scispace - formally typeset
Search or ask a question
Journal ArticleDOI

Integrated multi-trophic aquaculture of red drum (Sciaenops ocellatus) and sea cucumber (Holothuria scabra): Assessing bioremediation and life-cycle impacts

Killian Chary1, Joël Aubin2, Bastien Sadoul3, Annie Fiandrino1, Denis Coves1, Myriam D. Callier1 
IFREMER1, Agrocampus Ouest2, Institut national de la recherche agronomique3
01 Feb 2020-Aquaculture (Elsevier)-Vol. 516, pp 734621
TL;DR: The methodology defined here can be a powerful tool to predict the magnitude of environmental benefits that can be expected from new and complex production systems and to show potential impact transfer between spatial scales.
About: This article is published in Aquaculture.The article was published on 2020-02-01 and is currently open access. It has received 40 citations till now. The article focuses on the topics: Integrated multi-trophic aquaculture & Holothuria scabra.

Summary (3 min read)

Jump to: [1 Introduction][2.2 Inventories][2.2.1 Description of the monoculture system and its animal production parameters][2.2.2 Assumptions and data sources for the monoculture][2.2.3 Sea cucumber system assumptions and data sources][2.2.4 Individual bioenergetic model and population model for the sea cucumber][2.2.5 Grow-out emissions from monoculture and IMTA][2.2.6 Inputs imported to Mayotte][2.3.2 Life cycle impact assessment and uncertainties][3.2 LCIA results][4.1 Sea cucumber bioremediation potential][4.2 LCIA: comparison of monoculture and IMTA] and [4.3 Other perspectives to improve environmental performances]

1 Introduction

  • LCA has been extensively applied to aquaculture systems, with 65 studies and 179 aquaculture systems reviewed in a recent meta-analysis (Bohnes et al., 2018) .
  • LCA has been used mostly to identify problematic stages or components of systems and to compare alternatives such as intensive vs. extensive systems, monoculture vs. polyculture and open water vs. closed recirculating systems.
  • The present study examined environmental benefits and trade-offs for finfish monoculture of shifting to an open-water IMTA system co-culturing suspended sea cucumber culture beneath finfish cages, by assessing the latter's mitigation potential at local and global scales.

2.2 Inventories

  • The LCIs of both systems were developed and their environmental impacts were estimated using SimaPro 8.5 software and its databases (PRé Consultants, Amersfoot, Netherlands).
  • The ecoinvent 3.0 database was used for all background data except feed ingredients, which were taken from the French EcoAlim v.1.3 database.
  • See the Supplementary Material for detailed LCIs.

2.2.1 Description of the monoculture system and its animal production parameters

  • The finfish monoculture system described a scenario of a semi-industrial red-drum farm with floating sea cages located on Mayotte Island, Indian Ocean (see Chary et al., 2019) .
  • Culture cycles are 20 months long with progressive harvests from month 13.
  • Harvested products range from portion-size to 3000 g per individual.
  • No chemotherapeutants (e.g. antibiotics) are used during finfish production.
  • Feed consists of commercial pressed pellets produced on La Reunion Island and imported to the farm by sea shipping.

2.2.2 Assumptions and data sources for the monoculture

  • Annual production data (i.e. feed inputs and finfish harvest volumes) were taken from farm simulations under routine conditions with the FINS farm-scale model (Chary et al., 2019) .
  • FINS is a simple model combining farm production and waste emission modules to simulate farm production, feed requirements and waste discharge for finfish sea-cage systems.
  • FINS includes several submodels (e.g. individual growth model, mass balance model), which were parametrized for red drum.
  • Data on the ingredient mix were provided by a commercial feed-mill manager in La Reunion (data not shown due to confidentiality).

2.2.3 Sea cucumber system assumptions and data sources

  • Sea cucumbers must be processed to obtain a dry cooked commercial product called "bêche-de-mer".
  • The protein content in the final product is 51.2% (Average from Ozer et al., 2004) giving an edible protein content in fresh sea cucumbers of 3.8%.
  • Processing stages into bêche-de-mer were not included in the LCA system boundaries.

2.2.4 Individual bioenergetic model and population model for the sea cucumber

  • On-farm sea cucumber biomass dynamics were calculated by multiplying the number of individuals by the individual weight predicted by DEB.
  • The population dynamics model of sea cucumber represents (i) initial seeding (initial condition), (ii) culture-harvesting strategies, (iii) natural mortality and (iv) culture losses (e.g. poaching, predation).
  • Since maximum stocking density is reached at the end of the culture cycle, it also corresponds to the system's productivity.

