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 3)
file: comp_lendat__page1_multi-fleet_comparison.png
Length comp data, comparing across fleets (plot 2 of 3)
file: comp_lendat__page2_multi-fleet_comparison.png
Length comp data, comparing across fleets (plot 3 of 3)
file: comp_lendat__page3_multi-fleet_comparison.png
Length comp data, retained, F1-OBJ_Offshore_Small (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_flt1mkt2_page1.png
Length comp data, retained, F1-OBJ_Offshore_Small (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_flt1mkt2_page2.png
Length comp data, retained, F1-OBJ_Offshore_Small (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_flt1mkt2_page3.png
Length comp data, retained, F1-OBJ_Offshore_Small (max=0.15) (plot 3 of 3)
file: comp_lendat_bubflt1mkt2_page3.png
Mean length for F1-OBJ_Offshore_Small with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F1-OBJ_Offshore_Small.png
Length comp data, retained, F2-OBJ_Offshore_Large (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_flt2mkt2_page1.png
Length comp data, retained, F2-OBJ_Offshore_Large (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_flt2mkt2_page2.png
Length comp data, retained, F2-OBJ_Offshore_Large (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_flt2mkt2_page3.png
Length comp data, retained, F2-OBJ_Offshore_Large (max=1) (plot 3 of 3)
file: comp_lendat_bubflt2mkt2_page3.png
Mean length for F2-OBJ_Offshore_Large with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F2-OBJ_Offshore_Large.png
Length comp data, retained, F3-OBJ_Central_Small (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_flt3mkt2_page1.png
Length comp data, retained, F3-OBJ_Central_Small (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_flt3mkt2_page2.png
Length comp data, retained, F3-OBJ_Central_Small (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_flt3mkt2_page3.png
Length comp data, retained, F3-OBJ_Central_Small (max=0.22) (plot 3 of 3)
file: comp_lendat_bubflt3mkt2_page3.png
Mean length for F3-OBJ_Central_Small with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F3-OBJ_Central_Small.png
Length comp data, retained, F4-OBJ_Central_Large (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_flt4mkt2_page1.png
Length comp data, retained, F4-OBJ_Central_Large (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_flt4mkt2_page2.png
Length comp data, retained, F4-OBJ_Central_Large (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_flt4mkt2_page3.png
Length comp data, retained, F4-OBJ_Central_Large (max=1) (plot 3 of 3)
file: comp_lendat_bubflt4mkt2_page3.png
Mean length for F4-OBJ_Central_Large with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F4-OBJ_Central_Large.png
Length comp data, whole catch, F5-OBJ_SC (plot 1 of 2).
'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_SC (plot 1 of 2).
'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 2)
file: comp_lendat_flt5mkt0_page2.png
Length comp data, whole catch, F5-OBJ_SC (max=0.18) (plot 2 of 2)
file: comp_lendat_bubflt5mkt0_page2.png
Mean length for F5-OBJ_SC with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F5-OBJ_SC.png
Length comp data, whole catch, F6-OBJ_CC (plot 1 of 2).
'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_CC (plot 1 of 2).
'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 2)
file: comp_lendat_flt6mkt0_page2.png
Length comp data, whole catch, F6-OBJ_CC (max=0.2) (plot 2 of 2)
file: comp_lendat_bubflt6mkt0_page2.png
Mean length for F6-OBJ_CC with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F6-OBJ_CC.png
Length comp data, whole catch, F7-OBJ_NC (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_flt7mkt0_page1.png
Length comp data, whole catch, F7-OBJ_NC (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_flt7mkt0_page2.png
Length comp data, whole catch, F7-OBJ_NC (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_flt7mkt0_page3.png
Length comp data, whole catch, F7-OBJ_NC (max=0.14) (plot 3 of 3)
file: comp_lendat_bubflt7mkt0_page3.png
Mean length for F7-OBJ_NC with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F7-OBJ_NC.png
Length comp data, retained, F8-NOA-Offshore_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_flt8mkt2.png
Length comp data, retained, F8-NOA-Offshore_Small (max=1)
file: comp_lendat_bubflt8mkt2.png
Mean length for F8-NOA-Offshore_Small with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F8-NOA-Offshore_Small.png
Length comp data, retained, F9-NOA-Offshore_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_flt9mkt2.png
Length comp data, retained, F9-NOA-Offshore_Large (max=0.51)
file: comp_lendat_bubflt9mkt2.png
Mean length for F9-NOA-Offshore_Large with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F9-NOA-Offshore_Large.png
Length comp data, whole catch, F10-NOA-S (plot 1 of 2).
