Optimal design on samples layout of spatial sampling schemes for estimating winter wheat planting acreage

文献类型: 外文期刊

第一作者: Wang Di

作者: Wang Di;Chen Zhongxin;Zhou Qingbo;An Yi

作者机构:

关键词: spatial sampling;winter wheat;planting acreage;sample layout;geostatistics;spatial correlation

期刊名称:THIRD INTERNATIONAL CONFERENCE ON AGRO-GEOINFORMATICS (AGRO-GEOINFORMATICS 2014)

ISSN: 2334-3168

年卷期: 2014 年

页码:

收录情况: SCI

摘要: Sample layout is one of key factors in spatial sampling schemes for estimating crop planting acreage. It plays an important role that optimizing sample layout for improving the representativeness of samples versus population and the accuracy of population extrapolation, decreasing the cost of survey sampling. In this study, focusing on the problem that the samples layout design is not reasonable (e.g. samples units are not all independent of each other, when simple random sampling method is used to design samples layout; sampling intervals are not defined reasonably, when systematic sampling method is used to distribute samples in space), we tried to propose a optimal scheme of samples layout to improve the spatial sampling efficiency. Mengcheng County in Anhui Province, China was chosen as the study area, winter wheat planting acreage as the study object, and square girds as the shape of sampling units. Geostatistics, "3S" technology (Remote Sensing, Geographic Information Systems and Global Positioning systems) and traditional sampling methods are used in this paper. Firstly, 8 kinds of sampling unit sizes are formulated, and then the study area is subdivided by the sampling units with the 8 kinds of sizes to construct the sampling frame. The winter wheat acreages in all sampling units are calculated based on the spatial distribution data of winter wheat in 2009 and 2010(derived by ALOS AVNIR-2 and Landsat5 TM image, respectively); Secondly, in order to build the Variogram theoretical model of winter wheat acreage proportion within one sampling unit (WPS), simple random sampling method is used to draw the initial samples. Spatial correlation and variability of sampling units are analyzed, and spatial correlation threshold is quantitatively determined by the Variogram model; Thirdly, the equal interval pattern (sampling intervals are the same in vertical and horizontal directions, and spatial correlation threshold of samples is chosen as the sampling interval) is used to reasonably formulate the samples layout; Finally, the extrapolation accuracy, stability and sampling cost are estimated based on the samples after the layout are reasonably designed. In order to evaluate the design effect of samples layout, relative error, coefficient of variation (CV) and sampling size are selected as the indices, and simple random sampling method as the control treatment. The experimental results demonstrate that, the variability of WPS increases with sampling unit size increasing. CV of WPS varies from 32.75% to 43.46% under 8 sampling unit size levels; Spatial correlation thresholds of WPS increase with sampling unit size increasing; The relative error and CV of population extrapolation that samples layout is optimized are obviously less than those of simple random sampling method, when sampling unit size is small (500mx500m similar to 2000mx2000m); Although the relative error and CV are not reduced after optimized design of sample layout, they occur an obvious decrease on sample size, when sampling unit size is larger (2500mx2500m similar to 4000mx4000m). In this way, this research can provide a solution for improving the spatial sampling efficiency to estimate crop planting acreage.

分类号:

  • 相关文献

[1]An overview of spatial sampling procedures for crop area estimation. Wang Di,Dong Zhaoxia,Zhou Qingbo,Chen Zhongxin. 2016

[2]Comparison of spatial sampling schemes for crop sown acreage estimation in large-scale inventories. Wang Di,Chen Zhongxin,Zhou Qingbo,Liu Jia. 2016

[3]Optimal design of spatial sampling schemes for winter wheat sown area estimation. Wang Di,Chen Zhongxin,Zhou Qingbo,Liu Jia. 2012

[4]Optimization of spatial sampling schemes for maize acreage estimation. Wang, Di,Zhou, Qingbo,Chen, Zhongxin,Liu, Jia,Wang, Di,Zhou, Qingbo,Chen, Zhongxin,Liu, Jia. 2015

[5]Optimization of spatial sampling schemes and elements for estimating farmland area. Dong Zhaoxia,Wang Di,Zhou Qingbo,Chen Zhongxin. 2015

[6]Provincial Spatial Sampling Method for Crop Sown Acreage Estimation. Dong Zhaoxia,Wang Di,Zhou Qingbo,An Yi. 2014

[7]Spatial variability and patterns of surface soil moisture in a field plot of karst area in southwest China. Zhang, J. G.,Chen, H. S.,Su, Y. R.,Zhang, W.,Zhang, J. G.,Shi, Y.,Liang, H. B.,Shen, G. M.,Chen, H. S.,Su, Y. R.,Zhang, W.,Kong, X. L..

