Length comp data, 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_lendat__aggregated_across_time.png
Length comp data, 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_lendat__aggregated_across_time.png
Length comp data, comparing across fleets (plot 1 of 4)
file: comp_lendat__page1_multi-fleet_comparison.png
Length comp data, comparing across fleets (plot 2 of 4)
file: comp_lendat__page2_multi-fleet_comparison.png
Length comp data, comparing across fleets (plot 3 of 4)
file: comp_lendat__page3_multi-fleet_comparison.png
Length comp data, comparing across fleets (plot 4 of 4)
file: comp_lendat__page4_multi-fleet_comparison.png
Length comp data, whole catch, F1.OBJ.W (plot 1 of 4).
'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_lendat_flt1mkt0_page1.png
Length comp data, whole catch, F1.OBJ.W (plot 1 of 4).
'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 4)
file: comp_lendat_flt1mkt0_page2.png
Length comp data, whole catch, F1.OBJ.W (plot 1 of 4).
'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 4) (plot 3 of 4)
file: comp_lendat_flt1mkt0_page3.png
Length comp data, whole catch, F1.OBJ.W (plot 1 of 4).
'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 4) (plot 3 of 4) (plot 4 of 4)
file: comp_lendat_flt1mkt0_page4.png
Length comp data, whole catch, F1.OBJ.W (max=0.35) (plot 4 of 4)
file: comp_lendat_bubflt1mkt0_page4.png
Mean length for F1.OBJ.W with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F1.OBJ.W.png
Length comp data, whole catch, F2.OBJ.S (plot 1 of 4).
'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_lendat_flt2mkt0_page1.png
Length comp data, whole catch, F2.OBJ.S (plot 1 of 4).
'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 4)
file: comp_lendat_flt2mkt0_page2.png
Length comp data, whole catch, F2.OBJ.S (plot 1 of 4).
'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 4) (plot 3 of 4)
file: comp_lendat_flt2mkt0_page3.png
Length comp data, whole catch, F2.OBJ.S (plot 1 of 4).
'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 4) (plot 3 of 4) (plot 4 of 4)
file: comp_lendat_flt2mkt0_page4.png
Length comp data, whole catch, F2.OBJ.S (max=0.36) (plot 4 of 4)
file: comp_lendat_bubflt2mkt0_page4.png
Mean length for F2.OBJ.S with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F2.OBJ.S.png
Length comp data, whole catch, F3.OBJ.C (plot 1 of 5).
'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_lendat_flt3mkt0_page1.png
Length comp data, whole catch, F3.OBJ.C (plot 1 of 5).
'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 5)
file: comp_lendat_flt3mkt0_page2.png
Length comp data, whole catch, F3.OBJ.C (plot 1 of 5).
'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 5) (plot 3 of 5)
file: comp_lendat_flt3mkt0_page3.png
Length comp data, whole catch, F3.OBJ.C (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5)
file: comp_lendat_flt3mkt0_page4.png
Length comp data, whole catch, F3.OBJ.C (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5) (plot 5 of 5)
file: comp_lendat_flt3mkt0_page5.png
Length comp data, whole catch, F3.OBJ.C (max=0.4) (plot 5 of 5)
file: comp_lendat_bubflt3mkt0_page5.png
Mean length for F3.OBJ.C with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F3.OBJ.C.png
Length comp data, whole catch, F4.OBJ.E.offshore (plot 1 of 3).
'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_lendat_flt4mkt0_page1.png
Length comp data, whole catch, F4.OBJ.E.offshore (plot 1 of 3).
'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 3)
file: comp_lendat_flt4mkt0_page2.png
Length comp data, whole catch, F4.OBJ.E.offshore (plot 1 of 3).
'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 3) (plot 3 of 3)
file: comp_lendat_flt4mkt0_page3.png
Length comp data, whole catch, F4.OBJ.E.offshore (max=0.38) (plot 3 of 3)
file: comp_lendat_bubflt4mkt0_page3.png
Mean length for F4.OBJ.E.offshore with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F4.OBJ.E.offshore.png
Length comp data, whole catch, F5.OBJ.E.inshore (plot 1 of 5).
'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_lendat_flt5mkt0_page1.png
Length comp data, whole catch, F5.OBJ.E.inshore (plot 1 of 5).
'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 5)
file: comp_lendat_flt5mkt0_page2.png
Length comp data, whole catch, F5.OBJ.E.inshore (plot 1 of 5).
