呼吸跃变

因而认为，黄花梨采后5d内果肉软化，主要是淀粉酶活性的快速上升催化淀粉的快速水解造成的，并为呼吸跃变准备能源物质；

It was suggested that flesh softening of Huanghua pear within 5 days after harvest was mainly caused by rapid degradation of starch , which was catalyzed by rapid increase of amylase activity . Energy substance was supplied by starch degradation for respiratory climacteric .

呼吸跃变的产生是由于在贮藏过程中大量合成乙烯，并产生一系列的生理生化变化所导致的。

Ethylene will be synthesised rapidly at the stage of climacteric , and produce a series of physiological and biochemical changes in the fruits .

苹果成熟过程中果实的RNA和蛋白质含量及其凝胶电泳与呼吸跃变的关系

The Relation between Rna and Protein Content and Gel Electrophoresis of Apple Fruits and the Respiratory Climacteric during the Ripening Period of Apple s

果实呼吸跃变过程中，CaM含量伴随乙烯释放量的上升而升高，乙烯峰值过后，CaM含量下降，果实衰老。

The CaM content increased with the increasing of ethylene production , and after the ethylene concentration reached its peak , the CaM content decreased and fruit entered senescence process .

苹果果实超弱发光、乙烯释放和呼吸跃变对1-MCP的响应

Response of Red Fuji Apple to 1-MCP in Ultra-weak Luminescence , Ethylene Release and Respiration Climacteric

呼吸跃变的发生与乙烯释放速率的增加有密切关系；

The occurence of respiration climacteric was dependent upon the increase of ethylene production .

鲜猴头在20℃的贮藏温度下，具有明显的呼吸跃变过程。

Hericium has an apparent process of respiratory climacteric at the storage temperature of20 ℃ .

洋葱是一种无呼吸跃变的蔬菜，具有明显的休眠期。

Onion is a breathless and transitive vegetable , and it has obvious dormant period .

结果表明：‘金魁’果实属典型的呼吸跃变型果实，具有明显的呼吸跃变和乙烯释放高峰。

The results showed that kiwifruit , as a typical kind of respiratory climactic fruit , had obvious respiratory climacteric and ethylene production peaks .

比如，根据果实发育和成熟过程中呼吸变化的特点，可将果实分为呼吸跃变和非跃变两类。

According to the respiration characteristics of fruit development and ripening , fruits can be divided into climacteric fruit and non-climacteric categories .