Despite the apparent success of cloning by somatic cell nuclear transfer (SCNT), the efficiency in development to term remains low, with a high rate of losses occurring throughout pregnancy due to faulty reprogramming and conceptus abnormalities. As the ideal fusion-activation interval for optimal nuclear reprogramming after cloning is still ill-defined, the aim of this study was to determine the effect of 2 distinct fusion-activation intervals and embryo aggregation on in vitro development of cloned bovine embryos. Bovine COCs from slaughterhouse ovaries were used after IVM for the production of cloned embryos by handmade cloning, according to our established procedures (Ribeiro et al. 2009 Cloning Stem Cells, in press). Following cumulus and zona removal, oocytes were manually bisected, with hemi-cytoplasts selected by DNA staining. Two hemi-cytoplasts and an adult skin somatic cell were attached and fused with a 15V AC pre-pulse for 5 s, followed by a double 1.2 kV cm^-1 DC pulse for 20 μs. Reconstructed embryos were activated in ionomycin exactly at 2 or 4 h post-fusion (2 hpf or 4 hpf), followed by an incubation in 6-DMAP for 4 h. Cloned embryos from both fusion-activation intervals were in vitro-cultured in the well of the well (WOW) system for 7 days, allocating one (1 × 100%) or two (2 × 100%) cloned embryos per WOW. Grade 1 Day-7 blastocysts were transferred to synchronous recipients. Cleavage (Day 2) and blastocyst (Day 7) rates, on a per WOW basis, and pregnancy (Days 30 and 150) rates were compared using the chi-square or the Fisher test, with results from 9 replications summarized in Table 1. Increasing the fusion-activation interval to 4 h decreased cleavage but not blastocyst rates in 1 × 100% embryos. Also, blastocyst rates were lower in 1 × 100% embryos activated 2 h post-fusion. In general, cleavage and blastocysts rates for 2 × 100% embryos (91.5 and 46.0%) were higher than for 1 × 100% embryo counterparts (74.4 and 31.3%), respectively, regardless of the activation time. In addition, blastocyst rates for 4 hpf-activated embryos (50.3%), based on cleavage, were higher than for 2 hpf-activated embryos (38.3%), irrespective of the aggregation scheme. Nonetheless, despite differences in in vitro development, pregnancy rates and conceptus development in the first half of pregnancy were similar between groups. A longer fusion-activation interval (4 hpf) or embryo aggregation (2 × 100%) increased blastocyst yield but did not improve in vivo development and pregnancy maintenance following the transfer to female recipients in cattle.