Paochung oolong tea is a light fermentation tea which features for the elegant floral aroma. The manufacturing process depends on tea masters monitoring the odour changes of tea leaves by sniffing to determine the optimum processing time of each step. However, the odour profile of tea leaves considered suitable to stop the oxidation and pan-firing vary by tea masters. The study targets the odour profile before pan-firing by the intensity of green odour. The volatile organic compounds (VOCs) of fresh tea leaves before and after pan-firing are analysed, and assessed the VOCs and constitute of tea infusion, to understand the effects of odour profile of fresh tea leaves before pan-firing on tea quality. Aiming to provide an odour index for the future works of the tea industry. 　　The main experimental factors are times of shaking and green odour intensity before and-firing. In 1st experiment, Paochung oolong tea was made in the 2018 winter and 2019 spring with 3,4,5 times of shaking and high, medium, low green odour intensity respectively. In 2nd experiment, Paochung oolong tea was made in the 2019 winter, with 3,4 times of shaking and high, low green odour intensity respectively. Besides, green odour intensity is assessed by tea masters and gas sensors. The triplicates are conducted in each treatment. Gas chromatography-mass spectrometry and high performance liquid chromatography were used to analysed VOCs, catechin epi-isomers, caffeine and gallic acid. The total polyphenol content, total free amino content and total reduced sugar content of tea infusion were also analysed. 　　The results showed that the VOCs of fresh tea leaves before pan-firing are mainly constituted of aldehydes such as (E)-2-hexenal, which gives green grass aroma. The treatment of low green odour intensity contains more terpenoids which give floral or fruity aroma, such as geraniol, linalool and indole, and esters which give sweet aroma, such as (Z)-3-hexenyl hexanoate. The varieties of VOCs and floral and fruity aroma compounds increased with times of shaking in the fresh tea leaves. Most of VOCs dispatches after pan-firing, no green odour VOCs are detected. Indole is the main constitutes and shows a higher ratio in high green odour intensity treatment; the terpene alcohols showed a higher ratio in medium green odour intensity treatment. Indole and benzyl nitrile are detected steadily and show medium or high correlation in fresh tea leaves before and after pan-firing. It could be a potential odour index for fresh tea leaves before pan-firing. The VOCs varieties are more abundant in infused tea leaf compared to the fresh tea leaves after pan-firing and could be clustering by times of shaking and green odour intensity by principal component analysis. Nearly no significant difference is suggested in catechin epi-isomer and total catechin content between treatments. There are more total polyphenol and free amino acid in high green odour intensity treatment, more reduced sugar and less free amino acid in the treatment of fewer times of shaking. The results showed that the green odour intensity and times of shaking have effects on tea infusion constitute and taste. A better tea quality could be acquired by pan-firing the fresh tea leaves of low green odour intensity, which shows fewer astringent compounds and more sweet compounds. The research study the effects of the green odour of fresh tea leaves before pan-firing on the tea quality indicate the importance of pan-firing timing.