Size comps, size method 1, aggregated across time by fleet.
Labels 'retained' and 'discard' indicate discarded or retained sampled for each fleet. Panels without this designation represent the whole catch.
file: comp_sizefit_method1__aggregated_across_time.png
Size comps, size method 1, whole catch, S1.PS_VAST (plot 1 of 7).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method.
file: comp_sizefit_method1_flt33mkt0_page1.png
Size comps, size method 1, whole catch, S1.PS_VAST (plot 1 of 7).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 7)
file: comp_sizefit_method1_flt33mkt0_page2.png
Size comps, size method 1, whole catch, S1.PS_VAST (plot 1 of 7).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 7) (plot 3 of 7)
file: comp_sizefit_method1_flt33mkt0_page3.png
Size comps, size method 1, whole catch, S1.PS_VAST (plot 1 of 7).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 7) (plot 3 of 7) (plot 4 of 7)
file: comp_sizefit_method1_flt33mkt0_page4.png
Size comps, size method 1, whole catch, S1.PS_VAST (plot 1 of 7).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 7) (plot 3 of 7) (plot 4 of 7) (plot 5 of 7)
file: comp_sizefit_method1_flt33mkt0_page5.png
Size comps, size method 1, whole catch, S1.PS_VAST (plot 1 of 7).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 7) (plot 3 of 7) (plot 4 of 7) (plot 5 of 7) (plot 6 of 7)
file: comp_sizefit_method1_flt33mkt0_page6.png
Size comps, size method 1, whole catch, S1.PS_VAST (plot 1 of 7).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 7) (plot 3 of 7) (plot 4 of 7) (plot 5 of 7) (plot 6 of 7) (plot 7 of 7)
file: comp_sizefit_method1_flt33mkt0_page7.png
Pearson residuals, whole catch, S1.PS_VAST (max=13.35) (plot 7 of 7)
Closed bubbles are positive residuals (observed > expected) and open bubbles are negative residuals (observed < expected).
file: comp_sizefit_method1_residsflt33mkt0_page7.png
N-EffN comparison, Size comps, size method 1, whole catch, S1.PS_VAST
file: comp_sizefit_method1_sampsize_flt33mkt0.png
Mean size for S1.PS_VAST with 95% confidence intervals based on current sample sizes.
Francis data weighting method TA1.8: thinner intervals (with capped ends) show result of further adjusting sample sizes based on suggested multiplier (with 95% interval) for size data from S1.PS_VAST:
0.0864 (0.0712-0.1065)
For more info, see Francis (2011).
file: comp_sizefit_method1_data_weighting_TA1.8_S1.PS_VAST.png
Size comps, size method 2, aggregated across time by fleet.
Labels 'retained' and 'discard' indicate discarded or retained sampled for each fleet. Panels without this designation represent the whole catch.
file: comp_sizefit_method2__aggregated_across_time.png
Size comps, size method 2, whole catch, F23.LL1.S.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method.
file: comp_sizefit_method2_flt23mkt0_page1.png
Size comps, size method 2, whole catch, F23.LL1.S.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6)
file: comp_sizefit_method2_flt23mkt0_page2.png
Size comps, size method 2, whole catch, F23.LL1.S.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6)
file: comp_sizefit_method2_flt23mkt0_page3.png
Size comps, size method 2, whole catch, F23.LL1.S.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6)
file: comp_sizefit_method2_flt23mkt0_page4.png
Size comps, size method 2, whole catch, F23.LL1.S.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6)
file: comp_sizefit_method2_flt23mkt0_page5.png
Size comps, size method 2, whole catch, F23.LL1.S.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6) (plot 6 of 6)
file: comp_sizefit_method2_flt23mkt0_page6.png
Pearson residuals, whole catch, F23.LL1.S.offshore.n (max=12.19) (plot 6 of 6)
Closed bubbles are positive residuals (observed > expected) and open bubbles are negative residuals (observed < expected).
file: comp_sizefit_method2_residsflt23mkt0_page6.png
N-EffN comparison, Size comps, size method 2, whole catch, F23.LL1.S.offshore.n
file: comp_sizefit_method2_sampsize_flt23mkt0.png
Mean size for F23.LL1.S.offshore.n with 95% confidence intervals based on current sample sizes.
