fast? We’ll jump on your paper and polish it up in hours, fixing whatever needs tweaking so it’s ready to submit with zero stress. Just let us know what’s off, and we’ll make it right, pronto.
050	020	080
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150	060	040
200	080	020
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Proteins in the liver of fish was measured by preparing 100 µL of crude homogenate into a test tube. Then, 2mL of NaOH was added into the homogenate with the concentration of 0.01 N. Samples were then put into an incubation chamber 60°C for 30 minutes.

After preparation of the standard curve solution and the homogenates, 20µL of each concentration of the standard curve, pure homogenates and a 10x solution of the homogenates with NaOH (0.01 NaOH concentration) was placed into a microtiterplate. Then, 200µL of the Bradford reagent was added to each of the solution in the microtiterplate. The solution was then placed in the spectrophotometry machine and optical density or the absorbance of the solution was read at 600nm after 5 minutes of incubation time.

The absorbance ratio of the standard curve solutions was then analyzed using regression analysis. Protein concentration was then computed by using the derived regression formula of the standard curve and the optical density of the pure homogenates and the 10x dilution of the homogenates.

c. Calculations

The concentration of proteins content of the fish was calculated using the following derived regression formula:

where: was the slope of the regression; intercept of the regression and denotes absorbance ratio of the individual solutions.

Results

a. Standard Curve Regression Analysis

The absorbance ratio using BSA as reference was shown in Figure 1 and was analysed using regression analysis. The fitness of the regression model was accounted at 99% of the variation of the standard curve.

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Figure 1. The absorbance ratio of the standard curve using BSA as reference.

b. Protein Concentration of the Fish Liver

Using the derived equation (Eq. 6) of the regression model in Figure 1, the concentration of the protein content of fish liver was calculated both for the pure homogenates and for the samples which are diluted 10x with NaOH.

Table 4. The absorbance ratio and protein concentration of pure homogenates and 10x diluted homogenates
Pure Homogenates Do You Follow Global Academic Rules? Yes—we’ve got it down! Our writers switch seamlessly between UK, US, Australian, or any other standards, matching your school’s exact expectations. Your paper will feel native to your system, polished and ready for wherever you’re studying.	10x Diluted Homogenates
Abs.	Conc.	Abs.	Conc. What is a progressive delivery and how does it work? Progressive delivery is a cool option where we send your paper in chunks—perfect for big projects like theses or dissertations. You can even pay for it in installments. It’s just 10% extra on your order price, but the perks are worth it. You’ll stay in closer touch with your writer and can give feedback on each part before they move to the next. That way, you’re in the driver’s seat, making sure everything lines up with what you need. It saves time too—your writer can tweak things based on your notes without having to redo huge sections later.
1.19	376.70	0.50	76.04 I received some comments from my teacher. Can you help me with them? Absolutely! If your teacher’s got feedback, you can request a free revision within 7 days of approving your paper—just hit the revision request button on your personal order page. Want a different writer to take a crack at it? You can ask for that too, though we might need an extra 12 hours to line someone up. After that 7-day window, free revisions wrap up, but you can still go for a paid minor or major revision (details are on your order page). What if I’m not satisfied with my order? If your paper needs some tweaks, you’ve got that free 7-day revision window after approval—just use the “Revision” button on your page. Once those 7 days are up, paid revision options kick in, and the cost depends on how much needs fixing. Chat with our support team to figure out the best way forward. If you feel the writer missed the mark on your instructions and the quality’s off, let us know—we’ll dig in and sort it out. If revisions don’t cut it, you can ask for a refund. Our dispute team will look into it and figure out what we can offer. Check out our money-back guarantee page for the full scoop.
1.27	413.22	0.51	80.39
0.90	251.70	0.35	12.57
1.35	445.83	0.55	98.22
1.32	433.00	0.52	87.13

Concentration of pure homogenates is significantly higher compared to the concentration of diluted homogenates, as expected.

Table 5. Protein content per weight of the liver
S	Wt. of liver (g)	Protein Content (g/g of liver)
Pure Homogenates	10x Diluted Homogenates
1	0.26	0.37	0.07
2	0.39	0.27	0.05
3	0.33	0.19	0.01
4	0.38	0.30	0.07
5	0.34	0.32	0.06[VJG2]

[VJG1] Will be updated soon after discussion has been finished

[VJG2] Formula

Protein content = (*12

Where:

x = homogenates concentration

y = weight of the liver

21 = dilution of NaOH for proteins

1000000 = factor for conversion

12 = dilution of samples in distilled water

I don’t know if this is the correct formula.

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