Your search keyword '"Kantoussan, Justin"' showing total 6 results

1. Movement patterns and size distribution of little tunny (Euthynnus alletteratus) in the Eastern Central Atlantic Ocean: Insights from conventional tag release-recapture data

Author

Ba, Kamarel, Ngom, Fambaye, Tall, Salimata, and Kantoussan, Justin

Published

2023

2. Fish-length based indicators for improved management of the sardinella fisheries in Senegal

Author

Baldé, Bocar Sabaly, Fall, Massal, Kantoussan, Justin, Sow, Fambaye Ngom, Diouf, Malick, and Brehmer, Patrice

Published

2019

3. Population dynamics and stock assessment of Ethmalosa fimbriata in Senegal call for fishing regulation measures

Author

Baldé, Bocar Sabaly, Brehmer, Patrice, Sow, Fambaye Ngom, Ekau, Werner, Kantoussan, Justin, Fall, Massal, and Diouf, Malick

Published

2018

4. Use and limits of three methods for assessing fish size spectra and fish abundance in two tropical man-made lakes

Author

Coll, Céline, Morais, Luis Tito de, Laë, Raymond, Lebourges-Dhaussy, Anne, Simier, Monique, Guillard, Jean, Josse, Erwan, Ecoutin, Jean-Marc, Albaret, Jean-Jacques, Raffray, Jean, and Kantoussan, Justin

Published

2007

5. Ecological indicators based on trophic spectrum as a tool to assess ecosystems fishing impacts

Author

Kantoussan, Justin, Marc Ecoutin, Jean, Fontenelle, Guy, Morais, Luis Tito de, and Laë, Raymond

Subjects

*BIOINDICATORS, *BIOTIC communities, *SMALL-scale fisheries, *RESERVOIRS, *SPECTRUM analysis, *FISHING, *FRESHWATER ecology, *ENVIRONMENTAL impact analysis

Abstract

Abstract: Trophic indicators were used to compare two Malian freshwater reservoirs whose main differences are based on their different fishing pressures. Data were collected from a scientific survey of small-scale fishery landings conducted in 2002/2003. The trophic levels of fish species caught by artisanal fisheries are estimated from observations of scientific fishing or from the metabase Fishbase. Important differences exist in the trophic structure of both reservoirs. In Selingue (with high fishing pressure), very few top predators are found in the catches while the low trophic level fishes increase in total catches. In Manantali (with low fishing pressure), the top predators contribute twice as much to catches compared to Selingue. Hence, the mean trophic level of catches in Selingue (2.80) is lower than in Manantali (2.97). When comparing these results with those of study made in 1994/1995, it clearly appears that the effects of the fishing pressure in Selingue are obvious through a decrease of 0.12 in the mean trophic level while in Manantali this mean level has increased by 0.33 due to a recent strategic targeting of top predators. Trophic spectra seem to be relevant tools to characterize exploited fish communities from multi-specific and multi-gear small-scale fisheries catch data. [Copyright &y& Elsevier]

Published

2010

6. Efficiency of two contrasted marine protected areas (MPA) in West Africa over a decade of fishing closure.

Author

Thiaw, Modou, Gascuel, Didier, Sadio, Oumar, Ndour, Ismaïla, Diadhiou, Hamet Diaw, Kantoussan, Justin, Faye, Saliou, Thiam, Modou, Meissa, Beyah, and Brehmer, Patrice

Subjects

FISHERY closures, MARINE parks & reserves, OVERFISHING, POACHING, MANGROVE forests, CONTINENTAL shelf, FOOD chains

Abstract

Using trophodynamic models, the present study evaluated how a decade fishing closure inside and outside two marine protected areas (MPAs) in Senegal has influenced on the ecosystem trophic network. Scientific surveys in the Bamboung MPA (68 km2, mangrove) were conducted since 2003, one year before fishery closure. The resulting dataset was used to generate a time series of abundance indices, and Ecopath mass-balanced models were constructed for the 2003, 2008–2012, and 2015–2016 periods (one fished and two unfished periods, respectively). These three Bamboung MPA models were subsequently used to evaluate the effects of fishing closure. Based on the biomass trophic spectrum of the 2015–2016 model, the trophic structure of the Bamboung MPA was compared to that constructed in the same period of an area that was still fished (Bolong de Sankago). Using a model based on ecosystem trophic levels (EcoTroph) we simulated fishery activity in the Bamboung MPA from 2008, to assess possible poaching in the MPA. Then, the effect of fishing closure was also evaluated on the continental shelf for the Joal-Fadiouth MPA (174 km2; sandy coast/mangrove), and comparing the trophic structure inside and outside of this second MPA. The results showed that the Bamboung MPA had high biomass, especially for higher trophic level species. After a decade of fishing closure, a 2-fold increase in predator biomass and a 1.5-fold decrease in prey biomass was recorded. The models showed that poaching effects exist both studied MPA. So official fishing closure had after a decade a lower effect in both MPAs. For the Joal-Fadiouth MPA, low-mobility species had high biomass, suggesting that high habitat diversity and fishery closure had a positive effect. However, the biomass of large species from high-trophic-levels was still low inside this MPA. The obtained results could serve as a reference for future studies in this MPA. In conclusion, fishery closure increased the total biomass in the MPAs over the medium and long-term; however, the trophic network might also be modified by high natural variability in the annual recruitment of some stocks. [Display omitted] • After a decade of fishing closure, a 2-fold increase in predator biomass and a 1.5-fold decrease in prey biomass was recorded in the Bamboung MPA. • Due to poaching effects, the official fishing closure had after a decade a lower effect in both MPAs. • For the Joal-Fadiouth MPA, low-mobility species had high biomass, suggesting that high habitat diversity and fishery closure had a positive effect. • The fishery closure increased the total biomass in the MPAs over the medium and long-term. • However, the trophic network might also be modified by high natural variability in the annual recruitment of some stocks. [ABSTRACT FROM AUTHOR]

Published

2021