中国克山病的构造环境机理研究——以陕西病区为例
|
摘要
摘 要
对前人在克山病方面研究成果的分析表明,克山病的病因尚无定论,前人对克山病的归属和动力机制及影响因子等存在许多疑团。在此基础上,以陕西病区为研究对象,提出应从以下三方面加以研究:
1、克山病病区的构造环境分析。在对中国大陆内部NE方向最醒目的一条构造带——燕辽—太行—龙门山构造带的地质构造特征及古地理环境变迁分析的基础上,通过对克山病病区的构造特征和断裂带与地质发病的关系,以及克山病病区古地理因素的分析,反映出:克山病病区分布与燕辽—太行—龙门山构造带在方向上(NE)存在高度的一致性,说明两者之间具有某种内在联系。
2、通过对克山病病区的地球化学特征分析,发现:克山病病区的分布与我国由东北到西南的一条低硒带完全吻合,进而结合陕西克山病病区——黄土高原病区的调查和分析,证实低硒是克山病发病的重要环境因子。为了找到克山病发病的基本病因,作者首次提出:开展地球化学元素同位素的研究,有可能是打破僵局、将实验进行下去的有益尝试。
3、通过对克山病病区的地球物理异常特征的分析,结合陕西克山病病区分布的构造单元和深部地球物理状况,以及同克山病高发年份同地球物理异常(强地震)年份的联系,提出克山病病区地球物理异常是潜在的发病因子。
鉴于克山病病因的复杂性,作者认为,需要多学科(地学、医学、生物学等)的交叉渗透,并应用最新的地球物理和地球化学手段,进行跨区域的合作研究,才能最终找到克山病的病因,从而根治分布区域广大的这一地方病隐患。
Abstract
Through the analysis of research achievements on Keshan disease, this article shows that we has still not got last words about the pathogeny of Keshan disease, and there are many doubts and suspicions in the ascription, driving mechanism and influencing factors of Keshan disease, which were conducted by former experts. On the basis of that, we take Shannxi as an example, and think we should study from the following three aspects:
1. The tectonic environmental analysis of Keshan disease areas. On the basis of analyzing tectonic features and ancient geographical environment flux of the most striking tectonic belt------Yanliao---Taihang---Longmen Mountain towards northeast in inner Chinese mainland, we have analyzed ancient geographical factors and the relationships of tectonic feature and fault structure belts as well as geological morbidities in Keshan disease areas. The research shows that there is high coherence between the distribution of Keshan disease areas and the tectonic belt of Yanliao---Taihang---Longmen Mountain towards northeast, and also shows that there are some inner connections between the areas and the belt.
2. Through the analysis of Chemical geography features of Keshan disease areas, we found that the distribution of Keshan disease areas is just located in the belt filling with low selenium from the northeast to thesouthwest in China. Then combining the survey and research of Keshan disease areas in Shaanxi---loess plateau disease areas, we conform that low selenium is the important environmental factor of the morbidity of Keshan disease. In order to find out the basic pathogeny of Keshan disease, the author firstly think that it may be a beneficial experiment of breaking the deadlock and continuing the experiment to take the research on isotopes of chemical geography elements.
3. Though the analysis of abnormal Physical geography features in Keshan disease areas, we combine construction units and deep-earth physical states of Keshan disease areas distribution in Shannxi as well as the connections between the years when the Keshan disease incident is high and the year when the Physical geography is abnormal (the earthquake is more severe), and confirm the abnormity of Physical geography is the potential pathogenic factor.
Because of the complexity of Keshan disease pathogeny, the author thinks the ways to find the Keshan disease pathogen and get ride of the hidden danger of this widespread regional disease are the crossover and infiltration of multi-subjects (Geo-science, Medicine, Biology etc.), the use of latest Physical geography and Chemical geography approaches, and the cross-area cooperative research.
