identified to species; residuals are small, poorly preserved 

 specimens or those with variable taxonomic characters. 



Etropus spp. - larvae of this taxon were originally lumped with 

 Citharichthys spp. ; present records result from complete 

 reidentif ication of Citharichthys spp. 



Hippoglossina spp. - all specimens of this genus (originally 



called "pigmented bothid") were examined and assigned to 

 H. stomata . 



Paralichthys spp. - all specimens of this genus were examined and 

 most were assigned to P. californicus or Xystreurys 

 liol epi s . 



Syacium ovale - all specimens examined (originally called "spiny- 

 headed bothid"). 



Xystreurys liolepis - originally misidentif ied as Paralichthys 

 californicus; all specimens reidentif ied. 



Glyptocephalus zachirus - all specimens examined. 



Hypsopsetta guttulata - specimens were originally identified as 

 Pleuronichthys spp. 



Microstomus pacificus - all specimens examined. 



Pleuronichthys spp. - all larvae of this genus and constituent 



species were examined and assigned to species; residuals are 

 small, poorly preserved specimens. 



COMPUTER ENTRY AND EDITING 



Each taxon on the original identification sheets was given a 

 3-digit code based on the list of codes in Haight et al . (1979). 

 Taxon codes and counts from these sheets were keypunched by 

 cruise and station, along with pertinent station and tow data and 

 entered into the VAX 11/780 computer at the University of 

 California, San Diego Computing Center. After entries were 

 completed for an entire year, print-out listings of taxa and 

 counts on each station were compared with the original data 

 sheets to eliminate keypunch errors. Next, data in the file were 

 cross-checked with data on an existing file which contained: 

 station and tow data; numbers of eggs of sardine, anchovy, and 

 saury (Cololabis saira) ; numbers of larvae of sardine, anchovy, 

 hake, jack mackerel, and Pacific mackerel; total number of fish 

 eggs; and total number of fish larvae. 



Discrepancies in ichthyoplankton data in these two files 

 were corrected by inspecting original records from the sorting 

 laboratory, the original ichthyoplankton identification sheets, 

 and the samples themselves. Station and tow data discrepancies 

 between the two files were corrected by reviewing ships' logs and 



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