'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 5) (plot 3 of 5)
file: comp_lendat_flt5mkt0_page3.png
Length comp data, whole catch, F5.OBJ.E.inshore (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5)
file: comp_lendat_flt5mkt0_page4.png
Length comp data, whole catch, F5.OBJ.E.inshore (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5) (plot 5 of 5)
file: comp_lendat_flt5mkt0_page5.png
Length comp data, whole catch, F5.OBJ.E.inshore (max=0.44) (plot 5 of 5)
file: comp_lendat_bubflt5mkt0_page5.png
Mean length for F5.OBJ.E.inshore with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F5.OBJ.E.inshore.png
Length comp data, whole catch, F6.OBJ.N.offshore (plot 1 of 3).
'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_lendat_flt6mkt0_page1.png
Length comp data, whole catch, F6.OBJ.N.offshore (plot 1 of 3).
'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 3)
file: comp_lendat_flt6mkt0_page2.png
Length comp data, whole catch, F6.OBJ.N.offshore (plot 1 of 3).
'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 3) (plot 3 of 3)
file: comp_lendat_flt6mkt0_page3.png
Length comp data, whole catch, F6.OBJ.N.offshore (max=0.33) (plot 3 of 3)
file: comp_lendat_bubflt6mkt0_page3.png
Mean length for F6.OBJ.N.offshore with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F6.OBJ.N.offshore.png
Length comp data, whole catch, F7.OBJ.N.inshore (plot 1 of 4).
'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_lendat_flt7mkt0_page1.png
Length comp data, whole catch, F7.OBJ.N.inshore (plot 1 of 4).
'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 4)
file: comp_lendat_flt7mkt0_page2.png
Length comp data, whole catch, F7.OBJ.N.inshore (plot 1 of 4).
'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 4) (plot 3 of 4)
file: comp_lendat_flt7mkt0_page3.png
Length comp data, whole catch, F7.OBJ.N.inshore (plot 1 of 4).
'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 4) (plot 3 of 4) (plot 4 of 4)
file: comp_lendat_flt7mkt0_page4.png
Length comp data, whole catch, F7.OBJ.N.inshore (max=0.37) (plot 4 of 4)
file: comp_lendat_bubflt7mkt0_page4.png
Mean length for F7.OBJ.N.inshore with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F7.OBJ.N.inshore.png
Length comp data, whole catch, F8.NOA.W.small.
'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_lendat_flt8mkt0.png
Length comp data, whole catch, F8.NOA.W.small (max=0.63)
file: comp_lendat_bubflt8mkt0.png
Mean length for F8.NOA.W.small with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F8.NOA.W.small.png
Length comp data, whole catch, F9.NOA.S.small (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_lendat_flt9mkt0_page1.png
Length comp data, whole catch, F9.NOA.S.small (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_lendat_flt9mkt0_page2.png
Length comp data, whole catch, F9.NOA.S.small (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_lendat_flt9mkt0_page3.png
Length comp data, whole catch, F9.NOA.S.small (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_lendat_flt9mkt0_page4.png
Length comp data, whole catch, F9.NOA.S.small (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_lendat_flt9mkt0_page5.png
Length comp data, whole catch, F9.NOA.S.small (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_lendat_flt9mkt0_page6.png
Length comp data, whole catch, F9.NOA.S.small (max=0.5) (plot 6 of 6)
file: comp_lendat_bubflt9mkt0_page6.png
Mean length for F9.NOA.S.small with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F9.NOA.S.small.png
Length comp data, whole catch, F10.NOA.C.small (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_lendat_flt10mkt0_page1.png
Length comp data, whole catch, F10.NOA.C.small (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_lendat_flt10mkt0_page2.png
Length comp data, whole catch, F10.NOA.C.small (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_lendat_flt10mkt0_page3.png
Length comp data, whole catch, F10.NOA.C.small (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_lendat_flt10mkt0_page4.png
Length comp data, whole catch, F10.NOA.C.small (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_lendat_flt10mkt0_page5.png
Length comp data, whole catch, F10.NOA.C.small (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_lendat_flt10mkt0_page6.png
Length comp data, whole catch, F10.NOA.C.small (max=0.27) (plot 6 of 6)
file: comp_lendat_bubflt10mkt0_page6.png
Mean length for F10.NOA.C.small with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F10.NOA.C.small.png
Length comp data, whole catch, F11.NOA.N.small (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_lendat_flt11mkt0_page1.png
Length comp data, whole catch, F11.NOA.N.small (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_lendat_flt11mkt0_page2.png
Length comp data, whole catch, F11.NOA.N.small (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_lendat_flt11mkt0_page3.png
Length comp data, whole catch, F11.NOA.N.small (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_lendat_flt11mkt0_page4.png
Length comp data, whole catch, F11.NOA.N.small (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_lendat_flt11mkt0_page5.png
Length comp data, whole catch, F11.NOA.N.small (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_lendat_flt11mkt0_page6.png
Length comp data, whole catch, F11.NOA.N.small (max=0.6) (plot 6 of 6)
file: comp_lendat_bubflt11mkt0_page6.png
Mean length for F11.NOA.N.small with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F11.NOA.N.small.png
Length comp data, whole catch, F12.NOA.W.large.
