|
��չ���� |
|
| ������Ϣ | |
 |
Supporting info |
|
PDF(1092KB) |
|
[HTMLȫ��] |
|
�����[PDF] |
|
����� |
| �����뷴�� | |
|
�������ù����� |
|
���� |
|
Email Alert |
|
���·��� |
|
���������Ϣ |
| ���Ĺؼ���������� | |
|
���� |
|
���յ��� |
|
��������ѧ |
|
����ֵ |
|
ɽ�� |
| ��������������� | |
|
��˼�� |
|
������ |
|
������ |
|
���� |
|
������ |
|
��Ҷ� |
| PubMed | |
|
Article by Yang S |
|
Article by Jiang H |
|
Article by Cao Y |
|
Article by Sun W |
|
Article by Li T |
|
Article by Xu J |
2. ɽ��ʡ��һ���ʿ������Ժ, ���� 250014;
3. ��������Ȼ��Դ�滮��, ɽ������ 276000;
4. ɽ�����̿���ʩ����������˾, ɽ������ 276301
2. No.1 Institute of Geology and Mineral Resources of Shandong Province, Jinan 250014, China;
3. Linyi Natural Resources and Planning Bureau, Linyi 276000, Shandong, China;
4. Shandong Yonggu Survey and Construction Engineering Co. Ltd., Linyi 276301, Shandong, China
�����е��ʿ������HCFWG2016-004/1-2��
[2] ������. ����ѧ[M]. ����:�й���ҵ������,2005:3-5. SUN Xiang-yang. Pedology[M]. Beijing:China Forestry Press,2005:3-5.
[3] ������. ������Դѧ[M]. ����:�й���ҵ������,2007:15-23. CUI Xiao-yang. Soil resources science[M]. Beijing:China Forestry Press,2007:15-23.
[4] ����. ����������̬ϵͳ[J]. ����,1983, 15(4):3-7. XIONG Yi. On soil ecosystem[J]. Soil,1983, 15(4):3-7.
[5] ZHAO Jun,NI Tian,LI Yong,et al. Responses of bacterial communities in arable soils in a rice-wheat cropping system to different fertilizer regimes and sampling times[J]. Plos One,2014,9(1):1-10.
[6] Alexande M. Agriculture responsibility in establishing soil quality criteria[C]//Environmental improvement-agricultural challenge in the seventies. Washington DC:National Academy of Sciences, 1971:66-71.
[7] Warkentin B P, Fletcher H F. Soi1 quality for intensive agriculture[C]//Proceedings of international seminar on Soil Environment and Fertility Management in Intensive Agriculture. Society of Science Soil and Manure,1977:594-598.
[8] Kelepertisis A, Alexakis D, Kita I. Environmental geochemistry of soils and waters of susaki area,korinthos,Greece[J].Environmental Geochemistry & Health,2001,23(2):117-135.
[9] Vinogradov A Q.������ϡ�к���ɢ��ѧԪ�صĵ���ѧ[M]. �����L,��.����:�й���ѧԺ,1954:1-10. Vinogradov A Q. Geochemistry of rare and diffuse chemical elements in soil[M].ZHOU Qi-xiu,translated. Beijing:Chinese Academy of Sciences,1954:1-10.
[10] �����,���,�ƻ���. �������ѧ�����о��Ľ�չ��������ѧ�ϵ�Ӧ��[J]. �й�����,1996(10):24-26. LI Jia-xi,WU Gong-jian,HUANG Huai-zeng. Advances in biogeochemical environmental research and applications in life sciences[J]. Geology of China,1996(10):24-26.
[11] ��Сƽ,����Դ,������,��. �ܶȺ�ʩ�ʷ�ʽ�Զ����dz��������ɽҩ������Ӱ��[J]. �й�ũѧͨ��,2016,32(1):39-42. HE Xiao-ping,JIANG Fa-yuan,DENG Ze-zhou,et al. Effects of different planting densities and fertilizer methods on yield of purple yam with the directional-notch technology[J]. Chinese Agricultural Science Bulletin,2016,32(1):39-42.
