苏北盆地兴化钻孔近3Ma环境变化记录研究
|
摘要
本文是在国家自然科学基金委员会主任基金《长江地貌发育与流域系统演化研究》课题的工作基础上,首次在东部典型季风区域内以环境变化研究为目的的较长时间尺度的研究。利用测井曲线、粒度分析指标,并结合岩性描述结果,对研究区域的沉积地层和沉积环境进行了分析与重建;利用粒度分析、色度测量、碳酸盐含量分析、磁化率测量、孢粉记录等环境代用指标,初步建立了苏北盆地近3Ma以来的环境演变过程与特征,为随后进一步开展工作,建立东部地区新生代晚期以来的环境变化序列提供了前期研究基础。
根据岩性描述、自然伽玛和自然电位测井曲线,以及粒度分析结果,对研究区内的沉积环境进行了研究,共划分出以下几个大的沉积环境时段:350~296.1m间为河流—湖泊交替的沉积环境;296.1~254.1m间为湖泊沉积环境;254.1~230.1m间为渐变性的河流相沉积环境;230.1~156.2m间为较长时段的湖泊沉积环境过程,在期间曾出现过短暂的河流沉积环境过程;156.2~102.8m间为河湖交替沉积环境;102.8~48.78m间为湖泊沉积环境;48.78~38.21m间为沼泽沉积环境;38.21~11.62m间为湖滨浅水沉积环境;11.62~0m间为湖沼相沉积环境。
在苏北盆地兴化地区近3.0Ma的沉积发展过程中,可能还发生了多次的大小不一的构造活动,其中在深度254~230m(2.32~2.13Ma)间发生的一次构造运动是其中最大的一次,此次构造运动的发生,不仅导致了兴化地区的大量含砾砂层的出现,而且可能导致了苏北盆地内部水系的调整,致使到达兴化地区的沉积物来源发生了变化。
兴化钻孔多环境代用指标记录了苏北盆地近3.0Ma的气候环境演变过程与特征。在近3Ma的时间中,苏北盆地兴化地区的气候环境经历了以下几个演化阶段:3.26~2.68Ma期间的相对湿润气候期:2.68~2.32Ma期间的相对干旱气候期;2.32~2.13Ma期间的相对湿润气候期;2.13~1.50Ma期间的相对干旱气候期,中部出现短时间的湿润波动:1.50~1.00期间的相对湿润气候期;1.00~0Ma期间为干湿分异极为明显的时段,期间干湿波动频繁,共记录到了6~7次较为明显的干湿波动旋回。
苏北盆地兴化钻孔近3Ma环境变化记录研究
研究结果还表明近3.OMa来,中国东部典型季风区域的气候环境发生了两次
大的变化。2.26一2.16Ma时段是中国典型季风气候形成的转折时期,在此时段之
前苏北盆地沉积物记录的气候某些方面尚未完全脱离上新世的格局,具有稀树草
原气候的某些特征,到2.16Ma后苏北盆地才具有高温高湿的东亚季风区的典型
特征。再一次是在约0.gMa以来的时段内,冰期与间冰期的分异较为明显,有着
显著的冰期与间冰期过程。
兴化钻孔所揭示的近3Ma以来的气候干湿变化与深海氧同位素和黄土高原
记录之间有着较好的可比性。尤其是布容世以来的气候环境变化过程,兴化钻孔
揭示的结果不仅与区内的风成沉积之间可以很好的对比,而且与北方黄土高原与
深海氧同位素记录之间有着良好的吻合性。这说明了我国东部地区的气候环境变
化不仅具有显著的区域性特征,而且具有全球气候变化一致性特征。
通过东部地区内上新世末期以来的气候环境变化特征的对比发现,在东部地
区内,由于各地所处的地理位置的差异性等因素,东部地区内各地出现现代典型
季风气候特征的时间有一定的差异。这种差异性在一定程度上说明了,影响东部
地区的季风气候在第四纪初期并不强大,其控制区域还相对有限,而随着季风的
加强,季风能够影响到的区域扩大,到早更新世末期,季风气候影响到整个东部
地区。
研究还表明,我国东部地区的气候环境变化特征与青藏高原隆升的阶段性、
西太平洋暖池、黑潮之间有着密切的关系。青藏高原的隆升、西太平洋暖池、黑
潮的形成与发展都对东亚季风系统有着重要的影响。
Supported by the NSFC director fund "Research on physiognomy development and the drainage area evolution of Yangtse River basin", for the first time, we have done much research work on long time-scale palaeoenvironmental changes of Eastern China typical monsoon area. The sediment stratum and environment was analyzed and reconstructed by GR curve, granularity index and lithology characterization. By multi-proxy analysis, such as granularity, chroma, carbonate content, susceptibility, sporo-pollen assemblages, etc, we have constructed the palaeoenvironmental change processes during the past 3 Ma of northern Jiangsu basin, and which will provide a foundation for constructing the palaeoenvironmental change sequences of Eastern China since Late Cenozoic.
The results of lithology characterization, GR curve and granularity analysis indicate that, the sediment condition in Xinghua has experienced several alternation. The research results are as follows, 350~296.1m, deposit of fluvial-lacustrine alternative facies; 296.1 ~ 254.1m, deposit of lacustrine facies; 254.1~230.1m, deposit of fluvial facies; 230.1m~156.2m, mainly deposit of lacustrine facies, in which there is a short-term deposit of fluvial facies; 156.2m~102.8m, deposit of fluvial-lacustrine alternative facies; 102.8m~48.78m, deposit of lacustrine facies; 48.78m~38.21m, deposit of swamp facies; 38.21m~l1.62m, deposit of lacustrine facies; 11.62m~0m, deposit of lacustrine-swamp facies.
Multiple environmental proxies of Xinghua core record the process and characters of palaeoclimate evolution of Northern Jiangsu Basin during the past 3Ma. During the period, the palaeoclimate of Xinghua has experienced several phases, 3.26~2.68Ma, relatively humid period; 2.68~2.32Ma, relatively arid period; 2.32-2.13Ma, relatively humid period; 2.13~1.50Ma, relatively arid period, during which there are some little humid fluctuation; 1.50~1.00Ma, relatively humid period; 1.00~0Ma, humid and arid period alternate frequently, during which at least 6~7 prominent fluctuation gyrations have been recorded.
The research results also indicate that, the palaeoclimate of the typical monsoon area in Eastern China has experienced two prominent changes during the past 3 Ma. The period of 2.26-2.16Ma is the transition time of the formation of typical monsoon climate in China. Before this period, the palaeoclimate recorded by sediment had many characters that belong to Savanna. The palaeoclimate had not completely deviated from the Pliocene pattern in many aspects. The typical monsoon climate of high-temperature and high-humidity had not come up in Northern Jiangsu Basin until 2.16Ma. The other change happened in the period of 0.9~OMa, in this period, the difference between ice age and interglacial was obvious and there is prominent process of ice age and interglacial.
The arid-humid fluctuations since around 3 Ma disclosed by Xinghua core reveals a strong correlation with the deep-sea oxygen isotope record and loess-plateau record. Particularly, as to the environmental change process since Brunhes, the results not only has great comparability with the wind sediment hi this area, but also has strong accordance with the Northern loess-plateau record and deep sea oxygen isotope record. This indicates that the climate change in Eastern China not only has great regional character, but also has great correlation with the global climate changes.
The comparison of climate change in Eastern area since Late Pliocene indicates that, the formation of typical monsoon climate in Eastern area varies with the geographical location. To some extent, the difference shows that, in Early Quaternary, the monsoon that influenced Eastern area was not strong, and the area it affected was very limited. But as the monsoon strengthened and its influenced area enlarged, the monsoon climate finally has influence on the whole Eastern area until the end of Early Pleistocene.
The research also indicates that, the climate change in Eastern China has great correlation with the uplift of Tibetan Plateau, the Kuroshio and t
根据岩性描述、自然伽玛和自然电位测井曲线,以及粒度分析结果,对研究区内的沉积环境进行了研究,共划分出以下几个大的沉积环境时段:350~296.1m间为河流—湖泊交替的沉积环境;296.1~254.1m间为湖泊沉积环境;254.1~230.1m间为渐变性的河流相沉积环境;230.1~156.2m间为较长时段的湖泊沉积环境过程,在期间曾出现过短暂的河流沉积环境过程;156.2~102.8m间为河湖交替沉积环境;102.8~48.78m间为湖泊沉积环境;48.78~38.21m间为沼泽沉积环境;38.21~11.62m间为湖滨浅水沉积环境;11.62~0m间为湖沼相沉积环境。
在苏北盆地兴化地区近3.0Ma的沉积发展过程中,可能还发生了多次的大小不一的构造活动,其中在深度254~230m(2.32~2.13Ma)间发生的一次构造运动是其中最大的一次,此次构造运动的发生,不仅导致了兴化地区的大量含砾砂层的出现,而且可能导致了苏北盆地内部水系的调整,致使到达兴化地区的沉积物来源发生了变化。
兴化钻孔多环境代用指标记录了苏北盆地近3.0Ma的气候环境演变过程与特征。在近3Ma的时间中,苏北盆地兴化地区的气候环境经历了以下几个演化阶段:3.26~2.68Ma期间的相对湿润气候期:2.68~2.32Ma期间的相对干旱气候期;2.32~2.13Ma期间的相对湿润气候期;2.13~1.50Ma期间的相对干旱气候期,中部出现短时间的湿润波动:1.50~1.00期间的相对湿润气候期;1.00~0Ma期间为干湿分异极为明显的时段,期间干湿波动频繁,共记录到了6~7次较为明显的干湿波动旋回。
苏北盆地兴化钻孔近3Ma环境变化记录研究
研究结果还表明近3.OMa来,中国东部典型季风区域的气候环境发生了两次
大的变化。2.26一2.16Ma时段是中国典型季风气候形成的转折时期,在此时段之
前苏北盆地沉积物记录的气候某些方面尚未完全脱离上新世的格局,具有稀树草
原气候的某些特征,到2.16Ma后苏北盆地才具有高温高湿的东亚季风区的典型
特征。再一次是在约0.gMa以来的时段内,冰期与间冰期的分异较为明显,有着
显著的冰期与间冰期过程。
兴化钻孔所揭示的近3Ma以来的气候干湿变化与深海氧同位素和黄土高原
记录之间有着较好的可比性。尤其是布容世以来的气候环境变化过程,兴化钻孔
揭示的结果不仅与区内的风成沉积之间可以很好的对比,而且与北方黄土高原与
深海氧同位素记录之间有着良好的吻合性。这说明了我国东部地区的气候环境变
化不仅具有显著的区域性特征,而且具有全球气候变化一致性特征。
通过东部地区内上新世末期以来的气候环境变化特征的对比发现,在东部地
区内,由于各地所处的地理位置的差异性等因素,东部地区内各地出现现代典型
季风气候特征的时间有一定的差异。这种差异性在一定程度上说明了,影响东部
地区的季风气候在第四纪初期并不强大,其控制区域还相对有限,而随着季风的
加强,季风能够影响到的区域扩大,到早更新世末期,季风气候影响到整个东部
地区。
研究还表明,我国东部地区的气候环境变化特征与青藏高原隆升的阶段性、
西太平洋暖池、黑潮之间有着密切的关系。青藏高原的隆升、西太平洋暖池、黑
潮的形成与发展都对东亚季风系统有着重要的影响。
Supported by the NSFC director fund "Research on physiognomy development and the drainage area evolution of Yangtse River basin", for the first time, we have done much research work on long time-scale palaeoenvironmental changes of Eastern China typical monsoon area. The sediment stratum and environment was analyzed and reconstructed by GR curve, granularity index and lithology characterization. By multi-proxy analysis, such as granularity, chroma, carbonate content, susceptibility, sporo-pollen assemblages, etc, we have constructed the palaeoenvironmental change processes during the past 3 Ma of northern Jiangsu basin, and which will provide a foundation for constructing the palaeoenvironmental change sequences of Eastern China since Late Cenozoic.
