Twenty-four leaf samples in twenty-two avocado pure race cultivars were collected in Taiwan and El Salvador. Taiwan avocado leaf samples were collected from Chia-yi Agricultural Experimental Station (CAES) and Shen's orchard. Import leaf samples were supplied by Germplasm Reserves of Institute of Agricultural Experiments in El Salvador. In comparison with headspace-gas tight syringe direct injection, solvent extraction, pyrolysis, and headspace-solid phase microextraction, HS-SPME was chosen for sample preparation. HS-SPME GC-MS utilizing EPA Method 8270 stable isotope internal standards provide a sensitive and reproducible quantitative method for analyzing avocado leaf aroma. Twelve race-specific compounds and ten magnitude-varied compounds were selected as the characteristic indicator compounds for further analysis. Chavicol and methyl eugenol, sesquiterpene I and sesquiterpene III, were race-specific compounds for Mexican and Guatemalan race. Hexanal, phenylacetaldehyde and caryophyllene isomer were race-specific compounds for West Indian race. β-myrcene, γ-terpinene, and nonyl aldehyde could only be found in Guatemalan and West Indian races, trans-anethole could only befound in Mexican and West Indian race, sesquiterpene IV could only be found in Mexican and Guatemalan race. The magnitude-varied compounds included terpenoid, aldehyde and phenylpropanoid, such astrans2hexenal, α-pinene, β-pinene, limonene+eucalyptol, estragole, α-copaene, sesquiterpene II, caryophyllene, α-humulene, and sesquiterpene V. Similarity matrix of volatile constituents was calculatedby Euclidean distance of base10logarithm value of characteristic indicator compounds calibratedabundance, and dendrogram was clustered based on unweighted pair group method arithmetic average (UPGMA). Three avocado horticultural race samples were separated into three major groups on the dendrogram of volatile constituent test results. The cluster result of test samples agreed with the classification information from literature review of three races. The total ion chromatogram of 'Horshim' was identified as the hybrid between Mexican and Guatemalan races. Because of the benefits of easyoperation, fast analysis, good repeatability and reproducibility, volatile constituent analysis of avocado leaves could be used as a morphological chemotaxonomy method. Calibrated abundance by internal standards of testing data of GC-MS could be merged into database, and generated a new dendrogram with the all data in the database. Experimental results proved that this is a feasible method for genetic relationship identification.