[8]A comparative study of optimization methods and conventional methods for sampling design in fishery-independent surveys. Liu, Yong,Cheng, Jiahua,Chen, Yong.

[9]Geospatial Based Assessment of Spatial Variation of Groundwater Nitrate Nitrogen in Shandong Intensive Farming Regions of China. Huang, J.,Su, W.,Xu, J.,Liu, X.,Liu, J.,Wang, L.,Ramsankaran, Raaj.

[10]Spatiotemporal patterns of the fish assemblages downstream of the Gezhouba Dam on the Yangtze River. Tao JiangPing,Gong YuTian,Yang Zhi,Chang JianBo,Tao JiangPing,Gong YuTian,Yang Zhi,Chang JianBo,Tan XiChang. 2012

[11]Error modeling based on geostatistics for uncertainty analysis in crop mapping using Gaofen-1 multispectral imagery. You, Jiong,Pei, Zhiyuan. 2015

[12]Predicting Grassland Leaf Area Index in the Meadow Steppes of Northern China: A Comparative Study of Regression Approaches and Hybrid Geostatistical Methods. Li, Zhenwang,Tang, Huan,Yang, Fan,Chen, Baorui,Wang, Xu,Xin, Xiaoping,Wang, Jianghao,Ge, Yong,Huang, Chengquan. 2016

[13]Elevation and Land Use Types Have Significant Impacts on Spatial Variability of Soil Organic Matter Content in Hani Terraced Field of Yuanyang County, China. Li Feng-bo,Zhou Xi-yue,Xu Chun-chun,Feng Jin-fei,Fang Fu-ping,Lu Guang-de,Ni Hui-xiang,Yue chao,Yang Xiu-mei. 2015

[14]Cropland soil organic matter content change in Northeast China, 1985-2005. Yao, Yanmin,Ye, Liming,Tang, Pengqin,Wang, Deying,Si, Haiqing,Hu, Wenjun,Yao, Yanmin,Ye, Liming,Tang, Huajun,Tang, Pengqin,Wang, Deying,Si, Haiqing,Hu, Wenjun,Van Ranst, Eric,Ye, Liming,Van Ranst, Eric,Tang, Huajun. 2015

[15]A simple assessment on spatial variability of rice yield and selected soil chemical properties of paddy fields in South China. Liu, Zhanjun,Zhou, Wei,He, Ping,Lei, Qiuliang,Liang, Guoqing,Liu, Zhanjun,Shen, Jianbo.

[16]Cost-effective sampling of Cs-137-derived net soil redistribution: part 1-estimating the spatial mean across scales of variation. Li, Y.,Nyamdavaa, B.,Yu, H.,Davaasuren, D.,Zoljargal, K.,Chappell, A..

[17]Land use changes induced soil organic carbon variations in agricultural soils of Fuyang County, China. Qiu, Lefeng,Zhu, Jinxia,Wang, Ke,Deng, Jinsong,Zhu, Yuanhong,Hong, Yang. 2013

[18]Spatial variability of soil nutrients and GIS-based nutrient management in Yongji County, China. Zhang, Qiang,Yang, Zhiping,Zhang, Qiang,Yang, Zhiping,Zhang, Jianjie,Chen, Mingchang,Li, Yong,Chen, Deli.

[19]Morphological and yield responses of winter wheat (Triticum aestivum L.) to raised bed planting in Northern China. Wang, Fahong,Kong, Ling'an,Li, Shengdong,Si, Jisheng,Feng, Bo,Zhang, Bin,Wang, Fahong,Sayre, Ken. 2011

[20]Estimating Winter Wheat Leaf Area Index From Ground and Hyperspectral Observations Using Vegetation Indices. Xie, Qiaoyun,Huang, Wenjiang,Zhang, Bing,Dong, Yingying,Xie, Qiaoyun,Chen, Pengfei,Song, Xiaoyu,Pascucci, Simone,Pignatti, Stefano,Laneve, Giovanni. 2016

作者其他论文 更多>>

微信小程序