The results of lithology characterization, GR curve and granularity analysis indicate that, the sediment condition in Xinghua has experienced several alternation. The research results are as follows, 350~296.1m, deposit of fluvial-lacustrine alternative facies; 296.1 ~ 254.1m, deposit of lacustrine facies; 254.1~230.1m, deposit of fluvial facies; 230.1m~156.2m, mainly deposit of lacustrine facies, in which there is a short-term deposit of fluvial facies; 156.2m~102.8m, deposit of fluvial-lacustrine alternative facies; 102.8m~48.78m, deposit of lacustrine facies; 48.78m~38.21m, deposit of swamp facies; 38.21m~l1.62m, deposit of lacustrine facies; 11.62m~0m, deposit of lacustrine-swamp facies.
Multiple environmental proxies of Xinghua core record the process and characters of palaeoclimate evolution of Northern Jiangsu Basin during the past 3Ma. During the period, the palaeoclimate of Xinghua has experienced several phases, 3.26~2.68Ma, relatively humid period; 2.68~2.32Ma, relatively arid period; 2.32-2.13Ma, relatively humid period; 2.13~1.50Ma, relatively arid period, during which there are some little humid fluctuation; 1.50~1.00Ma, relatively humid period; 1.00~0Ma, humid and arid period alternate frequently, during which at least 6~7 prominent fluctuation gyrations have been recorded.
The research results also indicate that, the palaeoclimate of the typical monsoon area in Eastern China has experienced two prominent changes during the past 3 Ma. The period of 2.26-2.16Ma is the transition time of the formation of typical monsoon climate in China. Before this period, the palaeoclimate recorded by sediment had many characters that belong to Savanna. The palaeoclimate had not completely deviated from the Pliocene pattern in many aspects. The typical monsoon climate of high-temperature and high-humidity had not come up in Northern Jiangsu Basin until 2.16Ma. The other change happened in the period of 0.9~OMa, in this period, the difference between ice age and interglacial was obvious and there is prominent process of ice age and interglacial.
The arid-humid fluctuations since around 3 Ma disclosed by Xinghua core reveals a strong correlation with the deep-sea oxygen isotope record and loess-plateau record. Particularly, as to the environmental change process since Brunhes, the results not only has great comparability with the wind sediment hi this area, but also has strong accordance with the Northern loess-plateau record and deep sea oxygen isotope record. This indicates that the climate change in Eastern China not only has great regional character, but also has great correlation with the global climate changes.
The comparison of climate change in Eastern area since Late Pliocene indicates that, the formation of typical monsoon climate in Eastern area varies with the geographical location. To some extent, the difference shows that, in Early Quaternary, the monsoon that influenced Eastern area was not strong, and the area it affected was very limited. But as the monsoon strengthened and its influenced area enlarged, the monsoon climate finally has influence on the whole Eastern area until the end of Early Pleistocene.
The research also indicates that, the climate change in Eastern China has great correlation with the uplift of Tibetan Plateau, the Kuroshio and t
引文
1.安芷生,Kukla G,刘东生.洛川黄土地层学.第四纪研究,1989(2):155~168.
2.安芷生,李华梅,王俊达.洛川黄土平面的古地磁研究.地球化学,1977(4):239~249.
3.安芷生,刘晓东.东亚季风气候的历史与变率.科学通报,2000,450:238~249.
4.安芷生,马醒华.环境磁学初步研究.见:刘东生主编:黄土、第四纪地质、全球变化(第二辑):北京:科学出版社,1991:143~151.
5.安芷生,王苏民,吴锡浩等.中国黄土高原的风积证据:晚新生代北半球大冰期开始及青藏高原的隆升驱动,中国科学(D辑),1998,2 8(6):481~490.
6.安芷生,吴锡浩,汪品先等.中国黄土高原的风积证据:晚新生代北半球大冰期开始及青藏高原的隆升驱动.中国科学(D辑),1998,28(6):481~490.
7.蔡重阳,卢礼昌,吴秀元等.下扬子准地台江苏地区泥盆纪生物地层.见:江苏石油勘探局地质科学研究院,中国科学院南京地质古生物研究所,江苏地区下扬子准地台震旦纪——三叠纪生物地层.南京:南京大学出版社,1988,169~217.
8.曹军骥,张小曳,程燕等.晚新生代红粘土的粒度分布及其指示的冬季风演变.海洋地质与第四纪地质,2001(3):99~106.
9.陈发虎,李吉均,张维信.兰州黄土地层研究.见:中国西部第四纪冰川与环境研究,北京:科学出版社,1991.
10.陈发虎,张宇田,张维信等.兰州九州台黄土沉积年代综合研究,沉积学报,1989,7(3):105~111.
11.陈敬安,万国江,黄荣贵.云南程海沉积物粒度研究.环境科学进展,1999(4):76~82.
12.陈敬安,万国江,唐德贵.洱海近代气候变化的沉积物粒度与同位素记录.自然科学进展,2000(3):253~259.
13.陈敬安,万国江,徐经意.洱海沉积物粒度记录与气候干湿变迁.沉积学报,2000(3):341~345.
14.陈敬安,万国江.云南洱海沉积物粒度组成及其环境意义辨识.矿物学报,1999(2):175~182.
15.陈明扬.中国风成堆积与全球干旱化.第四纪研究,1991,(4):361~372.
16.陈诗越,方小敏,王苏民.川西高原甘孜黄土与印度季风演化关系.海洋地质与第四纪地质,2002,22(3):41~46.
17.陈世荣,仲伟龙,刘晓静.粒度分析曲线的非线性回归模型.陕西师范大学报,(自然科学版),1993(4):38~40.
18.陈世荣.西北太平洋的热带风暴源地.气象,1988,16(2):23~26.
19.陈铁梅,原思训,高世君等.许家窑遗址哺乳动物化石的铀系法年代测定.人类学报,1982,1(1):91~95.
20.陈晓良,赵泉鸿,翦知湣.南海北部ODPI148站中新世以来的碳酸盐含量变化及其古环境意义.海洋地质与第四纪地质,2002,22(2):69~74.
21.陈兴芳,胡景勃.西太平洋副热带高压与海温场分析.海洋预报,1990,7(3):2~7.
22.陈义华.江苏太湖第四纪沉积环境.江苏地质.2000,24(2):87~90.
23.陈友飞,严钦尚,许世远.苏北盆地沉积环境演变及其构造背景.地质科学,1993,28(2):151~160.
24.陈跃,黄培华.朱洪山.北京周口地区洞穴第四纪石同位素古温度研究.科学通报,1986,20:1576~1578.
25.陈正新.南黄海第四纪沉积物中CaCO_3、MgCO_3和SrCO_3的初步研究.南海研究与开发.1989,3:37~47.
26.成都地质学院陕北队.沉积岩(物)粒度分析及其应用.北京:地质出版,1976.
27.池秋鄂,龚福华编著.层序地层学基础与应用.北京:石油工业出版社,2001:134~143.
28.迟振卿,闵隆瑞,朱关祥等.泥河湾湖相沉积层记录的古气候周期性.地学前缘,2002,9(1):182~186.
29.崔之久,谢又予,论我国东北、华北晚更新世晚期多年冻土南界予冰缘环境.地质学报,1984,2:165~175.
30.戴雪荣,李吉均,俞立中等.兰州风尘沉积的粒度分布模式及其古气候意义.沉积学报,2000,1:36~42.
31.单树模,王庭槐,金其铭.江苏省地理.南京:江苏教育出版社,1986.
32.刁桂仪,文启忠.渭南黄土剖面碳酸盐和铁变化的古气候记录.地球化学.1995,24(增刊):75~82.
33.丁仲礼,余志伟,刘东生.中国黄土研究新进展(三)——时间标尺.第四纪研究,1991,4:336~348.
34.杜恒俭,蔡保全,马安成等.泥河湾地区晚新生代生物地层带.地球科学一中国地质大学学报,1993,20(1):35~42.
35.高由禧,郭其蕴.东亚季风气候形成问题的讨论.见:高由禧等.东亚季风的若干问题.北京:科学出版社,1962:12~27.
36.葛宗诗.南黄海QC_2孔磁化率研究.海洋地质与第四纪地质.1996,16(4):35~42.
37.勾韵娴,唐领余,孙息春等.江苏北部全新世海侵事件和气候变化.江苏地质,1999,23(4):241~245.
38.勾韵娴,唐领余,孙息春等.江苏建湖地区全新世生物群和古环境.第四纪研究,1992,3:203~215.
39.顾延生,蔡雄飞,张克信.祁连山东南缘新生代沉积环境变迁及其意义.地学前缘,2002,9(2);
40.郭雪莲,王琪,史基安等.青海湖沉积物有机碳含量与同位素和粒度特征及其古气候意义.海洋地质与第四纪地质,2002,22(3):99~103.
41.郭正堂,刘东生,Fedoroff.N等.约0.85前后黄土高原区季风强度的变化,科学通报,1993,38(2):143~146.
42.哈姆W.E.,普雷L.C.碳酸盐岩的现代概念及其分类.见:冯增昭主译:碳酸盐岩分类文集(地质资料汇编第九集).重庆:科学技术文献出版社重庆分社,1981:1~15.
43.韩家懋,HueJJ,刘东生.马兰黄土和离石黄土的磁学性质.第四纪研究,1991(4):310~325.
44.韩家懋,姜文英,楮骏.黄土和古土壤中磁性矿物的粒度分布.第四纪研究,1997(3):282~287.
45.胡刚,王乃昂,罗建育等.花海湖泊古风成砂的粒度特征及其环境意义.沉积学报,2001(4):642~647.
46.胡守云,王苏民,E.Apple等.呼伦湖湖泊沉积物磁化率变化的环境磁学机制.中国科学(D辑),1998,28(4):334~339.
47.华东石油地质局勘探开发规划研究院.苏北盆地第三纪年代地层研究,1995.
48.黄姜依,方家骅,邵家骥等.南京下蜀黄土沉积时代的研究.地质评论,1988,34(3):240~247.
49.黄麒,孟昭强,刘海玲.柴达木盆地查尔汗湖区古气候波动模式的初步研究.中国科学(B辑),1990,(6):652~663.
50.黄荣辉,孙凤英.热带西太平洋暖池上空对流活动对东亚夏季风季节内变化的影响.大气科学,1994,18(4):456~465.