2.2.5 Grow-out emissions from monoculture and IMTA

  • In the sea cucumber LCI, net N emissions, net P solid and dissolved emissions and net ThOD were calculated as solid and dissolved emissions from sea cucumber growth minus avoided emissions associated with IFF.
  • ThOD coefficients for sea cucumber feces were estimated as 0.764 kg O 2 per kg.

2.2.6 Inputs imported to Mayotte

  • On Mayotte, most economic inputs used on the farm are imported from La Reunion or France.
  • Therefore, most processes were adapted to include sea transport (1700 km from La Reunion and 9800 km from France) by transoceanic ship from the closest trading ports, and land transport (30 km) by truck from the port to the farm facilities.
  • Fuels were assumed to be imported from Singapore (7000 km).

2.3.2 Life cycle impact assessment and uncertainties

  • It is important to include uncertainty analysis in comparative LCAs, since deterministic results that do not include significance information can lead to oversimplified conclusions (Mendoza Beltran et al., 2018) , especially in ex-ante analysis.
  • Uncertainties due to unrepresentativeness (i.e. degree of reliability, completeness, temporal correlation, geographical correlation, technological correlation and sample size) of foreground processes were estimated with the Numerical Unit Spread Assessment Pedigree following the method of Henriksson et al. (2014) and included in the LCI of the monoculture and the IMTA.
  • The authors simulated 1000 Monte Carlo runs to propagate these uncertainties to the LCIA results per impact category, as commonly done in LCA uncertainty analysis (Avadí and Fréon, 2013) .
  • A paired t-test was used to determine statistical significance of the systems' difference in environmental impacts.
  • The null hypothesis in the t-test was that IMTA and monoculture systems have equal environmental impacts per functional unit.

3.2 LCIA results

  • The authors discuss the mitigation potential of the IMTA system in terms of i) the bioremediation efficiency of sea cucumber system co-cultured with finfish and ii) comparison of the impacts of the finfish monoculture and IMTA systems estimated by LCA.
  • Perspectives are then discussed for decreasing the IMTA's benthic impact and overall lifecycle impacts.

4.1 Sea cucumber bioremediation potential

  • The waste mitigation potential of sea cucumbers may not be sufficient to significantly reduce environmental effects of solid waste deposition on the seabed, and additional analyses are necessary to fully assess local ecological effects of IMTA systems.
  • This is also true to account for other emissions (e.g. GHGs) occurring at the farm and other life-cycle stages and that can have impacts at the global scale.
  • Therefore, to compare environmental performances of monoculture and IMTA systems fully, the analysis must be supplemented with more holistic impact assessment and related to the main functions of both systems, as performed in the LCA.

4.2 LCIA: comparison of monoculture and IMTA

  • Compared to the monoculture, the IMTA system tended to decrease EU and NPPU impacts but increase CC and CED.
  • This eco-intensification reduced the overall amount of feed used per unit of biomass produced, which explained the decrease in NPPU.
  • Ecological intensification of aquaculture (Aubin et al., 2019) , through IMTA, shifted environmental burdens to energy-related global impact categories such as CC and CED.
  • These components were not visible in the contribution analysis because of the large difference in production scales.
  • Close integration of farm activities and infrastructure becomes less likely in IMTA farms with more balanced production between primary and secondary species; therefore, environmental impacts will likely increase if sea cucumber production increases.

4.3 Other perspectives to improve environmental performances

  • Local and global environmental benefits of the IMTA system were generally low because of the low productivity of sea cucumbers; increasing them will require finding practical methods to intensify sea cucumber production.
  • One option is to investigate the choice and design of rearing structures that can increase the culture surface area and thus the bioremediation potential of the system.
  • With a threelevel structures, the CS could be 'virtually' divided by three, i.e. 45:1 and WEE could increase to 2.20%.
  • Finding practical farming methods for sea cucumbers to be added to a pre-existing monoculture system thus remains a challenge.

Did you find this useful? Give us your feedback

Figures (3)
Citations
More filters
Predictive depositional modelling (DEPOMOD) of the interactive effect of current flow and resuspension on ecological impacts beneath salmon farms

[...]

