Reproduction de Bagrus bajad (Fabricius, 1775, Bagridae) du Lac Albert, Bassin du Nil, République Démocratique du Congo (RDC)

Le Bagrus bajad figure parmi les espèces des poissons très pêchées dans les cours d’eau tropicaux d’Afrique dont les informations sur la reproduction sont rares. Quelques paramètres de reproduction de Bagrus bajad du Sud-ouest du Lac Albert ont été étudiés durant cette recherche. Les échantillons ont été collectés entre décembre 2019 et décembre 2020 au moyen des éperviers, des palangres et des filets maillants de maille standard (20,2, 25,4 et 30,5 mm). Au total, 520 spécimens dont 283 femelles et 237 males ont été étudiés. Les informations sur le sex-ratio, le stade de maturité sexuelle, le rapport gonadosomatique, le rapport hepathosomatique, la fécondité et le facteur de condition ont été analysés. L’étude a révélé l’égalité entre les mâles et les femelle parmi les individus, même si les femelles étaient supérieurs aux mâles (1: 0,84; p-value<0.05). Tous les poissons étudiés ont présenté tous les stades de maturité sexuelle (I, II, III, IV, et V). Les matures (III, IV et V) ont une plus grande proportion (III, IV et V) par rapport aux immatures (I et II). Les mâles ont une taille de première maturité sexuelle de 43.5 cm contre 44 cm pour les femelles. Les valeurs mensuelles des indices gonadosomatiques et celles des stades gonadiques macroscopiques prouvent que B. bajad a trois périodes de fraie au cours de l’année : (i) Janvier-Avril ; (ii) Juin-Août et (iii) Octobre-Novembre alternées par une période d’un mois de repos en mai, septembre et décembre. La fécondité absolue est de 525 à 34440 ovocytes mais n’est pas significativement corrélées avec la longueur totale (R2=0,002) et le poids (R2=0,12). Les connaissances de la présente étude constituent une base fondamentale pour assurer la surveillance des risques d’épuisement du stock potentiel cette espèce et orienteront les décideurs à développer des politiques et stratégies efficaces garantissant l’exploitation et la conservation rationnelle de cette espèce.   Bagrus bayad is one of the highly fished fish species in tropical African rivers for which information on reproduction is scarce. Some reproduction parameters of B. bayad from the southwest of Lake Albert were studied. The samples were collected between December 2019 and December 2020 using cast nets, longlines, and standard mesh gillnets (20.2, 25.4, and 30.5 mm). A total of 520 specimens including 283 females and 237 males were examined. Information on sex ratio, stage of sexual maturity, gonadosomatic ratio, hepatosomatic ratio, fecundity, and condition factor was analyzed. The study revealed equality between males and females among individuals, although females were superior to males (1:0.84; p-value<0.05). All fish investigated showed all stages of sexual maturity (I, II, III, IV, and V). The mature (III, IV and V) have a greater proportion (III, IV and V) compared to the immature (I and II). Males have a size at first sexual maturity of 43.5 cm against 44 cm for females. The monthly values of gonadosomatic indices and those of macroscopic gonad stages show that B. bajad has three spawning periods a year: (i) January-April; (ii) June-August and (iii) October-November, alternated by a one-month rest period in May, September, and December. Absolute fecundity varies between 525 and 34440 oocytes but is not significantly correlated with total length (R2=0.002) and weight (R2=0.12). Knowledge from this study constitutes a fundamental basis for ensuring the monitoring of the risks of depletion of the potential stock of this species and will guide decision-makers in developing effective policies and strategies guaranteeing rational exploitation and conservation of this species

Environmental impacts of tilapia fish cage aquaculture on water physico-chemical parameters of Lake Kivu, Democratic Republic of the Congo

In Africa, cage aquaculture has been growing due to its potential to address food insecurity concerns, provide livelihoods, and contribute to local economies. However, there is a need for continued research on the sustainability and potential ecological effects of cage aquaculture in African lakes and reservoirs. Even with an adequate amount of water, lakes and reservoirs cannot provide ecosystem services if their water quality is not properly managed. The current study on Lake Kivu, DRC focuses on understanding the effects of tilapia cage aquaculture on selected water quality physico-chemical parameters in the Bukavu sub-basin, DRC. The research was conducted in both caged and uncaged sampling stations, on the spatial and temporal scale from April to September 2023 at three bays serving as sampling stations: two caged (Ndendere, Honga) and one non-caged (Nyofu). Some physico-chemical parameters were measured in situ, whereas chlorophyll a and nutrients analysis were performed at the Institut Supérieur Pédagogique (I.S.P) laboratory in Bukavu. The parameters were used to calculate three indices water quality indices: the water quality index (WQI) to classify the water quality at the stations, the organic pollution index (OPI) to determine the level of organic pollution, the Carlson's Trophic Status Index (CTSI) to classify the trophic state of the stations. Chlorophyll a concentration was a measure of algal biomass. All physico-chemical parameters, apart from DO, ammonium and temperature showed no significant differences among stations and depths. Interaction between stations and between seasons was only observed on turbidity. The WQI for all the sampling stations ranged from medium to good quality (51–90). The OPI for all stations showed minimal level of pollution (4.6–5.0) hence lake's water still organically unpolluted. CTSI results indicated the sampling stations are in a eutrophic state (50 to 70). Fish cage aquaculture does not yet pose harm to the water quality of the two Lake Kivu stations under consideration, according to the study's findings. However with the anticipated growth of cage fish farming activities to meet the rising fish demand, continuous monitoring of water quality in the Lake should be done to inform management decisions and for sustainable aquaculture