51.黄杏珍,邵宏舜,闫存凤等.泌阳凹陷下第三系湖相白云岩形成条件.沉积学报.2001,19(2):207~213
52.翦知湣,李保华,王吉良从微体化石看西太平洋暖池的形成与演化.第四纪研究,2003,23(2):185~192.
53.翦知湣.汪品先,赵泉鸿.南海北部上新世晚期东亚冬季风增强的同位素和有孔虫证据.第四纪研究,2001.21(5):461~469.
54.江苏省地质局.江苏省第四纪地质图说明书.北京:地质出版社,1964.
55.江苏省及上海市区域地层表编写组.华东地区区域地层表—江苏及上海市分册,北京:地质出版社,1978.
56.介冬梅,吕金福,李志民等.大布苏湖全新世沉积岩心的碳酸盐含量与湖面波动.海洋地质与第四纪地质,2001,21(2):77~82.
57.金权等,安徽淮北平原第四系.北京:地质出版社,1990.
58.金章东,王苏民,沈吉等.岱海地区近400年来的“尘暴”事件——来自岱海沉积物粒度的证据.湖泊科学,2000(3):193~198.
59.金祖辉,陈隽.西太平洋暖池区海表水温暖异常对东亚夏季风影响的研究,大气科学,2002,26(1):57~68.
60.瞿文川,薛滨,吴艳宏等.太湖14000年以来古环境演变的湖泊记录.地质力学学报,1997,3(4):53~61.
61.莱尔曼A著.王苏民等译.湖泊的化学地质学和物理学,北京:地质出版社,1989,306~336.
62.雷祥义.秦岭黄土的粒度分析及其成因初步探讨.地质学报,1998(2):178~188.
63.李保华,翦知湣.南沙深海区近10Ma来浮游有孔虫群及海水温跃层演变.中国科学(D辑),2001,31(10):840~845.
64.李长安.北京平原区第四纪古气候变化.中国区域地质,1993(4):336~343.
65.李崇银,穆明权.东亚冬季风—暖池状况—ENS0循环的关系.科学通报,2000,45(7):678~685.
66.李浩敏等,南京雨花台组植物化石的发现.地质评论,1984,30(6).
67.李吉均,方小敏,朱俊杰等.临夏盆地新生代地层古地磁年代与模式序列.见:青藏项目专家委员会编青藏高原形成演化、环境变迁与生态系统研究.北京:科学出版社,1995:41~5.
68.李吉均,方小敏.青藏高原隆起与环境变化研究.科学通报,1998,43(15):1569~1574.
69.李吉均,文世宣,张青松等.青藏高原隆起的时代、幅度和形式的探讨.中国科学,1979(6):608~616.
70.李吉均,朱俊杰,康建成等.末次冰期旋回兰州黄土剖面于南极东方站冰岩芯的对比.见:中国西部第四纪冰川与环境研究,兰州大学地理系,1989,1~17.
71.李吉均等.庐山第四纪环境演变和地貌发育问题.中国科学(B辑),1983,13(8):734~745.
72.李克让,周春平,沙万英.西太平洋暖池基本特征及其对气候的影响.地理学报,1998,53(6):511~519.
73.李立文,方邺森.南京附近的古砾石层.地质论评.1965,23(2):111~121.
74.李立文,方邺森.南京附近下蜀黄土的研究.南京师范大学学报,1992,16(增刊),3~21.
75.李铁锋,任明达.大同盆地晚新生代环境演化特征.北京大学学报(自然科学版),1993,29(4):476~483.
76.李徐生,杨达源,鹿化煜等.皖南第四纪风尘堆积序列粒度特征及其意义.海洋地质与第四纪地质,1997(4):73~80.
77.李徐生,杨达源.镇江下蜀黄土-古土壤序列磁化率特征与环境记录.中国沙漠,2002,22(1):27~32.
78.李旭,衡平.黄海中部近岸浅海区第四纪孢粉及其古植被古气候意义.海洋地质与第四纪地质.1990,10(4):35~41.
79.李雪铭.一种新的沉积物粒度分布拟合曲线-对数双曲线分布及其应用.海洋科学,1996(2):19~21.
80.李炎贤等.北京原人生活时期自然环境及其变迁的探讨,古脊椎动物与古人类.1981,9(4).
81.李志民,吕金福,冷雪天等.大布苏湖全新世沉积岩芯的粒度特征与湖面波动.东北师范大学学报(自然科学版),2000(2):117~122.
82.练铭祥,薛冰,杨盛良.苏北新生代盆地断陷和坳陷的形成机理.石油实验地质.2001,21(3):256~260.
83.凌申.全新世以来苏北平原古地理环境演变.黄渤海海洋,1990,8(4):20~28.
84.刘阿成.杭州湾口北部的表层沉积物粒度分布和动力沉积作用研究,海洋通报,2002(1):49~56
85.刘东生,丁梦林.晚第三纪以来中国古环境的特征及其发展历史.地球科学,22(4):15~28.
86 刘东生,郑绵平,郭振堂.亚洲季风系统的起源和发展及其与两极冰盖和区域构造运动的时代耦合性第四纪研究,1998,3:194~204.
87.刘东生等.黄土的物质成分和结构.北京:科学出版社,1966:1~132.
88.刘东生等著.黄土与环境.北京:科学出版社,1985.
89 刘东生等编译.第四纪环境.北京:科学出版社.,1997.
90.刘金陵,Willian.Y B.Chang.根据孢粉资料推论长江三角洲地区12000年以来的环境变迁.古生物学报,1996,35(2):136~154.
91.刘金陵.泥河湾组的孢粉组合及其地质时代.科学通报,1980,25(9):177~179.
92.刘良梧,L.Eleller.下蜀黄土形成年代的探讨.土壤,1988,20(3):162~163.
93.刘清泗,程志刚.根据第四纪沉积物中碳酸盐含量及孢粉组合的变化探讨北京平原地区古气候的演变.见:中国第四纪冰川冰缘学术讨论论文集.北京:科学出版社,1985:198~203.
94.刘清泗.泥河湾的介形类化石与古环境变迁.北京师范大学学报(自然科学版).1989,1:78~84.
95.刘晓东,李力,安芷生.青藏高原隆升与欧亚内陆及北非的干旱化.第四纪研究,2001(2):114~122.
96.刘晓东,鹿化煜,安芷生.利用黄土沉积速率与粒度的相关性建立黄土序列年龄的新方法.沉积学报,1999(1):145~148.
97.刘晓东.青藏高原隆升对亚洲季风形成和全球气候与环境变化的影响.高原气象,1999,18(3):321~332.
98.刘兴起,沈吉,王苏民等.16ka以来青海湖湖相自生碳酸盐沉积记录的古气候.高校地质学报,2003,9(1):38~46.
99.刘秀铭,刘东生,F Heller等.黄土频率磁化率与古气候冷暖变换.第四纪研究,1990(1):42~49.
100.刘秀铭,刘东生,Friedrich Heller等.黄土频率磁化率与古气候冷暖变化.第四纪研究,1990(1):42~50.
101.刘秀铭,刘东生,Friedrich Heller等.中国黄土磁化率与第四纪古气候研究.地质科学,1992(增刊):279~285.
102.刘泽纯,陈晔,袁林旺等.应用自然伽玛测井曲线反演2.85MaB.R.来古气候变化.中国科学(D辑),2000,3(6):609~618.
103.刘泽纯,黄巧华.昆明盆地两孔岩芯的沉积特征及环境磁学分析.沉积学报,1992(2):
104.刘志飞,王成善.新生代全球变冷与青藏高原隆升的关系.矿物岩石,1998(增刊):123~127.
105.卢演俦,丁国瑜.与亚洲古季风有关的中国及邻区新生代构造牙花的几个问题.第四纪研究.1998,3:205~212.
106.鹿化煜,安芷生.黄土高原黄土粒度组成的古气候意义.中国科学(D辑):1998(3):278~283.
107.鹿化煜,安芷生.前处理方法对黄土沉积物粒度测量影响的实验研究,科学通报,1997(23):2535~2538.
108.罗绍华,金祖辉.南海海温变化与初夏西太平洋副热带高压活动及长江中、下游汛期降水关系的分析,大气科学,1986,10(4):409~418.
109.吕厚远,韩家懋,吴乃琴等.中国现代土壤磁化率分析及其古气候意义.中国科学(B辑):1994(12):1290~1297.
110.吕志发.粒度曲线和参数序列综合分析及其在环境分析中的应用.煤田地质与勘探,1990(2):12~
16.
111.马桂琴.宁镇地区侵入岩的形成构造环境.江苏地质.1990,1:17~20.
112.马玉贞,李吉均,方小敏.临夏地区30.6~5.0Ma红层孢粉植物群与气候演化记录.科学通报,1998,43(3):301-305
113.苗晓东,孙有斌,鹿化煜.黄土高原晚上新世红粘土粒度的空间变化.沉积学报,2001(2):182~185.
114.莫多闻.山西临汾盆地晚新生代环境演变研究.北京大学学报(自然科学版),1991,27(6):738~746.
115.鸟居雅之,福间浩司,苏黎等.黄土-古土壤磁化率述评.海洋地质与第四纪海洋,1999,19(3):83~96.
116.欧阳舒,陈永祥.江苏中部宝应地区晚泥盆世——早石炭世孢子组合.微体古生物学报,1987,4(2):195~214.
117.彭红霞,李长安,杨贵芳等.黄土中碳酸盐含量变化及其古气候记录——以兰州红咀寺剖面为例.地质科技情报,2003,22(1):53~55.
118.钱基.苏北盆地油气田的形成与分布特征.石油大学学报(自然科学版).2000,24(4):21~25.
119.钱勤,李坤英.苏北盆地玄武岩地质年龄及地层时代.火山地质与矿产,1996,17(1~2):86~93.
120.钱泽书,郑亚惠,朱之琛.苏北盆地阜宁群孢粉.古生物学报,1993,32(1):49~63.
121.乔彦松,郭振堂,郝青振等.安徽宣城黄土堆积的磁性地层学与古环境意义.地质力学学报,2002,8(4):369~375.
122.曲政.沉积物粒度数据表征方法的研究,中国粉体技术,2001(4);24~31.
123.任纪舜,姜春发,张正坤等执笔.中国大地构造及其演化.北京:科学出版社,1985.
124.任明达,王乃梁编著.现代沉积环境概论.北京:科学出版社,1981:1~7.
125.沈吉,吴瑞金,羊向东等.大布苏湖沉积剖面碳酸盐含量、氧同位素特征的古气候意义.湖泊科学,1997,9(3):217~221.
126.沈永平,康建成.十五万年来临夏黄土粒度变化的气候记录.干旱区地理,1992(3):44~49.
127.施祺,王建民,陈发虎.石洋河古终端湖泊沉积物粒度特征与沉积环境初探.兰州大学学报(自然科学版),1999(1):194~198.
128.施雅风,李吉均,李炳元.青藏高原晚新生代隆升与环境变化.广州:广东科技出版社,1998.
129.施雅风,李吉均,李炳元等.晚新生代青藏高原的隆升与东亚环境变化.地理学报,1999,54(1):10~20.
130.石荣琳.猛犸象属化石在山东的发现,古脊椎动物与古人类,1981,19(1):25.
131.施泽进,彭大钧,施央申等.苏北秦潼凹陷的应力演化模拟及其油气地质意义.石油学报,1996,17(1):40~46.
