[an error occurred while processing this directive] ������� 2018, 37(1) 259-266 DOI:   10.3969/j.issn.1004-5589.2018.01.024  ISSN: 1004-5589 CN: 22-1111/P

����Ŀ¼ | ����Ŀ¼ | ������� | �߼�����                                                            [��ӡ��ҳ]   [�ر�]
��������
��չ����
������Ϣ
Supporting info
PDF(2418KB)
[HTMLȫ��]
�����[PDF]
�����
�����뷴��
�ѱ����Ƽ�������
�����ҵ����
�������ù�����
����
Email Alert
���·���
���������Ϣ
���Ĺؼ����������
�ػ����
��̿��
���ܶȵ�����
̽��
���������������
֣�Ƴ�
٦��
����
����
PubMed
Article by Zheng Y
Article by Nie L
Article by Xu Y
Article by Wang H
���ܶȵ編�ڲ�̿���ֲ����������е�Ӧ��
֣�Ƴ�, ٦��, ����, ����
���ִ�ѧ���蹤��ѧԺ, ���� 130026
ժҪ�� Ϊ�˸��õ��о���̿��ʪ�ػ�����Ϣ����ȡ��̿���ֲ�������ѡ����ʡ���������̿��ʪ��Ϊ�о��������ø��ܶȵ����ʷ����ԱȲ�ͬװ����̽�����IJ��죬������֪��̽���������Աȣ��ó�����-ʩ�ױ���װ��Ϊ��ɿ���������̽��װ�á��ٽ���װ�����õ�������̿���������ó��Բ�̿��ʪ�ص�̽��Ϊdz��������⣬��̿�����ӵ�����Ϊ50~300 ��·m�����Ϊ1.2~3.9 m���ڷ���ͼ���б���Ϊ�����岿�֣����ز���״�ṹ���ԣ����Խ��޷�����
�ؼ����� �ػ����   ��̿��   ���ܶȵ�����   ̽��  
Application of high density resistivity method in investigation of turfy soil distribution characteristics
ZHENG Yun-chao, NIE Lei, XU Yan, WANG Hong
College of Construction Engineering, Jilin University, Changchun 130026, China
Abstract: In order to study the basic information of turfy soil wetland, and to obtain its distribution characteristics, the authors chose the turfy soil wetland in eastern Jilin Province as the research site. The difference of detection results under three devices are compared using high-density resistivity method, and then compared with the known data of the trench. It shows that Winner-Schellenberg device is the most reasonable and most reliable device. This device was subsequently used in other turfy soil areas to obtain the resistance of turfy soil and its distribution. The apparent resistivity of peat soil is 50~300 ��·m at depths of 1.2~3.9 m. In the inversion images, the turfy soil is characterized by low resistance, with obvious layers and electricity boundary.
Keywords: Dunhua Basin   turfy soil   high density resistivity   trench  
�ո����� 2017-09-12 �޻����� 2018-01-15 ����淢������  
DOI: 10.3969/j.issn.1004-5589.2018.01.024
������Ŀ:

������Ȼ��ѧ����41572254��.

ͨѶ����: ����(1981-),Ů,��ʿ,������,��Ҫ���µ����ֺ����۽��й���.E-mail:xuyan8102@jlu.edu.cn
���߼��:
����Email: xuyan8102@jlu.edu.cn

