In order to ascertain the origin of the coalbed gas in the Xinji area, Anhui Province of China, the paper examined the geochemical features and secondary changes of CH4, C2H6, CO2 and N-2 from the coalbed gas. The related gas composition, carbon isotope and tracer geochemical data are as follows: 0.993 to 1.0 for C-1/C1-n, 188.6 to 29,93.7 for C-1/C-2, < 2% for CO2, 0.64 to 3.06% for [CO2/ (CO2+CH4)] 100%, -50.7 parts per thousand to -61.3 parts per thousand for delta C-13(1) with the average value of -56.6 parts per thousand, -15.9 parts per thousand to -26.7 parts per thousand for delta C-13(2), - 10.8 parts per thousand to - 25.3 parts per thousand for delta C-13(3), -6.0 parts per thousand to -39.0 parts per thousand for delta C-13(CO2) with the average value of - 17.9 parts per thousand, 30.7 parts per thousand to 43.9 parts per thousand for Delta delta C-13(C2-C1), and 17.2 parts per thousand to 50 parts per thousand for Delta delta C-13(CO2-C1), - 1 parts per thousand to + 1 parts per thousand for delta N-15(N2), 1.13 x 10(-7) to 3.20 x 10(-7) for He-3/He-4 with R/Ra ratios range from 0.08 to 0.23. The Ro values of the coal range from 0.88% to 0.91%. The trends of the delta C-13(1) values and delta C-13(CO2) values downward in the stratigraphic profile are opposite: the former appears as a slight light-heavy-light trend, but the latter appears as a heavy-light-heavy trend. The delta C-13(1) values have a negative correlation with the delta C-13(CO2), values. However, the delta C-13(2) values have no correlation with the delta C-13(1) values due to its complicated variation. The thermal evolution of the coal in the Xinji area is in the phase of a lot of wet gas generation, but most of the CO2 and heavy hydrocarbons have been reduced or degraded by microbes and have changed into biogenic methane. The coalbed gas is comprised of secondary biogenic methane, thermogenic methane, the residual thermogenic CO2 and heavy-hydrocarbons, and nitrogen (mainly derived from the atmosphere). Based on the binary mixed mode, the estimated portion of thermogenic methane is 31.5% to 39.9% while that for the secondary biogetric methane is 60.1% to 68.5%. Intense tectonic uplift, faults and erosion in the studied area have created favorable conditions for the infiltration of surface water, the abundance of microbes and the formation of the secondary biogenic methane. The coalbed gas in the Xinji area is a mixed type made of a greater portion of secondary biogenic gas and a smaller portion of thermogenic gas. (c) 2006 Elsevier B.V. All rights reserved.