https://journal.bdfish.org/index.php/fisheries/issue/feed Journal of Fisheries 2026-07-01T20:57:54+00:00 Journal of Fisheries editor.jfish@gmail.com Open Journal Systems <p>The <em>Journal of Fisheries</em> is a double blind peer reviewed open access journal published by BdFISH that provides rapid publication of articles in all areas of fisheries science. The journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. All issues (full) of the <a title="Journal of Fisheries" href="http://journal.bdfish.org/" target="_blank" rel="noopener">Journal of Fisheries</a> are also available on <a title="Journal of Fisheries also availabel on BdFISH Document" href="http://document.bdfish.org/category/journal/journal-of-fisheries/" target="_blank" rel="noopener">BdFISH Document</a>.</p> <p><strong>Journal of Fisheries at a glance</strong></p> <ul> <li class="show">ISSN: 2311-3111 (Online) and 2311-729X (Print)</li> <li class="show">Year of launching: December, 2013</li> <li class="show">Co-Editor-in-Chief: Professor Martyn C. Lucas (University of Durham, UK) and Professor M. Nazrul Islam (University of Rajshahi, Bangladesh)</li> <li class="show">Journal policy: Open Access, Peer Reviewed, Online First!</li> <li class="show">Journal issues: 3 issues in a year (April, August, and December), accepted article is published online as Online First! and will be included in the contents of the upcoming issue</li> <li class="show">DOI prefix: 10.17017</li> <li class="show">Journal owner: BdFISH</li> <li class="show">Web: <a title="Journal of Fisheries" href="http://journal.bdfish.org/" target="_blank" rel="noopener">journal.bdfish.org</a></li> </ul> <p>&nbsp;</p> https://journal.bdfish.org/index.php/fisheries/article/view/964 The impact of 4-nonylphenol on the expression of the vitellogenin gene and the alterations in steroid hormones in male Sobaity seabream (Sparidentex hasta) 2026-07-01T20:57:54+00:00 Alireza Golchin Manshadi m23608149@gmail.com Zahra Negintaji m23608149@gmail.com Amirhossein Rezazadeh Shirazi amirrezazadehshirazi1347@gmail.com <p>The study aimed to investigate the effects of 4-nonylphenol exposure on the expression of the vitellogenin gene (Vg) and sexual steroid hormones in male Sobaity seabream (<em>Sparidentex hasta</em>). A total of 78 fish individuals were randomly assigned to six tanks, receiving doses of 10, 50, and 100 µg g<sup>–1</sup> of 4-nonylphenol, as well as 2 µg g<sup>–1</sup> of 17β-estradiol (E2) via intraperitoneal injection. The negative control group received a solvent mixture (ethanol and olive oil) with no injections. Fish sampling for blood and liver analysis occurred on days 0, 7, and 14. After RNA extraction from liver tissue and cDNA synthesis, variations in Vg expression were analyzed in relation to the beta-actin gene. The results showed a significant increase in Vg expression in the treatment groups compared to control groups. Sequencing confirmed the presence of the Vg gene, with a fragment size of 174 nucleotides. Additionally, plasma levels of sexual steroid hormones were measured using radiomonoactivity, which revealed a decrease in testosterone levels associated with varying concentrations of 4-nonylphenol. In contrast, E2 levels in fish exposed to 4-nonylphenol increased after 7 and 14 days. The findings suggest that exposure to 4-nonylphenol activates Vg production, potentially adversely affecting puberty, sexual development, sexual behaviors, and reproductive success in Sobaity seabream.</p> 2026-07-01T20:52:46+00:00 Copyright (c) 2026 The Author(s) https://journal.bdfish.org/index.php/fisheries/article/view/1328 Comparative assessment of microplastics in Pulicat Lagoon and adjacent coastal waters: an integrated multi-metric ecological risk evaluation 2026-07-01T18:08:15+00:00 Saleem Ashik ashik28nov@gmail.com Satyapriyan Aruna aruna@tnfu.ac.in Pandurangan Padmavathy padmavathy@tnfu.ac.in Selvaraj S selvaraj@tnfu.ac.in Chandran Sudhan sudhan@tnfu.ac.in Kalaiselvan Keerthika keerthistallions@gmail.com Gunasekaran Gobi gopigobi865@gmail.com <p>Microplastics (MP) have emerged as one of the most persistent