Reported classifications of germinal vesicle (GV) chromatin configurations in pig oocytes were not done by uniform standards and they were not well correlated with oocyte competence. In this study, GV chromatin of pig oocytes was classified into nonsurrounded nucleolus (NSN), surrounded nucleolus (SN), partly NSN (pNSN) and SN (pSN), prematurely condensed NSN (cNSN), pNSN (cpNSN) and pSN (cpSN), and early diakinesis (ED) patterns. During in vitro maturation in 199 medium, NSN oocytes from 1 to 2 mm follicles went consecutively through pNSN, pSN, cpSN, and ED before undergoing GV breakdown, and chromatin in some SN oocytes from 3 to 6 mm follicles re-decondensed into a re-decondensation (RDC) configuration. Under unfavorable conditions such as follicle atresia, ovary handling or maturation in simple MEM medium, however, premature chromatin condensation occurred, forming cNSN, cpNSN, and cpSN patterns. While all NSN and pNSN and some pSN and RDC oocytes actively transcribed, no cNSN, cpNSN, or cpSN oocytes showed transcription. Maturation and embryo culture suggested that SN and pSN oocytes were more competent than NSN and pNSN oocytes; cpSN oocytes were more competent than cNSN/cpNSN oocytes; and only RDC oocytes could develop into blastocysts. It is concluded that the newly classified chromatin configurations are more closely correlated with oocyte competence than those reported previously.