Demographic models that use marked animals to estimate survival rates
and population size assume no tag loss occurs, otherwise estimates are
biased. Most studies of tag loss have assumed loss of 1 tag was indep
endent of loss of the other, as did a prior study of ear tag loss in P
ennsylvania black bears (Ursus americanus). We used permanently marked
(tattooed) black bears to model ear tag loss rates so we could identi
fy bears recovered missing both ear tags, and thus test the independen
ce assumption. We found ear tag loss in male bears increased with time
between tagging and recovery. Also, for males, the probability of los
ing a second ear tag was greater if it had already lost an ear tag. Fo
r a tagging-recovery interval of 0.5-<1 year, we estimated 3% of males
lost both ear tags (95% CI = 2-4%); however, for an interval of 4.5-<
5.5 years, we estimated 56% lost both ear tags (95% CI = 42-75%). We s
elected the same type of model for females, but ear tag loss rates wer
e much lower. We estimated 2% of females lost both ear tags for taggin
g-recovery intervals of 0.5-<1 year (95% CI = 1-4%), and 5% of females
lost both ear tags for intervals of 4-<5 years (95% CI = 1-18%). Comp
arison of survival estimates with and without a correction for ear tag
loss suggests uncorrected annual survival estimates may be biased -6%
for males and -1% for females. Black bears are a long-lived species w
ith high loss rates of ear tags for males. Estimates of survival rates
or population size that use mark-recapture type models should either
incorporate ear tag loss in the model, especially for males, or use da
ta from short time intervals (less than or equal to 1 yr) to minimize
bias from ear tag loss. In addition to ear tagging to identify individ
uals for mark-recapture studies, we recommend researchers tattoo bears
on both inner sides of the upper lip.