contaminants in aquatic habitats, infiltrating even the most ecologically sensitive systems, such as lagoons and coastal waters, where ongoing anthropogenic inputs exacerbate their accumulation and biological impact. Pulicat Lake, India's second-largest brackish water lagoon, is especially vulnerable to MP loading from tidal exchange, household waste, and fishing activities. This study examined the physicochemical properties, seasonal abundance, and ecological danger of MP at three typical stations: Goonankuppam (Station I), Thonirevu (Station II), and Pulicat Beach (Station III) from 2024 to 2025. MP abundance ranged from 50 to 135 particles L<sup>–1</sup>, peaking in Thonirevu during post-monsoon. This pattern was driven by accelerated monsoon runoff and water resuspension in the aftermath of cyclone Fengal (25 November 2024). Fibres (50.9% at Station I, 40.6% at Station II, and 51.1% at Station III) were the dominating morphotype, followed by fragments (22.60% at Station I, 27.40% at Station II, and 24.20% at Station III). The size fraction of 100–500 µm (56% at Station I, 49% at Station II, and 47% at Station III) was consistent across all locations, indicating advanced secondary fragmentation. Blue particles (40% at Station I, 30% at Station II, and 45% at Station III) predominated, highlighting the important role of fishing gear and maritime activities. This establishes a strong baseline for targeted mitigation in this ecologically sensitive lagoon-coastal interface.</p> 2026-07-01T00:00:00+00:00 Copyright (c) 2026 The Author(s) https://journal.bdfish.org/index.php/fisheries/article/view/1311 Setting exploitation reference points for the reba carp Cirrhinus reba in a snow-fed river: study from the Saryu River ecosystem in northern India 2026-07-01T08:20:34+00:00 Lavkush lavkushmaurya0017@gmail.com Radhakrishnan K. V. radhakrishnan.frm.cof@nduat.org C. P. Singh cpsingh.frm.cof@nduat.org Sunil Kant Verma sunilfisheriesdeptt@gmail.com Puneet K. Patel puneetpatel28@gmail.com Pullagura Siva Nagendra Pullagura sivanagendra.dr@gmail.com Moira G. Momin moirawaisamomin@gmail.com Abhisek Gharai abhisekgharai2001@gmail.com <p>This study examined length-weight relationships (LWRs), physiological condition, growth characteristics, recruitment pattern, probability of capture, mortality rates and exploitation status of <em>Cirrhinus reba</em> from the Saryu River of northern India, collected fortnightly from August 2024 to July 2025. Total length varied from 11.0 to 27.0 cm (17.974±0.142 cm), while body weight varied between 13.0 and 264.1 g (73.080±6.928 g). The LWR showed a strong correlation (<em>r²</em> ≥ 0.915). The Fulton’s condition factor (<em>K<sub>f</sub></em>) and relative condition factor (<em>K<sub>n</sub></em>) ranged from 1.133±0.134 to 1.366±0.237 and 0.832±0.143 to 2.025±0.23 respectively, which indicated that the fish were healthy. Growth parameters estimated through von Bertalanffy model were <em>L<sub>∞</sub></em> = 27.0 cm, <em>K</em> = 0.65 year⁻¹ and <em>Φ</em>′ = 2.67. Recruitment occurred throughout the year with a major peak during the monsoon season. Total mortality, natural mortality and fishing mortality were estimated as 1.60, 0.73 and 0.87 year⁻¹, respectively. The probability of capture analysis indicated that the length at first capture <em>L<sub>50</sub></em> of <em>C. reba</em> was 15.5 cm. The exploitation rate (<em>E</em>) 0.55 was higher than <em>E<sub>opt</sub></em> (0.50) indicating emerging overexploitation. Yield-per-recruit analysis indicated exploitation reference points of <em>E<sub>max</sub></em> as 0.62 and <em>E<sub>0.1</sub></em> as 0.48. Virtual Population Analysis revealed increasing fishing mortality with fish size, with the highest fishing mortality (<em>F</em> = 0.91 year⁻¹) recorded in larger individuals, indicating size-selective exploitation and potential pressure on stock sustainability. This study provides information on population and exploitation characteristics of <em>C. reba</em> in the Saryu River, which can be used to set reference points for sustainable fisheries management.