204 FISHEKT BULLETIN OF THE FISH AND WILDLIFE SERVICE 



of somewhat doubtful significance occurred during the egg stages, when a lower rate 

 of 5 percent per day was indicated, and during the yolk-sac stage, when a higher 

 rate of about 23 percent may have intervened. The net survival to the 22-mm. 

 stage, or 62-day age, was 40 per million newly spawned eggs, and, assuming a con- 

 tinuation of the 11 to 22-mm. rate of mortality to the 50-mm. stage, or 85-day age, it 

 was 4 per million newly spawned eggs. 



Discussion. — Since it is probable that the success or failure of year classes is 

 determined during early life, and since it is known that the year class of 1932 was a 

 failure, it is natural to assume that the mortality curve just given represents the record 

 of that failure. That this is true appears from the following considerations. From 

 fecundity data (p. 156) it is estimated that a female spawns about 500,000 eggs per 

 year, and from the size composition of the adult stock (unpublished notes) it may be 

 estimated that each female spawns over an average period of about four years, produc- 

 ing a total of 2,000,000 eggs. Therefore, to keep the population constant, from 

 2,000,000 eggs, one female on the average should reach average spawning age; i.e., 

 a survival of one fish per million. But in 1932 only four fish per million were left at 

 the early age of three months. At this age, the rate of mortality was about 10 percent 

 per day. Were this rate to continue only 35 days longer, the survivors would number 

 only 0.1 per million; i.e., only 0.1 the number required to reach average spawning age. 

 Of course, it should not be assumed that the 10 percent mortality would continue 

 indefinitely. But even should it be as low as 2 percent per day, the year class would 

 be reduced to the 0.1 per million level before the end of the first year of life; and 

 even then they are at least 2 years removed from average spawning age. To reach 

 that age with survival of one per million, mortality could not average more than 0.12 

 percent per day during the time intervening between 50 mm. and average spawning 

 age. It is unreasonable to suppose that the mortality, last observed at 10 percent 

 per day, coidd immediately drop to such a low rate and remain there. Hence it is 

 likely that a year class, to be successful, must have a survival well above four per 

 million at the 50-mm. size, and that the 1932 class was a failure because of the high 

 mortality during stages preceding the 50-mm. length. 



The causes of this failure may be sought in the record of mortality during the 

 various stages. The outstanding feature in this record is that no single period could 

 be considered crucial in the survival of the year class with which we are concerned. 

 Mortality in all phases of development contributed substantially to the decimation of 

 the population. This fact is most readily appreciated when the contribution to total 

 mortality by the periods of relatively high rate is compared with the contributions by 

 the periods of low rate. The mortalities in the yolk-sac stage and in the transition 

 between larval and post-larval stages (taking the highest alternatives in each case) 

 together represent the passage through 1.9 logarithmic phases. All the other stages 

 together represent 3.6 logarithmic phases. Hence, one may say that about one-third 

 of the mortality was suffered during the so-called "critical" stages, and the other 

 two-thirds during what might be called "non-critical" stages. 



The question naturally arises, which of these was in 1932 the determining factor 

 in the failure of the year class? To answer the question calls for comparable data on 

 mortality during the early life history of a successful year class. Lacking this, one 

 can only speculate. If in 1932 the so-called critical stages were to have been elim- 

 inated, the survival to the 50-mm. point would have been 250 per million eggs spawned. 

 If the so-called noncritical stages were to have been eliminated, it would have been 

 12,500 per million eggs spawned. Of course, it is difficult to conceive of complete 