对前人在克山病方面研究成果的分析表明,克山病的病因尚无定论,前人对克山病的归属和动力机制及影响因子等存在许多疑团。在此基础上,以陕西病区为研究对象,提出应从以下三方面加以研究:
1、克山病病区的构造环境分析。在对中国大陆内部NE方向最醒目的一条构造带——燕辽—太行—龙门山构造带的地质构造特征及古地理环境变迁分析的基础上,通过对克山病病区的构造特征和断裂带与地质发病的关系,以及克山病病区古地理因素的分析,反映出:克山病病区分布与燕辽—太行—龙门山构造带在方向上(NE)存在高度的一致性,说明两者之间具有某种内在联系。
2、通过对克山病病区的地球化学特征分析,发现:克山病病区的分布与我国由东北到西南的一条低硒带完全吻合,进而结合陕西克山病病区——黄土高原病区的调查和分析,证实低硒是克山病发病的重要环境因子。为了找到克山病发病的基本病因,作者首次提出:开展地球化学元素同位素的研究,有可能是打破僵局、将实验进行下去的有益尝试。
3、通过对克山病病区的地球物理异常特征的分析,结合陕西克山病病区分布的构造单元和深部地球物理状况,以及同克山病高发年份同地球物理异常(强地震)年份的联系,提出克山病病区地球物理异常是潜在的发病因子。
鉴于克山病病因的复杂性,作者认为,需要多学科(地学、医学、生物学等)的交叉渗透,并应用最新的地球物理和地球化学手段,进
Abstract
Through the analysis of research achievements on Keshan disease, this article shows that we has still not got last words about the pathogeny of Keshan disease, and there are many doubts and suspicions in the ascription, driving mechanism and influencing factors of Keshan disease, which were conducted by former experts. On the basis of that, we take Shannxi as an example, and think we should study from the following three aspects:
1. The tectonic environmental analysis of Keshan disease areas. On the basis of analyzing tectonic features and ancient geographical environment flux of the most striking tectonic belt------Yanliao---Taihang---Longmen Mountain towards northeast in inner Chinese mainland, we have analyzed ancient geographical factors and the relationships of tectonic feature and fault structure belts as well as geological morbidities in Keshan disease areas. The research shows that there is high coherence between the distribution of Keshan disease areas and the tectonic belt of Yanliao---Taihang---Longmen Mountain towards northeast, and also shows that there are some inner connections between the areas and the belt.
2. Through the analysis of Chemical geography features of Keshan disease areas, we found that the distribution of Keshan disease areas is just located in the belt filling with low selenium from the northeast to the
3. Though the analysis of abnormal Physical geography features in Keshan disease areas, we combine construction units and deep-earth physical states of Keshan disease areas distribution in Shannxi as well as the connections between the years when the Keshan disease incident is high and the year when the Physical geography is abnormal (the earthquake is more severe), and confirm the abnormity of Physical geography is the potential pathogenic factor.
Because of the complexity of Keshan disease pathogeny, the author thinks the ways to find the Keshan disease pathogen and get ride of the hidden danger of this widespread regional disease are the crossover and infiltration of multi-subjects (Geo-science, Medicine, Biology etc.), the use of latest Physical geography and Chemical geography approaches, and the cross-area cooperative research.
引文
参考文献
[1] 聂树人. 医学地理概论[M]. 西安:陕西师范大学出版社,1987
[2] 张丽君,贾跃明. 国外环境地质研究和工作的主要态势. 水文地质工程地质,1999.6,1-5.
[3] 贾跃明,姜建军,张丽君. 国际环境地质工作发展趋势—对我国新一轮国土资源大调查中环境地质工作部署的思考和建议. 1999.
[4] 王世臣. 慢型克山病与扩张型心肌病的鉴别[J]. 全国克山病病情资料汇编(内部资料),1997,49~56.
[5] Report of the WHO/ISFC task force on the definition and classification of car diomyopathics[R] , Br Heart J1980;44:672.
[6] 徐广禄,硒预防克山病和低硒与克山病关系的研究进展. 陕西克山病防治研究. 陕西科学出版社,1998.
[7] 谭见安,健康、环境、发展—当代医学地理的主题,地理学报,1994,49卷(增刊),701—709.
[8] 苗成波,陕西克山病防治研究[M]. 西安:陕西科学技术出版社,1998
[9] 《中国大百科全书》编委. 中国大百科全书—环境科学[M]. 北京:中国大百科全书出版社,1983
[10] 田春声. 环境水文地质学[M]. 西安:陕西科学技术出版社,1995
[11] 杨杰,苗成波,何新科等. 2000年陕西省旬邑县克山病病情监测分析报告.
[12] 谭见安,郑达贤,候少范等.克山病与自然环境和硒营养背景[J]. 营养学报,1982,4(3):175
[13] 杨光圻,王光亚,殷泰安等. 我国克山病分布与硒营养状态的关系[J]. 营养学报,1982,4(3):191
[14] 牛存龙,余志明,陈增策等.云南昭通病区人群硒水平的研究[J]. 中国地方病防治杂志,1987,2(6):340
[15] Burguera J L .委内瑞拉Merida 省人血清硒水平与性别、癌发病率及土壤硒含量关系[J]. 国外医学—医学地理分册,1991(1):17—18
[16]姬野诚一郎(日). 硒的营养状态对甲状腺机能的影响[J]. 医学のあゅみ,1993,164(3):168
[17] 雷联会. 人体营养与健康中的微量元素硒[J]. 国外医学—医学地理分册,1998, 19 2):51~54.