Nigel Keeley1, Chris J Cromey, Eric O. Goodwin, Mark T. Gibbs, Catriona Macleod 
Cawthron Institute1
01 Jan 2013
TL;DR: In this paper, the role of modelled resuspension dynamics in determining impacts was evaluated at five farms with contrasting flow regimes to evaluate the role played by modelled sediment ressuspension dynamics and showed that the association between current flow, sediment resuspence and ecological impacts is more complex than presently encapsulated within DEPOMOD.
Abstract: Sediment resuspension is an important factor in controlling the impact of any localised pointsource impacts such as salmon farms; at high-flow (dispersive) sites, resuspension can significantly reduce potential effects. Depositional modelling (DEPOMOD) is widely used to predict localisedseabed impacts and includes an optional flow-related resuspension module. This study examined the observed impacts at 5 farms with contrasting flow regimes to evaluate the role of modelled resuspension dynamics in determining impacts. When resuspension was included in the model, net particle export (i.e. no significant net downward flux of organic material) was predicted at the most dispersive sites. However, significant seabed effects were observed, suggesting that although the model outputs were theoretically plausible, they were inconsistent with the observational data. When the model was run without resuspension, the results were consistent with the field survey data. This retrospective validation allows a more realistic estimation of the depositional flux required, suggesting that approximately twice the flux was needed to induce an effect level at the dispersive sites equivalent to that at the non-dispersive sites. Moderate enrichment was associated with a fluxof ~0.4 and ~1 kg m-2 yr-1, whilst highly enriched conditions occurred in response to 6 and 13 kg m-2 yr-1, for low and dispersive sites, respectively. This study shows that the association between current flow, sediment resuspension and ecological impacts is more complex than presently encapsulated within DEPOMOD. Consequently, where depositional models are employed at dispersive sites, validation data should be obtained to ensure that the impacts are accurately predicted.

37 citations

Journal ArticleDOI
When more is more: taking advantage of species diversity to move towards sustainable aquaculture.

[...]

Marielle Thomas1, Alain Pasquet1, Joël Aubin, Sarah Nahon2, Thomas Lecocq1 
University of Lorraine1, University of Pau and Pays de l'Adour2
01 Apr 2021-Biological Reviews of The Cambridge Philosophical Society
TL;DR: It is asserted that polyculture practices can ensure the transition of aquaculture towards sustainable development and several challenges must be addressed to facilitate polyculture development across the world.
Abstract: Human population growth has increased demand for food products, which is expected to double in coming decades. Until recently, this demand has been met by expanding agricultural area and intensifying agrochemical-based monoculture of a few species. However, this development pathway has been criticised due to its negative impacts on the environment and other human activities. Therefore, new production practices are needed to meet human food requirements sustainably in the future. Herein, we assert that polyculture practices can ensure the transition of aquaculture towards sustainable development. We review traditional and recent polyculture practices (ponds, recirculated aquaculture systems, integrated multi-trophic aquaculture, aquaponics, integrated agriculture-aquaculture) to highlight how they improve aquaculture through the coexistence and interactions of species. This overview highlights the importance of species compatibility (i.e. species that can live in the same farming environment without detrimental interactions) and complementarity (i.e. complementary use of available resources and/or commensalism/mutualism) to achieve efficient and ethical aquaculture. Overall, polyculture combines aspects of productivity, environmental protection, resource sharing, and animal welfare. However, several challenges must be addressed to facilitate polyculture development across the world. We developed a four-step conceptual framework for designing innovative polyculture systems. This framework highlights the importance of (i) using prospective approaches to consider which species to combine, (ii) performing integrated assessment of rearing environments to determine in which farming system a particular combination of species is the most relevant, (iii) developing new tools and strategies to facilitate polyculture system management, and (iv) implementing polyculture innovation for relevant stakeholders involved in aquaculture transitions.

30 citations

Journal ArticleDOI
Anti-Photoaging and Potential Skin Health Benefits of Seaweeds.

[...]

Ratih Pangestuti1, Kyung-Hoon Shin2, Se-Kwon Kim2
Indonesian Institute of Sciences1, Hanyang University2
22 Mar 2021-Marine Drugs
TL;DR: In this contribution, the recent studies on anti-photoaging properties of extracts and bioactive compounds derived from seaweeds were described and discussed.
Abstract: The skin health benefits of seaweeds have been known since time immemorial. They are known as potential renewable sources of bioactive metabolites that have unique structural and functional features compared to their terrestrial counterparts. In addition, to the consciousness of green, eco-friendly, and natural skincare and cosmetics products, their extracts and bioactive compounds such as fucoidan, laminarin, carrageenan, fucoxanthin, and mycosporine like amino acids (MAAs) have proven useful in the skincare and cosmetic industries. These bioactive compounds have shown potential anti-photoaging properties. Furthermore, some of these bioactive compounds have been clinically tested and currently available in the market. In this contribution, the recent studies on anti-photoaging properties of extracts and bioactive compounds derived from seaweeds were described and discussed.