�ο����ף�
[1] �Ի�,٦��,����.���ֶػ�������̿���Ĺ�������[J]. �������̼���,2004,14(6):311-314. ZHAO Hua, NIE Lei, LIANG Bing. Geotechnical character of turfy soil in Dunhua area, Jilin Province[J]. Geotechnical Engineering Technique, 2004, 14(6):311-314.
[2] ��ռ��. ����ʡ�������������̿����Ӧ��·������ģ���о�:��ʿѧλ����[D].����:���ִ�ѧ,2015. SU Zhan-dong. Study on the constitutive model of marsh turfy soil in the east of Jilin Provice considering stress path:doctor's degree thesis[D].Changchun:Jilin University, 2015.
[3] ٦��,��ռ��,������,��. �й���Ҫ�����̿�����γɻ������ֲ�����[J]. ���ִ�ѧѧ��(�����ѧ��),2012, 42(5):1477-1484. NIE Lei, SU Zhan-dong, XU Li-na, et al. Formation environment and distribution characteristics of main swamp turfy soil in China[J]. Journal of Jilin University(Earth Science Edition), 2012,42(5):1477-1484.
[4] ������. ��̿��·����������������о�:��ʿѧλ����[D].����:���ִ�ѧ,2006. LIU Yan-ling. Research on settlement and deformation characteristics of peat soil roadbed:doctor's degree thesis[D].Changchun:Jilin University, 2006.
[5] ����. ����ʡ�������������̿���Ľṹ���Լ�ģ���о�:��ʿѧλ����[D].����:���ִ�ѧ,2012. LYU Yan. Study on the structural characteristics and model of marsh turfy soil in the East of Jilin Province:doctor's degree thesis[D]. Changchun:Jilin University, 2012.
[6] �ޱ�ɽ,��־��. ʪ����̬ϵͳ��������ָ����ϵ��.����[J]. ��̬ѧ��,2002,13(7):1005-1011. CUI Bao-shan, YANG Zhi-feng. Establishing an indicator system for ecosystem health evaluation on wetlands I. a theoretical framework[J]. Acta Ecologica Sinica, 2002, 13(7):1005-1011.
[7] ������,�ƿ�,�¹���,��. �������ߵ���̿��·���ӹ̵ij�������[J]. ��������ѧ��,1998,12(4):83-93. JIANG Zhong-xin, HUANG Jun, CHEN Guo-fang, et al. Settlement control reinforcement of Nanning Kunming line peat soil roadbed[J]. Journal of Railway Engineering Society, 1998, 12(4):83-93.
[8] ������,������,��ҵ��,��. ���ܶȵ����ʷ���˲���ŷ��ڸ��˴���̽���е�Ӧ��[J]. ���̵�������ѧ��,2013, 10(3):363-368. WU Ming-gang, WANG Hai-long, MEN Ye-kai,et al. Application of high density resistivity method and transient electromagnetic method to Fuxingcun gold deposit[J]. Chinese Journal of Engineering Geophysics, 2013, 10(3):363-368.
[9] ���, �����, ������,��. ������������������ҿ�ģ��[J]. �����ѧ�뻷��ѧ��, 2014, 36(1):185-192. WAN Fen, WANG Guang-jie, YANG Xiao-yong, et al. Geophysical prospecting models of Yunling Au deposit in the southern Anhui[J]. Journal of Earth Sciences and Environment, 2014, 36(1):185-192.
[10] ������,�̾���,��Ҫ��,��. �󾮹����濪��ˮ�ĵ��������ۺϵ�������̽���о�[J]. �й���ҵ,2010,19(7):98-101. ZHU Ruo-jun, CHENG Jiu-long, ZHANG Yao-tian, et al. Research on the integrated geophysical detection of hydrogeological condition in mine working face[J]. China Mining Magazine, 2010, 19(7):98-101.
[11] �����,����̩. ���ø��ܶȵ����ʷ����жϲ������̽�����ֵģ�ⷽ��[J]. �ൺ�����ѧѧ��,2001, 22(5):755-761. GUO Xiu-jun, WANG Xing-tai. Numerical simulation of fault fracture zone exploration by high density resistivity method[J]. Journal of Ocean University of Qingdao, 2001, 22(5):755-761.
[12] ½��ΰ. ���ܶȵ����ʷ��ڳ��е��¹���̽���е�Ӧ��̽��[J]. �й���ɫ����,2017, 596(7):62-64. LU Yi-wei. Discussion on the application of high density resistivity method in the detection of urban underground pipeline[J]. Nonferrous Metals in China, 2017, 596(7):62-64.
