Journal of Henan Agricultural Sciences ›› 2021, Vol. 50 ›› Issue (7): 87-100.DOI: 10.15933/j.cnki.1004-3268.2021.07.011
• Agricultural Resources and Environment • Previous Articles Next Articles
SHI Qiang1,WANG Cuihong1,BU Siyi2,ZENG Ying1,LI Xiaojing1,OUYANG Ningxiang1
Received:
2021-03-04
Published:
2021-07-15
Online:
2021-07-15
施强1,王翠红1,卜思怡2,曾莹1,李晓镜1,欧阳宁相1
通讯作者:
王翠红(1964-),女,湖南长沙人,教授,硕士,主要从事土壤环境化学与土壤污染治理研究。E-mail:cuihongwang515@sina.com
作者简介:
施强(1996-),男,湖南常德人,在读硕士研究生,研究方向:土壤环境化学。E-mail:740593723@qq.com
基金资助:
CLC Number:
SHI Qiang, WANG Cuihong, BU Siyi, ZENG Ying, LI Xiaojing, OUYANG Ningxiang. Arsenic Content and Spatial Distribution in Paddy Soil Profile of Typical Parent Material in Hunan Province[J]. Journal of Henan Agricultural Sciences, 2021, 50(7): 87-100.
施强, 王翠红, 卜思怡曾莹, 李晓镜, 欧阳宁相. 湖南省典型母质水稻土剖面砷的含量及空间分布[J]. 河南农业科学, 2021, 50(7): 87-100.
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URL: https://www.hnnykx.org.cn/EN/10.15933/j.cnki.1004-3268.2021.07.011
[1] 潘佑民,杨国治. 湖南土壤背景值及研究方法[M].北京:中国环境科学出社,1988. PAN Y M,YANG G Z.Soil background values and its research methods in Hunan Province[M].Beijing:China Environmental Science Press,1988. [2] 周伟军. 湖南几种典型水稻土砷的剖面分布特征及生物有效性研究[D].长沙:湖南农业大学,2018. ZHOU W J. Profile distribution characteristics and biological effects of exogenous arsenic in several typical paddy soils in Hunan Province[D].Changsha:HunanAgricultural University,2018. [3] 石敏,周伟军,王翠红,等. 湖南省5种潴育水稻土对砷的吸附特征[J].湖南农业大学学报(自然科学版),2019,45(3):288⁃292. SHI M,ZHOU W J,WANG C H,et al. As5+ adsorption by five hydromorphic paddy soils in Hunan Province[J].Journal of Hunan Agricultural University (Natural Sciences),2019,45(3):288⁃292. [4] 安礼航,刘敏超,张建强,等. 土壤中砷的来源及迁移释放影响因素研究进展[J].土壤,2020,52(2):234⁃246. AN L H,LIU M C,ZHANG J Q,et al.Sources of aresnic in soil and affecting factors of migration and release:A review[J].Soils,2020,52(2):234⁃246. [5] 常会庆,焦常锋,郑彩杰,等.不同来源污泥重金属的含量特征及其风险评价[J].河南农业科学,2019,48(3): 70⁃76. CHANG H Q,JIAO C F,ZHENG C J,et al.Characteristics and risk assessment of heavy metal content in sewage sludge from different sources[J].Journal of Henan Agricultural Sciences,2019,48(3):70⁃76. [6] 曾希柏,苏世鸣,吴翠霞,等. 农田土壤中砷的来源及调控研究与展望[J].中国农业科技导报,2014,16(2):85⁃91. ZENG X B,SU S M,WU C X,et al. Research and prospect of arsenic source and its regulation in arable land soil[J].Journal of Agricultural Science and Technology,2014,16(2):85⁃91. [7] 陈芬,余高. 晋北地区规模化养殖场畜禽粪便中养分和重金属含量分析[J].河南农业科学,2019,48(5):143⁃148. CHEN F,YU G.Contents of nutrients and heavy metals in manure at intensive livestock farms in northern region of Shanxi[J].Journal of Henan Agricultural Sciences,2019,48(5):143⁃148. [8] 陈俊坚,张会化,曾晓舵,等. 广东省土壤砷元素空间变异与环境意义[J].生态环境学报,2011,20(5):956⁃961. CHEN J J,ZHANG H H,ZENG X D,et,al.Spatial variation and environmental indications of soil arsenic in Guangdong Province[J].Ecology and Environmental Sciences,2011,20(5):956⁃961. [9] 李莲芳,曾希柏,白玲玉,等. 石门雄黄矿周边地区土壤砷分布及农产品健康风险评估[J].应用生态学报,2010,21(11):2946⁃2951. LI L F,ZENG X B,BAI L Y,et al.Soil arsenic content and its health risk assessment for agricultural products in the region sur⁃rounding Shimen arsenic sulphide mine[J].Chinese Journal of Applied Ecology,2010,21(11): 2946⁃2951. [10] 徐启胜,李雨晴,陈燕,等. 我国中南地区土壤重金属污染状况及其空间分布研究[J].北方农业学报,2018,46(3):93⁃100. XU Q S,LI Y Q,CHEN Y,et al. Study on heavy metal pollution and its spatial distribution in soil in central South China[J].Journal of Northern Agriculture,2018,46(3):93⁃100. [11] 陈雅丽,翁莉萍,马杰,等. 