A simulation model for Japanese sardine ( Sardinops melanostictus) migrations in the western North Pacific

A two-dimensional individual-based model coupled with fish bioenergetics was developed to simulate migration and growth of Japanese sardine ( Sardinops melanostictus) in the western North Pacific. In the model, fish movement is controlled by feeding and spawning migrations with passive transport by...

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Published inEcological modelling Vol. 220; no. 4; pp. 462 - 479
Main Authors Okunishi, Takeshi, Yamanaka, Yasuhiro, Ito, Shin-ichi
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 24.02.2009
Elsevier
Subjects
Agnatha. Pisces
Animal, plant and microbial ecology
Artificial neural network
Bioenergetics model
Biological and medical sciences
Fish migration
Fundamental and applied biological sciences. Psychology
General aspects. Techniques
Genetic algorithm
Japanese sardine
Methods and techniques (sampling, tagging, trapping, modelling...)
Sardinops
Sardinops melanostictus
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
West Pacific
Pacific Ocean
North Pacific
Japan
IN, North Pacific
INW, Japan
Fish migration
Artificial neural network
Genetic algorithm
Bioenergetics model
Japanese sardine
Vertebrata
Migration
Pisces
Simulation model
Neural network
Bioenergetic model
Online AccessGet full text
ISSN0304-3800
1872-7026
DOI10.1016/j.ecolmodel.2008.10.020

