Mature Phalaenopsis is a typical CAM plant, which is characterized by opening stomata during the night and fixing CO2 by PEPC and thus showing a diurnal fluctuation of titratable acids. However, no remarkable day/night titratable acidity rhythm was detected during the protocorm stages, which suggested that the protocorm stages of Phalaenopsis may not undergo the CAM photosynthesis pathway but C3 pathway. Therefore, the objective of this study is to prove the existence of a photosynthetic transition from C3 to CAM coping with the ontogenetic development in the CAM orchids. Phalaenopsis aphrodite subsp. formosana were prepared according to the seven developmental stages we defined, and the CO2 uptake, malate accumulation, PEPC activity, PEPC and PEPC kinase were investigated. Stages before generation of the primary leaf from protocorm, no net CO2 uptake during the night but the day, and no significant daily change in malate accumulation and PEPC activity indicated that the stages was without CAM characters and behaved nearly-C3. As the protocorm developed the first leaf, the day/night malate change and PEPC activity were first observed; however, the gas exchange remained like the C3 pattern. The CAM characters were getting much more typical along with the leaf maturation, and the seedling ready to transfer out from the flask had turned into an obligate CAM plant just as the mature plant. The expression of PPC, encoded for PEPC, revealed a constitutional pattern in all organs at all developmental stages indicated that the PEPC did not play an important role in the CAM ontogenetic development. Moreover, the expression patterns of PaPPCK, encoded for PPCK (PEPC kinase) were in agreement with the physiological characters just mentioned above. Therefore, we conclude that the photosynthesis shift from C3 to CAM during the ontogenetic development in Phalaenopsis and PaPPCK played a key role in transition. CAM-cycling occurred in the critical stage, protocorm with the primary leaf, which spaced the protocorm and mature plant.