[18] 李洞.微量元素摄入量研究[J].国外医学—医学地理分册,1997,18(3):106~109.
[19] 于维汉,曾宪惠,漆伟等.贫硒富锰致大鼠心肌损伤及其保护因素的实验研究[J]. 中国地方病学杂志,1991,10(1):1
[20] 钟学宽,曾宪惠等.原位核酸杂交法探讨柯萨奇B组病毒与云南亚急型克山病的关系[J],中国地方病学杂志,1993,12(4):193
[21] Solomons NW. 硒[J]. 国外医学—医学地理分册,Vol.12 No.4 1991(4):170—171
[22] 余祖新. 高硒与低硒区住院病人疾病谱与死因构成[J].地方病通报,1992(4):13—15
[23] 荀黎红. 地方性贫硒与大骨节病发病关系的研究进展[J]. 国外医学—医学地理分册,1992(1):6—8
[24] McGuire MK//Am J Clin Nutr(英).摄硒类型对哺乳期妇女硒状态的影响[J].1993,58(5),649—652
[25] 廖鲁兴. 硒与体内酶活性及其它元素分布的关系[J]. 国外医学—医学地理分册,1995(2):53—55
[26] 程云鸑. 四川省克山病流行特征与控制对策[J]. 中国地方病杂志,1997(3):175—177
[27] 王世臣,夏德义. 克山病的归属问题,陕西克山病防治研究,1998,77—78.
[28] 张保升. 陕西省几个病区的地理,陕西克山病防治研究,1998,28—30.
[29] 谢景奎、蔡海江、徐广禄等. 对克山病病因的看法及今后研究工作的意见. 陕西克山病防治研究,1998,226—229.
[30] 王世臣. 试论克山病研究中的几个问题.中国地方病学杂志[J],1992, 11(2):110
[31] 张治国. 克山病监测[J]. 中国地方病学杂志,1993,12(1):83
[32] 朱玉尧,郝增昌,史作发等. 克山病监测点环境[R]
[33] 王战,吴文奎,谢广成.中国地壳的镶嵌构造与波浪运动[M].北京:地质出版社,1996
[34] 张学林. 硒的世界地理分布[J]. 国外医学—医学地理分册,1992,13(1):1—5
[35] A.Д.日加林 .发病机理与地质非均一性的可能联系[J].地理生物学(俄),1998,N.6,c.3-21
[36] 黄卡玛,李颖,刘宁等.近年来弱电磁场(波)生物效应机理研究进展[J].中国医学物理学杂志.2000,17(1):36—40
[37] 李缉熙,牛中奇.生物电磁学概论[M].西安:西安电子科技大学出版社,1990:276.
[38] Stephen D.Pollington, et.al. The Influence of Microwaves on the Rate of Reaction of Propan-1-ol with Ethanoic Acid[J].J.Org. Chem, 1991, 56 : 1313-1314.
[39]Thuroczy. G. Kubinyi, et. Al. Simultaneous response of btain electrical activity (EEG) and cerebral circulation (REG)to microwave exposure in rats[J].Reviews on Environmental health,1994,10(2): 135-148.
[40] Teng. H. Yan, D.Vanhoenacker, et. Al. Variations of pain threshold and norepinephrine release in rabbits due to microwave stimulation[Z].in Proc.MTT Symp. Boston, 1991: 801-804.
[41] G.Salford, A. Brun, et. Al. Permeability of the blood-brain barrier induced by 915 MHz electromagnetic radiation,continuous wave and modulated at 8, 16,50 and 200 Hz[J]. Microscopy Research Tech. 1994,27: 53f5-542.
[42] J. Thuery, Microwaves: Industrial, Scientific and Medical Applications [M].Boston, MA: Artech House, 1992.
[43] F.Schonborn, M. Burkhard , N. Kuster. Experimental Requirements for RF Laboratory Experiments.
[44] 王战. 地球演化中最大的两级节律[J]. 地学前缘,1997,4(3):95—99.
[45] 王战. 新四面体理论[A]. 地球系统—中国进展. 世纪展望[C]. 中国科学技术出版社,1998,311—314.
[46] 郑剑东,杨巍然,郭铁鹰.《中国岩石圈动力学地图集》的“大地构造” [J]. 中国地图出版社. 马杏垣主编,1989,4.
[47] 程裕淇. 中国区域地质概论[M]. 地质出版社,1994,461~466.
[48] 王鸿桢. 中国古地理图集[M]. 中国地图出版社,1985,125~138.
[49] 王战. 吊筛式摆动[A]. 见:现代科技综述大辞典[C]. 北京出版社,1998,584—585.
[50] 齐铸华. 黄土高原侵蚀地貌与水土流失关系研究[M]. 陕西人民教育出版社,1991,16~22.