'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-S (plot 1 of 2).
'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 2)
file: comp_lendat_flt10mkt0_page2.png
Length comp data, whole catch, F10-NOA-S (max=0.22) (plot 2 of 2)
file: comp_lendat_bubflt10mkt0_page2.png
Mean length for F10-NOA-S with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F10-NOA-S.png
Length comp data, whole catch, F11-NOA-C (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_flt11mkt0_page1.png
Length comp data, whole catch, F11-NOA-C (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_flt11mkt0_page2.png
Length comp data, whole catch, F11-NOA-C (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_flt11mkt0_page3.png
Length comp data, whole catch, F11-NOA-C (max=0.18) (plot 3 of 3)
file: comp_lendat_bubflt11mkt0_page3.png
Mean length for F11-NOA-C with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F11-NOA-C.png
Length comp data, whole catch, F12-NOA-N (plot 1 of 2).
'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_page1.png
Length comp data, whole catch, F12-NOA-N (plot 1 of 2).
'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 2)
file: comp_lendat_flt12mkt0_page2.png
Length comp data, whole catch, F12-NOA-N (max=0.26) (plot 2 of 2)
file: comp_lendat_bubflt12mkt0_page2.png
Mean length for F12-NOA-N with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F12-NOA-N.png
Length comp data, whole catch, F13-DEL-N (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_flt13mkt0_page1.png
Length comp data, whole catch, F13-DEL-N (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_flt13mkt0_page2.png
Length comp data, whole catch, F13-DEL-N (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_flt13mkt0_page3.png
Length comp data, whole catch, F13-DEL-N (max=0.3) (plot 3 of 3)
file: comp_lendat_bubflt13mkt0_page3.png
Mean length for F13-DEL-N with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F13-DEL-N.png
Length comp data, whole catch, F14-DEL-S (plot 1 of 2).
'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_flt14mkt0_page1.png
Length comp data, whole catch, F14-DEL-S (plot 1 of 2).
'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 2)
file: comp_lendat_flt14mkt0_page2.png
Length comp data, whole catch, F14-DEL-S (max=0.27) (plot 2 of 2)
file: comp_lendat_bubflt14mkt0_page2.png
Mean length for F14-DEL-S with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_F14-DEL-S.png
Length comp data, whole catch, S1-OBJ (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_flt17mkt0_page1.png
Length comp data, whole catch, S1-OBJ (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_flt17mkt0_page2.png
Length comp data, whole catch, S1-OBJ (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_flt17mkt0_page3.png
Length comp data, whole catch, S1-OBJ (max=0.13) (plot 3 of 3)
file: comp_lendat_bubflt17mkt0_page3.png
Mean length for S1-OBJ with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_S1-OBJ.png
Length comp data, whole catch, S2-NOA (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_flt18mkt0_page1.png
Length comp data, whole catch, S2-NOA (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_flt18mkt0_page2.png
Length comp data, whole catch, S2-NOA (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_flt18mkt0_page3.png
Length comp data, whole catch, S2-NOA (max=0.22) (plot 3 of 3)
file: comp_lendat_bubflt18mkt0_page3.png
Mean length for S2-NOA with 95% confidence intervals based on current sample sizes.
file: comp_lendat_data_weighting_TA1.8_S2-NOA.png
Size 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_sizedat__aggregated_across_time.png
Size comp data, whole catch, F16-LL (plot 1 of 2).
'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_flt16mkt0_page1.png
Size comp data, whole catch, F16-LL (plot 1 of 2).
'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 2)
file: comp_sizedat_flt16mkt0_page2.png
Size comp data, whole catch, F16-LL (max=0.58) (plot 2 of 2)
file: comp_sizedat_bubflt16mkt0_page2.png
Mean size for F16-LL with 95% confidence intervals based on current sample sizes.
file: comp_sizedat_data_weighting_TA1.8_F16-LL.png