|
|
|
| Analysis of spatial heterogeneity of soil substrate in mountainous plain transition area: A case study of Eastern Yi County of Hebei Province |
| WANG Xian, LU Min, HOU Hongxing, SUN Xiao, WANG Haohao, QIAO Yanyi, LIU Yong |
| Langfang Center for General Survey of Natural Resources, China Geological Survey, Hebei Langfang 065000, China |
|
|
|
|
Abstract Due to the early stage of current work on ground substrate investigation, and with current exploratory stage of multiple sections, the identification of the types and distribution of ground substrate is a basic task in ground substrate investigation work. In this paper, the authors investigated soil ground substrate in the mountainous plain transition area in Eastern Yi County of Hebei Province, and analyzed the spatial heterogeneity of soil ground substrate texture components (sand and clay). The content of the two components is determined to be a moderate variation, by classical statistics and geostatistics methods. The best fitted semi-variogram models are spherical models, which have a moderate degree of spatial autocorrelation within the corresponding range (7 km), thus the most reasonable sampling network size for the study area is determined to be 6.5 km2/point. Kriging interpolation was carried out for the two components to form a distribution pattern map of soil ground substrate in the study area. Based on this model, the characteristics and laws of spatial heterogeneity of soil ground substrate were summarized as follows: Sandy soil ground substrate appeared in areas with low elevation and gentle slope and close to rivers, and ground substrate of clay soil appeared in mountainous areas with high elevations and steep slopes, and away from rivers, affected by topographic factors such as elevation, slope, and distance from rivers. These achievements could provide a research foundation for the deployment and expression of the results in ground substrate survey work.
|
|
Received: 09 February 2022
|
|
|
|
|
|
[1] 侯红星,张蜀冀,孙肖,等.自然资源地表基质调查工程2020—2022年实施方案[R].廊坊:中国地质调查局廊坊自然资源综合调查中心,2020.
Hou H X,Zhang S J,Sun X,et al.2020—2022 Implementation Plan of the Natural Resources Ground Substrate Survey Pro-ject[R].Langfang:Langfang Center for General Survey of Natural Resources,China Geological Survey,2020.
[2] 侯红星,张蜀冀,鲁敏,等.自然资源地表基质层调查技术方法新经验——以保定地区地表基质层调查为例[J].西北地质,2021,54(3):277-288.
Hou H X,Zhang S J,Lu M,et al.Technology and method of the ground substrate layer survey of natural resources:Taking Baoding area as an example[J].Northwestern Geology,2021,54(3):277-288.
[3] 于俊博,周传芳,梁中恺,等.重要生态功能区土壤化学元素的空间分布模式——以大兴安岭松岭区为例[J].中国地质调查,2021,8(6):105-113.
Yu J B,Zhou C F,Liang Z K,et al.Spatial distribution patterns of soil chemical elements in important ecological function areas:A case study in Songling area of the Greater Khingan Mountains[J].Geological Survey of China,2021,8(6):105-113.
[4] 殷志强,秦小光,张蜀冀,等.地表基质分类及调查初步研究[J].水文地质工程地质,2020,47(6):8-14.
Yin Z Q,Qin X G,Zhang S J,et al.Preliminary study on classification and investigation of surface substrate[J].Hydrogeology & Engineering Geology,2020,47(6):8-14.
[5] 侯红星,葛良胜,孙肖,等.地表基质调查内容及要素-属性指标体系探讨[J].自然科学,2021,9(4):433-442.
Hou H X,Ge L S,Sun X,et al.Discussion on the contents of ground substrate investigation and the index system of elements and attributes[J].Open Journal of Natural Science,2021,9(4):433-442.
[6] 自然资源部.自然资源部办公厅关于印发《地表基质分类方案(试行)》的通知[EB/OL].(2020-12-22).http://gi.mnr.gov.cn/202012/t20201222_2596025.html.
Ministry of Natural Resources.Notice of the general office of the ministry of natural resources on issuing the ground substrate classification scheme (trial)[EB/OL].(2020-12-22).http://gi.mnr.gov.cn/202012/t20201222_2596025.html.
[7] 吴克宁,赵瑞.土壤质地分类及其在我国应用探讨[J].土壤学报,2019,56(1):227-241.
Wu K N,Zhao R.Soil texture classification and its application in China[J].Acta Pedologica Sinica,2019,56(1):227-241.
[8] 王政权,王庆成.森林土壤物理性质的空间异质性研究[J].生态学报,2000,20(6):945-950.
Wang Z Q,Wang Q C.The spatial heterogeneity of soil physical properties in forests[J].Acta Ecologica Sinica,2000,20(6):945-950.
[9] 鲁敏,侯红星,王献,等.河北省保定地区自然资源地表基质层试点调查2020年实施方案[R].廊坊:中国地质调查局廊坊自然资源综合调查中心,2020.
Lu M,Hou H X,Wang X,et al.2020 Implementation Plan for the Pilot Survey of the Ground Substrate Layer of Natural Resources in Baoding[R].Langfang:Langfang Center for General Survey of Natural Resources,China Geological Survey,2020.