29 citations

Journal ArticleDOI
Integrated Multi-Trophic Aquaculture (IMTA) system combining the sea urchin Paracentrotus lividus, as primary species, and the sea cucumber Holothuria tubulosa as extractive species

[...]

Luca Grosso1, Arnold Rakaj1, Alessandra Fianchini1, Lorenzo Morroni, Stefano Cataudella1, Michele Scardi1 
University of Rome Tor Vergata1
15 Mar 2021-Aquaculture
TL;DR: The present study suggested the existence of substantial benefits of an integrated aquaculture between these echinoderm species, that could promote the environmental and economic sustainability of their production on a large-scale and reduce the total waste.

29 citations

Journal ArticleDOI
Black Sea Aquaculture: Legacy, Challenges & Future Opportunities

[...]

Fabio Massa, İlhan Aydin, Davide Fezzardi, Bilal Akbulut, Alexander Atanasoff1, Atife Tuba Beken, Vitaliy Bekh2, Yuliia Buhlak3, Irina Burlachenko, Erkan Can, Stefano Carboni4, Fabrizio Caruso, Murat Dağtekin, Kostiantyn Demianenko, Hayri Deniz 
Trakia University1, National University of Life and Environmental Sciences of Ukraine2, University of Patras3, University of Stirling4
30 Jul 2021
TL;DR: In this paper, Fidan, Linda Fourdain, Marco Frederiksen, Archil Guchmanidze, Housam Hamza, Jessica Harvey, Magda Nenciu, Galin Nikolov, Victor Niţa, Muhammed Dogan Ozdemir, Elitsa Petrova-Pavlova, Gabriel Popescu, Ferit Rad, Safak Seyhaneyildiz Can, John A. Theodorou, Behnan Thomas, Nicolo Tonachella, Ekaterina Tribilustova, Ir
Abstract: Additional co-authors: Dilek Fidan, Linda Fourdain, Marco Frederiksen, Archil Guchmanidze, Housam Hamza, Jessica Harvey, Magda Nenciu, Galin Nikolov, Victor Niţa, Muhammed Dogan Ozdemir, Elitsa Petrova-Pavlova, Gabriel Popescu, Ferit Rad, Safak Seyhaneyildiz Can, John A. Theodorou, Behnan Thomas, Nicolo Tonachella, Ekaterina Tribilustova, Irina Yakhontova, Ahmet Faruk Yesilsu, Guzel Yucel-Gier

15 citations

Cites background from "Integrated multi-trophic aquacultur..."

  • ...Environmental sustainability of aquaculture is a complex issue involving effects at local, regional and global scales as a consequence of aquaculture treatments production (benthic deterioration, eutrophication, reduction fishery for fishmeal and fish oil production and emissions from production wastes) and industrial processes involved in the products’ value chain (Chopin et al., 2012; Edwards, 2015; Chary et al., 2020)....

    [...]

  • ...…of aquaculture treatments production (benthic deterioration, eutrophication, reduction fishery for fishmeal and fish oil production and emissions from production wastes) and industrial processes involved in the products’ value chain (Chopin et al., 2012; Edwards, 2015; Chary et al., 2020)....

    [...]

References
More filters
Journal ArticleDOI
Responses of scallop biodeposits to bioturbation by a deposit‐feeder Apostichopus japonicus (Echinodermata: Holothuroidea): does the holothurian density matter?

[...]