[51] 张伯声,王战. 从波浪状镶嵌构造学说观点看陕西[J]. 陕西地质. 1989,7(2):1~6
[52] 黄秉维,郑度,赵名荣等. 现代自然地理. 科学出版社[M],1999,133~162.
[53] 谭见安. 环境生命元素与克山病—生态化学地理研究[M]. 中国医药科技出版社,1996.
[54] Said, M. Elements in Health and Disease[M]. Karachi:Hamdard Foundation Pakistan.1987.
[55] Tan Jianan et al. Environmental Life Elements and Health[M]. Beijing:Science Press
[56] 李扬鉴,张星亮,陈延成等. 大陆层控构造导论[M]. 地质出版社,1996,1~7.
[57] 田均良,彭祥林. 黄土高原土壤地球化学[M]. 科学出版社.,1994,199~213.
[58] 程介克,刘锦春,江祖成. 微量分析[M]. 化学工业出版社,1993,4~24.
[59] IARC,申葆诚编译,化学物 的致癌危险性[M],上册,科学出版社,1984.
[60]杨忠芳,.现代环境地球化学[M]. 地质出版社,1999,190~194.
[61] 牟保垒. 元素地球化学[M]. 北京大学出版社,1999,85~90.
[62] 于津生. 中国同位素地球化学研究[M].. 科学出版社,1997,429~433.
[63] 蔡晓明,尚玉昌. 普通生态学[M],北京大学出版社,1995,256.
[64] Wertheimer N,et al.Am.J.Epi-demiol [J]1979; 109:273-284
[65] Adey W R.Interaction of Biological Systems with Static and ELF Electrics and Magnetic Fields,Proc.23 rd Ann Hanford Life [M] Sci. Symp.CONF 8410141,237-248,National Technical Information Service, Springfield, VA,1987
[66] Bawin S M , Proc Nat [J]. Acad Sci 1976; 73: 1999-2003
[67] Bawin S M ,Bioelectrochem [J]. Bioenerg 1978; 5:67-76
[68] Blackman c F , et al. Bioelectromagnetics [J]. 1989; 10:115-128
[69] Luben R A , et al. Conf Proc 15th Ann Meeting Bioelectromagnetics Society [R], Los Angeles,C A ,June 13-17, 1993; BEMS Frederick, MD, 1993
[70] Liboff A R ,et al. Science [J]. 1984; 223:818-820
[71] Goodman R , et al. Bioelectromagnetics [J].1987; 8:1-7
[72] Goodman R, et al. Conf Proc 16th Ann Meeting Bioelectromagnetics Society [R], Copenhagan, Denmark, June 12-17, 1994; BEMS, Frederick, MD, 1994
[73] Blank M, et al. Conf Proc Ann Rev of Res on the Biological Effects of Electric and Magnetic Fields from the Generation [J] ,Delivery and Use of Electricity 1993;8-2
[74] Blackman CF ,et al, Bioelectromagnetics [J]. 1985;6: 327-337
[75] Paradisi S, et al, Bioelectromagnetics [J]. 1993; 14:247-255
[76] 赵福弟,刘军.磁场对克山病心肌的保护作用[J].中国地方病防治杂志,1998,13(6):328—329
[77] 刘松岩.硒和钼对缺氧性心肌损伤保护作用的研究[J].中国地方病防治杂志,1989,4(4):196
[78] 欧阳一冰.克山病与自由基代谢—克山病动物模型的自由基代谢[J].楚雄克山病考察文集,北京工人出版社,1988
[79] 蒋锦昌,陈德玉.. 地震生物学概论[M],地震出版社,1993
[80] 陕西省地震局. 陕西省2001年度震情研究报告.
[81] 中国地质矿产部. 陕西区域地质志[M]. 地质出版社,1980,539~560.
[82] 王战,张维吉,李侠等. 东秦岭波浪状构造演化[M]. 西北大学出版社,1993,165~172.
[83] 汪品先. 亚洲形变与全球变冷—探索气候与构造的关系[J]. 第四纪研究,1998,3:213—221
[84]Mcarthur J M. Rescent trends in strontium isotope stratigraphy. [J] Terra Nova, 1994,6(4):331-358
[85] Singh G .History of aridland vegation and climate: A global perspective. Biological Review [M], 1988,63:159-195
[86] Liu Tungsheng, Guozhengtang. Geological environments in China and global change. 刘东生文集[M].北京:科学出版社,1997.192—202
[87] 刘嘉麒,郭正府. 火山活动与构造气候旋回[J].第四纪研究,1998,3:222—228
[88] Mass C F, Porman D A. Major volcanics eraptions and climate: A critical evaluation. Journal of Climate,1989,2:556-593
[89] 中国海洋报,2000.8.22,第942期
[90] 林云芳、曾小苹等,地磁方法在地震预报中的应用[J],地震地磁观测与研究,1999.2
[91] 王倩云,克山病分布与年干燥度[J]. 陕西克山病防治研究,苗成波主编,1998,291~295.