[10] 佚名. 保定幅J-50-8 1/20万地质图、矿产图说明书[Z].保定:河北省地质局,1965.
Nameless.Baoding J-50-08 1/200000 geological map instructions[Z].Baoding:Hebei Provincial Geological Bureau,1965.
[11] 国家林业局.LY/T1225—1999 森林土壤颗粒组成(机械组成)的测定[S].北京:中国林业科学研究院林业研究所,1999:7.
The State Forestry Administration.LY/T1225—1999 Determination of Forest Soil Particle-Size Composition (Mechanical Composition)[J].Beijing:Institute of Forestry,Chinese Academy of Forestry 1999:7.
[12] 王兴,宋乃平,杨新国,等.荒漠草原植物多样性分布格局对微地形尺度环境变化的响应[J].水土保持学报,2016,30(4):274-280,328.
Wang X,Song N P,Yang X G,et al.The response of spatial pattern of plant diversity to environmental factors in the scale of micro-landform in desert steppe[J].Journal of Soil and Water Conservation,2016,30(4):274-280,328.
[13] 富金赤,李晓莎,许中旗,等.冀北山地阳坡草本植物物种多样性的空间异质性研究[J].草地学报,2018,26(6):1298-1304.
Fu J C,Li X S,Xu Z Q,et al.Spatial heterogeneity of herbaceous plant species diversity in dry south-slope of north mountain of Hebei[J].Acta Agrestia Sinica,2018,26(6):1298-1304.
[14] 张娜,王希华,郑泽梅,等.浙江天童常绿阔叶林土壤的空间异质性及其与地形的关系[J].应用生态学报,2012,23(9):2361-2369.
Zhang N,Wang X H,Zheng Z M,et al.Spatial heterogeneity of soil properties and its relationships with terrain factors in broadleaved forest in Tiantong of Zhejiang Province,East China[J].Chinese Journal of Applied Ecology,2012,23(9):2361-2369.
[15] 王彩绒,吕家珑,胡正义,等.太湖流域典型蔬菜地土壤氮及pH空间变异特征[J].水土保持学报,2005,19(3):17-20.
Wang C R,Lü J L,Hu Z Y,et al.Spatial variability of soil nitrogen and pH in vegetable field in typical area of Taihu Lake watershed[J].Journal of Soil and Water Conservation,2005,19(3):17-20.
[16] Rossi R E,Mulla D J,Journel A G,et al.Geostatistical tools for modeling and interpreting ecological spatial dependence[J].Ecological Monographs,1992,62(2):277-314.
[17] Li H,Reynolds J F.On definition and quantification of heterogeneity[J].Oikos,1995,73(2):280-284.
[18] 彭彬,周艳莲,高苹,等.气温插值中不同空间插值方法的适用性分析——以江苏省为例[J].地球信息科学学报,2011,13(4):539-548.
Peng B,Zhou Y L,Gao P,et al.Suitability assessment of different interpolation methods in the gridding process of station collected air temperature:A case study in Jiangsu Province,China[J].Journal of Geo-information Science,2011,13(4):539-548.
[19] 黄绍文,金继运,杨俐苹,等.县级区域粮田土壤养分空间变异与分区管理技术研究[J].土壤学报,2003,40(1):79-88.
Huang S W,Jin J Y,Yang L P,et al.Spatial variability and regionalized management of soil nutrients in the grain crop region in Yutian County[J].Acta Pedologica Sinica,2003,40(1):79-88. |
| [1] |
CHEN Bin, WANG Milei, ZOU Liang, XUE Biying, QIU Jiandong, HU Rui, YUE Baojing, XU Gang, LIN Xi. Classification system investigation of marine natural resources[J]. , 2023, 10(3): 84-94. |
| [2] |
CHEN Jiyu, WANG Ruihu, CEN Wenpan, WANG Laijun, LU Jipu, CHEN Haiwu, ZHANG Meiling, CAO Shufang. Gas bearing potential and exploration strategy of organic shale in Guangxi[J]. , 2023, 10(3): 16-24. |
| [3] |
YAO Jianqun, WU Yang. Surface deformation monitoring of Saige Tower in Shenzhen based on SBAS Technology[J]. , 2023, 10(3): 110-116. |
| [4] |
FU Anzong, LI Jinming, LV Shijia, SHI Guoming. Zircon U-Pb ages, geochemical characteristics and geological significance of Luohe pluton in Duobaoshan area, Heilongjiang Province[J]. , 2023, 10(1): 52-61. |
| [5] |
SHEN Yidong, SONG Zhengyu, LI De. Evolution model of slope deformation and failure in Yuexi Country of Dabie mountains orogenic belt[J]. , 2023, 10(1): 100-109. |
| [6] |
XU Lai, JIANG Feng, WU Qianfeng, DING Lei, LIU Shuai. Geological environmental suitability assessment of power transmission and transformation engineering based on analytic hierarchy process[J]. , 2022, 9(6): 93-99. |
|
|
|
|
2023, Vol. 10 
