1. Institute for Geospatial Research & Education Eastern Michigan University Inner Mongolia Study Progress Zhangbao Ma 10/5/2009

2. Eastern Michigan Universityhttp://igre.emich.edu Contents 1. Sites Selection in Inner Mongolia2. Data preparation3. Theoratical Research

3. Eastern Michigan Universityhttp://igre.emich.edu 1. Sites Selection in Inner Mongolia Primary production and rain use efficiency across a precipitation gradient on the Mongolia plateau by Bai Yongfei etc.

4. Eastern Michigan Universityhttp://igre.emich.edu 1. Sites Selection in Inner Mongolia

5. Eastern Michigan Universityhttp://igre.emich.edu 1. Sites Selection in Inner Mongolia

6. Eastern Michigan Universityhttp://igre.emich.edu 1. Sites Selection in Inner Mongolia

7. Eastern Michigan Universityhttp://igre.emich.edu 1. Sites Selection in Inner Mongolia

8. Eastern Michigan Universityhttp://igre.emich.edu 1. Sites Selection in Inner Mongolia Proposed Selection Results: 1.EwenkeQi meadow steppe 119 o 41’17” 48 o 27’40 ” 2.Xilinhaote typical steppe 116 o 33’32” 43 o 32’31 ” 3.WulatezhongQi desert steppe 108 o 28’12” 41 o 46’26 ” We can collect these related data of the three county.

9. Eastern Michigan Universityhttp://igre.emich.edu 2.Data preparation-Collected Rs TM Xilin River RS ETM+ Xilin River We have collected Xilin River TM and ETM+.

10. Eastern Michigan Universityhttp://igre.emich.edu 2.Data preparation-Collected Rs Xilin River TM 1979 1985 1987 1998 1999 2000 1989 1990 1995 2001 2002 2004 Xilin River TM data include:

11. Eastern Michigan Universityhttp://igre.emich.edu 2.Data preparation-Collected Rs 2001.8 Text 2002.9 2002.6 Xilin River ETM+ Xilin River ETM+ data include:

12. Eastern Michigan Universityhttp://igre.emich.edu 2.Data preparation-Collecting Rs Collect RS data of Ewenke Qi Continue to collect RS data Wulatezhong Qi Ewenke Qi Xilin River Collect RS data of Wulatezhong Qi We will collect the RS data of Wulatezhong Qi, Ewenke Qi and perfect Xilin River RS data.

13. Eastern Michigan Universityhttp://igre.emich.edu 3. Theoratical Research-Related papers (1) A comparison of two models with Landsat data for estimating above ground grassland biomass in Inner Mongolia, China by Yichun Xie etc In this paper, two models, artificial neural network (ANN) and multiple linear regression (MLR), were developed to estimate typical grassland aboveground dry biomass in Xilingol River Basin, Inner Mongolia, China. The normalized difference vegetation index (NDVI) and topographic variables (elevation, aspect, and slope) were combined with atmospherically corrected reflectance from the Landsat ETM+ reflective bands as the candidate input variables for building both models. Seven variables (NDVI, aspect, and bands 1, 3, 4,5 and 7) were selected by the ANN model (implemented in Statistica 6.0 neural network module), while six (elevation, NDVI, and bands 1, 3, 5 and 7) were picked to fit the MLR function after a stepwise analysis was executed between the candidate input variables and the above ground dry biomass.

14. Eastern Michigan Universityhttp://igre.emich.edu 3. Theoratical Research-Related papers (2) Primary production of Inner Mongolia, China, between 1982 and 1999 estimated by a satellite data-driven light use efficiency model by Sara Brogaard etc The aim of this study is to develop and adapt a satellite data-driven gross primary production model called Lund University light use efficiency model (LULUE) to temperate conditions in order to map gross primary production (GPP) for the Grasslands of Inner Mongolia Autonomous Region (IMAR), China, from 1982 to 1999. The water stress factor included in the original model has been complemented with two temperature stress factors. In addition, algorithms that allocate the proportions of C3/C4 photosynthetic pathways used by plants and that compute temperature-based C3 maximum efficiency values have been incorporated in the model.

15. Eastern Michigan Universityhttp://igre.emich.edu 3. Theoratical Research-Related papers (3) Using a hybrid fuzzy classifier (HFC) to map typical grassland vegetation in Xilin River Basin, Inner Mongolia, China by Zongyao Sha etc In this paper, a hybrid fuzzy classifier (HFC) for vegetation classification with Landsat ETM+ imagery on the typical grassland in Xilinhe River Basin, Inner Mongolia, China has been developed. The overall result of the HFC was much better than that of the CSC. We can use this method to make supervised classification.

16. Eastern Michigan Universityhttp://igre.emich.edu 3. Theoratical Research-Related papers (4) Primary production and rain use efficiency across a precipitation gradient on the Mongolia plateau by Yongfei Bai etc (1)ANPP increased while the interannual variability of ANPP declined (2) plant species richness increased and the relative abundance of key functional groups shifted predictably (3) RUE increased in space across different ecosystems but decreased with increasing annual precipitation within a given ecosystem. These findings have important implications for understanding and predicting ecological impacts of global climate change and for management practices in arid and semiarid ecosystems in the Inner Mongolia steppe region and beyond.

17. Eastern Michigan Universityhttp://igre.emich.edu 3. Theoratical Research-Next step supervised classification Data processing Calculate GPP and NPP Processing Classification GPP NPP

18. Institute for Geospatial Research & Education Eastern Michigan University http://igre.emich.edu Discussion and Suggestion