132.宋之琛,钱泽书.江苏北部泰州组孢粉.《苏北盆地泰州组、阜宁组一段地层古生物》.南京: 南京大学出版社,1969.
133.宋之琛,郑亚惠,刘金陵等.江苏地区白垩纪——第三纪孢粉组合.北京:地质出版社,1981.
134.苏新.上新世以来东北北大西洋钙质超微化石组合的演变.现代地质,2000,14(3):247~254.
135.孙东怀,安芷生,苏瑞侠等.古环境中沉积物粒度组分分离的效学方法及其应用.自然科学进展,2001(3):269~276.
136.孙湘君,杜乃秋,翁成郁等.1994,新疆玛纳斯湖近14000年来古植被与古环境研究.第四纪研究,3:239~247.
137.汤懋苍,刘晓东.一个新的划分第四纪的标志——高原季风演变的地质环境后果.第四纪研究,1995,(1):82~88.
138.童国榜,吴锡浩,陈云等.渭河谷地晚新生代地表环境巨变的孢粉记录.地质力学学报,2000,6(4):11~18.
139.童国榜,张俊牌,羊向东等.云贵高原晚新生代孢粉植物群与环境变迁.海洋地质与第四纪地质,1994,14 (3):91~104.
140.汪海滨,陈发虎,张家武.黄土高原西部地区黄土粒度的环境指示意义.中国沙漠,2002(1):21~26.
141.汪品先,翦知缗,赵泉鸿等.南海演变与季风历史的深海证据.科学通报,2003,48(21):2228~2239.
142.汪品先,田军,成鑫荣.第四纪冰期旋迴转型在南沙深海的记录,中国科学(D辑),2001,31(10):793~799.
143.汪品先,赵泉鸿,翦知缗等.南海三千万年的深海记录.科学通报,2003,48(21):2206~2215
144.汪品先.大洋钻探与我国地球科学的发展.地球物理学进展,1994,9(4):66~71.
145.汪品先.亚洲形变与全球变冷——探索气候与构造的关系.第四纪研究,1998(3):213~221.
146.王大宁,赵英娘.江汉盆地晚白垩世——早第三纪早期孢粉组合特征及其地理意义.地层古生物论文集(第九辑).北京:地质出版社,1960.
147.王建,刘泽纯,姜文英等.磁化率与粒度、矿物的关系及其古环境意义.地理学报,1996,51(2):155~163.
148.王建,汪永进,刘金陵等.太湖16000年来沉积环境的演变.古生物学报,1996,35(2):213~223.
149.王建力,李吉均,方小敏等.临夏盆地三千万年来沉积物粒度特征及其构造意义.地理研究,1998(1):39~46.
150.王金权,刘金陵.太湖全新世沉积物有机碳同位素的分布及其古气候意义.古生物学报,1996,35(2):234~240.
151.王君波,朱立平.藏南沉错沉积物的粒度特征及其古环境意义.地理科学进展,2002(5):459~467.
152.王开发等,长江三角洲第四纪孢粉组合及其地层古地理意义.海洋学报,1984,6(4).
153.王良书,施央申,郭令智,苏北盆地地震地质分析与构造演化.大地构造与成矿学,1991,15(1):72~82.
154.王强,李彩光,田国强等.7.1 Ma以来运城盆地地表系统巨变及盐湖形成的构造背景.中国科学(D辑),2000,30(4):420—428
155.王水,黄仁金,王振等.江苏地区白垩纪——第四纪轮藻化石.北京:地质出版社,1961.
156.王苏民,窦鸿身.中国湖泊志.北京:科学出版社,1998:580.
157.王巍,陈高,王家林等.苏北—南黄海盆地区域构造特征分析.地震学刊,1999(1):47~55.
158.王宪曾.周山宫,徐淑娟.江苏北部早第三纪晚期孢粉植物群及其古地理意义.植物学报,1979,21(2):149—156.
159.王云飞.青海湖.岱海的湖泊碳酸盐化学沉积与气候环境变化.海洋与湖沼.1993,24(1):31~36.
160.魏文寿.沙漠表层粒度与水热变化的环境效应分析以古尔班通古特沙漠为例.沉积学报,1998(1):152~155.
161.文启忠,刁桂仪,贾蓉芬等.黄土剖面中古气候变化的地球化学记录.第四纪研究,1995,(3):223~231.
162.翁学传,赵永平,何有海.太平洋热状况与我国早涝关系研究综述.海洋科学,1994,(1):22~26.
163.吴敬禄,李世杰,王苏民等,若尔盖盆地兴错湖沉积记录揭示的近代气候与环境.湖泊科学,2000,12(4):291~296.
164.吴利仁主编.华东及邻区中、新生代火山岩.北京:科学出版社,1984.
165.吴向阳,牟荣,石胜群等.苏北盆地火成岩发育与构造演化的关系.勘探家,1999,4(1):44~47.
166.吴学忠,王绍鸿,赵希涛.江苏建湖地区全新世孢粉组合及其地质古地理意义.地理科学,1996,16(3):252~259,
167.吴艳宏,吴瑞金,王强等.运城盆地11kaBP以来气候环境变迁与湖面波动.海洋地质与第四纪地质.
2001,21(2):83~86.
168.吴珍汉,吴中海,江万等.中国大陆及邻区新生代构造—地貌演化过程与机理,北京:地质出版社,2001.
169.夏青松,田景春,倪新锋.湖相碳酸盐岩研究现状及意义.沉积与特提斯地质,2003,23(1):105~112.
170.夏树芳.南京地区的新构造运动.地质论评,22(5):357~363.
171.夏正楷,张昀,陈铁梅等.泥河湾组叠层石的发现及其古环境意义.中国科学(D辑),1993,23(8):874~879.
172.夏正楷.第四纪环境学,北京:北京大学出版社,1997.
173.肖保华.云贵高原湖泊沉积物碳酸盐和有机质的同位素组成及环境信息记录,矿物岩石地球化学通报,1998,17(1):20~22.
174.谢远云,李长安,何葵等.青海省民和黄土的粒度组成及气候含义.地质科技情报,2002(2):41~44.
175.谢远云,李长安,周嘉等.陇西民和黄土变化及其气候指标的局限性.中国地质,2003,30(1):99~104.
176.谢远云,张序强,何葵等,青藏高原东北缘黄土粒度组成及物质来源分析.中国地质,2002(3):317~321.
177.徐馨,朱明伦,卢积堂等.中原东部第四纪环境及其影响的研究.贵阳:贵州出版社,1994.
178.许坤,石敦久,邱开敏.辽东湾北部晚新生代的古植被与古气候.海洋地质与第四纪地质,1997,17(1):25~33.
179.薛滨,瞿文川,吴艳宏等.太湖晚冰期—全新世气候环境变化的沉积记录.湖泊科学,1998,10(2):30~36.
180.薛滨,王苏民,沈吉等.呼伦湖东露天矿剖面有机碳的总量及其稳定碳同位素和古环境演化.湖泊科学,1994,6(4):308~316.
181.薛祥熙,鹿化煜,周杰.陕西旬邑新近系红土剖面粒度组成的古气候意义.沉积学报,2002,(1):118~123.
182.阎顺,穆桂金.塔里木盆地晚新生代环境演变.干旱区地理,1990,13(1):1~9.
183.杨达源.晚更新世冰期最盛时长江中下游地区的古环境.地理学报,1986,41(4).
184.杨达源.中国东部的第四纪风尘堆积与季风变迁.第四纪研究.1991,4:354~360.
185.杨汉奎,黄仁海,朱文孝.陆相CaCO_3的环境相模式讨论.海洋地质与第四纪地质.1991,11(2):105~114.
186.杨怀仁,徐馨,杨怀仁等.长江中下游环境变迁雨地生态系统.南京:河海大学出版社,1995.
187.杨胜利,方小敏,李吉均等.表土颜色和气候定性至半定量关系研究.中国科学(D辑),2001,31(增刊):175~180.
188.杨晓强,李华梅.泥河湾盆地沉积物磁化率及粒度参数对沉积环境的响应.沉积学报,1999(增刊):763~768.
189.杨子赓,牟呁智,孔昭宸等.周口店地区晚新生代地层研究.见:北京猿人遗址综合研究,北京:科学出版社,1985,1~85.
190.杨子赓,谢又予,牟昀智等.周口店上新世及更新世的古气候与地层.地质评论,1983,29(1):209~219.
191.杨子赓.中国东部陆架第四纪时期的演变及其环境效应.见:梁名胜等主编,中国海陆第四纪对比与研究.北京:科学出版社,1991:1~22.
192.姚檀栋,Thompson.L.G.,施雅风等.古里雅冰芯中末次间冰期以来气候变化记录研究.中国科学,
1997(27):447~452.
193.殷勇,方念乔,胡超涌等.云南中甸纳帕海古环境演化的有机碳同位素记录.湖泊科学,2001,13(4):289~295.
194.余素玉等.沉积岩石学.武汉:中国地质大学出版社,1989.
195.余志伟,丁仲礼,刘东生.第四纪古气候变化非线性动力学初步研究——黄土粒度曲线的奇异谱分析.第四纪研究,1993(3):214~230.
196.袁宝印,朱日祥,田文来等.泥河湾组的时代、地层划分和对比问题.中国科学(D辑),1996,26(1):67~73.
197.岳军,文启忠.泥河湾层古环境演变的分析模式.地质学报.1990,3:248~256.
198.张登明绘制.1:25万南通市幅:116号孔、202号孔第四纪地层综合特征表,2002年1月,资料来源:据《长江三角洲第四纪地质》编制.
199.张恩楼,沈吉,夏威岚等.青海湖沉积物有机碳及其同位素的气候环境信息.海洋地质与第四纪地质,2002,22(2):105~108.
200.张嘉尔.长江下游晚冰期孢粉组合和气候回暖问题.中国第四纪冰川冰缘学术讨论会论文集,北京:科学出版社,1985,175~179.
201.张建军,杨达源,陈曰友等.长江中下游地区下蜀黄土磁化率曲线与环境变迁.沉积学报,2000,18(1):18~21.
202.张建新,蔡明理,张兆千等.南京下蜀黄土古气候序列的初步研究.江苏地质.1994,18(3):189~194.
203.张金亮,刘宝瑶,毛凤鸣等.苏北盆地高邮凹陷北斜坡阜宁组成岩作用及储层特征.石油学报,2003,24(2):43~49.
204.张平中,王先彬,陈践发等.青藏高原RH孔沉积有机质δ~13C和氢指数记录.中国科学(B辑),1995,(6):450~463.
205.张树夫,萧家仪,俞立中等.沉积物矿物磁性测量在古环境研究中的应用.地理科学,1992(2):182~194.
206.张祥云编制.9号孔、25号孔、33号孔、52号孔、64号孔、78号孔、82号孔、86号孔、88号孔、95号孔、99号孔第四纪地层综合特征表(内部资料).2002,资料来源:据《1:20万东台幅水文地质普查报告》修编.
207.张渝昌.江苏含油气盆地的构造体系和油气远景.见:朱夏主编,中国中新生代盆地构造和演化.北京:科学出版社,1983.
208.张兆峰,彭于成,贺剑峰等.岩溶石笋的古环境研究进展.地质地球化学,2001,29(4):78~85.