[12] ������,�ųɻ�,������,��. ɽ��ʡ�ز������ҹ��쵥Ԫ���ֶԱ����[J]. ɽ��������Դ, 2014,30(3):1-23. ZHANG Zeng-qi,ZHANG Cheng-ji,WANG Shi-jin,et al. View on classification and contrast of tectonic units in strata in Shandong Province[J]. Shandong Land and Resources,2014,30(3):1-23.
[13] ���,��ˮӢ. ʪ������-ԭ�����չ����ⶨ��ɽҩ�п���Ԫ��[J]. ʳƷ��ѧ,2015,36(16):192-196. XU Hao,LIU Shui-ying. Determination of mineral elements in Dioscorea alata L. tubers by atomic absorption spectrometry with wet digestion[J]. Food Science,2015,36(16):192-196.
[14] ��ͨ��. Ӧ��AFS-820˫��ԭ��ӫ���ȼƲⶨ����ˮ�е�Ǧ[J]. ��ϿԤ��ҽѧ��־,2004, 10(6):37-38. HUANG Tong-ming. Lead in drinking water was determined by AFS-2820 double-channel atomic fluorescence photometer[J]. Strait Journal of Preventive Medicine,2004, 10(6):37-38.
[15] ��ޱ,����, ʩ��֧,��. ����ԭ�����չ����ⶨɽҩ�ж�����Ԫ��[J]. ����ѧ�������,2006, 26(5):963-965. ZHANG Wei,ZHANG Zhuo-yong,SHI Yan-zhi,et al. Determination of nine trace elements in dioscorea opposita thumb by flame atomic absorption spectrophotom[J]. Spectroscopy and Spectral Analysis, 2006,26(5):963-965.
[16] ����÷,������. ����ԭ��ӫ�ⷨ�ⶨ�����й�����Ԫ����Ʒǰ���������о�[J]. ʯ�ͻ���Ӧ��. 2005,24(3):34-35. WANG Xiu-mei,MA Xiao-cheng. Determination of mercury and arsenic in soil by atomic fluorescence spectrometry[J]. Petrochemical Application,2005,24(3):34-35.
[17] ���,���ϼ. �����ϵ����������������½�չ[J]. ����������,2003,22(1):94-100. LI Bing,YANG Hong-xia. The latest development of inductively coupled plasma mass spectrometry[J]. Analytical Laboratory,2003,22(1):94-100.
[18] ������. �����к�̿�Ļ��ۡ��ֲ����������ȶ��Ե�ģ���о�:��ʿѧλ����[D]. ����:�㽭��ѧ,2013. LIU Zhao-yun. Accumulation and distribution of black carbon in soils and its simulated degradation:doctor's degree thesis[D]. Hangzhou:Zhejiang University,2013.
[19] ������,����,��Ϊ,��. ��Ϊ��Խ�������Ԫ�غ����ֲ���Ӱ��[J]. ����ѧ��,2012,36(2):147-156. LIAO Qi-lin,HUA Ming,ZHANG Wei, et al. Influence of human activities on soil element distribution in Jiangsu[J]. Geological Journals,2012,36(2):147-156.
[20] ��˶,���·�,����,��. ����������������̬�ֲ��������������ʵĹ�ϵ�о�[J]. �������, 2016,35(2):593-600. LIANG Shuo,LI Yue-fen,YANG Jie,et al. Study on form distribution of soil iron in western Jilin and its correlation with soil properties[J]. Global Geology,2016,35(2):593-600.
[21] ʩ��,������,���·�,��. ���������̡���Ԫ����������ѧ����[J]. �������,2010,29(2):256-261. SHI Xian,WANG Dong-yan,LI Yue-fen, et al. Soil geochemical characteristics of elements Mn, Mo in western Jilin Province[J]. Global Geology,2010,29(2):256-261.
[22] ������. ɽ��ʡ���͵���������ũ��Ʒ������Ԫ�صĵ���ѧ����:˶ʿѧλ����[D]. ����:�й����ʴ�ѧ(����),2016. MENG Zhi-lei. Geochemical characteristics of selenium and other elements in soil and agricultural products in typical areas of Shandong Province:master's degree thesis[D]. Beijing:China University of Geosciences (Beijing),2016.
