Use of biomass model to asses species and productionprofile of marine cage culture in Taiwan

Huang, Wei-yu

14 August 2005

Several species of fishes have been used for cage culture in Taiwan, including cobia, brown croaker, red drum, grouper, red seabream, emperor and snapper. Roughly speaking, the main factors determining the choice of the target species are mainly the selling price deleting the production cost. Different species have different biological characteristics that affect the economical performance. Included were specific growth rates, death or survival within cultural period, and efficiency in food conversion, etc.. By employing and modified the so-called Biomass model used in fishery biology (Kings, 1995), this research integrates the above factors into one single spreadsheet for each individual species, allowing for systematic observation of the continuous change in level of production (in terms of biomass). Through the culturing period, degrade in number was gradually offset by the gain in averaged body weights until a maximum value is reached before going downhill. This gives rise to the optimal solution of yield with the respective culturing period thus required. The results for different species were further compared in terms of expected investment and return by the end of the production. Results from this study showed that cobia has more advantage (in terms of biomass, biovalue and return on investment) than others as the prior choice under the current situation. Basic information for this study included the value of natural mortality, length-and-weigh relationship and the growth equation of the target species. The system was programmed under the EXCEL-Spreadsheet system of the Microsoft Inc. In the future other species of fishes may also be tested as possible candidates for cage culture. The program could also expected to serve as an auxiliary tool in education and fishery extension services.

Biomass model

Fisheries management

Cage culture

Feasibility Study on Cage Culture in Nan -sha Tai -Ping Island

Chou, De-chiang

23 December 2009

Taiwan is an island surrounded by vast open sea. The impacts of typhoon on fish farms located near shore are usually tremendously severe and cause a variety of difficulty in developing a profitable cage aquaculture industry. Thus it is often regarded as one of highly risky ventures for fishermen. While Tai Ping Island is located at the tropic zone, the south most territory of the Republic of China, rendering a superior farming site for cage culture due to its clean water quality and nonexistence of typhoon. This study evaluates the possibility of establishing a series of cage culture in Tai Ping Island and estimates its economic feasibility according to the information obtained from Penghu cage farmers. Since Tai Ping Island is a military base, it is still prohibited for public visit at the present moment. Once the operation of offshore cage aquaculture at the Tai Ping Island is established, it may inspire other cooperates associated with the fishery industry to cluster on the Island. The researcher has served at the coastal guard office in Tai Ping Island for a year and thus quite familiar with land-based facilities, surrounding marina, and ecosystem etc. Through past experience in protecting cage farmers knowing that good farming site is relatively important for cage culture to success, this study intend to offer a good farming site to fish farmers in Taiwan. It is anticipated that a prosperous fish farming industry will develop in the near future.

Tai -Ping Island

cage culture

the evaluation of feasibility

Economical Benefit

Produtividade e economicidade da tilapicultura em gaiolas na região sudoeste do estado de São Paulo: estudos de casos. / Productivity and economy of tilapicultura in cages in são paulo state south-west region: cases.

