|
��չ���� |
|
| ������Ϣ | |
 |
Supporting info |
|
PDF(2133KB) |
|
[HTMLȫ��] |
|
�����[PDF] |
|
����� |
| �����뷴�� | |
|
�������ù����� |
|
���� |
|
Email Alert |
|
���·��� |
|
���������Ϣ |
| ���Ĺؼ���������� | |
|
����ˮ |
|
����ң�� |
|
��̽ |
|
���� |
| ��������������� | |
|
���� |
|
������ |
|
�ڵº� |
|
���� |
|
������ |
|
������ |
| PubMed | |
|
Article by Wang K |
|
Article by Jiang Q |
|
Article by Yu D |
|
Article by Wang L |
|
Article by Yang Q |
|
Article by Xu X |
2. �����ڶ����̿��������, ���� 110162;
3. ������Դ�� ���յ���������ң�е����ص�ʵ����, ���� 100083
2. The Second Engineering Research Institute, Shenyang 110162, China;
3. Key Laboratory of Airborne Geophysics and Remote Sensing Geology, Ministry of Land and Recourses, Beijing 100083, China
������Դ����������ҵ����ר�����201511078-1���������Դ�����յ���������ң�е����ص�ʵ���Һ�ң���괴�»���2016YFL14����������.
[2] �ŵ�. 2014������ʡ�ɺ��ݽ���Ӱ���о�[J]. �й�ˮ��, 2016, 51(5):25-27. ZHANG Dan. Study on evolution and effect of drought happening in Liaoning Province in 2014[J]. China Water Resources, 2016, 51(5):25-27.
[3] ��������ң��ˮ�ĵ���Ӧ���ļ���ί��.��������ң��ˮ�ĵ���Ӧ���ļ�[M]. ����:���ʳ�����, 1985:7-18. Editorial Committee for Corpus of Remote Sensing Hydrogeological Applications in North China. Corpus of remote sensing hydrogeological applications in north China[M]. Beijing:Geological Publishing House, 1985:7-18.
[4] ��ï��, ������. ��Landsat TM�Ⱥ���ͨ�����ϵ���������Դ�ķ���̽��[J]. ������Դң��, 1991, 3(2):39-46. WANG Mao-xin, ZHANG Xiu-qin. A study on interpretation of heat condition using thermal IR data from Landsat TM sensor[J]. Remote Sensing for Land & Resources, 1991, 3(2):39-46.
[5] ����Զ. ����ˮ��Դϵͳ���鼼�����ۺ����۷���[M]. ����:��ѧ������, 1992:135-205. HUO Ming-yuan. Comprehensive evaluation method and system exploration of underground water resources[M]. Beijing:Science Press, 1992:135-205.
[6] Li T Q, Zhang Y B. Remote sensing geological study of water resources in Tarim Basin[J]. Remote Sensing for Land & Resources, 1998, 10(4):11-19.
[7] ������. �й��״�ң��ͼ�����[M]. ����:��ѧ������, 1999:33-39. GUO Hua-dong. Analysis of radar remote sensing image in China[M]. Beijing:Science Press, 1999:33-39.
[8] Wang F Y, Sun S X. The application of environmental remote sensing information analysis in seeking for water resource in arid areas[J]. Remote Sensing for Land & Resources, 1999, 11(1):36-42.
[9] Fu B H, Shi A J, Zhang Z L. Retrieval of temperature information of ground water enrichment belt using thermo-infrared remote sensing data[J]. Journal of Remote Sensing Technique and Application, 1999, 14(2):34-38.
[10] ����Ծ, �����, ������, ��. �Ⱥ���ң�м����������ˮ�����ξ����еij���Ӧ��[J]. ������Դң��, 1999, 2(2):28-32. WANG Fei-yue, WU Jun-hu, WANG Jun-feng, et al. A primary application of infrared remote sensing technique to prevent and control mining water at Jiaozuo of Henan Province[J]. Remote Sensing for Land & Resources, 1999, 2(2):28-32.
[11] ���ٺ�. ң�м�����³�ϵ�������Դ�ۺϿ��������е�Ӧ��[J]. ������Դң��, 2000, 12(1):19-23. WANG Zhao-hai. The application of remote sensing technology for developing and utilizing water resource in Lunan area[J]. Remote Sensing for Land & Resources, 2000, 12(1):19-23.
[12] ������, ����Ծ, �����. SARͼ���������ڸɺ�������ˮ�����е�Ӧ��[J]. ������Դң��, 2000, 12(4):50-54. WAN Yu-qing, WANG Fei-yue, WU Jun-hu. SAR image processing and its application in water resource exploration within arid area[J]. Remote Sensing for Land & Resources, 2000, 12(4):50-54.
