1 ACFFA, 2012
2 Park, M. S., 3-14, 2013
3 Nakada, M., "Yellowtail culture development and solutions for the future" 10 (10): 559-575, 2002
4 Putro, S. P., "The application of integrated multi trophic aquaculture (IMTA) using stratified double net rounded cage (SDFNC) for aquaculture sustainability" 9 (9): 85-89, 2015
5 Nelson, E. J., "The absorption efficiency of the suspension feeding sea cucumber, Cucumaria frondosa, and its potential as an extractive integrated multi-trophic aquaculture (IMTA) species" 370~371 : 19-25, 2012
6 Buschmann, A. H., "Salmon aquaculture and coastal ecosystem health in Chile: analysis of regulations, environmental impacts and bioremediation systems" 52 (52): 243-249, 2009
7 Freitas, Jr. J. R. C, "Saccharina latissima (Laminariales, Ochrophyta) farming in an industrial IMTA system in Galicia (Spain)" 28 : 377-385, 2016
8 McVey, J. P., "Responsible Marine Aquaculture" CABI Publishing 91-104, 2002
9 Mao, Y., "Potential of the seaweed Gracilaria lemaneiformis for integrated multi-trophic aquaculture with scallop Chlamys farreri in North China" 21 (21): 649-656, 2009
10 Haya, K., "Monitoring of the rapeutants and phycotoxins in kelps and mussels co-cultured with Atlantic salmon in an integrated multi-trophic aquaculture system" 104 : 29-34, 2004
1 ACFFA, 2012
2 Park, M. S., 3-14, 2013
3 Nakada, M., "Yellowtail culture development and solutions for the future" 10 (10): 559-575, 2002
4 Putro, S. P., "The application of integrated multi trophic aquaculture (IMTA) using stratified double net rounded cage (SDFNC) for aquaculture sustainability" 9 (9): 85-89, 2015
5 Nelson, E. J., "The absorption efficiency of the suspension feeding sea cucumber, Cucumaria frondosa, and its potential as an extractive integrated multi-trophic aquaculture (IMTA) species" 370~371 : 19-25, 2012
6 Buschmann, A. H., "Salmon aquaculture and coastal ecosystem health in Chile: analysis of regulations, environmental impacts and bioremediation systems" 52 (52): 243-249, 2009
7 Freitas, Jr. J. R. C, "Saccharina latissima (Laminariales, Ochrophyta) farming in an industrial IMTA system in Galicia (Spain)" 28 : 377-385, 2016
8 McVey, J. P., "Responsible Marine Aquaculture" CABI Publishing 91-104, 2002
9 Mao, Y., "Potential of the seaweed Gracilaria lemaneiformis for integrated multi-trophic aquaculture with scallop Chlamys farreri in North China" 21 (21): 649-656, 2009
10 Haya, K., "Monitoring of the rapeutants and phycotoxins in kelps and mussels co-cultured with Atlantic salmon in an integrated multi-trophic aquaculture system" 104 : 29-34, 2004
11 KOSIS, "Korean Statistical Information Service"
12 Sarà, G., "Growth and reproductive simulation of candidate shellfish species at fish cages in the Southern Mediterranean: Dynamic Energy Budget (DEB)modelling for integrated multi-trophic aquaculture" 324 : 259-266, 2012
13 Troell, M., "Ecological engineering in aquaculture potential for integrated multi-trophic aquaculture (IMTA) in marine offshore systems" 297 (297): 1-9, 2009
14 Wang, X., "Discharge of nutrient wastes from salmon farms: environmental effects, and potential for integrated multi-trophic aquaculture" 2 (2): 267-283, 2012
15 Avnimelech, Y., "Development of controlled intensive aquaculture systems with a limited water exchange and adjusted carbon to nitrogen ratio" 46 (46): 119-131, 1994
16 Park, M. S., "Development of Integrated Multi-Trophic Aquaculture System 2" 5 (5): 24-35, 2011
17 Park, M. S., "Development of Integrated Multi-Trophic Aquaculture System 1" 5 (5): 22-35, 2011