Conte, Luciane

17 January 2003

Por causa da carência de dados sobre a produtividade de tilápias em tanques-rede em escala comercial, produtores e empresários rurais relutam em investir neste sistema de produção. Este estudo objetivou determinar as funções de produção da tilápia do Nilo em tanques-rede; a biomassa econômica de sistemas de produção comercial de tilápias em tanques-rede de diferentes volumes (300 a 400 peixes/m 3 e 500 a 600 peixes/m 3 ); e analisar a influência das condições ambientais no desempenho dos peixes em tanques-rede. Foram estudados 2 casos na região Sudoeste do Estado de São Paulo: (1) represa do Chapadão, 3,3 ha de espelho d’água e profundidade média de 4,00 m, onde foram instaladas nove gaiolas, totalizando 94,50 m 3 de volume útil de produção; e (2) represa da Colônia Nova, 8,8 ha de espelho d'água e profundidade média de 2,60 m, que alojou 27 gaiolas com volume útil total de 235,70 m 3 , ambas localizadas na Usina Paredão, Oriente, SP. De setembro de 2001 a abril de 2002, foram monitorados diariamente o consumo de ração, a mortalidade de cada gaiola e a temperatura da água das represas nos horários das alimentações; pH, oxigênio dissolvido e transparência pelo disco de Secchi foram monitorados quinzenalmente. Foram realizadas biometrias mensais nas gaiolas das duas represas, compreendendo 3% do lote de peixes de cada gaiola. Os peixes foram alimentados com ração extrusada comercial com 32% de proteína bruta, 3 vezes ao dia (09h00m, 13h00m e 17h00m), 7 dias por semana. A taxa de alimentação foi ajustada com base nas biometrias e mortalidade de cada gaiola. Os dados de desempenho foram analisados por análise de variância e regressão. Para a determinação das funções de produção a partir dos dados de campo, foram utilizadas as funções Logística e de Mitscherlich. Não houve diferença de desempenho em relação à biomassa acumulada e peso médio unitário em função do tempo, na densidade de 300 a 400 peixes/m 3, para ambas as represas (P<0,05), possivelmente porque os dois ambientes apresentaram variações dos parâmetros de qualidade de água muito similares e dentro dos limites aceitáveis para a espécie considerada. A densidade de 500 a 600 peixes/m 3 apresentou maior biomassa acumulada e maior eficiência alimentar que a densidade de 300 a 400 peixes/m 3. Não houve diferença significativa (P<0,05) entre o peso médio unitário dos peixes nas duas densidades, mostrando que o aumento na densidade de estocagem não influenciou o crescimento individual dos peixes. Para a densidade de 500 a 600 peixes/m 3, a biomassa que maximizou a lucratividade da produção (biomassa econômica - BE) foi 145 kg/m 3, ponto em que os peixes devem ser despescados ou remanejados. Para a densidade de 300 a 400 peixes/m 3 , a BE foi de 121 kg/m 3. Para a obtenção de peixes com peso médio unitário de 283g, considerando a BE de 145 kg/m 3 , a densidade de 500 a 600 peixes/m 3 possibilitou otimização do espaço e tempo de produção, melhor eficiência alimentar, maior produção por m 3 de tanque-rede, sendo portanto mais rentável economicamente que a de 300 a 400 peixes/m 3. / Cage farming of tilapia is an excellent alternative to utilize lakes, dams and reservoirs inadequate to conventional aquaculture. Low investment on cage or pond farming of tilapia is credited to the lack of reliable production and economical data for commercial scale farming. This study aimed to determine the production functions of Nile tilapia Oreochromis niloticus in cages; the economic biomass at stocking densities of 300-400 fish/m 3 and 500-600 fish/m 3 commercially produced tilapia in cages of different volumes; and the influence of environmental conditions in fish performance in cages. Two cases in São Paulo State south-west region were studied: (1) reservoir Chapadão (Usina Paredão , Oriente, SP), 3.3 ha of surface area, 4.00 m deep, with 9, 94.50 m 3 cages; and (2) reservoir Colônia Nova (Usina Paredão, Oriente, SP), 8.8 ha of surface area, 2.60 m deep, with 27, 235.70 m 3 cages. Feed intake, survival rate and water temperature were monitored daily during scheduled feedings from September 2001 - April 2002. Dissolved oxygen, pH and transparency of water were monitored each 15 days. Fish growth was evaluated by measuring and weighing 3% of fish of each cage. Caged tilapia fed on commercial, floating pellets (32% crude protein) at 0900, 1300 and 1700 h, 7 days for a week. Feeding rate was adjusted based on sample weight and survival rate. Data were analyzed statistically by ANOVA and regression analysis. The Logistic and Mitscherlich functions were chosen to elaborate the production functions. Carrying capacity of both stocking densities 300-400 fish/m 3 and 500-600 fish/m 3 was 200 kg/m 3. No differences were observed in fish performance regarding accumulated biomass and individual average weight over time between both reservoirs for the stocking density of 300-400 fish/m 3 . The stocking density of 500-600 fish/m 3 presented larger accumulated biomass and better feeding efficiency than the stocking density of 300-400 fish/m 3. No significant differences between individual average weight of fish of both densities were observed (P<0.05), meaning that increasing stocking density didn't influence the individual growth of fish. The biomass that maximized the profit to the stocking density of 500-600 fish/m 3 was 145 kg/m 3. Economic biomass (BE) for stocking density of 300-400 fish/m 3 , was 121 kg/m 3. This density had worse feed conversion than 500-600 fish/m 3. Stocking density of 500-600 fish/m 3 , up to individual average weight of 283 g, present many advantages: optimization of space and production time, better feed efficiency, higher fish production per m 3 of cages, and is more profitable than 300-400 fish/m 3.