[92] J. Jauchem.Alleged Health Effects of Electric or Magnetic Fields: Additiional Misconceptioins in the Literature[J].Journal of Microwave Power and Electromagnetic Energy,1993,Vol.28(3):140-155.
[93] K. R. Foster, and Linda S. Erdreich, and et. al. Weak Electromagnetic Fields and Cancer in the Cpmtext of Risk Assement[J]. Proceedings of the IEEE,1997, 85(5):733-746.
[94] B. Nilsson and L. Petersson, "A mechanism for high-frequency electromagnetical field-induced biological damage?[J]" IEEE Trans. Microwave Theory Tech.,1979, 27:616-618.
[95] Frohlich H. Coherent excitation in Bioelectricity. Frohlich H and Kremer F (Eds)[Z]. Berlin: Springer. Verlag: 1983.
[96] Liboff AR: Ca-45 cyclotron resonance in human l6ymphocytes [J].J.Bioelectricity,1987,6:13.
[97] Lednev VV: possible mechanism for the influence of weak magnetic fields on biological systems[J]. Bioelectromagnetics.1991,12:71.
[98] Bobertson B and Astumian D: Michaelis-Menten equation for an enzyme in an oscillating electric field[J].Biophys. J. 1990,58:969.
[99] Bawin SM. Sheppard A. and Adey WR: Possible mechanisms of weak electromagnetic field coupling in brain tissue[J].Bioelectrochem. and bioenerg, 1978,5:67.
[100] Lawrence AF and Adey WR: Nonlinear wave mechanisms in interactions between excitable tissue andelectromagnetic fields[J].Neurol. Res.,1982,4:115.
[101] Kenneth R. Foster. Electromagnetic field Effects and Mechanisms[J]. IEEE Engineering in Medicine and Biology.1996,July/August:50-56.
[102] A.A. Serikv.Vibrational Spectra of Molecular Systems Exposed to Microwave Radiation[J].J. Phys: Condens. Matter 1995(7):2755-2766.
[103] Keilman.F..Triplet-Selective Chemistry: a Possible Cause of Biological Microwave Sensitivity[Z]. Z. Naturforsch. 41C, 1986: 795.
[104] J. C. Weaver and R. D. Astumian. The Response of Living Cells to Very Weak Electric Fields: the Thermal Noise Limit[J]. Science. 1990(247):459.
[105] J. A. V. Butler and D. Noble eds. Progress in Biophysics and Molecular Biology[M]. 28. Section 5. Membrane Noise.1974.
[106] 程极济,林克椿.生物物理学[M].北京:人民教育出版社,1981:1.4.
[107] Robert K. Adair. Constraints on Biological Effects of Weak Extremely-low-frequency Electromagnetic Field[J]. Physical Review A. 1991(43)2:1039-1048.
[108] William F. Pickard. A Model for the Acute Electrosensitivity of Cartilaginous Fishes[J]. IEEE Trans. BME.,1988,35(4):243-249.
[109] A.K.Vidybida. Estimation of possible selectivity and sensitivity of a cooperative system to low-intensive microwave radiation[J]. Physica A.,1995,221:30-40.
[110] Huang kama, Tang jingxian, Liu Yongqing,et. al. New characteristics of oxido-reduction reaction of KI and KMnO irradiated by anplitude-modulated electromagnetic waves[J]. Chinese Science Bulletin,1996,41(15):1259-1262.
[111] 大众科技,科技时代.新浪网.htm,令科学家着迷的地球磁场[J].山东省莱州市图书馆潘黎编译.2000年.
[1] 聂树人. 医学地理概论[M]. 西安:陕西师范大学出版社,1987
[2] 张丽君,贾跃明. 国外环境地质研究和工作的主要态势. 水文地质工程地质,1999.6,1-5.
[3] 贾跃明,姜建军,张丽君. 国际环境地质工作发展趋势—对我国新一轮国土资源大调查中环境地质工作部署的思考和建议. 1999.
[4] 王世臣. 慢型克山病与扩张型心肌病的鉴别[J]. 全国克山病病情资料汇编(内部资料),1997,49~56.
[5] Report of the WHO/ISFC task force on the definition and classification of car diomyopathics[R] , Br Heart J1980;44:672.
[6] 徐广禄,硒预防克山病和低硒与克山病关系的研究进展. 陕西克山病防治研究. 陕西科学出版社,1998.