[23] ������,��̷�,���Գ�,��. ���ɹ�ɳ�����ص�����������ѧ�������ҿ���[J]. �������,2018,37(3):826-837. WANG Chang-qing,YANG Ji-feng,YANG Yan-chen,et al. Soil geochemical characteristics and prospecting direction in Shaxilat, Inner Mongolia[J]. Global Geology,2018,37(3):826-837.
[24] ������,������,���IJ�. ��������������Cu��ZnԪ����Ч̬ת��Ч�ʼ���ȻӰ�����ط���[J]. �������,2017,36(1):316-326. LI Rong-xing,WANG Dong-yan,LI Wen-bo. Available state transformation efficiency of soil copper and zinc in central-western Jilin and its natural impact factors[J]. Global Geology,2017,36(1):316-326.
[25] ��־��,��ϣ��. ������������Ԫ�غ�����ֵϵ���о�[J]. ��������Դ,2013,22(2):155-158. MA Zhi-shu,LIU Xi-yao. Research on the ratio of element contents in upper and deep soil layers[J]. Geology and Resources,2013,22(2):155-158.
[26] ������,�ս���,���,��. ɽ��ʡС��������ε�����������ѧ����[J]. ɽ��������Դ, 2002,18(5):44-47. PANG Xu-gui,TAO Jian-yu,LI Jian-hua,et al. Geochemical characteristics of soils in middle and lower reach of Xiaoqinghe River in Shandong Province[J]. Land and Resources in Shandong,2002,18(5):44-47.
[27] ʢ��,����,������,��. �鱦ƻ�����ʲ�������Ԫ�غ��������о�[J]. ����ũҵ��ѧ,2013,41(15):6684-6687. SHENG Qi,LI Ling,FU Qiao-ling,et al. Study on quality characteristics of soil element content in Lingbao apple production areas[J]. Journal of Agricultural Sciences,2013,41(15):6684-6687.
[28] ������. Ԫ����̬�ֲ�ƫ��,��ȼ��鷨PC-1500Ӧ�ó���[J]. �ƽ���ʿƼ�,1990(2):62-63. REN Lin-zi. Element normal distribution skewness,kurtosis test PC-1500 application[J]. Gold Geological Technology,1990(2):62-63.
[29] ������,Ԭ��,������,��. ���Ϳ�������̬�ֲ�����Ԫ�����ݵ���̬�任�����Ա��о�[J]. �����������Ϣ��ѧ,2010,26(6):102-105. LI Xiao-hui,YUAN Feng,BAI Xiao-yu,et al.Comparison of normalization methods for non-normal distribution soil elements data in typical minning area[J]. Geography and Geo-Information Science, 2010,26(6):102-105.
[30] ����ɭ. ����ϵ��:һ��������ɢ�̶ȼ����õ�ͳ��ָ��[J]. �й�ͳ��,2007(6):41-42. WANG Wen-sen. Coefficient of variation:a simple but useful statistical measure of dispersion[J]. China Statistics,2007(6):41-42.
[31] ����,������. ����ϵ����ͳ���ƶϼ���Ӧ��[J]. ͭ��ѧԺѧ��,2010,12(1):139-144. WU Mei,GU Sai-sai. Coefficient of variation a simple but useful statistical measure of dispersion[J].Journal of Tongren University,2010,12(1):139-144.
[32] �й����������վ. �й�����Ԫ�ر���ֵ[M]. ����:�й�������ѧ������,1990:1-9. China Environmental Monitoring Station. Background value of soil elements in China[M]. Beijing:China Environmental Science Press, 1990:1-9.
[33] ����». ����Ԫ�ر���ֵ�����о�����[M]. ����:���������,1987:5-12. XIA Zeng-lu. Background values of soil elements and their research methods[M]. Beijing:China Meteorological Press,1987:5-12.
[34] �ɺ���,����,����,��. �й�����������ѧԪ�صı���ֵ���ֵ[J]. ��ѧǰԵ,2014, 21(3):265-306. CHENG Hang-xin,LI Kuo,LI Min,et al. Background and reference values of chemical elements in urban soils in China[J].Earth Science Frontiers,2014,21(3):265-306.