Francis data weighting method TA1.8: thinner intervals (with capped ends) show result of further adjusting sample sizes based on suggested multiplier (with 95% interval) for size data from F23.LL1.S.offshore.n:
0.4662 (0.3684-0.6155)
For more info, see Francis (2011).
file: comp_sizefit_method2_data_weighting_TA1.8_F23.LL1.S.offshore.n.png
Size comps, size method 2, whole catch, F24.LL2.S.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method.
file: comp_sizefit_method2_flt24mkt0_page1.png
Size comps, size method 2, whole catch, F24.LL2.S.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6)
file: comp_sizefit_method2_flt24mkt0_page2.png
Size comps, size method 2, whole catch, F24.LL2.S.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6)
file: comp_sizefit_method2_flt24mkt0_page3.png
Size comps, size method 2, whole catch, F24.LL2.S.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6)
file: comp_sizefit_method2_flt24mkt0_page4.png
Size comps, size method 2, whole catch, F24.LL2.S.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6)
file: comp_sizefit_method2_flt24mkt0_page5.png
Size comps, size method 2, whole catch, F24.LL2.S.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6) (plot 6 of 6)
file: comp_sizefit_method2_flt24mkt0_page6.png
Pearson residuals, whole catch, F24.LL2.S.inshore.n (max=8.21) (plot 6 of 6)
Closed bubbles are positive residuals (observed > expected) and open bubbles are negative residuals (observed < expected).
file: comp_sizefit_method2_residsflt24mkt0_page6.png
N-EffN comparison, Size comps, size method 2, whole catch, F24.LL2.S.inshore.n
file: comp_sizefit_method2_sampsize_flt24mkt0.png
Mean size for F24.LL2.S.inshore.n with 95% confidence intervals based on current sample sizes.
Francis data weighting method TA1.8: thinner intervals (with capped ends) show result of further adjusting sample sizes based on suggested multiplier (with 95% interval) for size data from F24.LL2.S.inshore.n:
0.7286 (0.4546-1.52)
For more info, see Francis (2011).
file: comp_sizefit_method2_data_weighting_TA1.8_F24.LL2.S.inshore.n.png
Size comps, size method 2, whole catch, F25.LL3.C.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method.
file: comp_sizefit_method2_flt25mkt0_page1.png
Size comps, size method 2, whole catch, F25.LL3.C.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6)
file: comp_sizefit_method2_flt25mkt0_page2.png
Size comps, size method 2, whole catch, F25.LL3.C.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6)
file: comp_sizefit_method2_flt25mkt0_page3.png
Size comps, size method 2, whole catch, F25.LL3.C.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6)
file: comp_sizefit_method2_flt25mkt0_page4.png
Size comps, size method 2, whole catch, F25.LL3.C.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6)
file: comp_sizefit_method2_flt25mkt0_page5.png
Size comps, size method 2, whole catch, F25.LL3.C.offshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6) (plot 6 of 6)
file: comp_sizefit_method2_flt25mkt0_page6.png
Pearson residuals, whole catch, F25.LL3.C.offshore.n (max=15.36) (plot 6 of 6)
Closed bubbles are positive residuals (observed > expected) and open bubbles are negative residuals (observed < expected).
file: comp_sizefit_method2_residsflt25mkt0_page6.png
N-EffN comparison, Size comps, size method 2, whole catch, F25.LL3.C.offshore.n
file: comp_sizefit_method2_sampsize_flt25mkt0.png
Mean size for F25.LL3.C.offshore.n with 95% confidence intervals based on current sample sizes.