[7] 谭见安,健康、环境、发展—当代医学地理的主题,地理学报,1994,49卷(增刊),701—709.
[8] 苗成波,陕西克山病防治研究[M]. 西安:陕西科学技术出版社,1998
[9] 《中国大百科全书》编委. 中国大百科全书—环境科学[M]. 北京:中国大百科全书出版社,1983
[10] 田春声. 环境水文地质学[M]. 西安:陕西科学技术出版社,1995
[11] 杨杰,苗成波,何新科等. 2000年陕西省旬邑县克山病病情监测分析报告.
[12] 谭见安,郑达贤,候少范等.克山病与自然环境和硒营养背景[J]. 营养学报,1982,4(3):175
[13] 杨光圻,王光亚,殷泰安等. 我国克山病分布与硒营养状态的关系[J]. 营养学报,1982,4(3):191
[14] 牛存龙,余志明,陈增策等.云南昭通病区人群硒水平的研究[J]. 中国地方病防治杂志,1987,2(6):340
[15] Burguera J L .委内瑞拉Merida 省人血清硒水平与性别、癌发病率及土壤硒含量关系[J]. 国外医学—医学地理分册,1991(1):17—18
[16]
[17] 雷联会. 人体营养与健康中的微量元素硒[J]. 国外医学—医学地理分册,1998, 19 2):51~54.
[18] 李洞.微量元素摄入量研究[J].国外医学—医学地理分册,1997,18(3):106~109.
[19] 于维汉,曾宪惠,漆伟等.贫硒富锰致大鼠心肌损伤及其保护因素的实验研究[J]. 中国地方病学杂志,1991,10(1):1
[20] 钟学宽,曾宪惠等.原位核酸杂交法探讨柯萨奇B组病毒与云南亚急型克山病的关系[J],中国地方病学杂志,1993,12(4):193
[21] Solomons NW. 硒[J]. 国外医学—医学地理分册,Vol.12 No.4 1991(4):170—171
[22] 余祖新. 高硒与低硒区住院病人疾病谱与死因构成[J].地方病通报,1992(4):13—15
[23] 荀黎红. 地方性贫硒与大骨节病发病关系的研究进展[J]. 国外医学—医学地理分册,1992(1):6—8
[24] McGuire MK//Am J Clin Nutr(英).摄硒类型对哺乳期妇女硒状态的影响[J].1993,58(5),649—652
[25] 廖鲁兴. 硒与体内酶活性及其它元素分布的关系[J]. 国外医学—医学地理分册,1995(2):53—55
[26] 程云鸑. 四川省克山病流行特征与控制对策[J]. 中国地方病杂志,1997(3):175—177
[27] 王世臣,夏德义. 克山病的归属问题,陕西克山病防治研究,1998,77—78.
[28] 张保升. 陕西省几个病区的地理,陕西克山病防治研究,1998,28—30.
[29] 谢景奎、蔡海江、徐广禄等. 对克山病病因的看法及今后研究工作的意见. 陕西克山病防治研究,1998,226—229.
[30] 王世臣. 试论克山病研究中的几个问题.中国地方病学杂志[J],1992, 11(2):110
[31] 张治国. 克山病监测[J]. 中国地方病学杂志,1993,12(1):83
[32] 朱玉尧,郝增昌,史作发等. 克山病监测点环境[R]
[33] 王战,吴文奎,谢广成.中国地壳的镶嵌构造与波浪运动[M].北京:地质出版社,1996
[34] 张学林. 硒的世界地理分布[J]. 国外医学—医学地理分册,1992,13(1):1—5
[35] A.Д.日加林 .发病机理与地质非均一性的可能联系[J].地理生物学(俄),1998,N.6,c.3-21
[36] 黄卡玛,李颖,刘宁等.近年来弱电磁场(波)生物效应机理研究进展[J].中国医学物理学杂志.2000,17(1):36—40
[37] 李缉熙,牛中奇.生物电磁学概论[M].西安:西安电子科技大学出版社,1990:276.
[38] Stephen D.Pollington, et.al. The Influence of Microwaves on the Rate of Reaction of Propan-1-ol with Ethanoic Acid[J].J.Org. Chem, 1991, 56 : 1313-1314.
[39]
[40] Teng. H. Yan, D.Vanhoenacker, et. Al. Variations of pain threshold and norepinephrine release in rabbits due to microwave stimulation[Z].in Proc.MTT Symp. Boston, 1991: 801-804.
[41] G.Salford, A. Brun, et. Al. Permeability of the blood-brain barrier induced by 915 MHz electromagnetic radiation,continuous wave and modulated at 8, 16,50 and 200 Hz[J]. Microscopy Research Tech. 1994,27: 53f5-542.
