Exploratory spatially-structured models for bigeye...
Transcript of Exploratory spatially-structured models for bigeye...
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Exploratory spatially-structured models for bigeye tuna in the
eastern Pacific Ocean Juan L. Valero, Mark. N. Maunder, Haikun Xu,
Carolina Minte-Vera, Cleridy Lennert-Cody and Alexandre Aires-da-Silva
CAPAM Spatial Assessment Models Workshop Oct. 02, 2018, La Jolla, CA
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Outline
• Motivation for this work Resolve BET stock assessment model misspecifications (Spatial mismatch)
Improve BET stock assessment
Develop more realistic operating models for ongoing Management Strategy Evaluation (MSE)
• Approach
Age-structured production models (ASPM) for alternative spatial sub-areas of the EPO
Integrated model for EPO’s Central area (largest spatial mismatch between PS catch and LL index)
Spatial Integrated model of 4 EPO areas
Spatial structure as defined by Lennert-Cody et al and Minte-Vera et al. (this workshop)
Movement scenarios as defined by Xu et al. (this workshop)
• Results
• Summary of work so far
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Recurs in BET assessments since 2003
Alternative hypotheses:
• Environmental shift (Fonteneau and Ariz, 2008)
• Underestimated early FAD catch (Idem)
• Higher natural mortality (Idem) • Density-dependent growth (Hoyle, SPC) • Migratory pattern changes (Harley, SPC)
• Artifact due to large catches of small individuals by
the purse-seine fishery (Maunder et al., 2010)
• Spatial mismatch between PS catch and LL CPUE index (Aires-da-Silva and Maunder, 2010)
λ = 1 λ = 1
Expansion of FAD fishery
Rel
ativ
e R
ecru
itm
en
t
The two-regime BET recruitment pattern
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Expansion of FAD fishery
90 % LL 35% LL Expansion of Purse Seine fishery
Increased TOTAL catch
Smaller fish in Purse Seine fishery
Year
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Longline CPUE main source of information
Year 2012 2000 1987 1975
LL-Central
LL-South
Current BET assessment • Longline CPUE indices are the main source
of information in the BET stock assessment Purse seine CPUE indices are not used
in the assessment
Size composition data is greatly down weighted (0.05 of original weight)
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Spatial heterogeneity among fishery catches
BET catch during 2008-2012 (modified from Schaefer et al. 2015)
EPO
•Most of PS catches from Equatorial area Between 5°N and 5°S
•Little LL catch in Equatorial area
Between 5°N and 5°S from 110°W to 85°W
Central Area
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Movements of BET for >30 days, archival tagging data from 2000-2006 (Schaefer and Fuller 2009)
• Current BET assessment uses a single area, assuming stock is randomly mixed within the EPO, with no localized spatial dynamics
• However, tagging indicate restricted movements for some areas, regional fidelity in particular in the Central area
• Restricted movements in some areas, combined with spatial heterogeneity of catches, suggest that localized depletion of BET sub-stocks may exist in the EPO
Spatial heterogeneity in BET movements
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The “spatial mismatch” hypothesis
BET catch during 2000-2006 (From Aires-da-Silva and Maunder, 2010)
This hypothesis postulates that:
• The two-recruitment pattern results from spatial misspecification in the assessment
• The increase in equatorial purse seine-catch not reflected in reductions in longline CPUE due to: Restricted BET movements, leading to
local depletion, and The longline CPUE corresponding to a
wider, or different, area than where the increased purse-seine catch occurred
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2000-2006 BET catch (From Aires-da-Silva and Maunder, 2010)
• If hypothesis correct, a spatially-structured BET assessment should correct the two-regime recruitment pattern
• Aires-da-Silva and Maunder (2010) fitted spatially independent models for four EPO areas, resulting in different trends and depletion levels among areas and a partial correction of the recruitment pattern
The “spatial mismatch” hypothesis
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Age-structured production model (ASPM)
Evaluates consistency between catch & CPUE •Systematically divide the EPO into 12 grids of 6 areas each (72 total areas)
•Fit an independent ASPM to each area’s total catch by fleet and LL CPUE
•Estimate quarterly biomass, fishing mortality, (with and without recruitment deviates)
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• Runs with recruitment deviates produce better fits to the longline CPUE
• Recruitment is driving abundance more than catch is. Problematic when relying on the effect of catch on CPUE to inform absolute abundance
Age-structured production model (ASPM)
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General ASPM results
• Largest estimated biomass declines in Equatorial areas
• Some area combinations have too
sparse data for meaningful results Fewer areas and alternative divisions
Age-structured production model (ASPM)
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General ASPM results
• Two-regime recruitment pattern estimated in several area combinations
• Pattern independent of length
compositions, which are not used in the ASPM
Age-structured production model (ASPM)
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Similar to BET base model but restricted to the Central Area, where the increased purse-seine catch occurred • Fisheries redefined on spatial overlap with Central area
• Three alternative weightings of the composition data:
(λ = 0.05, λ = 1, and Francis (2011) iterative weighting)
Integrated model (Central area)
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Integrated model (Central area)
• The integrated model estimates a steeper declining trend in the spawning biomass ratio (SBR), and a more depleted stock status in the Central area than is estimated by the base case stock assessment for the whole EPO
• Recruitment estimates for the Central area
do not show the two-regime pattern typical of previous models
• Results are consistent with those of Aires-da-
Silva and Maunder (2010)
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Integrated model (Base case SAC 08 )
• The integrated model estimates a steeper declining trend in the spawning biomass ratio (SBR), and a more depleted stock status in the Central area than is estimated by the base case stock assessment for the whole EPO
