a population dynamics model for japanese sardine ... · a population dynamics model for japanese...
TRANSCRIPT
![Page 1: A population dynamics model for Japanese sardine ... · A population dynamics model for Japanese sardine, Sardinops melanostictus, off the Pacific coast of Japan, consisting of spatial](https://reader033.vdocuments.mx/reader033/viewer/2022051604/60033460ab94b01785292012/html5/thumbnails/1.jpg)
A population dynamics model for Japanese sardine,
Sardinops melanostictus, off the Pacific coast of Japan,
consisting of spatial early-life stage
and age-structured adult sub-models
Maki Suda, Tatsuro Akamine and Hiroshi Nishida
National Research Institute of Fisheries Science, Fisheries Research Agency
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Concepts of model
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A group of fish
FISH object
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Contents
1 Stock fluctuation of Japanese sardine
2 Life cycle model for Japanese sardine
3 Example of the simulation
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Japanese sardine
0
2000
4000
6000
1905 1935 1965 1995
Year
Japanese sardine catch
Cat
ch (x
100
0 to
ns)
In the late 1980s, successive recruitment failures occurred.
vary according to the level of stock abundance (high and low )
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Japanese sardine
0
50
100
150
200
250
0 1 2 3 4 5
Age
Stan
dard
leng
th (m
m)
020406080100120140
Indi
vidu
al w
eigh
t (g)
Standard length (mm)Individual weight (g)
0
0.2
0.4
0.6
0.8
1
1.2
0 1 2 3 4 5
Age
Mat
urat
ion
rate
vary according to the level of stock abundance (high and low )
Individual growth (by the catch data)
Maturation rate
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What are the causes of sardine stock fluctuation?
• Environmental factors(Water temperature, Food density, Ocean Current)
• Interspecific-relationship• Fishing mortality
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Model planning
• Life cycle model• Spatial early-life-stage model
– Transportation– Growth– Survival
• Age-structured adult model• Object-oriented modeling
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Contents
1 Stock fluctuation of Japanese sardine
2 Life cycle model for Japanese sardine
3 Example of the simulation
![Page 10: A population dynamics model for Japanese sardine ... · A population dynamics model for Japanese sardine, Sardinops melanostictus, off the Pacific coast of Japan, consisting of spatial](https://reader033.vdocuments.mx/reader033/viewer/2022051604/60033460ab94b01785292012/html5/thumbnails/10.jpg)
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Concepts of model
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Transportation
Branch currents
Kuroshio Diffusion
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Transportation
Nt: the survival number of a FISH object at t days after spawning
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Age : t Age: t+1
γ=0.4 (Kuroshio)
γ=0.08 (On either side of the Kuroshio)
γ=0.01 (Diffusion)
Transportation
γ
1-γ
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Survival
The causes of mortality
・Starvation
・Interspecific interactions
・Intraspecific interactions
・Water temperature effects
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Survival
Nt+1=NtDk exp(-Zk)Nt : Survival number of a FISH object at t days
after spawning
Water temperature
Sur
viva
l rat
e
0
0.2
0.4
0.6
0.8
1
10 20 30
Dk : Survival rate associated with the water temperature
Zk : Sum of the food density effect, interspecific interactions and intraspecific interactions
k : Development stage
Dk
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Growth
Factors of growth
・Density dependent
・Food density
・Water temperature
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Growth Wt = δt Ck Fk V Gt+Wt-1Wt: the weight of a Fish object at t days after spawning
δt : Parameter
Ck : Density-dependent effect
Fk : Food density effect
V : Water temperature effect
Gt : Daily increment function
k : Development stage0
0.2
0.4
0.6
0.8
1
13 17 21 25 29Water temperature
V
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Distribution of simulated egg and larvae by sub-model in 1983
Egg
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Distribution of simulated egg and larvae by sub-model in 1983
30 day-larvae
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Distribution of simulated egg and larvae by sub-model in 1983
60 day sardine
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Standard length frequency distribution(Simulated 30 day , 60 day sardine)by sub-model
0100020003000400050006000
25 27 29 31
Standard length (mm)
Sur
viva
l num
ber (
x 10
8 )
30 day 0
500
1000
1500
2000
35 40 45 50 55 60 65
Standard length (mm)S
urvi
val n
umbe
r (x
108 )
60 dayin 1983
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Age-structured model
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Age structured model
• Nt : the number of a Fish object at t days after spawning Nt+1=Nt Dk exp(-Zk)
• Assuming the catch at once t0 for each yearCatch=Nt0(1-exp(-F))Nt0+1=(Nt0-Catch)Dk exp(-Zk)
• k: Development stage
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Spawning
• Egg = q Weight
the total weight (g) of the sardine exceeding 180 mm SL
the total number of eggs of a year
q: Parameter
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Actual Spawning Biomass and Total Egg ( Egg = q Weight)
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Distribution of eggs
• Assuming that the spawning grounds expanded, if eggs was more than 1015
iji prEgg 11
⎩⎨⎧
−+=
ijiiji prEggprN
22)10(1110)0( 1515
1510<Eggif
otherwise
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Distribution of eggsEgg > 1015 Egg < 1015
oceanic coastal
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Concepts of Model
Initial value of the simulation :
the stock number data in 1976
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Input Data• Sea surface temperature
Oceanographic normals and analyses for the period 1971-2000 published by the Meteorological Agency
• Location of Kuroshio axis, Ocean current statisticsPrompt Report of Oceanographic Conditions, published by the
Japan Coast Guard
• Stock abundance index of jack mackerel, anchovy, saury, common squid and skipjackCatch data compiled by the Ministry of Agriculture, Forestry and
Fisheries
• Stock abundance index of chub mackerelStock assessment Report
• Zooplankton biomass Nakata et al. (2001), Nakata and Koyama (2003), Odate (1994)
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Parameter
The correlation of the simulated survival number and the actual abundance of year-class of sardine in 1978-1990
> 0.7
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Contents
1 Stock fluctuation of Japanese sardine
2 Life cycle model for Japanese sardine
3 Example of the simulation
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Simulation Planning
OD: observed data, CD: :constant data
Simulation 1 2 3 4 5
Fishing mortality OD OD CD CD 0.0
Environmental data OD CD OD CD OD
Interspecific relationship OD CD CD OD OD
CD
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Result (Stock)
0
5000
10000
15000
20000
25000
1977
1979
1981
1983
1985
1987
1989
1991
1993
1995
1997
1999
Year
Sto
ck (x
100
0 to
ns)
Observed data by VPA Simulation 1 Simulation 5
Simulation 1 2 3 4 5Fishing mortality O O C C 0.0
Environmental data O C O C OInterspecific relationship O C C O O
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Result (Stock)
0
5000
10000
15000
20000
25000
1977
1979
1981
1983
1985
1987
1989
1991
1993
1995
1997
1999
Year
Sto
ck (x
100
0 to
ns)
Observed data by VPA Simulation 2Simulation 3 Simulation 4
Simulation 1 2 3 4 5Fishing mortality O O C C 0.0
Environmental data O C O C OInterspecific relationship O C C O O
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Result (Individual weight)
050
100150200
0 1 2 3 4 5Age
Wei
ght(g
)
1983(simulation 1) 1992(simulation 1)1983(catch data) 1992 (catch data)
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Summary
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Summary• Development of the individual–based life cycle model, consisting of spatial early-life stage and age-structured adult sub-models
• Population dynamics under heterogeneous environmental conditions, in the early life-stage sub-model
• Object oriented modeling to link the spatial stage-based model with the population-based model
• Flexibility and extensibility in the model