Xiutang Yuan1, Leiming Meng1, Lili Wang1, Shilan Zhao1, Hongbo Li1 
State Oceanic Administration1
01 Feb 2016-Aquaculture Research
TL;DR: This study suggests that the bioturbation of A. japonicus plays an important role in retarding organic waste accumulation and cleansing nutrients in bivalve farming wastes under co-culture condition and the bioremediation capacity may be closely dependent on its stocking density in practice.
Abstract: The deposit-feeding holothurians can reduce the negative impact of bivalve farming by feeding and reworking bivalve wastes (biodeposits) in the context of co-culture. To test effects of the bioturbation by holothurians of different densities on bivalve wastes, a stocking density regime of the sea cucumber Apostichopus japonicus (35.4 ± 1.2 g, mean ± SE) was set at 0.0, 6.6, 13.2 ind m−2, and responses of the biotic parameters including chlorophyll a concentration (Chl. a), bacterial biomass and the abiotic ones as oxidation-reduction potential (ORP), organic matter (OM), organic carbon (OC), total nitrogen (TN) and organic phosphorus (OP) in biodeposits discharged by Japanese scallop Patinopecten yessoensis were investigated. Results showed that A. japonicus grew in a density-dependent manner, and the density-dependent effect on both biotic and abiotic parameters in biodeposits were also observed. Apostichopus japonicus stimulated a transfer process from reduction to weak reduction state of the biodeposits with a trend of higher density holothurians stimulating the process more. Furthermore, A. japonicus significantly controlled the bacterial abundance and Chl. a, as well as reducing the contents of OM, OC, TN and OP in the biodeposits. Yet, the response of abiotic parameters delayed rather than that of biotic parameters, underling the biotic parameters could be more sensitive to bioturbation than the abiotic ones. Our study suggests that the bioturbation of A. japonicus plays an important role in retarding organic waste accumulation and cleansing nutrients in bivalve farming wastes under co-culture condition and the bioremediation capacity may be closely dependent on its stocking density in practice.

7 citations

Journal ArticleDOI
Modeling sea cage outputs for data-scarce areas: application to red drum ( Sciaenops ocellatus ) aquaculture in Mayotte, Indian Ocean

[...]

Killian Chary1, Annie Fiandrino1, Denis Coves1, Joël Aubin2, Jean-Claude Falguiere3, Myriam D. Callier1 
University of Montpellier1, Agrocampus Ouest2, IFREMER3
01 Jun 2019-Aquaculture International
TL;DR: The FINS model is a simple alternative tool to assess and compare environmental impacts of different farming systems and practices for new aquaculture species and regions and can therefore facilitate the process of licensing new farming systems for decision-makers.
Abstract: Robust and accurate prediction of fish farm waste is a first and crucial step in managing the cause–effect chain that leads to local environmental impacts of aquaculture. Since aquatic production is diversifying with new fish species and extending to new areas for which data can be scarce, it is important to develop parsimonious approaches with fewer data requirements and less scientific complexity. We developed the Farm productIon and Nutrient emiSsions (FINS) model, which simulates fish farm operation and estimates fish biomass, feed inputs, and waste emissions from sea cages using simple modeling approaches and a variety of data sources. We applied FINS to red drum (Sciaenops ocellatus) culture in Mayotte by collecting relevant input data (growth, digestibility) from experimental trials. Three explorative farming scenarios—small, medium, and large—were defined from field survey data to examine and compare emissions of a range of potential commercial culture conditions and production scales (23, 299, and 2079 t year−1, respectively). Comparison of the three scenarios showed that waste emissions per ton of fish harvested during routine operations, and thus environmental impacts, were higher for longer culture cycles (medium farm) because of lower feed conversion efficiency. The FINS model is a simple alternative tool to assess and compare environmental impacts of different farming systems and practices for new aquaculture species and regions. It provides important drivers to assess local environmental impacts of fish farms and can therefore facilitate the process of licensing new farming systems for decision-makers.

6 citations

Journal ArticleDOI
Reproductive patterns of holothuria scabra (echinodermata: holothuroidea) in indonesian waters

[...]

P. Purwati1
Indonesian Institute of Sciences1
11 May 2018
TL;DR: The review showed that the development of gonadal tubules amongst populations of Indonesian H. scabra were similar and conformed to general characteristics of this species throughout the world, and were different from the proposed tubule recruitment model of Smiley (1988).
Abstract: During 1993 to 1996, reproductive aspects of Holothuria scabra, one of the commercially important holothurian species in Indonesian waters were studied, which involved populations of Ambon Bay (eastern Indonesian waters), Saugi Island (central Indonesian waters) and Lampung Bay (western Indonesian waters). Those studies were reviewed in this paper, not only to reveal general patterns of reproductive seasons of populations throughout Indonesian waters, but also to provide more knowledge on gonadaltubule-development that has been rarely investigated on Indonesian holothurians. The review showed that the development of gonadal tubules amongst populations of Indonesian H. scabra were similar. Those included that: tubules across a gonad grew for one single reproductive cycle, and each tubule had equal opportunity to release their gametes in the same spawning event. These features conformed to general characteristics of this species throughout the world, and were different from the proposed tubule recruitment model of Smiley (1988). Each observed population showed fluctuation on gonad index, and individuals with fecund and/or post spawning gonads were recorded in most sampling occasions, resulting in fluctuation of gonad index. This attribute gave clue to through-year spawning activity with more intense during one or two periods in a year.