209.张镇洪.北黄海北坡披毛犀和猛犸象化石的新发现,中国第四纪研究,1980,5(1):96~97.
210.章名立.西太平洋云量变化与中国东部的降水.大气科学.1993,17(5):576~583.
211.赵剑畏,孙竟雄,韦国钧.论江苏构造体系.中国分省构造体系研究论文集,1985(1):149~168.
212.赵泉鸿,翦知湣,王吉良等.南海北部晚新生代氧同位素地层学.中国科学(D辑),2001,31:800~807
213.赵泉鸿,汪品先.南海第四纪古海洋学研究进展.第四纪研究,1999,6:481~501.
214.赵泉鸿.西太平洋DSDP451孔晚中新世—第四纪的微体化石群及其古海洋学意义,海洋地质与第四纪地质,2000,20(2):51~56.
215.赵松龄,张宏才,苍树溪.江苏沿海平原第四纪磁性地层的研究.海洋与湖沼,1987,18(2):173~180.
216.赵希涛,耿秀山,张景文.中国东部20000年来的海面变化,海洋学报.1979,1(2):269~281.
217.郑洪汉,朱照宇,黄宝林等.山东半岛及苏皖北部黄土地层年代学研究,海洋地质与第四纪地质,1994,
14(1):63~68.
218.郑乐平,胡雪峰,方小敏.长江中下游地区下蜀黄土成因研究的回顾.矿物岩石地球化学通报,2002,21(1):54~57.
219.郑祥民等著.长江三角洲及海域风成沉积与环境.上海:华东师范大学出版社.1999.
220.郑瑶芳.高邮凹陷油油气分布规律的探讨.石油学报,1987.
221.周春平编著.大洋暖池及其影响.北京,气象出版社,2001.
222.周济元.安徽张八岭地区构造演化及动力学.火山地质与矿产,1995,16(4):17~24.
223.周墨清,葛宗诗.南黄海及相邻陆区松散沉积层磁性地层的研究.海洋地质与第四纪地质,1990,10(4):21~33.
224.周廷儒,李华章,刘清泅等.泥河湾盆地新生代古地理研究.北京:科学出版社,1991.
225.朱平.江苏油田油气藏基本特征及其分类.断块油气田,2001,8(5):12~16.
226.朱宣清,何乃华.运用粒度分析方法恢复河流地貌.以滹沱河为例.河北省科学院学报,1990(1):17~29
227. Bond G, Broecker W, Johnsen S, et al. Correlations between climatic records from North Atlantic sediments and Greenland ice, Nature, 1993,365: 143-147.
228. Bradley, R. S. Qutatemary paleoclimatology. London: Allen and Unwin, 1985.
229. Cande S C, Kent D V.Revised calibration of the geomagnetic polarity timescale for the Late Cretaceous and Cenozoic. Journal of Geophysical Research, 1995, 100 (B4): 6093~6095.
230. Coates A. G. et al. closure of the Isthinus of Panama :the near-shore marine record of Costa Pica and western Panama. Geol soc. Am. Bull. 1992, 104.. 814~828.
231. De Menocal P B. plio-pleistocenee African climate, Science, 1995, 270: 53~59.
232. De visser J P, Ebbing J H J, Gudjonson L. et al. The origin of rhythmic bedding in the Pliocene Trubi Formation of Sicily, Southern Italy[J]. Palaeogeography, Palaeoclimatology, Paleoecology, 1989, 69: 45~66.
233. Ding, Z. L., Rutter, N. W. and Liu, T. S. Pedostratigraphy of china loess deposits and climatic cycles in the last 2.5 Myr. Catena, 1993(20): 73~91.
234. Emeis K C, Anderson D M, Doose H et al. Sea surface temperatures and the history of monsoon upwelling in the Northwest Arabian Sea during the last 500000 years. Quatenary Research, 1995, 43(2): 355~361.
235. Fang X M, Ono Y, Fukusawa H, et al. Asian summer monsoon instability during the past 60000 years: Magnetic susceptibility and pedogenic evidence from the Chinese western loess plateau. Earth Planet Sci Lett, 1999, 168: 219~232.
236. Fernandes R N, Schulze D G. Color, organic matter, and pesticide adsorption relationships in a soft landscape. Soil Sci Soc Am J, 1988, 52:1023~1026.
237. Fischey A G. et al. cyclicity in the Green River Formation (lacustrine Eocene) of Wyoming. Journal of sedimentary petrology, 1991, 61(7): 1146~1154.
238. Gerald H. Haug, Ralf Tiedemann. Effect of the formation of the Isthmus of Panama on Atlantic Ocean thermohaline circulation. Nature, 1998, (393): 673~676.
239. Greenland Ice Core Project Members. Climate instability during the last interglacial period recorded in the GRIP ice core. Nature, 1993,364: 203~207.
240. Heller, E and Liu T. -S. Magnetism of Chinese loess deposits. Geophys. L R. Astro. Soc. 1984, 77: 125~141.
241. Heller, E and Liu T. -S. Magnetostratigraphical dating of loess deposits in china. Nature, 1982, 300:431~433.
242. Heller, E and Liu T. -S. Paleoclimatic and sedimentary history from magnetic susceptibility of loess in China.
Geophysical ResearchLetters. 1986, 13: 1169~1172.
243. Herman, Y. artic Paleoceanography in late cenozoic time and its relationship to global climates, in: gramberd, 1. s.,karasik A. M., krasilshchikov A. A., pogrebitsk-y, yu, e., sovokov, D. S. and yashin, d. s.(eds.), arctic geology, 27th international geological congress, nanka, moscow, 1984:161~172.
244. Johan H. ten Veen, george postma. Astronomically forced variations in gamma-ray intensity: Late Miocene hemipelagic successions in the eastern Mediterranean basin as a test. Geology, 1996, 24(1): 15~18.
245. Keller, G., Zenker, C.E., Stone, S. M. Late Neogene history of the Pacifie—Carbbean gateway. J. S. Am. Earth Sci. 1989, 2: 73~108.
246. Kennet, J. P. Marine geology. New jersey, prentice hall, 1982.
247. Krumbein W C. A history of the principle and methods of mechanical analysis. Journal of Sedimentary Petrology, 1932(2):89~124.
248. Leckie R M, Webb P N. Late Oligocene-early Miocene glacial record of the Ross sea, Antarctica: evid.ence from DSDP site 270, geology, 1993,11(10): 578~582.
249. Li jijun. The environmental effects the uplift of the Qinghai-Xizeng plateau and their environmental Quaternary Science Reviews, 1991, 10: 478~483.
250. Linsley B K. Oxygen isotope record of sea level and climate variations in the Sulu Sean over past 150 000 years. Nature, 1996,380:234~237.
251. Liu ZongYang. Rock magnetie study of marine sediment and its application to paleoenvironment research. Doctoral dissertation, Kyoto university, 1994.
252. Liu, Z.C., Wang, Y., Chen, Y. et al. Magnetostmtigraphy and sedimentologically derived geochronology of the Quaternary lacustrine deposits of a 3000 m thick sequence in the central Qaidam basin, western China. Palaeogeogr., Palaeoclimatol., Palaeoecol., 1998, 140,459~473.
253. Lizhong Yu, Oldfield F, Wu Yushu et al. Paleoenvironmental implications of magnetic measurements on sediment core from Kunming basin Southwest China. Journal of Paleoliminology, 1990(3): 95~111.
254. Lorius C, Jouzel J, Ritz C, et al. A 150 0002year climatic record from Antarctic ice. Nature, 1985,316: 591~596.
255. Mark A. Cane, Peter Molnar. Closing of the Indonesian seaway as a precursor to east African aridification around 3-4 million years ago, nature, 2001, 411: 157~162.
256. Marlabe S, Temptm T B. The eects of mountains on the general circulation of the atmosphere identified by numerical experiments. Journal of Atmospheric Science. 1974, 31(1): 342.
257. Miller K G; Falrbanks R G, Mountain G S. Tertiary oxygen isotope synthesis, sea level history, and continental margin erosion. Paleoceangraphy, 1987(2): 1~19.
258. MillerKG, Fairbanks RG,MountainGS. Tertiary oxygen isotope synthesis, sea level history, and continental margin erosion. Paleoceanography, 1987; 2(1):1~19.
259. Molnar P, England P, Martinod I. Mantle dynamics, uplift of Tibetan, and the Indian monsoon. Reviews of geophysics, 1993, 31:357~396.
260. Myers K J, et al. Understanding Jurassic organic-rich mudrocks New concepts using gamma-ray spectrometry and palaeocology:examples from the Kimmeridge Clay of Dorset and the Jet Rock of Yorkshire. In: Legger J K, Zuffa G G, eds, Marine elastic sedimentology. London: Graham and Trotman, 1987: 172~189.
261. Oik, Fukusawa H, Iwata S, et al, Last 2.4ma changes of monsoon and westerly activities in the east Asia, detected by clay mineral composition in loess-paleosol sequences at the inland area of China and deep-sea sediments of the Japan sea. J Geogr, 1997, 106:249~259.
262. Pisias N G, Moore T C. The evolution of Pleislocene climate: A time series approach. Earth and Planetary Science Letter, 1981, 52: 450~458.
263. Prell W L, Kutzhach J F. Sensitivity of Indian monsoon to forcing parameters for its evolution, Nature, 1992, 360: 647~652.
264. Prell W L. KLitzbach J E. Semitiviw of the Indian monsoon to forcing parameters and implications for its evolution. Nature, 1992, 360: 647-652.
265. Ramstein G F. Fluteau F D. Besse J. & Joussaume, S. Effect of orograohy, plate motion and land—sea distribution on Eurasian climate change over the past 30 million years. Nature, 1997, 386: 788~795
266. Raymo M E, Ruddiman W Efrodietlp N. TTm influence of late Cenozoic mountain buiding on oceanic geochemical cycles. Geology, 1992, 16: 649~653.
267. Rea D K, snocckx H and Joseph L H. Late Cenozoic eolim deposition in the North Pacific: Asian drying, Tibetan uplift, and cooling of the northern hemisphere. Paleoceanography,1998,130:215~224.
268. Schulz H, Pad U-v, Erlenkeuser H. Correlation between Arabian sea Schulz H, Pad U2v, Erlenkeuser H_ Correlation between Arabian sea and Greenland climate oscillations of the past 110,000 years, Nature, 1998,393: 54~57.
269. Shackleton, N.J.andkeanertt, J. P., Late Cenozoic Oxygen and Carbon lstobopic Changes at DSDP site 284: Implications for Glacial History of the Northern Hemisphere and.Antarctica, ibid., 1975, 29: 801~807.
270. Shields J A, Paul E A. Spectrophotometric measurement of soil color and its relationship to moisture and organic matter. Can J Soil Sci, 1968, 48:271~280.
271. Thompson L G, Mosley2Thompson E, Davis M E, et al. Late glacial stage and Holocene tropical ice core records from Huascar n, Peru. Science, 1995,269:46-50.
272. Thompson L G, Yao T, Davis M E, et al, Tropical climate instability: the last glacial cycle from a Qinghai-Tibetan ice core. Science, 1997,276: 1821-1825.