[13] ����Ծ, ������, �����, ��. �����ɺ��������״�ң����ˮ�����о�[J]. ������Դң��, 2000, 12(4):14-18. WANG Fei-yue, WANG Jun-feng, WU Jun-hu, et al. A test research to probe water resource over arid areas with radarsat remote sensing technology[J]. Remote Sensing for Land & Resources, 2000, 12(4):14-18.
[14] ���ȫ.ң�м����ڵ���ˮ�о��е�Ӧ��[J]. �������, 1998, 17(1):57-60. LI Feng-quan. Application of remote sensing technology for research of ground water[J]. Global Geology, 1998, 17(1):57-60.
[15] ����, ���̺�, ����, ��. ��������ɺ�������ˮ��Դң�е����о�[J]. ��������, 2005, 19(2):214-219. YANG Zi-An, LIU Bi-Hong, ZOU Lin,et al. Remote sensing investigation of groundwater resource in loess hill drought area[J]. Mineral Resources and Geology, 2005, 19(2):214-219.
[16] �ڵº�, ������, ������, ��. dz�����ˮң����ˮģ���о�[J]. ��Ⱦ���μ���, 2008, 21(5):23-26,37. YU De-hao, DENG Zheng-dong, WANG Da-qing, et al. Studies on finding shallow groundwater by remote sensing model[J]. Pollution Control Technology, 2008, 21(5):23-26,37.
[17] Yu D H, Deng Z D, Long F, et al. Study on shallow groundwater information extraction technology based on multi-sprctral data and spatial data[J]. Science in China (Technological Sciences), 2009, 52(4):1-10.
[18] ��Сǿ, ��˳��. ����������ˮ��������[J]. ����ˮ, 2007, 29(3):28. XU Xiao-qiang, CHENG Shun-you. Summarization of geophysical prospecting techniques for groundwater prospecting[J]. Ground Water, 2007, 29(3):28.
[19] ����, ������, �ų���, ��. �����˳ǵ�����������̽��Ч������[J].�������, 2015, 34(1):194-202. ZHANG Li, LIU Wan-song, ZHANG Chen-xi,et al. Assessment on geophysical exploration effect in Xingcheng areas of Liaoning[J]. Global Geology, 2015, 34(1):194-202.
[20] ֣����, Ҷ����, �ɽ�ѫ, ��. �編�ڵ�����ˮ��̽�е�Ӧ��[J]. �������, 2005, 24(1):77-81. ZHENG Dong-ming, YE Song-qing, CHENG Jian-xun, et al. Application of electrical method in exploring geothermal water[J]. Global Geology, 2005, 24(1):77-81.
[21] ������, ������, ���ľ�, ��. �ۺ���̽���������������ȿ����е�Ӧ��[J]. �������, 2009, 28(3):351-360. YANG Yu-xin, LIU Jiu-long, ZHANG Wen-jing, et al. Applying comprehensive geophysical prospection method in geothermal exploration in Tianjin area[J]. Global Geology, 2009, 28(3):351-360.
[22] ��ʤҵ, ������. Ӧ�õ�������ѧԭ��[M]. �人:�й����ʴ�ѧ������, 2004:15-48. ZHANG Sheng-ye, PAN Yu-ling. Principles of the application of geophysical[M]. Wuhan:China University of Geosciences Press, 2004:15-48.
[23] ���۲�, ����˳, ÷����. ��Դ�ۺϵ���������[M]. ����:���ʳ�����, 2004:180-199. LI Zhou-Bo, MENG Ling-shun, MEI Zhong-wu. The competitive geophysical exploration for resources[M]. Beijing:Geological Publishing House, 2004:180-199.
[24] ������, ʯ����, ������, ��. CSAMT�����ܶȵ編̽�����ˮ��Դ[J]. ��������ѧ��չ, 2001, 16(3):53-58. DI Qing-yun, SHI Kun-fa, WANG Miao-yue,et al. The application in detecting groundwater resources by high resistivity method and CSAMT method[J]. Progress in Geophysics, 2001, 16(3):53-58.
[25] ����, �־�, �쿭��, ��. ����˲���ż������е���ˮ��Դ����[J]. ��������ѧ��չ, 2005, 20(3):828-833. JI Yan-ju, LIN Jun, ZHU Kai-guang, et al. Underground water prospecting by transient electromagnetic method[J]. Progress in Geophysics, 2005, 20(3):828-833.
[26] ����, �����, ������, ��. �ɿ�Դ��Ƶ��ص�ŷ�(CSAMT)�ڰ���ͭ�������̽����ҿ��е�Ӧ��[J]. �������, 2016, 35(2):526-535. ZOU Xu, XIE Guo-ai, ZHANG Qing-long, et al. Application of controlled source audio-frequency magneto tellurics (CSAMT) in deep exploration of Wuzhujian exploration area in Anqing copper deposit[J]. Global Geology, 2016, 35(2):526-535.
