Modelling the role of bivalve shellfish in Integrated Multi-trophic Aquaculture (IMTA) - examples for shrimp ponds and offshore finfish cage

Joao G. Ferreira; Changbo Zhu; Camille Saurel; Suzanne B. Bricker; Carlos Vale

Modelling the role of bivalve shellfish in Integrated Multi-trophic Aquaculture (IMTA) - examples for shrimp ponds and offshore finfish cage

Joao G. Ferreira, Changbo Zhu, Camille Saurel, Suzanne B. Bricker, Carlos Vale

NOVA University Lisbon

Research output: Contribution to journal › Journal article › Research › peer-review

Original language	English
Journal	Journal of Shellfish Research
Volume	30
Issue number	2
Pages (from-to)	505
ISSN	0730-8000
Publication status	Published - 2011
Externally published	Yes

Keywords

capacity optimisation
culture cycle
effluent loading
environmental emission
eutrophication
feed biodeposition
harvest potential
Integrated Multi-Trophic Aquaculture
Mediterranean mussel
pond production
sediment organic enrichment
sustainable aquaculture
water quality
Animalia (Animals, Invertebrates) - Invertebrata [34000] bivalve shellfish common
Crustacea Arthropoda Invertebrata Animalia (Animals, Arthropods, Crustaceans, Invertebrates) - Malacostraca [75112] shrimp common
Mollusca Invertebrata Animalia (Animals, Invertebrates, Mollusks) - Pelecypoda [61500] Pacific oyster common
00520, General biology - Symposia, transactions and proceedings
04500, Mathematical biology and statistical methods
07516, Ecology: environmental biology - Wildlife management: aquatic
10515, Biophysics - Biocybernetics
37015, Public health - Air, water and soil pollution
64001, Invertebrata: comparative, experimental morphology, physiology and pathology - General
64026, Invertebrata: comparative, experimental morphology, physiology and pathology - Mollusca
64054, Invertebrata:comparative, experimental morphology, physiology and pathology - Arthropoda: crustacea
Computational Biology
Aquaculture
Models and Simulations
Pollution Assessment Control and Management

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

OpenUrl availability

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Cite this

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title = "Modelling the role of bivalve shellfish in Integrated Multi-trophic Aquaculture (IMTA) - examples for shrimp ponds and offshore finfish cage",

keywords = "capacity optimisation, culture cycle, effluent loading, environmental emission, eutrophication, feed biodeposition, harvest potential, Integrated Multi-Trophic Aquaculture, Mediterranean mussel, pond production, sediment organic enrichment, sustainable aquaculture, water quality, Animalia (Animals, Invertebrates) - Invertebrata [34000] bivalve shellfish common, Crustacea Arthropoda Invertebrata Animalia (Animals, Arthropods, Crustaceans, Invertebrates) - Malacostraca [75112] shrimp common, Mollusca Invertebrata Animalia (Animals, Invertebrates, Mollusks) - Pelecypoda [61500] Pacific oyster common, 00520, General biology - Symposia, transactions and proceedings, 04500, Mathematical biology and statistical methods, 07516, Ecology: environmental biology - Wildlife management: aquatic, 10515, Biophysics - Biocybernetics, 37015, Public health - Air, water and soil pollution, 64001, Invertebrata: comparative, experimental morphology, physiology and pathology - General, 64026, Invertebrata: comparative, experimental morphology, physiology and pathology - Mollusca, 64054, Invertebrata:comparative, experimental morphology, physiology and pathology - Arthropoda: crustacea, Computational Biology, Aquaculture, Models and Simulations, Pollution Assessment Control and Management",

author = "Ferreira, {Joao G.} and Changbo Zhu and Camille Saurel and Bricker, {Suzanne B.} and Carlos Vale",

year = "2011",

language = "English",

volume = "30",

pages = "505",

journal = "Journal of Shellfish Research",

issn = "0730-8000",

publisher = "National Shellfisheries Association, Inc.",

number = "2",

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TY - JOUR

T1 - Modelling the role of bivalve shellfish in Integrated Multi-trophic Aquaculture (IMTA) - examples for shrimp ponds and offshore finfish cage

AU - Ferreira, Joao G.

AU - Zhu, Changbo

AU - Saurel, Camille

AU - Bricker, Suzanne B.

AU - Vale, Carlos

PY - 2011

Y1 - 2011

KW - capacity optimisation

KW - culture cycle

KW - effluent loading

KW - environmental emission

KW - eutrophication

KW - feed biodeposition

KW - harvest potential

KW - Integrated Multi-Trophic Aquaculture

KW - Mediterranean mussel

KW - pond production

KW - sediment organic enrichment

KW - sustainable aquaculture

KW - water quality

KW - Animalia (Animals, Invertebrates) - Invertebrata [34000] bivalve shellfish common

KW - Crustacea Arthropoda Invertebrata Animalia (Animals, Arthropods, Crustaceans, Invertebrates) - Malacostraca [75112] shrimp common

KW - Mollusca Invertebrata Animalia (Animals, Invertebrates, Mollusks) - Pelecypoda [61500] Pacific oyster common

KW - 00520, General biology - Symposia, transactions and proceedings

KW - 04500, Mathematical biology and statistical methods

KW - 07516, Ecology: environmental biology - Wildlife management: aquatic

KW - 10515, Biophysics - Biocybernetics

KW - 37015, Public health - Air, water and soil pollution

KW - 64001, Invertebrata: comparative, experimental morphology, physiology and pathology - General

KW - 64026, Invertebrata: comparative, experimental morphology, physiology and pathology - Mollusca

KW - 64054, Invertebrata:comparative, experimental morphology, physiology and pathology - Arthropoda: crustacea

KW - Computational Biology

KW - Aquaculture

KW - Models and Simulations

KW - Pollution Assessment Control and Management

M3 - Journal article

SN - 0730-8000

VL - 30

SP - 505

JO - Journal of Shellfish Research

JF - Journal of Shellfish Research

IS - 2

ER -