Changes in main biochemical respiratory pathways in dormant nectarine floral buds were studied with nectarine trees(Prunus persica var.nectariana cv.Shuguang)in order to determine the function of respiration in dormancy release.Oxygen-electrode system and respiratory inhibitors were used to measure total respiratory rates and rates of respiratory pathways.Results showed that chilling deficiency blocked the transition of respiratory mode,and made buds stay in a state of high level pentose phosphate pathway(PPP)and low level tricarboxylic acid cycle(TCA).The decline of PPP and activation of TCA occurred synchronously with the release of dormancy.In addition,the inhibition of PPP stimulated a respiration increase related with TCA.It could be concluded that the function of PPP activation in dormancy release might be limited and PPP declination inducing TCA activation might be part of respiration mode transition mechanism during bud sprouting. Changes in main biochemical respiratory pathways in dormant nectarine floral buds were studied with nectarine trees (Prunus persica var. Nectariana cv. Shuguang) in order to determine the function of respiration in dormancy release. Oxygen-electrode system and respiratory inhibitors were used to measure total respiratory rates and rates of respiratory pathways. Results indicate that chilling deficiency blocked the transition of respiratory mode, and made buds stay in a state of high level pentose phosphate pathway (PPP) and low level tricarboxylic acid cycle (TCA). The decline of PPP and activation of TCA occurred synchronously with the release of dormancy. addition, the inhibition of PPP stimulated a respiration increase related with TCA. It could be concluded that the function of PPP activation in dormancy release might limited and PPP declination inducing TCA activation might be part of respiration mode transition mechanism during bud sprouting.