'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_lendat_flt12mkt0.png
Length comp data, whole catch, F12.NOA.W.large (max=0.5)
file: comp_lendat_bubflt12mkt0.png
Mean length for F12.NOA.W.large with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F12.NOA.W.large.png
Length comp data, whole catch, F13.NOA.S.large (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_lendat_flt13mkt0_page1.png
Length comp data, whole catch, F13.NOA.S.large (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_lendat_flt13mkt0_page2.png
Length comp data, whole catch, F13.NOA.S.large (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_lendat_flt13mkt0_page3.png
Length comp data, whole catch, F13.NOA.S.large (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_lendat_flt13mkt0_page4.png
Length comp data, whole catch, F13.NOA.S.large (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_lendat_flt13mkt0_page5.png
Length comp data, whole catch, F13.NOA.S.large (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_lendat_flt13mkt0_page6.png
Length comp data, whole catch, F13.NOA.S.large (max=0.67) (plot 6 of 6)
file: comp_lendat_bubflt13mkt0_page6.png
Mean length for F13.NOA.S.large with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F13.NOA.S.large.png
Length comp data, whole catch, F15.NOA.N.large (plot 1 of 5).
'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_lendat_flt15mkt0_page1.png
Length comp data, whole catch, F15.NOA.N.large (plot 1 of 5).
'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 5)
file: comp_lendat_flt15mkt0_page2.png
Length comp data, whole catch, F15.NOA.N.large (plot 1 of 5).
'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 5) (plot 3 of 5)
file: comp_lendat_flt15mkt0_page3.png
Length comp data, whole catch, F15.NOA.N.large (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5)
file: comp_lendat_flt15mkt0_page4.png
Length comp data, whole catch, F15.NOA.N.large (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5) (plot 5 of 5)
file: comp_lendat_flt15mkt0_page5.png
Length comp data, whole catch, F15.NOA.N.large (max=0.86) (plot 5 of 5)
file: comp_lendat_bubflt15mkt0_page5.png
Mean length for F15.NOA.N.large with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F15.NOA.N.large.png
Length comp data, whole catch, F16.DEL.S.offshore (plot 1 of 4).
'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_lendat_flt16mkt0_page1.png
Length comp data, whole catch, F16.DEL.S.offshore (plot 1 of 4).
'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 4)
file: comp_lendat_flt16mkt0_page2.png
Length comp data, whole catch, F16.DEL.S.offshore (plot 1 of 4).
'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 4) (plot 3 of 4)
file: comp_lendat_flt16mkt0_page3.png
Length comp data, whole catch, F16.DEL.S.offshore (plot 1 of 4).
'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 4) (plot 3 of 4) (plot 4 of 4)
file: comp_lendat_flt16mkt0_page4.png
Length comp data, whole catch, F16.DEL.S.offshore (max=0.17) (plot 4 of 4)
file: comp_lendat_bubflt16mkt0_page4.png
Mean length for F16.DEL.S.offshore with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F16.DEL.S.offshore.png
Length comp data, whole catch, F17.DEL.S.inshore (plot 1 of 5).
'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_lendat_flt17mkt0_page1.png
Length comp data, whole catch, F17.DEL.S.inshore (plot 1 of 5).
'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 5)
file: comp_lendat_flt17mkt0_page2.png
Length comp data, whole catch, F17.DEL.S.inshore (plot 1 of 5).
'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 5) (plot 3 of 5)
file: comp_lendat_flt17mkt0_page3.png
Length comp data, whole catch, F17.DEL.S.inshore (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5)
file: comp_lendat_flt17mkt0_page4.png
Length comp data, whole catch, F17.DEL.S.inshore (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5) (plot 5 of 5)
file: comp_lendat_flt17mkt0_page5.png
Length comp data, whole catch, F17.DEL.S.inshore (max=0.22) (plot 5 of 5)
file: comp_lendat_bubflt17mkt0_page5.png
Mean length for F17.DEL.S.inshore with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F17.DEL.S.inshore.png
Length comp data, whole catch, F18.DEL.C.offshore (plot 1 of 4).