Francis data weighting method TA1.8: thinner intervals (with capped ends) show result of further adjusting sample sizes based on suggested multiplier (with 95% interval) for size data from F25.LL3.C.offshore.n:
3.5472 (2.1079-7.1933)
For more info, see Francis (2011).
file: comp_sizefit_method2_data_weighting_TA1.8_F25.LL3.C.offshore.n.png
Size comps, size method 2, whole catch, F26.LL4.C.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method.
file: comp_sizefit_method2_flt26mkt0_page1.png
Size comps, size method 2, whole catch, F26.LL4.C.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6)
file: comp_sizefit_method2_flt26mkt0_page2.png
Size comps, size method 2, whole catch, F26.LL4.C.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6)
file: comp_sizefit_method2_flt26mkt0_page3.png
Size comps, size method 2, whole catch, F26.LL4.C.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6)
file: comp_sizefit_method2_flt26mkt0_page4.png
Size comps, size method 2, whole catch, F26.LL4.C.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6)
file: comp_sizefit_method2_flt26mkt0_page5.png
Size comps, size method 2, whole catch, F26.LL4.C.inshore.n (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6) (plot 6 of 6)
file: comp_sizefit_method2_flt26mkt0_page6.png
Pearson residuals, whole catch, F26.LL4.C.inshore.n (max=4.1) (plot 6 of 6)
Closed bubbles are positive residuals (observed > expected) and open bubbles are negative residuals (observed < expected).
file: comp_sizefit_method2_residsflt26mkt0_page6.png
N-EffN comparison, Size comps, size method 2, whole catch, F26.LL4.C.inshore.n
file: comp_sizefit_method2_sampsize_flt26mkt0.png
Mean size for F26.LL4.C.inshore.n with 95% confidence intervals based on current sample sizes.
Francis data weighting method TA1.8: thinner intervals (with capped ends) show result of further adjusting sample sizes based on suggested multiplier (with 95% interval) for size data from F26.LL4.C.inshore.n:
12.3581 (9.2956-17.234)
For more info, see Francis (2011).
file: comp_sizefit_method2_data_weighting_TA1.8_F26.LL4.C.inshore.n.png
Size comps, size method 2, whole catch, S2.LL_VAST (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method.
file: comp_sizefit_method2_flt34mkt0_page1.png
Size comps, size method 2, whole catch, S2.LL_VAST (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6)
file: comp_sizefit_method2_flt34mkt0_page2.png
Size comps, size method 2, whole catch, S2.LL_VAST (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6)
file: comp_sizefit_method2_flt34mkt0_page3.png
Size comps, size method 2, whole catch, S2.LL_VAST (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6)
file: comp_sizefit_method2_flt34mkt0_page4.png
Size comps, size method 2, whole catch, S2.LL_VAST (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6)
file: comp_sizefit_method2_flt34mkt0_page5.png
Size comps, size method 2, whole catch, S2.LL_VAST (plot 1 of 6).
'N adj.' is the input sample size after data-weighting adjustment. N eff. is the calculated effective sample size used in the McAllister-Ianelli tuning method. (plot 2 of 6) (plot 3 of 6) (plot 4 of 6) (plot 5 of 6) (plot 6 of 6)
file: comp_sizefit_method2_flt34mkt0_page6.png
Pearson residuals, whole catch, S2.LL_VAST (max=8.51) (plot 6 of 6)
Closed bubbles are positive residuals (observed > expected) and open bubbles are negative residuals (observed < expected).
file: comp_sizefit_method2_residsflt34mkt0_page6.png
N-EffN comparison, Size comps, size method 2, whole catch, S2.LL_VAST
file: comp_sizefit_method2_sampsize_flt34mkt0.png
Mean size for S2.LL_VAST with 95% confidence intervals based on current sample sizes.
Francis data weighting method TA1.8: thinner intervals (with capped ends) show result of further adjusting sample sizes based on suggested multiplier (with 95% interval) for size data from S2.LL_VAST:
1.5261 (1.1833-2.0661)
For more info, see Francis (2011).
file: comp_sizefit_method2_data_weighting_TA1.8_S2.LL_VAST.png