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Abstract A two-dimensional individual-based model coupled with fish bioenergetics was developed to simulate migration and growth of Japanese sardine ( Sardinops melanostictus) in the western North Pacific. In the model, fish movement is controlled by feeding and spawning migrations with passive transport by simulated ocean current. Feeding migration was assumed to be governed by search for local optimal habitats, which is estimated by the spatial distribution of net growth rate of a sardine bioenergetics model. The forage density is one of the most important factors which determines the geographical distributions of Japanese sardine during their feeding migrations. Spawning migration was modeled by an artificial neural network (ANN) with an input layer composed of five neurons that receive environmental information (surface temperature, temperature change experienced, current speed, day length and distance from land). Once the weight of the ANN was determined, the fish movement was solved by combining with the feeding migration model. To obtain the weights of the ANN, three experiments were conducted in which (1) the ANN was trained with back propagation (BP) method with optimum training data, (2) genetic algorithm (GA) was used to adjust the weights and (3) the weights of the ANN were decided by the GA with BP, respectively. BP is a supervised learning technique for training ANNs. GA is a search technique used in computing to find approximate solutions, such as optimization of parameters. Condition factor of sardine in the model is used as a factor of optimization in the GA works. The methods using only BP or GA did not work to search the appropriate weights in the ANN for spawning migration. In the third method, which is a combined approach of GA with BP, the model reproduced the most realistic spawning migration of Japanese sardine. The changes in temperature and day length are important factors for the orientation cues of Japanese sardine according to the sensitivity analysis of the weights of the ANN.
AbstractList A two-dimensional individual-based model coupled with fish bioenergetics was developed to simulate migration and growth of Japanese sardine (Sardinops melanostictus) in the western North Pacific. In the model, fish movement is controlled by feeding and spawning migrations with passive transport by simulated ocean current. Feeding migration was assumed to be governed by search for local optimal habitats, which is estimated by the spatial distribution of net growth rate of a sardine bioenergetics model. The forage density is one of the most important factors which determines the geographical distributions of Japanese sardine during their feeding migrations. Spawning migration was modeled by an artificial neural network (ANN) with an input layer composed of five neurons that receive environmental information (surface temperature, temperature change experienced, current speed, day length and distance from land). Once the weight of the ANN was determined, the fish movement was solved by combining with the feeding migration model. To obtain the weights of the ANN, three experiments were conducted in which (1) the ANN was trained with back propagation (BP) method with optimum training data, (2) genetic algorithm (GA) was used to adjust the weights and (3) the weights of the ANN were decided by the GA with BP, respectively. BP is a supervised learning technique for training ANNs. GA is a search technique used in computing to find approximate solutions, such as optimization of parameters. Condition factor of sardine in the model is used as a factor of optimization in the GA works. The methods using only BP or GA did not work to search the appropriate weights in the ANN for spawning migration. In the third method, which is a combined approach of GA with BP, the model reproduced the most realistic spawning migration of Japanese sardine. The changes in temperature and day length are important factors for the orientation cues of Japanese sardine according to the sensitivity analysis of the weights of the ANN.
A two-dimensional individual-based model coupled with fish bioenergetics was developed to simulate migration and growth of Japanese sardine ( Sardinops melanostictus) in the western North Pacific. In the model, fish movement is controlled by feeding and spawning migrations with passive transport by simulated ocean current. Feeding migration was assumed to be governed by search for local optimal habitats, which is estimated by the spatial distribution of net growth rate of a sardine bioenergetics model. The forage density is one of the most important factors which determines the geographical distributions of Japanese sardine during their feeding migrations. Spawning migration was modeled by an artificial neural network (ANN) with an input layer composed of five neurons that receive environmental information (surface temperature, temperature change experienced, current speed, day length and distance from land). Once the weight of the ANN was determined, the fish movement was solved by combining with the feeding migration model. To obtain the weights of the ANN, three experiments were conducted in which (1) the ANN was trained with back propagation (BP) method with optimum training data, (2) genetic algorithm (GA) was used to adjust the weights and (3) the weights of the ANN were decided by the GA with BP, respectively. BP is a supervised learning technique for training ANNs. GA is a search technique used in computing to find approximate solutions, such as optimization of parameters. Condition factor of sardine in the model is used as a factor of optimization in the GA works. The methods using only BP or GA did not work to search the appropriate weights in the ANN for spawning migration. In the third method, which is a combined approach of GA with BP, the model reproduced the most realistic spawning migration of Japanese sardine. The changes in temperature and day length are important factors for the orientation cues of Japanese sardine according to the sensitivity analysis of the weights of the ANN.
Author Okunishi, Takeshi
Yamanaka, Yasuhiro
Ito, Shin-ichi
Author_xml – sequence: 1
  givenname: Takeshi
  surname: Okunishi
  fullname: Okunishi, Takeshi
  email: okunishi@affrc.go.jp
  organization: Faculty of Environmental Science, Hokkaido University, N10W5, Kita-ku, Sapporo 060-0810, Japan
– sequence: 2
  givenname: Yasuhiro
  surname: Yamanaka
  fullname: Yamanaka, Yasuhiro
  organization: Faculty of Environmental Science, Hokkaido University, N10W5, Kita-ku, Sapporo 060-0810, Japan
– sequence: 3
  givenname: Shin-ichi
  surname: Ito
  fullname: Ito, Shin-ichi
  organization: Tohoku National Fisheries Research Institute, Fisheries Research Agency, 3-27-5 Shinhama-cho, Shiogama, Miyagi 985-0001, Japan
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Issue 4
Keywords Fish migration
Artificial neural network
Genetic algorithm
Bioenergetics model
Japanese sardine
Vertebrata
Migration
Pisces
Simulation model
Neural network
Bioenergetic model
Language English
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Snippet A two-dimensional individual-based model coupled with fish bioenergetics was developed to simulate migration and growth of Japanese sardine ( Sardinops...
A two-dimensional individual-based model coupled with fish bioenergetics was developed to simulate migration and growth of Japanese sardine (Sardinops...
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SubjectTerms Agnatha. Pisces
Animal, plant and microbial ecology
Artificial neural network
Bioenergetics model
Biological and medical sciences
Fish migration
Fundamental and applied biological sciences. Psychology
General aspects. Techniques
Genetic algorithm
Japanese sardine
Methods and techniques (sampling, tagging, trapping, modelling...)
Sardinops
Sardinops melanostictus
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
Title A simulation model for Japanese sardine ( Sardinops melanostictus) migrations in the western North Pacific
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https://www.proquest.com/docview/20308385
Volume 220
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