cage culture

nile tilapia

productivity

profitability

região sudeste

rentabilidade

São Paulo (SP)

south-west region

tanque-rede

tilápia-do-Nilo

tilapicultura

Produtividade e economicidade da tilapicultura em gaiolas na região sudoeste do estado de São Paulo: estudos de casos. / Productivity and economy of tilapicultura in cages in são paulo state south-west region: cases.

Luciane Conte

17 January 2003

Por causa da carência de dados sobre a produtividade de tilápias em tanques-rede em escala comercial, produtores e empresários rurais relutam em investir neste sistema de produção. Este estudo objetivou determinar as funções de produção da tilápia do Nilo em tanques-rede; a biomassa econômica de sistemas de produção comercial de tilápias em tanques-rede de diferentes volumes (300 a 400 peixes/m 3 e 500 a 600 peixes/m 3 ); e analisar a influência das condições ambientais no desempenho dos peixes em tanques-rede. Foram estudados 2 casos na região Sudoeste do Estado de São Paulo: (1) represa do Chapadão, 3,3 ha de espelho d’água e profundidade média de 4,00 m, onde foram instaladas nove gaiolas, totalizando 94,50 m 3 de volume útil de produção; e (2) represa da Colônia Nova, 8,8 ha de espelho d'água e profundidade média de 2,60 m, que alojou 27 gaiolas com volume útil total de 235,70 m 3 , ambas localizadas na Usina Paredão, Oriente, SP. De setembro de 2001 a abril de 2002, foram monitorados diariamente o consumo de ração, a mortalidade de cada gaiola e a temperatura da água das represas nos horários das alimentações; pH, oxigênio dissolvido e transparência pelo disco de Secchi foram monitorados quinzenalmente. Foram realizadas biometrias mensais nas gaiolas das duas represas, compreendendo 3% do lote de peixes de cada gaiola. Os peixes foram alimentados com ração extrusada comercial com 32% de proteína bruta, 3 vezes ao dia (09h00m, 13h00m e 17h00m), 7 dias por semana. A taxa de alimentação foi ajustada com base nas biometrias e mortalidade de cada gaiola. Os dados de desempenho foram analisados por análise de variância e regressão. Para a determinação das funções de produção a partir dos dados de campo, foram utilizadas as funções Logística e de Mitscherlich. Não houve diferença de desempenho em relação à biomassa acumulada e peso médio unitário em função do tempo, na densidade de 300 a 400 peixes/m 3, para ambas as represas (P<0,05), possivelmente porque os dois ambientes apresentaram variações dos parâmetros de qualidade de água muito similares e dentro dos limites aceitáveis para a espécie considerada. A densidade de 500 a 600 peixes/m 3 apresentou maior biomassa acumulada e maior eficiência alimentar que a densidade de 300 a 400 peixes/m 3. Não houve diferença significativa (P<0,05) entre o peso médio unitário dos peixes nas duas densidades, mostrando que o aumento na densidade de estocagem não influenciou o crescimento individual dos peixes. Para a densidade de 500 a 600 peixes/m 3, a biomassa que maximizou a lucratividade da produção (biomassa econômica - BE) foi 145 kg/m 3, ponto em que os peixes devem ser despescados ou remanejados. Para a densidade de 300 a 400 peixes/m 3 , a BE foi de 121 kg/m 3. Para a obtenção de peixes com peso médio unitário de 283g, considerando a BE de 145 kg/m 3 , a densidade de 500 a 600 peixes/m 3 possibilitou otimização do espaço e tempo de produção, melhor eficiência alimentar, maior produção por m 3 de tanque-rede, sendo portanto mais rentável economicamente que a de 300 a 400 peixes/m 3. / Cage farming of tilapia is an excellent alternative to utilize lakes, dams and reservoirs inadequate to conventional aquaculture. Low investment on cage or pond farming of tilapia is credited to the lack of reliable production and economical data for commercial scale farming. This study aimed to determine the production functions of Nile tilapia Oreochromis niloticus in cages; the economic biomass at stocking densities of 300-400 fish/m 3 and 500-600 fish/m 3 commercially produced tilapia in cages of different volumes; and the influence of environmental conditions in fish performance in cages. Two cases in São Paulo State south-west region were studied: (1) reservoir Chapadão (Usina Paredão , Oriente, SP), 3.3 ha of surface area, 4.00 m deep, with 9, 94.50 m 3 cages; and (2) reservoir Colônia Nova (Usina Paredão, Oriente, SP), 8.8 ha of surface area, 2.60 m deep, with 27, 235.70 m 3 cages. Feed intake, survival rate and water temperature were monitored daily during scheduled feedings from September 2001 - April 2002. Dissolved oxygen, pH and transparency of water were monitored each 15 days. Fish growth was evaluated by measuring and weighing 3% of fish of each cage. Caged tilapia fed on commercial, floating pellets (32% crude protein) at 0900, 1300 and 1700 h, 7 days for a week. Feeding rate was adjusted based on sample weight and survival rate. Data were analyzed statistically by ANOVA and regression analysis. The Logistic and Mitscherlich functions were chosen to elaborate the production functions. Carrying capacity of both stocking densities 300-400 fish/m 3 and 500-600 fish/m 3 was 200 kg/m 3. No differences were observed in fish performance regarding accumulated biomass and individual average weight over time between both reservoirs for the stocking density of 300-400 fish/m 3 . The stocking density of 500-600 fish/m 3 presented larger accumulated biomass and better feeding efficiency than the stocking density of 300-400 fish/m 3. No significant differences between individual average weight of fish of both densities were observed (P<0.05), meaning that increasing stocking density didn't influence the individual growth of fish. The biomass that maximized the profit to the stocking density of 500-600 fish/m 3 was 145 kg/m 3. Economic biomass (BE) for stocking density of 300-400 fish/m 3 , was 121 kg/m 3. This density had worse feed conversion than 500-600 fish/m 3. Stocking density of 500-600 fish/m 3 , up to individual average weight of 283 g, present many advantages: optimization of space and production time, better feed efficiency, higher fish production per m 3 of cages, and is more profitable than 300-400 fish/m 3.

