Central to understanding krill population dynamics is knowledge of their po
pulation structure. To examine this we used length-frequency distributions
from 142 wk of sampling (n = 23996 krill) of 3 predator species breeding at
South Georgia and 12 wk of sampling (n = 10252 krill) from scientific nets
from the same area over the summers of 1991-1997. In comparing the 5 years
for which both predator and net samples were available, despite differing
selectivities and spatio-temporal circumscriptions, both predators and nets
were sampling the same overall krill population. Greatest similarity resul
ted from comparing net samples with samples from Antarctic fur seals and ma
caroni penguins combined; least temporal variation occurred in predator sam
ples from late summer (March). From the 7 yr predator time series, within-y
ear variation was greatest in 1991 and 1994, both years of low krill biomas
s at South Georgia. In both of these years large krill dominated during Dec
ember but were completely replaced by small krill by February. The mean len
gth of the March krill population showed a regular increase from 1991 to 19
93, fell to a minimum in 1994 and thereafter increased steadily to 1997. Us
ing these data in conjunction with putative size/age-group cohorts in the l
ength-frequency distribution. we suggest that years of high mean krill leng
th reflect failure of small krill to recruit into the population, producing
a period of low krill biomass in the following year. Similar recruitment f
ailure in the same years was evident in krill populations in the Antarctic
Peninsula region to the south, indicating large-scale events. This supports
suggestions of periodic fluctuations in krill production and recruitment w
hich may relate directly to physical phenomena such as cycles in the distri
bution and extent of sea ice.