近十年中国土壤重金属污染源解析研究进展[J].农业环境科学学报,2019,38(10):2219⁃2238. CHEN Y L,WENG L P,MA J,et al.Review on the last ten years of research on source identification of heavy metal pollution in soils[J].Journal of Agro⁃Environment Science,2019,38(10):2219⁃2238. [12] 刘铮. 中国土壤微量元素[M]. 南京:江苏科学技术出版社,1996. LIU Z. Soil trace elements in China[M].Nanjing:Jiangsu Science and Technology Press,1996. [13] 周伟军,王翠红,石敏,等. 不同母质发育土壤添加砷对水稻生长发育的影响[J].湖南农业大学学报(自然科学版),2018,44(4):401⁃405. ZHOU W J,WANG C H,SHI M,et al.Effects of as treatment on rice growth and development in soils developed from different parent materials[J].Journal of Hunan Agricultural University (Natural Sciences),2018,44(4):401⁃405. [14] 赵宗生,邱坤艳,祝慧娜,等.田块尺度污染农田土壤铅、镉和砷含量的空间变异及其对土地利用的启示[J].土壤通报,2019,50(2):474⁃481. ZHAO Z S,QIU K Y,ZHU H N,et al.Field⁃scale spatial variation of Pb,Cd and As in contaminated farmland soils and its implication for the utilization of the farmland[J].Chinese Journal of Soil Science,2019,50(2):474⁃481. [15] 陈同斌,刘更另.砷对水稻生长发育的影响及其原因[J].中国农业科学,1993,26(6):50⁃58. CHEN T B,LIU G L.Effect of arsenic on rice growth and development and its mechanism [J].Scientia Agricultura Sinica,1993,26(6):50⁃58. [16] 安晨昕,王铁良,李玉清.不同浓度砷对土壤理化性质及水稻品质的影响[J].中国农村水利水电,2016(4):55⁃58. AN C X,WANG T L,LI Y Q,et al.The effect of different concentrations of arsenic on soil physicochemical properties and rice quality[J].China Rural Water and Hydropower,2016(4):55⁃58. [17] 湖南省农业厅.湖南土壤[M].北京:农业出版社,1989. Agriculture Department of Hunan Province. Hunan soil[M].Beijing:Agricultural Press,1989. [18] 沈洪艳,安冉,师华定,等.湖南省某典型流域农用地土壤重金属污染及影响因素[J].环境科学研究,2021,34(3):715⁃724. SHEN H Y,AN R,SHI H D,et al.Heavy metal pollution and influencing factors of agricultural land in a typical watershed in Hunan Province [J].Research of Environmental Sciences,2021,34(3):715⁃724. [19] 王梅霞,冯文兰.土壤砷空间分布特征及其与地理要素的关联分析[J].环境科学与技术,2019,42(9):106⁃111. WANG M X,FENG W L.Spatial variation of soil arsenic and correlation analysis with geographical factors[J].Environmental Science & Technology,2019,42(9):106⁃111. [20] 郭朝晖,涂卫佳,彭驰,等.典型铅锌矿区河流沿岸农田土壤重金属分布特征及潜在生态风险评价[J].农业环境科学学报,2017,36(10):2029⁃2038. GUO Z H,TU W J,PENG C,et al.Distribution characteristics and potential ecological risk assessment of heavy metals in paddy soil along bothsides of river from typical lead/zinc mine area[J].Journal of Agro⁃Environment Science,2017,36(10):2029⁃2038. [21] 周俊驰,刘孝利,雷鸣,等.湖南典型矿区耕地土壤重金属空间特征研究[J].地理空间信息,2018,16(8):90⁃94. ZHOU J C,LIU X L,LEI M,et al. Spatial characteristics of heavy metal pollution in cultivated soil of typical mining area in Hunan Province [J].Geospatial Information,2018,16(8):90⁃94. [22] 彭涛,欧阳宁相,张亮,等.湘东花岗岩发育水稻土在中国土壤系统分类中的归属[J].浙江农业学报,2017,29(10):1726⁃1732. PENG T,OUYANG N X,ZHAG L,et al.Reference of paddy soil developed from granite in eastern Hunan in Chinese soil taxonomy [J].Acta Agriculturae Zhejiangensis,2017,29(10):1726⁃1732. [23] 翟橙,周清,张伟畅,等.湖南长沙地区第四纪红土发育的水稻土在中国土壤系统分类中的归属[J].江苏农业科学,2018,46(3):224⁃230. ZHAI C,ZHOU Q,ZHANG W C,et al.Classification of paddy soils derived from quaternary laterite in Changsha,Hunan Province in Chinese soil taxonomy[J].Jiangsu Agricultural Sciences,2018,46(3):224⁃230. [24] 彭涛,张亮,盛浩,等.湘东第四纪红土发育水稻土在中国土壤系统分类中的归属[J].