The effect of deuteron breakup in d-nucleus reaction is treated with the continuum discretized coupledchannels (CDCC) approach,and the effects on the total reaction cross sections and elastic scattering angular distributionsare studied by comparing the calculations of CDCC and spherical optical model with our global deuteron optical potential[Phys.Rev.C 73 (2006) 054605] below 200 Me V,for target nuclei ranging from ~(12)C to ~(208Pb.The contributions fromthe dosed channels to the total reaction and breakup cross sections,and angular distributions of elastic scattering arealso seriously discussed. The effect of deuteron breakup in d-nucleus reaction is treated with the continuum discretized coupledchannels (CDCC) approach, and the effects on the total reaction cross sections and elastic scattering angular distributionsare studied by comparing the calculations of CDCC and spherical optical model with our global deuteron optical potential [Phys. Rev. C 73 (2006) 054605] below 200 Me V, for target nuclei ranging from ~ (12) C ~ ~ (208Pb.The contributionsfromthe dosed channels to the total reaction and breakup cross sections, and angular distributions of elastic scattering arealso seriously discussed.