[42] J. Thuery, Microwaves: Industrial, Scientific and Medical Applications [M].Boston, MA: Artech House, 1992.
[43] F.Schonborn, M. Burkhard , N. Kuster. Experimental Requirements for RF Laboratory Experiments.
[44] 王战. 地球演化中最大的两级节律[J]. 地学前缘,1997,4(3):95—99.
[45] 王战. 新四面体理论[A]. 地球系统—中国进展. 世纪展望[C]. 中国科学技术出版社,1998,311—314.
[46] 郑剑东,杨巍然,郭铁鹰.《中国岩石圈动力学地图集》的“大地构造” [J]. 中国地图出版社. 马杏垣主编,1989,4.
[47] 程裕淇. 中国区域地质概论[M]. 地质出版社,1994,461~466.
[48] 王鸿桢. 中国古地理图集[M]. 中国地图出版社,1985,125~138.
[49] 王战. 吊筛式摆动[A]. 见:现代科技综述大辞典[C]. 北京出版社,1998,584—585.
[50] 齐铸华. 黄土高原侵蚀地貌与水土流失关系研究[M]. 陕西人民教育出版社,1991,16~22.
[51] 张伯声,王战. 从波浪状镶嵌构造学说观点看陕西[J]. 陕西地质. 1989,7(2):1~6
[52] 黄秉维,郑度,赵名荣等. 现代自然地理. 科学出版社[M],1999,133~162.
[53] 谭见安. 环境生命元素与克山病—生态化学地理研究[M]. 中国医药科技出版社,1996.
[54] Said, M. Elements in Health and Disease[M]. Karachi:Hamdard Foundation Pakistan.1987.
[55] Tan Jianan et al. Environmental Life Elements and Health[M]. Beijing:Science Press
[56] 李扬鉴,张星亮,陈延成等. 大陆层控构造导论[M]. 地质出版社,1996,1~7.
[57] 田均良,彭祥林. 黄土高原土壤地球化学[M]. 科学出版社.,1994,199~213.
[58] 程介克,刘锦春,江祖成. 微量分析[M]. 化学工业出版社,1993,4~24.
[59] IARC,申葆诚编译,化学物 的致癌危险性[M],上册,科学出版社,1984.
[60]
[61] 牟保垒. 元素地球化学[M]. 北京大学出版社,1999,85~90.
[62] 于津生. 中国同位素地球化学研究[M].. 科学出版社,1997,429~433.
[63] 蔡晓明,尚玉昌. 普通生态学[M],北京大学出版社,1995,256.
[64] Wertheimer N,et al.Am.J.Epi-demiol [J]1979; 109:273-284
[65] Adey W R.Interaction of Biological Systems with Static and ELF Electrics and Magnetic Fields,Proc.23 rd Ann Hanford Life [M] Sci. Symp.CONF 8410141,237-248,National Technical Information Service, Springfield, VA,1987
[66] Bawin S M , Proc Nat [J]. Acad Sci 1976; 73: 1999-2003
[67] Bawin S M ,Bioelectrochem [J]. Bioenerg 1978; 5:67-76
[68] Blackman c F , et al. Bioelectromagnetics [J]. 1989; 10:115-128
[69] Luben R A , et al. Conf Proc 15th Ann Meeting Bioelectromagnetics Society [R], Los Angeles,C A ,June 13-17, 1993; BEMS Frederick, MD, 1993
[70] Liboff A R ,et al. Science [J]. 1984; 223:818-820
[71] Goodman R , et al. Bioelectromagnetics [J].1987; 8:1-7
[72] Goodman R, et al. Conf Proc 16th Ann Meeting Bioelectromagnetics Society [R], Copenhagan, Denmark, June 12-17, 1994; BEMS, Frederick, MD, 1994
[73] Blank M, et al. Conf Proc Ann Rev of Res on the Biological Effects of Electric and Magnetic Fields from the Generation [J] ,Delivery and Use of Electricity 1993;8-2
[74] Blackman CF ,et al, Bioelectromagnetics [J]. 1985;6: 327-337
[75] Paradisi S, et al, Bioelectromagnetics [J]. 1993; 14:247-255
[76] 赵福弟,刘军.磁场对克山病心肌的保护作用[J].中国地方病防治杂志,1998,13(6):328—329
[77] 刘松岩.硒和钼对缺氧性心肌损伤保护作用的研究[J].中国地方病防治杂志,1989,4(4):196
[78] 欧阳一冰.克山病与自由基代谢—克山病动物模型的自由基代谢[J].楚雄克山病考察文集,北京工人出版社,1988
[79] 蒋锦昌,陈德玉.. 地震生物学概论[M],地震出版社,1993
[80] 陕西省地震局. 陕西省2001年度震情研究报告.