</p> 2026-06-22T19:56:57+00:00 Copyright (c) 2026 The Author(s) https://journal.bdfish.org/index.php/fisheries/article/view/1066 Alterations in Nile tilapia Oreochromis niloticus erythrometry as sensitive indicators of dietary fluoroquinolone antibiotic enrofloxacin toxicity 2026-07-01T08:20:45+00:00 Ratnapriya Das ratnapriyadas2015@gmail.com Thangapalam Jawahar Abraham abrahamtj1@gmail.com Arya Sen arya.sen2@gmail.com Prasanna Kumar Patil pkpatilvet@gmail.com <p>The use of antibiotics in aquaculture poses significant health risks to fish and consumers. Adopting and validating a standard, non-lethal, and cost-effective method to monitor fish health is essential. This study investigated the impact of fluoroquinolone antibiotic enrofloxacin (ENF) on the erythrocyte cellular and nuclear morphometric anomalies in <em>Oreochromis niloticus</em>. Fish were fed graded doses of ENF at 0 mg, 10 mg, 30 mg, 50 mg and 100 mg kg biomass<sup>–1</sup> day<sup>–1</sup> for 15 consecutive days, followed by a 21-day post-dosing observation. The results revealed significant alterations in erythrocyte morphometric characteristics, such as major and minor axes, volume, surface area, cell to nucleus ratio, and surface area to volume ratio due to dietary ENF, indicating its cytotoxicity and perilous effects on fish erythrocytes. The nucleus was shrinking more significantly than the cell under treatment-induced stress. On day 15 of dosing, the surface area to volume ratio increased in the dosing groups, except for the 10× group, which represented an adaptive response in the fish to facilitate greater area for gas exchange to occur. However, the observed dose- and time-dependent erythro-morphometry was reversible once dosing was suspended. The results showed that fish erythrometric abnormalities, a relatively unexplored area of clinical science, can serve as important biomarkers or sensitive indicators of toxicity of veterinary medicinal products in assessing the physiological health status of cultured aquatic organisms.</p> 2026-06-18T20:23:37+00:00 Copyright (c) 2026 The Author(s) https://journal.bdfish.org/index.php/fisheries/article/view/1284 Effects of photoperiod on growth and ovarian maturation in female green mud crab, Scylla serrata (Forsskål, 1775) 2026-07-01T08:20:56+00:00 Manimaran H maran1086@gmail.com Chidambaram P chidambaram@tnfu.ac.in Cheryl Antony cheryl@tnfu.ac.in Uma A uma@tnfu.ac.in Selvaraj S selvaraj@tnfu.ac.in Dinesh R dinesh@tnfu.ac.in Velmurugan R rvelmurugan@tnfu.ac.in Yuvarajan P yuvarajan@tnfu.ac.in Joshna M joshnareddy275@gmail.com <p>Photoperiod is one of the most significant environmental cues for an organism, which are also essential for controlling its growth, metabolism, and maturity. The current study used an 8-week experiment to examine the effects of photoperiod T1 (12L∶12D), T2 (18L∶6D), and T3 (6L∶18D) on mud crab (<em>Scylla serrata</em>) growth performance and gonadal maturation. A total of 36 healthy crabs (average initial weight 416.18±2.42 g) were fed twice daily at 10% of body weight. Crabs cultured under 6L∶18D (T3) showed the highest final weight (486.54±4.44 g), weight gain (70.45±3.92 g), specific growth rate (0.26±0.01 % day<sup>–</sup>¹), gonadosomatic index (12.06±0.20%), and hepatosomatic index (5.64±0.35%), significantly higher than T1 and T2. Digestive enzyme activities (amylase, protease, lipase) were highest in the 6L∶18D group, indicating efficient nutrient utilization. Ovarian carotenoid levels were significantly (<em>p</em> &lt; 0.05) higher in 6L∶18D (0.4399±0.0640 µg mg<sup>–1</sup>). Histology revealed advanced vitellogenesis and a healthy hepatopancreas in the 6L∶18D group, while the 18L∶6D showed delayed maturation. Overall, the results indicate that among the treatment groups, the 6L∶18D improved the growth, digestion, and reproductive performance of female <em>S. serrata</em>. This could be used in broodstock maturation, which has a detrimental effect on wild stock, and could offer valuable insights into sustainable broodstock management.</p> 2026-06-06T15:17:08+00:00 Copyright (c) 2026 The Author(s)