The fringe tree (Chionanthus retusus Lindl.) is a graceful flowering tree which tree crown is beautiful. It would like snowing on tree when fringe is flowing. Fringe tree is considered as a rare species and limited population in Taiwan. There is epicotyl dormancy on the seed and hard to rooting through cutting. The purpose of this research is to induce callus formation from endosperm, young floret, derived embryogenic cell for suspension culture, and embryo tissue, to study embryonic tissue cultures and somatic embryogenesis. Endosperm culture before glutinous stage was hard to success because the endosperm tissue is like liquid. It could not be affixed on the medium and differentiate on it. There was dedifferentiation and reproliferation in the solid stage endospermic tissue ( intacted with embryo culture for 10 days) on MS medium supplemented with 2,4-D 5 mg/L. The dedifferentiation frequency of endospermic tissue was 16.7%. There was transparent callus formation in calyx and ovary on WPM medium supplemented with different auxins(2,4-D or picloram) and BA. Callus formation was more and frequency of callus induced is higher by picloram and BA. Frequency of callus induced was 100% by picloram 2 mg/L and BA 1 mg/L but the callus was friable. Giving control extracellular pH 4.4-5.0 level, could made the young floret-derived cell suspension culture of fringe tree change the phase. The cell masses would be induced to free cells and cell cluster stage and had less somatic embryogenesis. Giving control extracellular pH 5.5-6.1 level could made it somatic embryogenesis faster. The cell suspension culture of fringe tree under SH (added NAA 0.4 mg/L) would appeared dense cell mass and some globular structures by 20 days after suspension. The callus formation from abaxial side of cotyledon and hypocotyl surface from zygote embryo tissue stored 6 month and then indirectly regenerate somatic embryogenesis on MS medium supplemented with picloram and dicamba 1-2 mg/L.The callus formation was more from zygote embryo tissue of fringe tree by MS medium and picloram 2 mg/L. Indirect somatic embryogenesis were from the yellow or white embryonic callus after 1 month. The frequency of somatic embryogenesis was 35% and average of somatic embryogenesis was 2.35 (somatic embryo/per explent) by picloram 2 mg/L after 2 month. The frequency of somatic embryogenesis was 30% and average of somatic embryogenesis was 24.45 (somatic embryo/per explent) by dicamba 1 mg/L. Small somatic embryo (< 3 mm) of fringe tree would be suppressed by ABA 0.1-0.2 mg/L on normal development and enlarge with callus. 33.8% and 38.89% of somatic embryo could be maturation. ABA 0.5 mg/L made embryo to turn green slowly and ABA 1.0 mg/L would suppress development of somatic embryos or made them to become abnormal. ABA 2 mg/L and 5 mg/L would induce secondary cotyledon formation, somatic embryo growing fast, maintain the color of cotyledon in white and transparent. 81.82% and 100% of somatic embryos were maturation. Somatic embryo development of fringe tree was better in MS medium without PGR. They began to turn green and rooting. Strong auxin like 2,4-D 0.1 mg/L could let bigger somatic embryo development but others would dedifferentiation to become embryonic callus. The embryonic callus could have somatic embryo again.