江苏农业科学,2018,46(20):316⁃319,320. PENG T,ZHANG L,SHENG H,et al.Quaternary lateritic paddy soils of Eastern Hunan in the classification of Chinese soil system[J].Jiangsu Agricultural Sciences,2018,46(20):316⁃319,320. [25] 满海燕,黄运湘,盛浩,等. 湘东两类母质发育水田土壤的发生特性及其系统分类[J].浙江农业学报,2018,30(7):1194⁃1201. MAN H Y,HUANG Y X,SHENG H,et al.Genetic characteristics and taxonomic classification of paddy field soils developed from two parent materials in East Hunan[J].Acta Agriculturae Zhejiangensis,2018,30 (7):1194⁃1201. [26] 曹俏,余展,周清,等.湘北地区典型水稻土的发生特性及其在中国土壤系统分类中的归属[J].土壤,2019,51(1):168⁃177. CAO Q,YU Z,ZHOU Q,et al.Genetic characteristics of paddy soils in Northern Hunan and their attribution in Chinese soil taxonomy[J].Soils,2019,51(1):168⁃177. [27] 张甘霖,龚子同.土壤调查实验室分析方法[M].北京:科学出版社,2012. ZHANG G L,GONG Z T.Laboratory analysis method of soil investigation[M].Beijing:Science Press,2012. [28] 周九州.衡阳县主要农产品产地土壤重金属污染状况研究[D].长沙:湖南农业大学,2005. ZHOU J Z.Study on soil polluted by heavy metal of main agricultural product habitat in Hengyang County[D].Changsha:Hunan Agricultural University,2005. [29] 王昌宇.湖南典型地区土壤中铅等元素污染来源探讨[D].北京:中国地质大学,2016. WANG C Y. Study on source of harmful elements such as lead in soils from the typical area,Hunan Province[D].Beijing:China University of Geosciences,2016. [30] 易秀. 黄土类土对铬、砷的净化机理及地下水防污安全埋深的研究[D].西安:长安大学,2003. YI X. Research on Purification mechanism of loessial soil to Cr and As and safety buried depth of protecting groundwater from pollution[D].Xi’an:Chang’an University,2003. [31] 温鹏翀,温汉辉,蔡立梅,等.典型产业承接区土壤砷含量的空间分布特征及影响因素[J].环境化学,2021,40(1):204⁃212. WEN P C,WEN H H,CAI L M,et al.Spatial distribution characteristics and influencing factors of soil arsenic content in typical industrial undertaking areas[J].Environmental Chemistry,2021,40(1):204⁃212. [32] 刘凤枝. 农业环境监测实用手册[M].北京:中国标准出版社,2001. LIU F Z.Practical handbook for agricultural environmental monitoring[M].Beijing:China Standard Press,2001. [33] 朱雁鸣,冯人伟,韦朝阳. 水口山水稻土与菜地土中砷的有效性[J].生态学杂志,2012,31(10):2657⁃2661. ZHU Y M,FENG R W,WEI C Y,et al.Availability of arsenic in paddy and vegetable soils in Shuikoushan mining area of Hunan Province,South⁃central China[J].Chinese Journal of Ecology,2012,31(10):2657⁃2661. [34] POGGIO L,VRSCAJ B,HEPPERLE E,et al.Introducing a method of human health risk evaluation for planning and soil quality management of heavy metal⁃polluted soils:An example from Grugliasco(Italy)[J].Landscape and Urban Planning,2008,88(2):64⁃72. [35] 张慧,郑志志,杨欢,等.基于多元统计和地统计的肇源县表层土壤重金属来源辨析[J].土壤,2017,49 (4):819⁃827. ZHANG H,ZHENG Z Z,YANG H,et al.Discrimination of heavy metal sources in topsoil in Zhaoyuan County based on multivariate statistics and geostatistical[J].Soils,2017,49(4):819⁃827. [36] 魏大成. 环境中砷的来源[J].国外医学(医学地理分册),2003,24(4):173⁃175. WEI D C. Sources of arsenic in the environment[[J].Foreign Medicine(Medical Geography),2003,24(4):173⁃175. [37] 赵述华,罗飞,郗秀平,等. 深圳市土壤砷的背景含量及其影响因素研究[J].中国环境科学,2020,40(7):3061⁃3069. ZHAO S H,LUO F,XI X P,et al. Study of soil background content of arsenic and its impact factors in Shenzhen[J].China Environmental Science,2020,40(7):3061⁃3069. [38] 陈凤,濮励杰.昆山市农业土壤基本性质与重金属含量及二者的关系[J].土壤,2007,39(2):291⁃296. CHEN F,PU L J. Relationship between heavy metals and basic properties of agricultural soils in Kunshan County[J].Soils,2007,39(2):291⁃296. [39] KIRKHAM M B. Cadmium in pants on polluted soils:Effects of soil factors, hyperaccumulation, and amendments[J]. Geoderma,2006,137(1):19⁃32. |
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