273. Thompson R. Oldfield F. Environmental Magetism. London: Allen&unwin, 1986:11-18.
274. Timothy D. Herbert, Larry A. Mayer long climatic time series from sediment physical property measurements. Joural of Sedimentary Petrology, 1991, 61(7): 1089~1108.
275. Trenberth, K E, Chen S C. Planetary waves kinematically forced by Himalayan Orography. J. Atmos, Sci. 1986(45): 293 4~2 948.
276. Van Zinderen Bakker E. M. and Mercer, J. H. Major Later Cainozoic Climatic Events and Palaeoenvironmental Changes in Africa Viewed in a World Wide Context. Palaeogeography, Palaeoclimatology, Palaeoecology,1986, 56: 135~217.
277. Visher. Grain size distributions and depositional of process. Journal of sedimentary petrology, 1969, 39(3):1074~1106.
278. Wesselman, H.B. Paleoclimate and Evolution with Emphasis on Human Origins. Yale univ. press, 1995, 356~368.
279. Yang S L, Chen S Y. Soil color: A new sensitive indicator for climatic change. Chinese Science Bulletin, 1999, 44(supp): 282~285.
280. Zhiyong Han, Dunyi Liu, Steven A. Hovan. Lightness timescale for terrestrial sediments in the past 500,000 years. Paleoceanography, 2001. Vol. 17, No. 3, 1048.
281. Zhong Dalai, Ding Lin. Rising process of the Qinghai-Xizang Plateau and its mechanism. Scientia Sinica, 1996, 39(4): 369~379.
2.安芷生,李华梅,王俊达.洛川黄土平面的古地磁研究.地球化学,1977(4):239~249.
3.安芷生,刘晓东.东亚季风气候的历史与变率.科学通报,2000,450:238~249.
4.安芷生,马醒华.环境磁学初步研究.见:刘东生主编:黄土、第四纪地质、全球变化(第二辑):北京:科学出版社,1991:143~151.
5.安芷生,王苏民,吴锡浩等.中国黄土高原的风积证据:晚新生代北半球大冰期开始及青藏高原的隆升驱动,中国科学(D辑),1998,2 8(6):481~490.
6.安芷生,吴锡浩,汪品先等.中国黄土高原的风积证据:晚新生代北半球大冰期开始及青藏高原的隆升驱动.中国科学(D辑),1998,28(6):481~490.
7.蔡重阳,卢礼昌,吴秀元等.下扬子准地台江苏地区泥盆纪生物地层.见:江苏石油勘探局地质科学研究院,中国科学院南京地质古生物研究所,江苏地区下扬子准地台震旦纪——三叠纪生物地层.南京:南京大学出版社,1988,169~217.
8.曹军骥,张小曳,程燕等.晚新生代红粘土的粒度分布及其指示的冬季风演变.海洋地质与第四纪地质,2001(3):99~106.
9.陈发虎,李吉均,张维信.兰州黄土地层研究.见:中国西部第四纪冰川与环境研究,北京:科学出版社,1991.
10.陈发虎,张宇田,张维信等.兰州九州台黄土沉积年代综合研究,沉积学报,1989,7(3):105~111.
11.陈敬安,万国江,黄荣贵.云南程海沉积物粒度研究.环境科学进展,1999(4):76~82.
12.陈敬安,万国江,唐德贵.洱海近代气候变化的沉积物粒度与同位素记录.自然科学进展,2000(3):253~259.
13.陈敬安,万国江,徐经意.洱海沉积物粒度记录与气候干湿变迁.沉积学报,2000(3):341~345.
14.陈敬安,万国江.云南洱海沉积物粒度组成及其环境意义辨识.矿物学报,1999(2):175~182.
15.陈明扬.中国风成堆积与全球干旱化.第四纪研究,1991,(4):361~372.
16.陈诗越,方小敏,王苏民.川西高原甘孜黄土与印度季风演化关系.海洋地质与第四纪地质,2002,22(3):41~46.
17.陈世荣,仲伟龙,刘晓静.粒度分析曲线的非线性回归模型.陕西师范大学报,(自然科学版),1993(4):38~40.
18.陈世荣.西北太平洋的热带风暴源地.气象,1988,16(2):23~26.
19.陈铁梅,原思训,高世君等.许家窑遗址哺乳动物化石的铀系法年代测定.人类学报,1982,1(1):91~95.
20.陈晓良,赵泉鸿,翦知湣.南海北部ODPI148站中新世以来的碳酸盐含量变化及其古环境意义.海洋地质与第四纪地质,2002,22(2):69~74.
21.陈兴芳,胡景勃.西太平洋副热带高压与海温场分析.海洋预报,1990,7(3):2~7.
22.陈义华.江苏太湖第四纪沉积环境.江苏地质.2000,24(2):87~90.
23.陈友飞,严钦尚,许世远.苏北盆地沉积环境演变及其构造背景.地质科学,1993,28(2):151~160.
24.陈跃,黄培华.朱洪山.北京周口地区洞穴第四纪石同位素古温度研究.科学通报,1986,20:1576~1578.
25.陈正新.南黄海第四纪沉积物中CaCO_3、MgCO_3和SrCO_3的初步研究.南海研究与开发.1989,3:37~47.
26.成都地质学院陕北队.沉积岩(物)粒度分析及其应用.北京:地质出版,1976.
27.池秋鄂,龚福华编著.层序地层学基础与应用.北京:石油工业出版社,2001:134~143.
28.迟振卿,闵隆瑞,朱关祥等.泥河湾湖相沉积层记录的古气候周期性.地学前缘,2002,9(1):182~186.
29.崔之久,谢又予,论我国东北、华北晚更新世晚期多年冻土南界予冰缘环境.地质学报,1984,2:165~175.
30.戴雪荣,李吉均,俞立中等.兰州风尘沉积的粒度分布模式及其古气候意义.沉积学报,2000,1:36~42.
31.单树模,王庭槐,金其铭.江苏省地理.南京:江苏教育出版社,1986.
32.刁桂仪,文启忠.渭南黄土剖面碳酸盐和铁变化的古气候记录.地球化学.1995,24(增刊):75~82.
33.丁仲礼,余志伟,刘东生.中国黄土研究新进展(三)——时间标尺.第四纪研究,1991,4:336~348.
34.杜恒俭,蔡保全,马安成等.泥河湾地区晚新生代生物地层带.地球科学一中国地质大学学报,1993,20(1):35~42.
35.高由禧,郭其蕴.东亚季风气候形成问题的讨论.见:高由禧等.东亚季风的若干问题.北京:科学出版社,1962:12~27.
36.葛宗诗.南黄海QC_2孔磁化率研究.海洋地质与第四纪地质.1996,16(4):35~42.
37.勾韵娴,唐领余,孙息春等.江苏北部全新世海侵事件和气候变化.江苏地质,1999,23(4):241~245.
38.勾韵娴,唐领余,孙息春等.江苏建湖地区全新世生物群和古环境.第四纪研究,1992,3:203~215.
39.顾延生,蔡雄飞,张克信.祁连山东南缘新生代沉积环境变迁及其意义.地学前缘,2002,9(2);
40.郭雪莲,王琪,史基安等.青海湖沉积物有机碳含量与同位素和粒度特征及其古气候意义.海洋地质与第四纪地质,2002,22(3):99~103.
41.郭正堂,刘东生,Fedoroff.N等.约0.85前后黄土高原区季风强度的变化,科学通报,1993,38(2):143~146.
42.哈姆W.E.,普雷L.C.碳酸盐岩的现代概念及其分类.见:冯增昭主译:碳酸盐岩分类文集(地质资料汇编第九集).重庆:科学技术文献出版社重庆分社,1981:1~15.
43.韩家懋,HueJJ,刘东生.马兰黄土和离石黄土的磁学性质.第四纪研究,1991(4):310~325.
44.韩家懋,姜文英,楮骏.黄土和古土壤中磁性矿物的粒度分布.第四纪研究,1997(3):282~287.
45.胡刚,王乃昂,罗建育等.花海湖泊古风成砂的粒度特征及其环境意义.沉积学报,2001(4):642~647.
46.胡守云,王苏民,E.Apple等.呼伦湖湖泊沉积物磁化率变化的环境磁学机制.中国科学(D辑),1998,28(4):334~339.
47.华东石油地质局勘探开发规划研究院.苏北盆地第三纪年代地层研究,1995.
48.黄姜依,方家骅,邵家骥等.南京下蜀黄土沉积时代的研究.地质评论,1988,34(3):240~247.
49.黄麒,孟昭强,刘海玲.柴达木盆地查尔汗湖区古气候波动模式的初步研究.中国科学(B辑),1990,(6):652~663.
50.黄荣辉,孙凤英.热带西太平洋暖池上空对流活动对东亚夏季风季节内变化的影响.大气科学,1994,18(4):456~465.
51.黄杏珍,邵宏舜,闫存凤等.泌阳凹陷下第三系湖相白云岩形成条件.沉积学报.2001,19(2):207~213
52.翦知湣,李保华,王吉良从微体化石看西太平洋暖池的形成与演化.第四纪研究,2003,23(2):185~192.
53.翦知湣.汪品先,赵泉鸿.南海北部上新世晚期东亚冬季风增强的同位素和有孔虫证据.第四纪研究,2001.21(5):461~469.
54.江苏省地质局.江苏省第四纪地质图说明书.北京:地质出版社,1964.
55.江苏省及上海市区域地层表编写组.华东地区区域地层表—江苏及上海市分册,北京:地质出版社,1978.
56.介冬梅,吕金福,李志民等.大布苏湖全新世沉积岩心的碳酸盐含量与湖面波动.海洋地质与第四纪地质,2001,21(2):77~82.
57.金权等,安徽淮北平原第四系.北京:地质出版社,1990.
58.金章东,王苏民,沈吉等.岱海地区近400年来的“尘暴”事件——来自岱海沉积物粒度的证据.湖泊科学,2000(3):193~198.
59.金祖辉,陈隽.西太平洋暖池区海表水温暖异常对东亚夏季风影响的研究,大气科学,2002,26(1):57~68.
60.瞿文川,薛滨,吴艳宏等.太湖14000年以来古环境演变的湖泊记录.地质力学学报,1997,3(4):53~61.
61.莱尔曼A著.王苏民等译.湖泊的化学地质学和物理学,北京:地质出版社,1989,306~336.
62.雷祥义.秦岭黄土的粒度分析及其成因初步探讨.地质学报,1998(2):178~188.
63.李保华,翦知湣.南沙深海区近10Ma来浮游有孔虫群及海水温跃层演变.中国科学(D辑),2001,31(10):840~845.
64.李长安.北京平原区第四纪古气候变化.中国区域地质,1993(4):336~343.
65.李崇银,穆明权.东亚冬季风—暖池状况—ENS0循环的关系.科学通报,2000,45(7):678~685.
66.李浩敏等,南京雨花台组植物化石的发现.地质评论,1984,30(6).
67.李吉均,方小敏,朱俊杰等.临夏盆地新生代地层古地磁年代与模式序列.见:青藏项目专家委员会编青藏高原形成演化、环境变迁与生态系统研究.北京:科学出版社,1995:41~5.
68.李吉均,方小敏.青藏高原隆起与环境变化研究.科学通报,1998,43(15):1569~1574.
