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Stolephorus Commersonnii (Lacepède, 1803) (Clupeiformes) Caught Off the Coast of Tanga, Tanzania

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Stolephorus Commersonnii (Lacepède, 1803) (Clupeiformes) Caught Off the Coast of Tanga, Tanzania Western Indian Ocean JOURNAL OF Marine Science Special Issue 1/ 2020 | Dec 2020 | ISSN: 0856-860X Productivity in the East African Coastal Current under Climate Change Guest Editors | Francis Marsac and Bernadine Everett Western Indian Ocean JOURNAL OF Marine Science Chief Editor José Paula | Faculty of Sciences of University of Lisbon, Portugal Copy Editor Timothy Andrew Editorial Board Lena GIPPERTH Aviti MMOCHI Sweden Tanzania Serge ANDREFOUËT Johan GROENEVELD Cosmas MUNGA France South Africa Kenya Ranjeet BHAGOOLI Issufo HALO Nyawira MUTHIGA Mauritius South Africa/Mozambique Kenya Salomão BANDEIRA Christina HICKS Ronel NEL Mozambique Australia/UK South Africa Betsy Anne BEYMER-FARRIS Johnson KITHEKA Brent NEWMAN USA/Norway Kenya South Africa Jared BOSIRE Kassim KULINDWA Jan ROBINSON Kenya Tanzania Seycheles Atanásio BRITO Thierry LAVITRA Sérgio ROSENDO Mozambique Madagascar Portugal Louis CELLIERS Blandina LUGENDO Melita SAMOILYS South Africa Tanzania Kenya Pascale CHABANET Joseph MAINA Max TROELL France Australia Sweden Published biannually Aims and scope: The Western Indian Ocean Journal of Marine Science provides an avenue for the wide dissem- ination of high quality research generated in the Western Indian Ocean (WIO) region, in particular on the sustainable use of coastal and marine resources. This is central to the goal of supporting and promoting sustainable coastal development in the region, as well as contributing to the global base of marine science. The journal publishes original research articles dealing with all aspects of marine science and coastal manage- ment. Topics include, but are not limited to: theoretical studies, oceanography, marine biology and ecology, fisheries, recovery and restoration processes, legal and institutional frameworks, and interactions/relationships between humans and the coastal and marine environment. In addition, Western Indian Ocean Journal of Marine Science features state-of-the-art review articles and short communications. The journal will, from time to time, consist of special issues on major events or important thematic issues. Submitted articles are subjected to standard peer-review prior to publication. Manuscript submissions should be preferably made via the African Journals Online (AJOL) submission plat- form (http://www.ajol.info/index.php/wiojms/about/submissions). Any queries and further editorial corre- spondence should be sent by e-mail to the Chief Editor, [email protected]. Details concerning the preparation and submission of articles can be found in each issue and at http://www.wiomsa.org/wio-journal-of-marine- science/ and AJOL site. Disclaimer: Statements in the Journal reflect the views of the authors, and not necessarily those of WIOMSA, the editors or publisher. Copyright © 2020 – Western Indian Ocean Marine Science Association (WIOMSA) No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means without permission in writing from the copyright holder. ISSN 0856-860X Cover image: Stonetown, Zanzibar (© Bernadine Everett, 2012) WIO Journal of Marine Science Special Issue 1 / 2020 95-104 Original Article 95 Age, growth and mortality of the anchovy Stolephorus commersonnii (Lacepède, 1803) (Clupeiformes) caught off the coast of Tanga, Tanzania Albogast T. Kamukuru 1*, Shigalla B. Mahongo 2,4, Baraka C. Sekadende 3, Joseph S. Sululu 3 1 Department of Aquatic Sciences 2 Tanzania Fisheries Research 3 Tanzania Fisheries Research and Fisheries Technology, Institute, Institute Headquarters, Institute, Dar es Salaam Center, University of Dar es Salaam, PO Box 9750, Dar es Salaam, PO Box 78850, Dar es Salaam, PO Box 35064, Dar es Salaam, Tanzania Tanzania Tanzania 4 Lake Victoria Fisheries * Corresponding author: Organization, P.O. Box 1625, Jinja, [email protected] Uganda Abstract The population dynamics of Stolephorus commersonnii (Lacepède, 1803) from a ringnet fishery operating off the north- ern coast of Tanga Region were evaluated based on monthly length-frequency data collected from August 2016 to August 2017. The total length (TL) and total weight (TW) of 14,410 individuals ranged from 22 to 130 mm and from 0.39 to 14.64 g respectively. S. commersonnii exhibited a negative allometric growth pattern with the length-weight rela- 2.886 –1.19(t – (–0.01)) tionship model: W = 0.00001 x L . The von Bertalanffy growth function was tL = 86.03 x (1 – e ) using ELE- FAN I from the FiSAT II software tool package. Growth performance index and longevity were estimated at ( ) = 3.9 and T = 2.5 yrs, respectively. The total (Z), fishing (F) and natural (M) mortalities were determined at 1.39, 0.53 and max ɸ -1 0.86 