• Recruitment estimates for the Central area
do not show the two-regime pattern typical of previous models
• Results are consistent with those of Aires-da-
Silva and Maunder (2010)
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Integrated model (Central area, data weighting)
• Alternative length-composition data-weighting does not change overall results in the Central area model
• In contrast, length-composition data are down-weighted (λ=0.05) in the base case assessment. Up-weighting (λ =1) worsens the two-regime pattern and leads to a more pessimistic stock status
• Francis (2011) method suggests increasing λ for all fisheries, to around 0.5 for purse-seine fisheries and to between 0.8 and 2.5 for longline fisheries
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Integrated model (Central Area) and ASPM
• Declining biomass trends are similar between the Integrated model and ASPM (both with and without standardization), the biomass scale is lower for the Integrated model
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• Although the two-regime pattern is not evident in the integrated model, it is evident in the ASPM, whether standardized or nominal CPUE is used
• Using smaller areas to resolve the spatial mismatch between purse-seine catches and longline CPUE may be only partially successful unless length-composition data are included
Integrated model (Central Area) and ASPM
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Conclusions (up to last week)
• Spatially disaggregating the BET assessment removed the recruitment two-regime
pattern, consistent with the spatial mismatch hypothesis
• The two-regime pattern seems to be an artifact of treating the EPO as a single
homogeneous area when in fact there are localized dynamics of the stock and the
fisheries that should be taken into account to remove model misspecification
• Alternative spatial management measures should be evaluated for BET in the EPO
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More recent work
• Spatial Integrated model in Stock Synthesis dividing the EPO into four areas
• Spatial structure as defined by Lennert-Cody et al and Minte-Vera et al.
(this workshop)
• Movement scenarios as defined by Xu et al. (this workshop)
• Alternative spatiotemporal standardization of CPUE indices (Xu et al.)
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Pacific wide BET catches
BET catch during 2008-2012 (modified from Schaefer et al. 2015)
EPO Area
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EPO BET catches
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EPO BET Spatial Structure assumptions
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EPO BET Spatial Structure assumptions
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A1 A2
A3 A4
EPO BET Spatial Structure assumptions
Four Areas (excluding north of 10°N) A1 A2 A3 A4
Spatial structure as defined by Lennert-Cody et al
and Minte-Vera et al. (this workshop)
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A1 A2
A3
EPO BET Spatial Structure assumptions
A4.5 A4.4
Four Areas (excluding north of 10°N) A1 A2 A3 A4 (split fisheries into A4.4 and A4.5)
Spatial structure as defined by Lennert-Cody et al
and Minte-Vera et al. (this workshop)
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Bigeye tuna models
• SS version 3.23b • Years as Quarters approach
– Years 1975 to 2017 as Quarters 1 to 168
• Max age 40 quarters (10 years) • 2-sex model • Growth is a fixed Richards function • Fixed age/sex specific natural mortality • Steepness h=1 • 1 Area • 27 fleets • 245 parameters • 3 to 8 hours run time
• SS version 3.3.12 • Years as Quarters approach
– Years 1975 to 2018 as Quarters 1 to 172
• Max age 40 quarters (10 years) • 2-sex model • Growth is a fixed Richards function • Fixed age/sex specific natural mortality • Steepness h=1 • 4 Areas • 20 fleets • 230 to 800 parameters • 1 to 3 hours run time
Current base case Exploratory spatial
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A1 A2
A3 A4.4 A4.5
4 Areas, No movement
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A1 A2
A3 A4.4
4 Areas, No movement
A4.5
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4 Areas, No movement
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4 Areas, No movement vs. 1 area Base
Base Spatial
Base Spatial
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A1 A2
A3 A4.4 A4.5
4 Areas, independent assessments
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4 Areas, independent assessments
A1 A2
A3 A4
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A1 A2
A3 A4.4 A4.5
4 Areas, Movement (age invariant)
16% / Q
16% / Q
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4 Areas, Movement (age invariant)
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A1 A2
A3 A4.4 A4.5
4 Areas, Movement (only ages 3 to 8)
16% / Q
16% / Q
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4 Areas, Movement (only ages 3 to 8)
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A1 A2
4 Areas, Movement (only ages 3 to 8) Area specific q and selectivities for longline
q = 0.06 q = 0.0006
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A1 A2
4 Areas, Movement (only ages 3 to 8) Mirror q, BUT area specific selectivities for longline
• Degraded fits to indices • Unrealistic LL selectivities
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A1 A2
4 Areas, Movement (only ages 3 to 8) Mirror q, AND selectivities for longline
• Severely degraded fits to indices! • Non-convergence
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A1 A2
A3 A4.4 A4.5
4 Areas, Movement (3-8 to E, 15+ diffuse)
16% / Q
16% / Q
5%
5%
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4 Areas, Movement (3-8 to E, 15+ diffuse)
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Summary
• Spatial models of the EPO with no movement do not remove the recruitment
regime shift
• Movement at 16% /Q seems too high, even if just for juveniles
• Including East-West diffusion of adults removes the recruitment shift, however
we do not know what are reasonable movement rates for adult BET
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Future work
• Alternative movement scenarios based on existing archival data
• Pacific-wide assessment with SPC
• Better understanding of BET spatial structure and dynamics will improve not
only stock assessments, but also operating models for ongoing MSE work.
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That’s all we have so far!
Questions? Comments?