[27] ��С��, �½���, ������, ��.����GRACE�ռ�����������ⳤ������ˮ�����ļ����Ա仯[J]. �й���ѧ(D��), 2006, 36(3):225-232. HU Xiao-gong, CHEN Jian-li, ZHOU Yong-hong, et al. Monitoring seasonal variation of water reserves in the Yangtze River basin by GRACE gravity measurement[J]. Science in China(Ser. D), 2006, 36(3):225-232.
[28] ����, ��־��.����ˮ̽���еĵ���������̽��[J].�����Ϣ�빤��, 2009,34(2):42-44. LI Qiong, LUO Zhi-cai. Discussion of geophysical methods for investigation groundwater[J]. Journal of Geomatics, 2009,34(2):42-44.
[29] ������, ������, ���ij�, ��. ����ʡ��ɽ�����ۺ���Ϣ�ҿ�ģ�ͼ�����Ԥ��[J]. �������, 2017, 36(2):530-540. CHANG Yun-zhen, LI Yong-chao, XU Wen-chao, et al. Prospecting model and target prediction of synthesize information in Xiaoshan area, Henan[J]. Global Geology, 2017, 36(2):530-540.
[30] ���ջ�, �κ���. ���ڹ���-�ز��������������̽�е�Ӧ��[J]. �������, 2001, 20(2):142-147. CHENG Ri-hui, YOU Hai-tao. On tectono stratigraphy and its application in oil and gas exploration[J]. Global Geology, 2001, 20(2):142-147.
[31] �ִ��, �º���, ������, ��. ����������ͭ��ң�е��ʽ��뼰�ɿ������[J]. �������, 2016, 35(4):1138-1144. JIA Da-cheng, MU Hong-yu, JIANG Qi-gang, et al. Remote sensing geological interpretation of sediment-hosted copper deposits and its metallogenic belt division in South America[J]. Global Geology, 2016, 35(4):1138-1144.
[32] ��ѧ��, ������, ������,��. ����DEM�¶������㷨���ȵķ����о�[J]. ���ѧ��, 2004, 33(3):258-263. LIU Xue-jun, GONG Jian-ya, ZHOU Qi-ming, et al. A study of accuracy and algorithms for calculating slope and aspect based on grid digital elevation model DEM[J]. Acta Geodaetica et Cartographica Sinica, 2004, 33(3):258-263.
[33] Hammer R D, Young F J, Haithcoate T W, et al. Slope class maps from soil survey and digital elevation models[J]. Soil Science Society of America Journal, 1995, 59(2):509-519.
[34] Moore I D, Grayson R B, Ladson A R. Digital terrain modeling:a review of hydrological, geomorphological, and biological applications[J]. Hydrological Processes, 1991, 5(1):3-30.
[35] Ϳ����, ����. �й�������������ͳ�Ƶ�Ԫ����֤[J]. ������ѧѧ��(��Ȼ��ѧ��), 1990, 12(3):266-271. TU Han-ming, LIU Zhen-dong. Demonstration on optimum statistic unit of relief amplitude in China[J]. Journal of Hubei University (Natural Science Edition), 1990, 12(3):266-271.
[36] ����,������,Ϳ����. ����DTM����С�����ߵ��������ͼ�ij����о�[J]. ���ѧ��, 1990, 19(1):57-62. LIU Zhen-dong, SUN Yu-zhu, TU Han-ming. Preliminary study on compilation of relief amplitude map in small scale with DTM data[J]. Acta Geodaetica et Cartographica Sinica, 1990, 19(1):57-62.
[37] ����, �ο���, �ڵº�, ��. ����ArcGISƽ̨�ĵ���������Զ���ȡ�����о�[J]. ��������ѧѧ��, 2013, 32(2):63-67. WANG Kang, HE Jun-shi, YU De-hao, et al. Study on the automatic extraction technique of relief amplitude based on the ArcGIS platform[J]. Journal of Shenyang Ligong University, 2013, 32(2):63-67.
[38] ����, �ڵº�, ������, ��. ����ң�е��ʱ�ͼ����[J]. �й����ʵ���, 2017, 4(3):83-89. WANG Kang, YU De-hao, YANG Qing-lei, et al. Mapping method of military remote sensing geology[J]. Geological Survey of China, 2017, 4(3):83-89.
[39] Liu C H, Qu X, Feng X, et al. Application of high-frequency magnetotelluric method in porphyry copper deposit exploration:a case study of Duobaoshan deposit area[J]. Global Geology, 2017, 20(4):246-252.