and Ngonidzashe A.G. Moyo
Pakistan Journal of Biological Sciences
Year: 2022 | Volume: 25 | Issue: 10 | Page No.: 899-904
ABSTRACT
Background and Objective: Studies on fish biology are essential for the sustainable management and conservation of fish biodiversity. This study observed the length-weight relationships and condition factors of common rudd fish, which give us some information about the ecological and nutritional conditions of fish. This information is crucial to fishery management. Materials and Methods: The length-weight relationship (LWR) and condition factors (K) of 270 Scardinius erythrophthalmus caught in Anzali Lagoon from April to August, 2015. Results: The total length and body weight of S. erythrophthalmus ranged from 94-179 mm and 11.98-98.5 g, respectively. A strong positive relationship was observed between length and weight (r = 0.96). There were no significant differences in the condition factors of males and females (p>0.05). The lowest K value was observed in April (K = 1.5±0.04) and the highest in July (K = 2.25±0.34). The sex ratio of 1.0 male: 1.15 female was observed, with no significant difference between males and females (p>0.05). Conclusion: In this study, the regression coefficient (b) in males and females was 3.35 and 3.29, respectively, more than 3.0, which means they have positive allometry growth in both sexes.
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How to cite this article
Mehrnoush Aminisarteshnizi and Ngonidzashe A.G. Moyo, 2022. Condition Factor and Length-Weight Relationship of Scardinius erythrophthalmus (Linnaeus, 1758) in Anzali Lagoon. Pakistan Journal of Biological Sciences, 25: 899-904.
DOI: 10.3923/pjbs.2022.899.904
URL: https://scialert.net/abstract/?doi=pjbs.2022.899.904
DOI: 10.3923/pjbs.2022.899.904
URL: https://scialert.net/abstract/?doi=pjbs.2022.899.904
INTRODUCTION
In recent years, eutrophication has been one of the greatest dangers to water resources in the Anzali Lagoon. Eutrophication reduces water quality, protection value and biodiversity of aquatic ecosystems1. To understand the effect of eutrophication on a marine ecosystem and fight effectively within that, to know threatened fish species’ biological and ecological features is essential2. Scardinius erythrophthalmus is one of the family Cyprinidae species widely distributed in the Palaearctic region. In Iran, its distribution is in the Caspian Sea, Anzali Lagoon and Aras River. Scardinius erythrophthalmus is considered native to the Anzali Lagoon. In the Anzali Lagoon, S. erythrophthalmus is considered in Conservation Dependent IUCN categories medium abundance3. Their main foods are aquatic plants, invertebrates, planktonic organisms, insect larvae and fish eggs4. Also, it has been stated that the species shows an ontogenetic type of feeding and that the species applies strong predation on submerged vegetation, zooplankton and benthic invertebrates5.
Understanding length-weight relationships in aquatic organisms such as fish are crucial to fishery management6. Condition factor for fish has also been widely used as an index of their growth and feeding intensity7. The value of this index decreases with any increase in length and impacts the fish’s reproductive cycle. The condition factor reflects the effects of seasonal and habitat differences in the species’ robustness8. This study aimed to evaluate the condition factor and length-weight relationship (LWR) of S. erythrophthalmus in the Anzali Lagoon.
MATERIALS AND METHODS
Study area: Specimens of S. erythrophthalmus were collected from the Anzali Lagoon. In this study, two localities were used, namely site 1 (GPS coordinates: 37°27'9446.43"N and 49°22'9944.18"E), site 2 (GPS coordinates: 37°28'28.8"N 49°21'03.5"E), which is a preferred habitat for the species. Three traps were randomly selected for the sampling of this fish. All the traps were used simultaneously for the sampling of S. erythrophthalmus in this study. The traps were checked every 24 hrs and the samples were collected at night, 10 nights per month for 5 months (April to August, 2015).
Specimen sampling: All collected samples were immediately placed in iceboxes and transported to the fish biology laboratory for further analyses. Samples were sorted into males and females. Total length was measured for each sample with a biometric board nearest 0.1 mm. The fish weighed with a balance to the nearest 0.1 g.
Growth pattern (length and weight): The recorded length (total length) of the individuals of the assessed fish species was used. In all, a total of 270 specimens of S. erythrophthalmus were examined for the present study.
The length-weight relationship of fishes was estimated using linear regression9. According to the following equation:
W = aLb |
Where:
| W | = | Weight (g) |
| L | = | Total Length (cm) |
| a | = | Intercept (regression constant) |
| b | = | Slope (regression coefficient)9 |
Condition factor: The condition factor (K) shows the physiological wellbeing of the fish. The condition factor (K) was determined for samples taken in each month and sex separately. The condition factor for S. erythrophthalmus was calculated using the following equation10:
 |
Where:
| K | = | Condition factor |
| L | = | Length (cm) |
| W | = | Weight (g) |
Sex ratio: Sex determination was performed by microscopic examination of gonads. The male to female ratio was based on the frequency of fishes caught during the sampling period. The sex ratio of male to female individuals was assessed. The sex ratio was estimated as11:
 |
Where:
| M | = | Number of males |
| F | = | Number of females |
Statistical analysis: The Shapiro-Wilk Test was used to determine the normality of the data. Analysis of Variance (ANOVA), with the Tukey’s post hoc Test, was used to indicate whether the differences obtained were significant. A non-parametric test (Chi-square Test) was employed to assess the significant difference of sexes every month. All statistical analyses were done using SPSS (Version 16), while figures were produced using Excel (Version 2019).