'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_lendat_flt18mkt0_page1.png
Length comp data, whole catch, F18.DEL.C.offshore (plot 1 of 4).
'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 4)
file: comp_lendat_flt18mkt0_page2.png
Length comp data, whole catch, F18.DEL.C.offshore (plot 1 of 4).
'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 4) (plot 3 of 4)
file: comp_lendat_flt18mkt0_page3.png
Length comp data, whole catch, F18.DEL.C.offshore (plot 1 of 4).
'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 4) (plot 3 of 4) (plot 4 of 4)
file: comp_lendat_flt18mkt0_page4.png
Length comp data, whole catch, F18.DEL.C.offshore (max=0.14) (plot 4 of 4)
file: comp_lendat_bubflt18mkt0_page4.png
Mean length for F18.DEL.C.offshore with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F18.DEL.C.offshore.png
Length comp data, whole catch, F19.DEL.C.inshore (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_lendat_flt19mkt0_page1.png
Length comp data, whole catch, F19.DEL.C.inshore (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_lendat_flt19mkt0_page2.png
Length comp data, whole catch, F19.DEL.C.inshore (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_lendat_flt19mkt0_page3.png
Length comp data, whole catch, F19.DEL.C.inshore (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_lendat_flt19mkt0_page4.png
Length comp data, whole catch, F19.DEL.C.inshore (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_lendat_flt19mkt0_page5.png
Length comp data, whole catch, F19.DEL.C.inshore (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_lendat_flt19mkt0_page6.png
Length comp data, whole catch, F19.DEL.C.inshore (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_lendat_flt19mkt0_page7.png
Length comp data, whole catch, F19.DEL.C.inshore (max=0.13) (plot 7 of 7)
file: comp_lendat_bubflt19mkt0_page7.png
Mean length for F19.DEL.C.inshore with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F19.DEL.C.inshore.png
Length comp data, whole catch, F20.DEL.N (plot 1 of 5).
'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_lendat_flt20mkt0_page1.png
Length comp data, whole catch, F20.DEL.N (plot 1 of 5).
'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 5)
file: comp_lendat_flt20mkt0_page2.png
Length comp data, whole catch, F20.DEL.N (plot 1 of 5).
'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 5) (plot 3 of 5)
file: comp_lendat_flt20mkt0_page3.png
Length comp data, whole catch, F20.DEL.N (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5)
file: comp_lendat_flt20mkt0_page4.png
Length comp data, whole catch, F20.DEL.N (plot 1 of 5).
'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 5) (plot 3 of 5) (plot 4 of 5) (plot 5 of 5)
file: comp_lendat_flt20mkt0_page5.png
Length comp data, whole catch, F20.DEL.N (max=0.26) (plot 5 of 5)
file: comp_lendat_bubflt20mkt0_page5.png
Mean length for F20.DEL.N with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F20.DEL.N.png
Length comp data, whole catch, F22.BB (plot 1 of 3).
'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_lendat_flt22mkt0_page1.png
Length comp data, whole catch, F22.BB (plot 1 of 3).
'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 3)
file: comp_lendat_flt22mkt0_page2.png
Length comp data, whole catch, F22.BB (plot 1 of 3).
'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 3) (plot 3 of 3)
file: comp_lendat_flt22mkt0_page3.png
Length comp data, whole catch, F22.BB (max=0.3) (plot 3 of 3)
file: comp_lendat_bubflt22mkt0_page3.png
Mean length for F22.BB with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F22.BB.png
Size comp data, 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_sizedat_method1__aggregated_across_time.png
Size comp data, 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_sizedat_method1_flt33mkt0_page1.png
Size comp data, 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_sizedat_method1_flt33mkt0_page2.png
Size comp data, 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_sizedat_method1_flt33mkt0_page3.png
Size comp data, 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_sizedat_method1_flt33mkt0_page4.png
Size comp data, 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_sizedat_method1_flt33mkt0_page5.png
Size comp data, 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_sizedat_method1_flt33mkt0_page6.png
Size comp data, 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_sizedat_method1_flt33mkt0_page7.png
Size comp data, size method 1, whole catch, S1.PS_VAST (max=0.49) (plot 7 of 7)
file: comp_sizedat_method1_bubflt33mkt0_page7.png
Mean size for S1.PS_VAST with 95% confidence intervals based on current sample sizes.