69.李吉均,文世宣,张青松等.青藏高原隆起的时代、幅度和形式的探讨.中国科学,1979(6):608~616.
70.李吉均,朱俊杰,康建成等.末次冰期旋回兰州黄土剖面于南极东方站冰岩芯的对比.见:中国西部第四纪冰川与环境研究,兰州大学地理系,1989,1~17.
71.李吉均等.庐山第四纪环境演变和地貌发育问题.中国科学(B辑),1983,13(8):734~745.
72.李克让,周春平,沙万英.西太平洋暖池基本特征及其对气候的影响.地理学报,1998,53(6):511~519.
73.李立文,方邺森.南京附近的古砾石层.地质论评.1965,23(2):111~121.
74.李立文,方邺森.南京附近下蜀黄土的研究.南京师范大学学报,1992,16(增刊),3~21.
75.李铁锋,任明达.大同盆地晚新生代环境演化特征.北京大学学报(自然科学版),1993,29(4):476~483.
76.李徐生,杨达源,鹿化煜等.皖南第四纪风尘堆积序列粒度特征及其意义.海洋地质与第四纪地质,1997(4):73~80.
77.李徐生,杨达源.镇江下蜀黄土-古土壤序列磁化率特征与环境记录.中国沙漠,2002,22(1):27~32.
78.李旭,衡平.黄海中部近岸浅海区第四纪孢粉及其古植被古气候意义.海洋地质与第四纪地质.1990,10(4):35~41.
79.李雪铭.一种新的沉积物粒度分布拟合曲线-对数双曲线分布及其应用.海洋科学,1996(2):19~21.
80.李炎贤等.北京原人生活时期自然环境及其变迁的探讨,古脊椎动物与古人类.1981,9(4).
81.李志民,吕金福,冷雪天等.大布苏湖全新世沉积岩芯的粒度特征与湖面波动.东北师范大学学报(自然科学版),2000(2):117~122.
82.练铭祥,薛冰,杨盛良.苏北新生代盆地断陷和坳陷的形成机理.石油实验地质.2001,21(3):256~260.
83.凌申.全新世以来苏北平原古地理环境演变.黄渤海海洋,1990,8(4):20~28.
84.刘阿成.杭州湾口北部的表层沉积物粒度分布和动力沉积作用研究,海洋通报,2002(1):49~56
85.刘东生,丁梦林.晚第三纪以来中国古环境的特征及其发展历史.地球科学,22(4):15~28.
86 刘东生,郑绵平,郭振堂.亚洲季风系统的起源和发展及其与两极冰盖和区域构造运动的时代耦合性第四纪研究,1998,3:194~204.
87.刘东生等.黄土的物质成分和结构.北京:科学出版社,1966:1~132.
88.刘东生等著.黄土与环境.北京:科学出版社,1985.
89 刘东生等编译.第四纪环境.北京:科学出版社.,1997.
90.刘金陵,Willian.Y B.Chang.根据孢粉资料推论长江三角洲地区12000年以来的环境变迁.古生物学报,1996,35(2):136~154.
91.刘金陵.泥河湾组的孢粉组合及其地质时代.科学通报,1980,25(9):177~179.
92.刘良梧,L.Eleller.下蜀黄土形成年代的探讨.土壤,1988,20(3):162~163.
93.刘清泗,程志刚.根据第四纪沉积物中碳酸盐含量及孢粉组合的变化探讨北京平原地区古气候的演变.见:中国第四纪冰川冰缘学术讨论论文集.北京:科学出版社,1985:198~203.
94.刘清泗.泥河湾的介形类化石与古环境变迁.北京师范大学学报(自然科学版).1989,1:78~84.
95.刘晓东,李力,安芷生.青藏高原隆升与欧亚内陆及北非的干旱化.第四纪研究,2001(2):114~122.
96.刘晓东,鹿化煜,安芷生.利用黄土沉积速率与粒度的相关性建立黄土序列年龄的新方法.沉积学报,1999(1):145~148.
97.刘晓东.青藏高原隆升对亚洲季风形成和全球气候与环境变化的影响.高原气象,1999,18(3):321~332.
98.刘兴起,沈吉,王苏民等.16ka以来青海湖湖相自生碳酸盐沉积记录的古气候.高校地质学报,2003,9(1):38~46.
99.刘秀铭,刘东生,F Heller等.黄土频率磁化率与古气候冷暖变换.第四纪研究,1990(1):42~49.
100.刘秀铭,刘东生,Friedrich Heller等.黄土频率磁化率与古气候冷暖变化.第四纪研究,1990(1):42~50.
101.刘秀铭,刘东生,Friedrich Heller等.中国黄土磁化率与第四纪古气候研究.地质科学,1992(增刊):279~285.
102.刘泽纯,陈晔,袁林旺等.应用自然伽玛测井曲线反演2.85MaB.R.来古气候变化.中国科学(D辑),2000,3(6):609~618.
103.刘泽纯,黄巧华.昆明盆地两孔岩芯的沉积特征及环境磁学分析.沉积学报,1992(2):
104.刘志飞,王成善.新生代全球变冷与青藏高原隆升的关系.矿物岩石,1998(增刊):123~127.
105.卢演俦,丁国瑜.与亚洲古季风有关的中国及邻区新生代构造牙花的几个问题.第四纪研究.1998,3:205~212.
106.鹿化煜,安芷生.黄土高原黄土粒度组成的古气候意义.中国科学(D辑):1998(3):278~283.
107.鹿化煜,安芷生.前处理方法对黄土沉积物粒度测量影响的实验研究,科学通报,1997(23):2535~2538.
108.罗绍华,金祖辉.南海海温变化与初夏西太平洋副热带高压活动及长江中、下游汛期降水关系的分析,大气科学,1986,10(4):409~418.
109.吕厚远,韩家懋,吴乃琴等.中国现代土壤磁化率分析及其古气候意义.中国科学(B辑):1994(12):1290~1297.
110.吕志发.粒度曲线和参数序列综合分析及其在环境分析中的应用.煤田地质与勘探,1990(2):12~
16.
111.马桂琴.宁镇地区侵入岩的形成构造环境.江苏地质.1990,1:17~20.
112.马玉贞,李吉均,方小敏.临夏地区30.6~5.0Ma红层孢粉植物群与气候演化记录.科学通报,1998,43(3):301-305
113.苗晓东,孙有斌,鹿化煜.黄土高原晚上新世红粘土粒度的空间变化.沉积学报,2001(2):182~185.
114.莫多闻.山西临汾盆地晚新生代环境演变研究.北京大学学报(自然科学版),1991,27(6):738~746.
115.鸟居雅之,福间浩司,苏黎等.黄土-古土壤磁化率述评.海洋地质与第四纪海洋,1999,19(3):83~96.
116.欧阳舒,陈永祥.江苏中部宝应地区晚泥盆世——早石炭世孢子组合.微体古生物学报,1987,4(2):195~214.
117.彭红霞,李长安,杨贵芳等.黄土中碳酸盐含量变化及其古气候记录——以兰州红咀寺剖面为例.地质科技情报,2003,22(1):53~55.
118.钱基.苏北盆地油气田的形成与分布特征.石油大学学报(自然科学版).2000,24(4):21~25.
119.钱勤,李坤英.苏北盆地玄武岩地质年龄及地层时代.火山地质与矿产,1996,17(1~2):86~93.
120.钱泽书,郑亚惠,朱之琛.苏北盆地阜宁群孢粉.古生物学报,1993,32(1):49~63.
121.乔彦松,郭振堂,郝青振等.安徽宣城黄土堆积的磁性地层学与古环境意义.地质力学学报,2002,8(4):369~375.
122.曲政.沉积物粒度数据表征方法的研究,中国粉体技术,2001(4);24~31.
123.任纪舜,姜春发,张正坤等执笔.中国大地构造及其演化.北京:科学出版社,1985.
124.任明达,王乃梁编著.现代沉积环境概论.北京:科学出版社,1981:1~7.
125.沈吉,吴瑞金,羊向东等.大布苏湖沉积剖面碳酸盐含量、氧同位素特征的古气候意义.湖泊科学,1997,9(3):217~221.
126.沈永平,康建成.十五万年来临夏黄土粒度变化的气候记录.干旱区地理,1992(3):44~49.
127.施祺,王建民,陈发虎.石洋河古终端湖泊沉积物粒度特征与沉积环境初探.兰州大学学报(自然科学版),1999(1):194~198.
128.施雅风,李吉均,李炳元.青藏高原晚新生代隆升与环境变化.广州:广东科技出版社,1998.
129.施雅风,李吉均,李炳元等.晚新生代青藏高原的隆升与东亚环境变化.地理学报,1999,54(1):10~20.
130.石荣琳.猛犸象属化石在山东的发现,古脊椎动物与古人类,1981,19(1):25.
131.施泽进,彭大钧,施央申等.苏北秦潼凹陷的应力演化模拟及其油气地质意义.石油学报,1996,17(1):40~46.
132.宋之琛,钱泽书.江苏北部泰州组孢粉.《苏北盆地泰州组、阜宁组一段地层古生物》.南京: 南京大学出版社,1969.
133.宋之琛,郑亚惠,刘金陵等.江苏地区白垩纪——第三纪孢粉组合.北京:地质出版社,1981.
134.苏新.上新世以来东北北大西洋钙质超微化石组合的演变.现代地质,2000,14(3):247~254.
135.孙东怀,安芷生,苏瑞侠等.古环境中沉积物粒度组分分离的效学方法及其应用.自然科学进展,2001(3):269~276.
136.孙湘君,杜乃秋,翁成郁等.1994,新疆玛纳斯湖近14000年来古植被与古环境研究.第四纪研究,3:239~247.
137.汤懋苍,刘晓东.一个新的划分第四纪的标志——高原季风演变的地质环境后果.第四纪研究,1995,(1):82~88.
138.童国榜,吴锡浩,陈云等.渭河谷地晚新生代地表环境巨变的孢粉记录.地质力学学报,2000,6(4):11~18.
139.童国榜,张俊牌,羊向东等.云贵高原晚新生代孢粉植物群与环境变迁.海洋地质与第四纪地质,1994,14 (3):91~104.
140.汪海滨,陈发虎,张家武.黄土高原西部地区黄土粒度的环境指示意义.中国沙漠,2002(1):21~26.
141.汪品先,翦知缗,赵泉鸿等.南海演变与季风历史的深海证据.科学通报,2003,48(21):2228~2239.
142.汪品先,田军,成鑫荣.第四纪冰期旋迴转型在南沙深海的记录,中国科学(D辑),2001,31(10):793~799.
143.汪品先,赵泉鸿,翦知缗等.南海三千万年的深海记录.科学通报,2003,48(21):2206~2215
144.汪品先.大洋钻探与我国地球科学的发展.地球物理学进展,1994,9(4):66~71.
145.汪品先.亚洲形变与全球变冷——探索气候与构造的关系.第四纪研究,1998(3):213~221.
146.王大宁,赵英娘.江汉盆地晚白垩世——早第三纪早期孢粉组合特征及其地理意义.地层古生物论文集(第九辑).北京:地质出版社,1960.
147.王建,刘泽纯,姜文英等.磁化率与粒度、矿物的关系及其古环境意义.地理学报,1996,51(2):155~163.