6 citations

"Integrated multi-trophic aquacultur..." refers background in this paper

  • ...In addition, Purwati (2006) and 661 Rasolofonirina et al. (2005) reported gonad indices for H. scabra in the Indian Ocean from 0-11% of total body 662 weight, while Penina Tua Rahantoknam (2017) reported values up to 16%....

    [...]

  • ...It is known that sexual maturity appears at ca. 180 g (Juinio-659 Meñez et al., 2013), and depending on the population, an annual, bi-annual or continuous reproductive cycle can be 660 observed (Conand, 1990; Morgan, 2000; Purwati, 2006; Rasolofonirina et al., 2005)....

    [...]

Estimation of energy budget of sea cucumber, Holothuria scabra, in integrated multi-trophic aquaculture

[...]

Satoshi Watanabe, Masashi Kodama, Zenith Gaye A. Orozco, Joemel Gentelizo Sumbing, Schedar Rose M. Novilla, Ma. Junemie Hazel Lebata-Ramos 
01 Jan 2015
TL;DR: In this article, the authors used IMTA for small-scale coastal fish farmers in the Philippines, with sea cucumber (Holothuria scabra, commonly known as sandfish), as the key species.
Abstract: Continuous intensification of aquaculture production has brought about environmental issues associated with eutrophication worldwide. Environmental deterioration such as hypoxia and sulfide production due to water and sediment eutrophication originating from aquaculture effluents have been problematic, resulting to sporadic disease outbreaks and fish kills in the Philippines. Integrated multi-trophic aquaculture (IMTA) is one of the promising methods for sustainable aquaculture as it also provides a supplementary source of income to the fish farmers. IMTA is a polyculture system that integrates culturing of fed species (e.g. finfish) the main commodity, organic extractive species (e.g. deposit and filter feeding benthos) and inorganic extractive species (e.g. seaweed). In this study, IMTA techniques were established for small-scale coastal fish farmers in the Philippines, with sea cucumber (Holothuria scabra, commonly known as sandfish), as the key species. Sandfish commands the highest price in tropical sea cucumber species. Nitrogen (N) budget of sandfish in polyculture with milkfish (Chanos chanos) and Elkhorn sea moss (Kappaphycus alvarezii), both of which are commonly cultured in the Philippines, was estimated using a simple closed box model. Information on stocking density, stocking size, mortality, growth, feed ration, feed assimilation, NH4-N production and NH4-N absorption of these species was obtained from a series of experiments and existing literature. Culture conditions were as follows: 26 g milkfish were cultured in a 5 x 5 x 4 m cage at an average stocking density of 36.7 ind/m3 (i.e. usual practice in the Philippines) with an initial feeding ration of 10% of body weight which was gradually decreased to 4% over time; 10 g sandfish were cultured in a 5 x 5 x 0.3 m cage hung under the milkfish cage to trap particulate N waste (i.e. feces and leftover feed) from milkfish culture at a stocking density of 35 ind/m2; the stocking weight of Elkhorn sea moss line culture was 10 kg. The culture period was 200 days. It was estimated that milkfish culture under the above-mentioned schemes cumulatively produced 145 kg of particulate N, and milkfish and sandfish together excreted 60 kg of NH4-N in 200 days of culture. Daily assimilation rate of the particulate N by sandfish ranged from 3.4 to

5 citations

Journal ArticleDOI
The Effect of Food Quality and Rearing Density on the Growth and Survival of Epibenthic Juveniles of the Sea Cucumber Holothuria scabra

[...]

