The 5-yr attrition of 1/4 (n = 411) or 1/2 (n = 403) Finnsheep (Finn) ewes exposed to terminal sire breeds in either an accelerated or semi-intensive annual lambing system was recorded to test the effects of system and percentage Finn on flock age structure at equilibrium. Ewes were culled for discernible ailments and failure to lamb after two consecutive non-spring exposures in yr 3, 4, or 5 only. Additionally, four progressively more intensive culling strategies for nonconception were practiced in retrospect. Flock productivity (kilograms of lamb weaned per ewe maintained per year) at age structure equilibrium was estimated for all culling strategies. The majority of all systems (cull strategy x lambing system x percentage Finn combination) were composed of ewes less than or equal to 3 yr old. Replacement requirements ranged from 24 to 38% in the accelerated system and 22 to 26% in the annual system. Quarter-Finns yielded greater replacement needs and shorter productive lives in accelerated lambing but fewer replacement requirements and longer productive lives than 1/2 Finns in annual lambing. Replacement requirements greatly increased with culling intensity in accelerated lambing (up to 54% above original levels) but only slightly in annual lambing (up to 8% above original levels). Mean (reproductive) lifetime estimated from fitted Weibull survival curves ranged from 3.1 to 5.1 yr in accelerated lambing and 4.5 to 5.4 yr in annual lambing. Increased culling for non-lambing decreased productivity at flock age structure equilibrium in accelerated lambing but did not change productivity in annual lambing. Repeatability of ewe effects on conception was generally low. Overall, system, percentage Finn, and culling strategy interact to influence system productivity through flock age structure. Intensive culling for non-lambing and replacement with ewe lambs of equal genetic merit should not be practiced in accelerated lambing systems.