[81] 中国地质矿产部. 陕西区域地质志[M]. 地质出版社,1980,539~560.
[82] 王战,张维吉,李侠等. 东秦岭波浪状构造演化[M]. 西北大学出版社,1993,165~172.
[83] 汪品先. 亚洲形变与全球变冷—探索气候与构造的关系[J]. 第四纪研究,1998,3:213—221
[84]
[85] Singh G .History of aridland vegation and climate: A global perspective. Biological Review [M], 1988,63:159-195
[86] Liu Tungsheng, Guozhengtang. Geological environments in China and global change. 刘东生文集[M].北京:科学出版社,1997.192—202
[87] 刘嘉麒,郭正府. 火山活动与构造气候旋回[J].第四纪研究,1998,3:222—228
[88] Mass C F, Porman D A. Major volcanics eraptions and climate: A critical evaluation. Journal of Climate,1989,2:556-593
[89] 中国海洋报,2000.8.22,第942期
[90] 林云芳、曾小苹等,地磁方法在地震预报中的应用[J],地震地磁观测与研究,1999.2
[91] 王倩云,克山病分布与年干燥度[J]. 陕西克山病防治研究,苗成波主编,1998,291~295.
[92] J. Jauchem.Alleged Health Effects of Electric or Magnetic Fields: Additiional Misconceptioins in the Literature[J].Journal of Microwave Power and Electromagnetic Energy,1993,Vol.28(3):140-155.
[93] K. R. Foster, and Linda S. Erdreich, and et. al. Weak Electromagnetic Fields and Cancer in the Cpmtext of Risk Assement[J]. Proceedings of the IEEE,1997, 85(5):733-746.
[94] B. Nilsson and L. Petersson, "A mechanism for high-frequency electromagnetical field-induced biological damage?[J]" IEEE Trans. Microwave Theory Tech.,1979, 27:616-618.
[95] Frohlich H. Coherent excitation in Bioelectricity. Frohlich H and Kremer F (Eds)[Z]. Berlin: Springer. Verlag: 1983.
[96] Liboff AR: Ca-45 cyclotron resonance in human l6ymphocytes [J].J.Bioelectricity,1987,6:13.
[97] Lednev VV: possible mechanism for the influence of weak magnetic fields on biological systems[J]. Bioelectromagnetics.1991,12:71.
[98] Bobertson B and Astumian D: Michaelis-Menten equation for an enzyme in an oscillating electric field[J].Biophys. J. 1990,58:969.
[99] Bawin SM. Sheppard A. and Adey WR: Possible mechanisms of weak electromagnetic field coupling in brain tissue[J].Bioelectrochem. and bioenerg, 1978,5:67.
[100] Lawrence AF and Adey WR: Nonlinear wave mechanisms in interactions between excitable tissue and
[101] Kenneth R. Foster. Electromagnetic field Effects and Mechanisms[J]. IEEE Engineering in Medicine and Biology.1996,July/August:50-56.
[102] A.A. Serikv.Vibrational Spectra of Molecular Systems Exposed to Microwave Radiation[J].J. Phys: Condens. Matter 1995(7):2755-2766.
[103] Keilman.F..Triplet-Selective Chemistry: a Possible Cause of Biological Microwave Sensitivity[Z]. Z. Naturforsch. 41C, 1986: 795.
[104] J. C. Weaver and R. D. Astumian. The Response of Living Cells to Very Weak Electric Fields: the Thermal Noise Limit[J]. Science. 1990(247):459.
[105] J. A. V. Butler and D. Noble eds. Progress in Biophysics and Molecular Biology[M]. 28. Section 5. Membrane Noise.1974.
[106] 程极济,林克椿.生物物理学[M].北京:人民教育出版社,1981:1.4.
[107] Robert K. Adair. Constraints on Biological Effects of Weak Extremely-low-frequency Electromagnetic Field[J]. Physical Review A. 1991(43)2:1039-1048.
[108] William F. Pickard. A Model for the Acute Electrosensitivity of Cartilaginous Fishes[J]. IEEE Trans. BME.,1988,35(4):243-249.
[109] A.K.Vidybida. Estimation of possible selectivity and sensitivity of a cooperative system to low-intensive microwave radiation[J]. Physica A.,1995,221:30-40.
[110] Huang kama, Tang jingxian, Liu Yongqing,et. al. New characteristics of oxido-reduction reaction of KI and KMnO irradiated by anplitude-modulated electromagnetic waves[J]. Chinese Science Bulletin,1996,41(15):1259-1262.
[111] 大众科技,科技时代.新浪网.htm,令科学家着迷的地球磁场[J].山东省莱州市图书馆潘黎编译.2000年.