This study utilized the headspace solid phase microextraction (HS-SPME) and gas chromatography-mass spectrometry (GC-MS) to establish procedure of sampling and analyzing for volatile leaf components of Zingiberaceae plants cultured in Taiwan. The standard operation procedure (SOP) for the analysis was established by analyzing five major ingredients (α-pinene, Camphene, Limonene, Camphor, Caryophyllene) of shell ginger (Alpinia zerumbet (Pers.) Burtt & Smith) leaf. The suggested SOP as follow: 8 discs of 3 mm diameter punched from the middle part, near the petiole of a fresh sample leave, between 9:00 to 12:00. Put discs in 25 mL vial immediately, heating 4 minutes at 75℃ after internal standards (n-tridecane and n-hexadecane) added, trapping 4 minutes by SPME. Volatile components analysis by chromatography-mass spectrometry (GC-MS) with the condition of inserting the 250℃injection holes for 30 seconds , maintained the initial GC oven temperature at 30℃ for 3 minutes, then rising 15℃/min to 120℃, 5℃/min to 200℃, and 25℃/min to 300℃ and maintained 1 minute. Analyzing leaves of 26 accessions in the ginger family totally have 126 volatile components. Costus speciosus (Koenig) Smith has only two components and Alpinia flabellate Ridly from Taichung Science Museum has thirty-two components. Using R code cluster analysis software, cluster tree can be obtained from identified 20 accessions. With another 6 unknown accessions, a total of 26 accessions were divided into three groups. Two accessions of Alpinia flabellate Ridly are classified as the first group, the second group including 12 accessions of Alpinia (zerumbet, kawakamii, shimadai , mesanthera, pricei, kusshakuensis, densespicata, uraiensis, UN 1, UN 2, UN 3 and UN 4) and the other 12 accessions as the third group, including Alpinia intermedia, A. galanga, A. purpurata, Curcuma viridiflora, C. zedoaria, C. domestica, C. sp. UN 5, Kaempferia galanga, Zingiber sp UN 6, Costus speciosus and 2 collections of Hedychium coronarium. Leaves of 26 accessions were extracted with water and 95% ethanol, after recording its extraction rate, the DPPH radical scavenging and reducing power of the extracts were measured. Water extraction rate of A. kusshakuensis (82.33 mg /g) is the highest and K. galanga (6.33 mg/g) is the lowest. 95% ethanol extraction rate of K. galanga (205.67 mg/g) is the highest and A. purpurata (70.67 mg/g) is the lowest. About DPPH radical scavenging capacity, water extracts of UN 1 A. sp has the strongest IC50 of 0.412 mg/mL, while C. viridiflora and C. zedoaria have weak IC50 of 11.441 mg/mL and 9.852 mg/mL, respectively. Ethanol extracts of A. purpurata has the strongest IC50 of 0.154 mg/mL while C. domestica and UN 6 Z. sp have weak IC50 of 0.4517 mg/mL and 0.3678 mg/mL, respectively. In terms of reducing power, aqueous extracts of A. zerumbet is with strong k value of 0.920 ± 0.007 mL/mg), the lowest is C. viridiflora with k value of 0.032 ± 0.027 mL/mg. The strongest k value of 1.480 ± 0.008 mL/mg is ethanol extracts of A. zerumbet, and ethanol extracts of UN 6 Z. sp has k value of 0.050 ± 0.002 mL/mg.