[13] ף����,Ǯ�·�,���. ���ܶȵ����ʷ��ڲɿ���������̽���е�Ӧ���о�[J]. ���̿���,2006, 201(4):69-72. ZHU Wei-dong, QIAN Yong-feng, LI Jian-hua. Application of high density resistivity method in goaf and karst exploration[J]. Engineering Investigation, 2006, 201(4):69-72.
[14] ֣�ǽ�,�ʷ�ƽ,����. ��ͬ������ܹܵ��ĸ��ܶȵ����ʷ���������[J]. �й�����,2015, 34(3):292-297. ZHENG Zhi-jie, GAN Fu-ping, ZENG Jie. Inversion characteristics of high density resistivity method for Karst pipeline with different depth[J]. Carsologica Sinica, 2015, 34(3):292-297.
[15] ���,κ����,����ΰ. ���ܶȵ����ʷ���˲���ŷ���ú��ɿ������켰ע������е�Ӧ��[J]. ��������ѧ��չ,2014, 29(1):362-369. YANG Jing-ming, WEI Zhou-zheng, GAO Xiao-wei. Application of high density resistivity method and transient electromagnetic method in coal field exploration and grouting detection[J]. Progress in Geophysics, 2014, 29(1):362-369.
[16] ������. ���ܶȵ����ʷ��ڿ���̽���е�Ӧ���о�:˶ʿѧλ����[D].�ɶ�:�ɶ�����ѧ,2005. YANG Li-rong. Study on the application of high density resistivity method in archaeological detection:master's degree thesis[D]. Chengdu:Chengdu University of Technology, 2005.
[17] �ź���,������,����,��.����ɽ��������ɽ��֮����̫�Ŵ��������ѧ������ѧ����[J].�������,2017, 36(3):763-776. ZHANG Hong-tao, ZHANG Xing-zhou, ZENG Zhen, et al.Geochronological and geochemical characteristics of Neoarchean basement under Conozoic basalt in Changbai Mountain[J]. Global Geology, 2017, 36(3):763-776.
[18] ��»,κ��Ȫ. ����ʡ�ػ���ص������������ʷ�չʷ[J]. ���ֵ���,2011, 30(3):12-24,46. JIN Bo-lu, WEI Hai-quan. Geological characteristics and geological development history of Dunhua Basin, Jilin Province[J]. Jilin Geology, 2011, 30(3):12-24,46.
[19] Ф���. ����ʡ־(��4)-��Ȼ����־[M].����:�������������,1992:66. XIAO Rong-huan. Record of Jilin Province:vol. 4-natural geography[M]. Changchun:Jilin People's Press, 1992:66.
[20] ����. ���ֶػ�������̿�����Ե�ʱ��ЧӦ�о�:��ʿѧλ����[D].����:���ִ�ѧ,2011. LIU Fei. Study on time effect of peat soil in Dunhua of Jilin Province:doctor's degree thesis[D]. Changchun:Jilin University, 2011.
[21] ���DZ�,�쳯ϼ. ˮ�ĵ��ʿ��췽��[M].�人:�й����ʴ�ѧ������,2013:44. XU Zhi-bin, ZHU Chao-xia. Hydrogeological survey method[M]. Wuhan:China University of Geosciences press, 2013:44.
[22] ������. �����ʷ���³��ˮ��Դ�����е��о���Ӧ��:˶ʿѧλ����[D].�ɶ�:�ɶ�����ѧ,2012. GUO Yan-ming. Research and application of resistivity method in reconnaissance of water resources in South Shandong:master's degree thesis[D].Chengdu:Chengdu University of Technology, 2012.
[23] ������,�쿭��,��չ. ���ܶȵ����ʷ����켼������Ӧ��[J]. ���ɹ�ʦ����ѧѧ��,2016, 45(3):338-343. YIN Bing-xiang, XU Kai-jun, LIU Zhan. High density resistivity method and its application[J]. Journal of Inner Mongolia Normal University, 2016, 45(3):338-343.
�������������
1�����꿭, ������, ���غ�, �±���, ����.��ά���ܶȵ����ʷ��ڵ̰ӹ����е�ģ������[J]. �������, 2016,35(4): 1133-1137
2��������1, ���о�1, 2, ������3, ������1, ����1, �����1.�ػ���ر�����������������������Խ��ͼ���������[J]. �������, 2013,32(2): 344-353
3������, ������, �����.�����شų������Ķػ���ع������о�[J]. �������, 2012,31(1): 171-178

Copyright by �������