RESULTS
Length-frequency distribution: The mean weight and length of fishes were 37.3±9 g and 136.9±19 mm, respectively. There was a significant difference in total length between samples collected in July (p<0.05). However, there was no significant difference in April, May, June and August in Table 1. Analysis of variance of body weight showed significant differences in July (p<0.05). However, there was no significant difference in April, May, June and August (p>0.05) (Table 1).
Length-frequently between females and males was no significant difference (p>0.05). Most percentages of frequent lengths were 110-120 mm. Females were dominant in the older size classes, males in the younger in Fig. 1.
Sex ratio: The majority of fishes were sexually mature and the total male:female ratio was 1:1.15. There was no significant difference in the male and female ratio (χ2 = 0.69, p>0.05), therefore, sexual frequency in this species’ population is not equal. However, the sex ratio was not significantly different in some months. The highest difference between the number of males and females was in June (1:1.37) and the lowest was in August (1:1.01) (Table 1).
Length-weight relationship: Plots of the length-weight relationship S. erythrophthalmus from the Anzali Lagoon are shown in Fig. 2-4. A robust positive coefficient of determination was observed between length and weight in S. erythrophthalmus r2 = 0.95 for females in Fig. 2, r2 = 0.96 for males in Fig. 3 and r2 = 0.92 for sex combined in Fig. 4. The regression coefficient (b) ranged from female (3.29) and male (3.35). Comparison of allometric growth rates (b-values) of this fish using t-test showed significant differences (p<0.05) indicated positive allometry growth for S. erythrophthalmus from the Anzali Lagoon. The regression correlation and coefficient factors are provided in Table 1.
Condition factor: The condition factor of S. erythrophthalmus for males ranged from 1.58 in April to 2.3 in July and for females 1.6 in April and 2.2 in July in Fig. 5. Condition factor of males and females did not differ significantly (p>0.05).
| Table1: | Biological data of examined specimens of S. erythrophthalmus in the Anzali Lagoon | ||
| Month | M/F ratio | Weight±SE (g) | Length±SE (cm) |
| April | 1:1.25 | 32.3±8a | 131.9±16a |
| May | 1:1.20 | 35.5±8a | 134.3±15a |
| June | 1:1.37 | 37.4±11a | 135.9±19a |
| July | 1:1.23 | 45.8±16b | 145.8±21b |
| August | 1:1.01 | 35.5±12a | 136.6±19a |
| Similar letter(s) in a column are non-significant statistically at p<0.05 | |||
 |
| Fig. 1: | Percentage length-frequency distributions of S. erythrophthalmus for males and females |
 |
| Fig. 2: | Length-weight relationship of S. erythrophthalmus for female |
 |
| Fig. 3: | Length-weight relationship of S. erythrophthalmus for male |
 |
| Fig. 4: | Length-weight relationship of S. erythrophthalmus for both sex |
 |
| Fig. 5: | Condition factor for both male and female in S. erythrophthalmus from Anzali Lagoon |
DISCUSSION
Analysis of the length-weight relationship (LWR) of S. erythrophthalmus samples revealed a highly significant correlation between the total length and weight. During spring and summer, the b-values showed that S. erythrophthalmus follow a positive allometric growth pattern, which agrees with some studies12 on S. erythrophthalmus, who also reported an allometric growth pattern3. The slight variation in the values of b and r is understandable because the length-weight relationship of a species could vary according to local factors such as salinity, temperature and fish health, sex, stage of maturity, length range of the species, food and season13. Abbasi et al.14 reported that the differences in b-values even depend on the time of catching the specimens in terms of fullness or emptying the gut.
Kozhara et al.12 reported the phenetic diversity of the rudd Scardinius erythrophthalmus from the Volga River and the Caspian Sea. They reported new data on the meristic characters of external morphology, axial skeleton, somatosensory system and the pharyngeal tooth formula. They find out two phenetically distinct population systems. Positive allometric growth patterns implied that the fish became relatively stouter and deep-bodied as they increased in length, particularly5. The correlation coefficient observed in this study (r2 = 0.92-0.96) shows a strong association between length and weight, the high value of the coefficient of determination r2 indicated that the model applied for analysis fits the data.
The condition factor was calculated in other to assess the wellbeing of S. erythrophthalmus from the Anzali Lagoon. Condition factor was not significantly different between males and females. Similar results were presented by Okgerman13 who compared condition factors of male and female S. erythrophthalmus from Sapanca Lake. Values obtained for condition factor showed that both sexes of S. erythrophthalmus were in good condition. A particular seasonal trend was observed, the best condition factor for males and females was noticed during summer6. However, the researcher13 reported that the best condition factors for males and females of S. erythrophthalmus were during autumn. Okgerman13 attributed these differences to the feeding regime, time of the year, the higher weight of female gonad, organisms used, feeding behaviour, biological factors and responses to environmental perturbations. Differences in the condition factor could be due to the combination of one or more of the above factors15.
CONCLUSION
Scardinius erythrophthalmus follows an allometric growth pattern in the Anzali Lagoon. On the other hand, the high value of the correlation coefficient “r” indicates a strong correlation between length and weight. In the end, the high value of the coefficient of determination r2 suggested that the model used for the analysis fits the data, confirming the model’s fitness. Knowledge of length-weight relationships and the condition factor of introduced or invaded species are essential for assessing and appropriately managing alien and native species in an aquatic system.
SIGNIFICANCE STATEMENT
This study discovered the length-weight relationship and condition factor in S. erythrophthalmus in the Anzali Lagoon that can be beneficial for fish ecology and management. In addition, this study will help the researchers uncover the critical areas of finding out the feeding strategy of the fishes that many researchers could not explore.
ACKNOWLEDGMENT
The authors thank the University of Limpopo, South Africa.
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