file: comp_sizedat_method1_data_weighting_TA1.8_S1.PS_VAST.png
Size comp data, 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_sizedat_method2__aggregated_across_time.png
Size comp data, 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_sizedat_method2_flt23mkt0_page1.png
Size comp data, 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_sizedat_method2_flt23mkt0_page2.png
Size comp data, 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_sizedat_method2_flt23mkt0_page3.png
Size comp data, 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_sizedat_method2_flt23mkt0_page4.png
Size comp data, 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_sizedat_method2_flt23mkt0_page5.png
Size comp data, 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_sizedat_method2_flt23mkt0_page6.png
Size comp data, size method 2, whole catch, F23.LL1.S.offshore.n (max=0.5) (plot 6 of 6)
file: comp_sizedat_method2_bubflt23mkt0_page6.png
Mean size for F23.LL1.S.offshore.n with 95% confidence intervals based on current sample sizes.
file: comp_sizedat_method2_data_weighting_TA1.8_F23.LL1.S.offshore.n.png
Size comp data, 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_sizedat_method2_flt24mkt0_page1.png
Size comp data, 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_sizedat_method2_flt24mkt0_page2.png
Size comp data, 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_sizedat_method2_flt24mkt0_page3.png
Size comp data, 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_sizedat_method2_flt24mkt0_page4.png
Size comp data, 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_sizedat_method2_flt24mkt0_page5.png
Size comp data, 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_sizedat_method2_flt24mkt0_page6.png
Size comp data, size method 2, whole catch, F24.LL2.S.inshore.n (max=0.52) (plot 6 of 6)
file: comp_sizedat_method2_bubflt24mkt0_page6.png
Mean size for F24.LL2.S.inshore.n with 95% confidence intervals based on current sample sizes.
file: comp_sizedat_method2_data_weighting_TA1.8_F24.LL2.S.inshore.n.png
Size comp data, 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_sizedat_method2_flt25mkt0_page1.png
Size comp data, 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_sizedat_method2_flt25mkt0_page2.png
Size comp data, 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_sizedat_method2_flt25mkt0_page3.png
Size comp data, 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_sizedat_method2_flt25mkt0_page4.png
Size comp data, 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_sizedat_method2_flt25mkt0_page5.png
Size comp data, 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_sizedat_method2_flt25mkt0_page6.png
Size comp data, size method 2, whole catch, F25.LL3.C.offshore.n (max=0.5) (plot 6 of 6)
file: comp_sizedat_method2_bubflt25mkt0_page6.png
Mean size for F25.LL3.C.offshore.n with 95% confidence intervals based on current sample sizes.
file: comp_sizedat_method2_data_weighting_TA1.8_F25.LL3.C.offshore.n.png
Size comp data, 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_sizedat_method2_flt26mkt0_page1.png
Size comp data, 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_sizedat_method2_flt26mkt0_page2.png
Size comp data, 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_sizedat_method2_flt26mkt0_page3.png
Size comp data, 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_sizedat_method2_flt26mkt0_page4.png
Size comp data, 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_sizedat_method2_flt26mkt0_page5.png
Size comp data, 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_sizedat_method2_flt26mkt0_page6.png
Size comp data, size method 2, whole catch, F26.LL4.C.inshore.n (max=0.57) (plot 6 of 6)
file: comp_sizedat_method2_bubflt26mkt0_page6.png
Mean size for F26.LL4.C.inshore.n with 95% confidence intervals based on current sample sizes.
file: comp_sizedat_method2_data_weighting_TA1.8_F26.LL4.C.inshore.n.png
Size comp data, 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_sizedat_method2_flt34mkt0_page1.png
Size comp data, 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_sizedat_method2_flt34mkt0_page2.png
Size comp data, 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_sizedat_method2_flt34mkt0_page3.png
Size comp data, 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_sizedat_method2_flt34mkt0_page4.png
Size comp data, 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_sizedat_method2_flt34mkt0_page5.png
Size comp data, 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_sizedat_method2_flt34mkt0_page6.png
Size comp data, size method 2, whole catch, S2.LL_VAST (max=0.46) (plot 6 of 6)
file: comp_sizedat_method2_bubflt34mkt0_page6.png
Mean size for S2.LL_VAST with 95% confidence intervals based on current sample sizes.
file: comp_sizedat_method2_data_weighting_TA1.8_S2.LL_VAST.png
Conditional age-at-length data, whole catch, F10.NOA.C.small (max=1)
file: comp_condAALdat_bubflt10mkt0.png
Conditional age-at-length data, whole catch, F19.DEL.C.inshore (max=1)
file: comp_condAALdat_bubflt19mkt0.png