Abstract:The northeastern margin of the Tibetan Plateau located at the northern boundary of modern Asian monsoon transition and transition zone of arid and semiarid area in China, due to sediment sensitive to climate change, is an ideal place to study the plateau Holocene winter monsoon system response to global change. According to the dynamic principle of dusttransportation, by using characteristics of the combination of temperature and humidity, wind strength and dust source distance, the Holocene climatic fluctuations, regional environmental change and the relationship between winter and summer monsoons are analyzed in the study. The following conclusions are obtained:①The estimation methods of proxy indices of wind strength of atmospheric dust, dust transport distance, airturbulence intensity, spring nearsurface air temperature and humidity are established.②Southwest monsoon dominated Gonghe and Guide Basins during the Holocene period. Plateau winter monsoon is a key winter monsoon in the region and there has a different evolutionary pattern of nearsurface wind field in the above region due to the effect of mountains. ③Climatic change of the Holocene can be divided into four stages in Gonghe and Guide Basins, the first stage is about 6.5~4.2kaBP that is the Holocene Optimum, characterized by significantly increased humidity and slightly elevated temperature. The second stage is about 2.6~4.2kaBP and characterized by cold and dry climate, dust source expansion. Both winter and summer monsoon weakened in the stage. This cold and dry event was also appeared in the northwest dust source area of plateau monsoon system and dust source areas of Asian monsoon system. The third stage is about 1.2~2.6kaBP. In the period, dust source shrinked, ecoenvironment was improved and summer monsoon slightly enhanced. The fourth stage is after 1.2kaBP when humidity increased and climate tended to be cold and wet.