This study presents carbon and oxygen isotopic records from three stalagmites collected in 2005 from Huangye cave (33o35'N, 105o07'E) in Wudu County, Gansu Province, China. Three stalagmites with lengths of 14 cm for HY05-2, 23.6 cm for HY05-3, and 19 cm for HY05-4, have been dated with ICP-MS 230Th/U in HISPEC at NTU. The 230Th/U dating result shows that the three stalagmites grow within Holocene and contain hiatuses in the parts of older than age 1400 years. However, the three stalagmites had grown continuously during the last 1400 years, for which we focus on. In the 1400-yr part, there are 340, 695 and 468 isotope data sets in HY05-2, HY05-3 and HY05-4, respectively. First of all, within dating uncertainties the three stalagmite δ18O records are comparable each other, suggesting that the δ18O records of the stalagmites is a reliable paleoclimate proxy. Periods with lighter δ18O values reflect wet climate, and vice versa. Secondly, the δ13C co-varied with the δ18O on longer time scale ( >50 years), demonstrating climatic control on vegetation change with wet climates (lighter δ18O) resulting in better vegetation coverage, and/or rise in vegetation C3/C4 ratio that gives lighter δ13C. Huangye Cave record shows that during AD 600-1000, δ18O values gradually became heavier from the average value and δ13C values were heavier than its average about 1‰, reflecting climate were drier and poor vegetation coverage. During the intervals of AD 1100-1200, AD 1300-1360, AD 1420-1500, AD 1600-1780 and AD 1850-1900, the δ18O values are lighter than the average, illustrating relatively wet climates. Dry climates occurred among the intervals between the above these time periods. Except the interval of AD 1200-1300, the δ13C record basically followed the δ18O record since AD 1000 and the values are lighter than that before AD 1000. The change of δ13C value before and after AD 1000 might contain the human impact on vegetation, such as crop cultivation. Diminished human impact on vegetation around the cave might occur as the population decrease during the late Song Dynasty and early Yuan Dynasty, shown by relatively light δ13C values and not following the δ18O trend. The δ13C record was obviously heavier during AD 1360-1410, AD1580-1600 and AD 1790-1840. These heavier δ13C and δ18O periods generally agree with Wanxiang Cave stalagmite δ18O record. However, these correlations do not support that climate was the main cause of Chinese dynastic change. Comparisons among stalagmites records (Huangye Cave, Wanxiang Cave, Dayu Cave), C/N ratio of cores in Lake Qinghai, and solar irradiance record reveal consistence in many events, but many discrepancies also exist. Unlike Wanxiang Cave record, the records from Huangye Cave , Dayu Cave, Lake Qinghai indicate that relatively wet climates were prevailed during the 2nd half of the Little Ice Age. The δ18O of the Huangye cave record has lightest values during AD 1100-1200 which were corresponding to the Medieval Maximum of sunspot activity. In the same region, Wanxiang Cave record shows the similar trend with sunspot activity on long time scale, demonstrating that solar forcing is one of influential role in modulating variability of Asian monsoon strength.