26-28 may 2009dr. mala supongpan unusable stock recruitment growth natural deaths disease emigration...
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26-28 May 2009 Dr. Mala Supongpan
Unusable Stock
Recruitment
Growth
Natural DeathsDisease
EmigrationImmigration
Recruitment Usable StockGrowth
Natural DeathsDisease
EmigrationImmigration
Yields Dynamics of fish stock Fishing mortality=F
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26-28 May 2009 Dr. Mala Supongpan
FMGR
R = Recruitment G = GrowthM =Natural mortalityF = Fishing mortality
Can be controlled?
HOW?
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26-28 May 2009 Dr. Mala Supongpan
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26-28 May 2009 Dr. Mala Supongpan
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26-28 May 2009 Dr. Mala Supongpan
Yield against effort CPUE against effort
Holistic methods
Analytical methods
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26-28 May 2009 Dr. Mala Supongpan
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26-28 May 2009 Dr. Mala Supongpan
Catches, Species and Sizes composition
Abundance
Biomass estimation
Analytical methods and Holistic methods
Parameter estimation (recruitment, growth, mortality-
natural
mortality, fishing mortality and total mortality)
Catch and effort data from statistic record (time
series)
Population size and catchability
Using catch per unit effort to find original population
size and
catchability
The fish stock assessment needs:
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26-28 May 200926-28 May 2009 Dr. Mala SupongpanDr. Mala Supongpan
Parameters for fish stock assessment
1. Length-weight
WLWLba tt ,,,,,
2. Growth parameter RWLtK ,,,, 0
3. Mortality qMFZ ,,,
And data on production
Catch and effort, production and biomass
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26-28 May 2009 Dr. Mala Supongpan
Modal Progression Analysis
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26-28 May 200926-28 May 2009 Dr. Mala SupongpanDr. Mala Supongpan
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26-28 May 2009 Dr. Mala Supongpan
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26-28 May 2009 Dr. Mala Supongpan
1. Estimation of initial population size and catchability coefficient from the fishing success to catch or effort
0N Original population size catchability q
For virgin stock or limited data
Leslie’s method tt
t qKqNf
C 0
tt
t qEqNf
C )ln(ln 0DeLury’s method
Cumulative catch+
Cumulative effort+
Z=M+FZ=M+qfF=qf
(Roughly virgin stock size)
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26-28 May 2009 Dr. Mala Supongpan
2. Estimation of Z using CPUE data
ZtCPUE
tCPUE
tt
)2(
)1(ln
12
1
3. Natural mortality estimation
0N
NeS tM
When no fishing
)ln(ln0N
NSM t
4. Fishing mortality estimation
F=Z-M
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Dr. Mala Supongpan26-28 May 2009
Estimation of total mortality (Z) 1. CPUE data
2. Catch curve based on length composition data 3. Cumulative catch curve based on length composition data 4. ’Beverton and Holt s Z equation 5. Plot Z on effort
1. Estimate Z from CPUE daaa ))12((
12 * ttZtt eNN
ZN
N
tt t
t
2
1ln12
1
tqNtCPUE )(
)2(
)1(
2
1
2
1
tCPUE
tCPUE
qN
qN
N
N
t
t
t
t
ZtCPUE
tCPUE
tt
)2(
)1(ln
12
1
From above equations, then gives:
*
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26-28 May 2009 Dr. Mala Supongpan
Plot Z against effort to estimate F and M
Z = M + q*f F = Z - M
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26-28 May 2009 Dr. Mala Supongpan
B = CPUE * A /a*X1
B = Biomass (tons/ km2)
A = total area (km2) (101,384 km2)
a = Swept Area = D*h*X2
{ D= (V*t) = 2.5*1} h ( head rope) (= 39 m) X2 = 0.5
a = (2.5*1.852) * (0.039*0.5) = 0.090285
X1 = 0.5
X2 = 0.5
Biomass estimation
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26-28 May 2009 Dr. Mala Supongpan
Swept area to estimate biomass
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26-28 May 2009 Dr. Mala Supongpan
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26-28 May 2009 Dr. Mala Supongpan
Survey strata by depth
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26-28 May 2009 Dr. Mala Supongpan
aMBYmax
Sustainable yield estimation
MBY 5.0max
ZBY 5.0max
)(5.0max MBYY
Virgin biomass
For conservation, a- should be=0.3
B
ZB = (F+M)B and the catch Y = FB
MBY 3.0max
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26-28 May 2009 Dr. Mala Supongpan
Definition
Catchability ( ): A fraction of a fish stock
which is caught by a defined unit of the fishing effort.
When the unit is small enough that it catches only
a small part of the stock-0.01 or less-it can be used
As an instantaneous rate in computating population
change. Also called catchability coeffifient.
q
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26-28 May 2009 Dr. Mala Supongpan
Availability:
The fraction of a fish population which lives
in regions where it is susceptible to fishing
during a given fishing season. This fraction
receives recruits from or become mingled with
the non-available part of the stock at other seasons,
or in other years.
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26-28 May 2009 Dr. Mala Supongpan
Catch per unit of effort (CPUE):
The catch of fish, in number or in weight,
taken by a defined unit of fishing effort.
Also called Catch per effort, fishing success,
availability.
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26-28 May 2009 Dr. Mala Supongpan
Biomass:
The weight of a fish stock, or of some defined
portion of it.
Fishing effort:
The total fishing gear in use for a specified period
of time. When two or more kinds of gear are used,
they must be adjusted to some standard type.
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26-28 May 2009 Dr. Mala Supongpan
References
Gulland, J.A. 1983. Fish stock assessment.
(FAO/Wiley series on food and agriculture; v. 1),
223 pp.
Ricker, W.E. 1975. Computation and interpretation
of biological statistics of fish populations,
pp.151-155.
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26-28 May 2009 Dr. Mala Supongpan
Exercises 1 and 2