yr , respectively. The current exploitation rate (Ecur) was estimated at 0.38. S. commersonnii exhibited a year-round breeding pattern, with two recruitment peaks in March and June/July. Length-at-first-capture (Lc50) and length-at-first- sexual maturity (Lm50) were 40.51 and 57.35 mm TL, respectively, suggesting growth overfishing. The stock of anchovy indicates an overfishing scenario requiring management intervention such as reducing fishing effort levels, increasing mesh sizes and introducing seasonal closures during peak spawning periods. Keywords: Nitrate, Silicate, Productivity, Kenya, North Kenya Bank Introduction clupeoid populations are noted for exhibiting large Anchovies belong to the order Clupeiformes within spatial and temporal fluctuations in abundance under the suborder Clupeoidei comprising four families the influence of environmental conditions (Cole and (Whitehead et al., 1988). Two of these families, the McGlade, 1998). anchovies (Engraulidae) and sardines or herrings (Clupeidae) form the bulk of small fish species in the Several studies in the marine ecosystem have focused pelagic ecosystem and fisheries of the world oceans on areas subjected to upwelling events where anchovies (FAO, 2016; Checkley et al., 2017). Anchovies have and sardines cohabit (e.g. Benguela Current and Peru been reported to exhibit several biological charac- Current ecosystems) and fluctuations in abundance teristics 9such as short plankton-based food chains, of the populations of both species have been reported fast growth, short-lived, relatively low fecundities (Lluch-Belda et al., 1989; Barange et al., 2009). Further- and year-round spawning of some species) making more, Lluch-Belda et al. (1989) and Lindegren et al. them highly sensitive to environmental variability (2013) found that the behavior of forming large aggre- (Kawasaki, 1980; Checkley et al., 2009). For example, gations subject clupeoid populations to high fishing http://dx.doi.org/10.4314/wiojms.si2020.1.9 96 WIO Journal of Marine Science Special Issue 1 / 2020 95-104 | A. Kamukuru et al. pressure causing concern about the management of was to establish the population dynamic parame- these unpredictable fisheries. However, these small ters of Commerson’s anchovy to evaluate its current pelagic fish species are reported to be resilient and can exploitation rate within the northern coastal waters of withstand high levels of predation and fishing pressure Tanga Region. due to their high turnover rates (Mannini, 1992). Materials and Methods Ecologically, the anchovies play a paramount role in Study area repackaging energy consumed by higher trophic lev- The study focused on the northern coast of Tanga els (Checkley et al., 2017; Guénette et al., 2014). Arneril Region which comprises two coastal districts, namely et al. (2011) observed that anchovies serve as zooplank- Mkinga and Tanga City. Fish sampling was conducted ton predators as well as prey for many other marine at the two fish landing sites of Vyeru and Sahare corre- organisms including medium to large pelagic fishes sponding to Mkinga and Tanga City respectively (Fig. 1). and cetaceans. Economically, anchovies tend to be an The criteria for the selection of study sites were based easy target for both artisanal and commercial fishers on geographical location, as well as the level and type due to their aggregative distribution patterns and for- of fishing activity (specifically using ringnets to target mation of dense schools (Pitcher, 1995). small pelagic fish species). The pelagic fisheries resources off the coast of Tanza- Fish sampling nia are largely multispecies and multisector, with the S. commersonnii individuals were randomly sampled small pelagic species, locally referred to as “dagaa”, on a monthly basis for ten consecutive days from local forming an important component of the sector (Bod- fishers operating ringnets using motorized wooden iguel and Breuil, 2015). The official statistics of marine boats between August 2016 and August 2017. The ring- fish production in the Tanzania’s territorial and nets had a mesh size of 8 – 10 mm, were 80 m in length internal waters is close to 70,000 tons per year with and had a depth of about 12 m. Total length (TL) was small pelagic fishes accounting for approximately determined using a fish measuring board to the near- one third of total catch (Bodiguel and Breuil, 2015). est mm and total weight (TW) to the nearest 0.01 g The anchovies are commercially important and form using an electronic scale. Samples were unsexed. Both a significant component of the marine fisheries catch, researchers and local enumerators participated in fish serving as a fish protein source for most households in sampling and measurements. The species was identi- Tanga Region. The species are often harvested by small fied using the fish identification keys of Fischer
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