Thierry Lavitra, Richard Rasolofonirina, Philippe Grosjean, Michel Jangoux, Igor Eeckhaut 
16 Jul 2010-Western Indian Ocean journal of marine science
TL;DR: The study of biomass showed that the optimum level for the rearing density is 450 +/- 150 juveniles m m-2, when the parameters of survival, growth rate and biomass (expressed in volume) are all taken into consideration.
Abstract: —Seven combinations of aquatic plant extracts were tested to feed juveniles of H. scabra: Thalassia hemprichii, T. hemprichii with 3 % Spirulina, Sargassum latifolium, S. latifolium with 3 % Spirulina, Thalassodendron ciliatum, Syringodium isoetifolium and organic biofilm. A control test consisted in rearing epibenthic juveniles in tank without any food supply. The results showed that extracts of S. latifolium with or without Spirulina gave the best growth and high survival rates: the mean epibenthic volumes were 112 +/- 55 mm³ and 81 +/- 21 mm3 and the survival rates were 60 and 68 % respectively at the end of the experiment (8 weeks). Rearing densities of 150, 300, 450 and 600 individuals m m-2 were tested. The best survival rates (greater than 60 %) were observed in the batches with an initial density of 450 individuals m m-2 or less. The best growth rate was observed with an initial rearing density of 150 individuals m-². The study of biomass showed that the optimum level for the rearing density is 450 +/- 150 juveniles m m-2 . When the parameters of survival, growth rate and biomass (expressed in volume) are all taken into consideration, the optimum rearing density suggested for epibenthic juveniles of H. scabra is between 300 and 450 individuals m-2 . Keywords: Holothuria scabra, epibenthic juveniles, rearing, survival, growth

4 citations

"Integrated multi-trophic aquacultur..." refers background or methods in this paper

  • ...…223 for the sea cucumber hatchery were collected from literature on the H. scabra hatchery in southwestern Madagascar 224 (Eeckhaut et al., 2008; Lavitra et al., 2010) and from expert reports of a project for a commercial-scle hatchery on 225 Mayotte (Cabinet Gressard consultants et al., 2013),…...

    [...]

  • ...Management of sea cucumber culture consists of one 240 cohort of individuals released in cages at a weight of 10 g (Battaglene et al., 1999; Lavitra et al., 2010; Purcell and 241 Simutoga, 2008) and harvested at one time, after a 12 month culture cycle....

    [...]

  • ...2009) and complied with previous growth data up to 31°C (Thierry Lavitra et al., 2010) and 33°C (Kühnhold et al., 654 2017)....

    [...]

  • ...…to many experiments that showed a large effect of stocking 466 density on sea cucumber growth (Battaglene et al., 1999; Hannah et al., 2013; T Lavitra et al., 2010; Li and Li, 2010; 467 Pitt and Duy, 2004) and better growth performances at low densities (Slater and Carton, 2007; Yokoyama,…...

    [...]

Related Papers (5)
Integrated aquaculture: rationale, evolution and state of the art emphasizing seaweed biofiltration in modern mariculture

[...]

05 Mar 2004-Aquaculture
Amir Neori, Thierry Chopin, Max Troell, Max Troell, Alejandro H. Buschmann, George P. Kraemer, Christina Halling, Muki Shpigel, Charles Yarish 
Integrated Multi-Trophic Aquaculture (IMTA) system combining the sea urchin Paracentrotus lividus, as primary species, and the sea cucumber Holothuria tubulosa as extractive species

[...]

15 Mar 2021-Aquaculture
Luca Grosso, Arnold Rakaj, Alessandra Fianchini, Lorenzo Morroni, Stefano Cataudella, Michele Scardi 
Growth and nutrient uptake by Palmaria palmata integrated with Atlantic halibut in a land-based aquaculture system

[...]

15 Mar 2014-Algae
Peter Corey, Jang K. Kim, Jim Duston, David J. Garbary 
Apostichopus japonicus: A Key Species in Integrated Polyculture Systems

[...]

01 Jan 2015-Developments in Aquaculture and Fisheries Science
Xiutang Yuan, Yi Zhou, Yuze Mao
Harvesting amphipods applying the integrated multitrophic aquaculture (IMTA) concept in off-shore areas

[...]

20 Mar 2018-Aquaculture
Victoria Fernandez-Gonzalez, Kilian Toledo-Guedes, Juan Manuel Valero-Rodriguez, María del Mar Agraso, Pablo Sanchez-Jerez 
Frequently Asked Questions (1)
Q1. What are the contributions in "Integrated multi-trophic aquaculture of red drum (sciaenops ocellatus) and sea cucumber (holothuria scabra): assessing bioremediation and life-cycle impacts" ?

In this paper, the authors evaluated the environmental sustainability of aquaculture using a holistic and multi-scale framework, where organisms of different trophic levels are co-cultured on the same farm.