To investigate the link between weak tidal interactions in disk galaxies an
d the boosting of their recent star formation, we obtain images and spatial
ly integrated spectra (3615 Angstrom less than or equal to lambda less than
or equal to 5315 Angstrom) for 40 late-type spiral galaxies (Sab-Sbc) with
varying degrees of lopsidedness (a dynamical indicator of weak interaction
s). We quantify lopsidedness as the amplitude [(A) over tilde(1)] of the m
= 1 Fourier component of the azimuthal surface brightness distribution aver
aged over a range of radii. The median spectrum of the most lopsided galaxi
es shows strong evidence for a more prominent young stellar population (i.e
., strong Balmer absorption, strong nebular emission, a weak 4000 Angstrom
break, and a blue continuum) when compared to the median spectrum of the mo
st symmetric galaxies. We compare the young stellar content, quantified by
EW(H delta(abs)) and the strength of the 4000 Angstrom break (D-4000), with
lopsidedness and find a 3-4 sigma correlation between the two. We also fin
d a 3.2 sigma correlation between EW(H beta(emission)) and lopsidedness. Us
ing the evolutionary population synthesis code of Bruzual & Chariot we mode
l the spectra as an "underlying population" and a superimposed "boost popul
ation" with the aim of constraining the fractional boost in the SFR average
d over the past 0.5 Gyr (the characteristic lifetime of lopsidedness). From
the difference in both EW(H delta(abs)) and the strength of the 4000 Angst
rom break (D-4000) between the most and least symmetric thirds of our sampl
e, we infer that similar to 1 x 10(9) M. of stars are formed over the durat
ion of a lopsided event in addition to the "underlying" star formation hist
ory (assuming a final galactic stellar mass of 10(10) M.). This corresponds
to a factor of 8 increase in the star formation rate over the past 5 x 10(
8) years. For the nuclear spectra, all of the above correlations except D-4
000 versus [(A) over tilde(1)] are weaker than for the disk, indicating tha
t in lopsided galaxies, the star formation boost is not dominated by the nu
cleus.