1. In birds, females store sperm in specialized sperm storage tubules
(SSTs) located at the junction of the uterus and vagina. To determine
the proximate mechanism by which the last male to copulate sires a dis
proportionate share of the subsequent offspring, the patterns of sperm
storage over the breeding season and across the uterovaginal junction
(UVJ) in the Yellow-headed Blackbird Xanthocephalus xanthocephalus, w
ere examined. 2. SSTs at the vaginal end of the UVJ matured and began
storing sperm earlier than SSTs in the uterine region. Vaginal-end SST
s also stored a greater number of sperm (per SST and overall) and were
more likely to store sperm in multiple layers than uterine-end SSTs.
3. Depletion of sperm from SSTs during the laying period was rapid, bu
t uterine-end SSTs appeared to lose more sperm overall than did SSTs a
t the vaginal end of the UVJ. 4. The spatial and temporal pattern of s
perm storage in Blackbirds suggests a new proximate mechanism for last
-male sperm precedence in birds. Unlike previous hypotheses, the SST m
aturation hypothesis requires neither sperm stratification nor sperm d
isplacement to account for last male precedence. Instead, it is sugges
ted that precedence arises through the storage of last-male sperm in t
he uterine-end SSTs. As uterine-end SSTs lie closest to the infundibul
um (site of fertilization), sperm stored in this region obtain an adva
ntage over sperm from vaginal-end SSTs in the race to fertilize an egg
. 5. This new mechanism suggests that females may be able to control t
he paternity of their offspring through the sequential maturation of t
heir SSTs. By following the simple rule copulate last with the male yo
u want as a sire - each female could ensure that sperm from this male
would be placed in the best position to successfully fertilize her egg
s.