região sudeste

rentabilidade

São Paulo (SP)

tanque-rede

tilápia-do-Nilo

tilapicultura

cage culture

nile tilapia

productivity

profitability

south-west region

Integration of aquaculture within irrigation systems : a poverty-focused approach

Pollock, Lindsay Jane

January 2005

The potential for aquaculture to be integrated within a large-scale irrigation system taking a poverty-focused approach was investigated in the Mahaweli System H irrigation system of North Western Province, Sri Lanka. Using a livelihoods approach an initial situation appraisal identified the potential for aquaculture to be integrated within existing livelihoods activities. The appraisal revealed that decreasing returns from farming and fishing seasonality were major sources of household vulnerability. Using fish caught from the tank fishery, small-scale cage-based fattening of tilapia was developed with participants in an attempt to mitigate seasonal vulnerability caused by fishing seasonality. Participatory technology development was conducted with members of two communities within Mahaweli System H. Upon identifying resources and formulating a research agenda with participants, pilot trials were conducted by fisher-farmers in USG village and by a group of female cage operators in RAJ village. The study identified several constraints to sustainability of the culture system such as variable and low availability of small tilapia with which to stock cages, poor feed quality and latterly, competition for feed inputs. Despite their initial enthusiasm, women were particularly disadvantaged in this process as they were unable to catch their own fish with which to stock their cages and became dependent on men to assist them. The study showed that the cage-based fattening system was able to help meet emergency household expenses, although it was not efficient enough nor practiced on a large enough scale to contribute greatly to household security. In this manner, holding and fattening smaller tilapia is comparable with livestock holdings. Further development of cage design and feed administration improvements are needed to reduce production costs and improve the economic viability of the system.

338.1