148.王建,汪永进,刘金陵等.太湖16000年来沉积环境的演变.古生物学报,1996,35(2):213~223.
149.王建力,李吉均,方小敏等.临夏盆地三千万年来沉积物粒度特征及其构造意义.地理研究,1998(1):39~46.
150.王金权,刘金陵.太湖全新世沉积物有机碳同位素的分布及其古气候意义.古生物学报,1996,35(2):234~240.
151.王君波,朱立平.藏南沉错沉积物的粒度特征及其古环境意义.地理科学进展,2002(5):459~467.
152.王开发等,长江三角洲第四纪孢粉组合及其地层古地理意义.海洋学报,1984,6(4).
153.王良书,施央申,郭令智,苏北盆地地震地质分析与构造演化.大地构造与成矿学,1991,15(1):72~82.
154.王强,李彩光,田国强等.7.1 Ma以来运城盆地地表系统巨变及盐湖形成的构造背景.中国科学(D辑),2000,30(4):420—428
155.王水,黄仁金,王振等.江苏地区白垩纪——第四纪轮藻化石.北京:地质出版社,1961.
156.王苏民,窦鸿身.中国湖泊志.北京:科学出版社,1998:580.
157.王巍,陈高,王家林等.苏北—南黄海盆地区域构造特征分析.地震学刊,1999(1):47~55.
158.王宪曾.周山宫,徐淑娟.江苏北部早第三纪晚期孢粉植物群及其古地理意义.植物学报,1979,21(2):149—156.
159.王云飞.青海湖.岱海的湖泊碳酸盐化学沉积与气候环境变化.海洋与湖沼.1993,24(1):31~36.
160.魏文寿.沙漠表层粒度与水热变化的环境效应分析以古尔班通古特沙漠为例.沉积学报,1998(1):152~155.
161.文启忠,刁桂仪,贾蓉芬等.黄土剖面中古气候变化的地球化学记录.第四纪研究,1995,(3):223~231.
162.翁学传,赵永平,何有海.太平洋热状况与我国早涝关系研究综述.海洋科学,1994,(1):22~26.
163.吴敬禄,李世杰,王苏民等,若尔盖盆地兴错湖沉积记录揭示的近代气候与环境.湖泊科学,2000,12(4):291~296.
164.吴利仁主编.华东及邻区中、新生代火山岩.北京:科学出版社,1984.
165.吴向阳,牟荣,石胜群等.苏北盆地火成岩发育与构造演化的关系.勘探家,1999,4(1):44~47.
166.吴学忠,王绍鸿,赵希涛.江苏建湖地区全新世孢粉组合及其地质古地理意义.地理科学,1996,16(3):252~259,
167.吴艳宏,吴瑞金,王强等.运城盆地11kaBP以来气候环境变迁与湖面波动.海洋地质与第四纪地质.
2001,21(2):83~86.
168.吴珍汉,吴中海,江万等.中国大陆及邻区新生代构造—地貌演化过程与机理,北京:地质出版社,2001.
169.夏青松,田景春,倪新锋.湖相碳酸盐岩研究现状及意义.沉积与特提斯地质,2003,23(1):105~112.
170.夏树芳.南京地区的新构造运动.地质论评,22(5):357~363.
171.夏正楷,张昀,陈铁梅等.泥河湾组叠层石的发现及其古环境意义.中国科学(D辑),1993,23(8):874~879.
172.夏正楷.第四纪环境学,北京:北京大学出版社,1997.
173.肖保华.云贵高原湖泊沉积物碳酸盐和有机质的同位素组成及环境信息记录,矿物岩石地球化学通报,1998,17(1):20~22.
174.谢远云,李长安,何葵等.青海省民和黄土的粒度组成及气候含义.地质科技情报,2002(2):41~44.
175.谢远云,李长安,周嘉等.陇西民和黄土变化及其气候指标的局限性.中国地质,2003,30(1):99~104.
176.谢远云,张序强,何葵等,青藏高原东北缘黄土粒度组成及物质来源分析.中国地质,2002(3):317~321.
177.徐馨,朱明伦,卢积堂等.中原东部第四纪环境及其影响的研究.贵阳:贵州出版社,1994.
178.许坤,石敦久,邱开敏.辽东湾北部晚新生代的古植被与古气候.海洋地质与第四纪地质,1997,17(1):25~33.
179.薛滨,瞿文川,吴艳宏等.太湖晚冰期—全新世气候环境变化的沉积记录.湖泊科学,1998,10(2):30~36.
180.薛滨,王苏民,沈吉等.呼伦湖东露天矿剖面有机碳的总量及其稳定碳同位素和古环境演化.湖泊科学,1994,6(4):308~316.
181.薛祥熙,鹿化煜,周杰.陕西旬邑新近系红土剖面粒度组成的古气候意义.沉积学报,2002,(1):118~123.
182.阎顺,穆桂金.塔里木盆地晚新生代环境演变.干旱区地理,1990,13(1):1~9.
183.杨达源.晚更新世冰期最盛时长江中下游地区的古环境.地理学报,1986,41(4).
184.杨达源.中国东部的第四纪风尘堆积与季风变迁.第四纪研究.1991,4:354~360.
185.杨汉奎,黄仁海,朱文孝.陆相CaCO_3的环境相模式讨论.海洋地质与第四纪地质.1991,11(2):105~114.
186.杨怀仁,徐馨,杨怀仁等.长江中下游环境变迁雨地生态系统.南京:河海大学出版社,1995.
187.杨胜利,方小敏,李吉均等.表土颜色和气候定性至半定量关系研究.中国科学(D辑),2001,31(增刊):175~180.
188.杨晓强,李华梅.泥河湾盆地沉积物磁化率及粒度参数对沉积环境的响应.沉积学报,1999(增刊):763~768.
189.杨子赓,牟呁智,孔昭宸等.周口店地区晚新生代地层研究.见:北京猿人遗址综合研究,北京:科学出版社,1985,1~85.
190.杨子赓,谢又予,牟昀智等.周口店上新世及更新世的古气候与地层.地质评论,1983,29(1):209~219.
191.杨子赓.中国东部陆架第四纪时期的演变及其环境效应.见:梁名胜等主编,中国海陆第四纪对比与研究.北京:科学出版社,1991:1~22.
192.姚檀栋,Thompson.L.G.,施雅风等.古里雅冰芯中末次间冰期以来气候变化记录研究.中国科学,
1997(27):447~452.
193.殷勇,方念乔,胡超涌等.云南中甸纳帕海古环境演化的有机碳同位素记录.湖泊科学,2001,13(4):289~295.
194.余素玉等.沉积岩石学.武汉:中国地质大学出版社,1989.
195.余志伟,丁仲礼,刘东生.第四纪古气候变化非线性动力学初步研究——黄土粒度曲线的奇异谱分析.第四纪研究,1993(3):214~230.
196.袁宝印,朱日祥,田文来等.泥河湾组的时代、地层划分和对比问题.中国科学(D辑),1996,26(1):67~73.
197.岳军,文启忠.泥河湾层古环境演变的分析模式.地质学报.1990,3:248~256.
198.张登明绘制.1:25万南通市幅:116号孔、202号孔第四纪地层综合特征表,2002年1月,资料来源:据《长江三角洲第四纪地质》编制.
199.张恩楼,沈吉,夏威岚等.青海湖沉积物有机碳及其同位素的气候环境信息.海洋地质与第四纪地质,2002,22(2):105~108.
200.张嘉尔.长江下游晚冰期孢粉组合和气候回暖问题.中国第四纪冰川冰缘学术讨论会论文集,北京:科学出版社,1985,175~179.
201.张建军,杨达源,陈曰友等.长江中下游地区下蜀黄土磁化率曲线与环境变迁.沉积学报,2000,18(1):18~21.
202.张建新,蔡明理,张兆千等.南京下蜀黄土古气候序列的初步研究.江苏地质.1994,18(3):189~194.
203.张金亮,刘宝瑶,毛凤鸣等.苏北盆地高邮凹陷北斜坡阜宁组成岩作用及储层特征.石油学报,2003,24(2):43~49.
204.张平中,王先彬,陈践发等.青藏高原RH孔沉积有机质δ~13C和氢指数记录.中国科学(B辑),1995,(6):450~463.
205.张树夫,萧家仪,俞立中等.沉积物矿物磁性测量在古环境研究中的应用.地理科学,1992(2):182~194.
206.张祥云编制.9号孔、25号孔、33号孔、52号孔、64号孔、78号孔、82号孔、86号孔、88号孔、95号孔、99号孔第四纪地层综合特征表(内部资料).2002,资料来源:据《1:20万东台幅水文地质普查报告》修编.
207.张渝昌.江苏含油气盆地的构造体系和油气远景.见:朱夏主编,中国中新生代盆地构造和演化.北京:科学出版社,1983.
208.张兆峰,彭于成,贺剑峰等.岩溶石笋的古环境研究进展.地质地球化学,2001,29(4):78~85.
209.张镇洪.北黄海北坡披毛犀和猛犸象化石的新发现,中国第四纪研究,1980,5(1):96~97.
210.章名立.西太平洋云量变化与中国东部的降水.大气科学.1993,17(5):576~583.
211.赵剑畏,孙竟雄,韦国钧.论江苏构造体系.中国分省构造体系研究论文集,1985(1):149~168.
212.赵泉鸿,翦知湣,王吉良等.南海北部晚新生代氧同位素地层学.中国科学(D辑),2001,31:800~807
213.赵泉鸿,汪品先.南海第四纪古海洋学研究进展.第四纪研究,1999,6:481~501.
214.赵泉鸿.西太平洋DSDP451孔晚中新世—第四纪的微体化石群及其古海洋学意义,海洋地质与第四纪地质,2000,20(2):51~56.
215.赵松龄,张宏才,苍树溪.江苏沿海平原第四纪磁性地层的研究.海洋与湖沼,1987,18(2):173~180.
216.赵希涛,耿秀山,张景文.中国东部20000年来的海面变化,海洋学报.1979,1(2):269~281.
217.郑洪汉,朱照宇,黄宝林等.山东半岛及苏皖北部黄土地层年代学研究,海洋地质与第四纪地质,1994,
14(1):63~68.
218.郑乐平,胡雪峰,方小敏.长江中下游地区下蜀黄土成因研究的回顾.矿物岩石地球化学通报,2002,21(1):54~57.
219.郑祥民等著.长江三角洲及海域风成沉积与环境.上海:华东师范大学出版社.1999.
220.郑瑶芳.高邮凹陷油油气分布规律的探讨.石油学报,1987.
221.周春平编著.大洋暖池及其影响.北京,气象出版社,2001.
222.周济元.安徽张八岭地区构造演化及动力学.火山地质与矿产,1995,16(4):17~24.
223.周墨清,葛宗诗.南黄海及相邻陆区松散沉积层磁性地层的研究.海洋地质与第四纪地质,1990,10(4):21~33.
224.周廷儒,李华章,刘清泅等.泥河湾盆地新生代古地理研究.北京:科学出版社,1991.
225.朱平.江苏油田油气藏基本特征及其分类.断块油气田,2001,8(5):12~16.
226.朱宣清,何乃华.运用粒度分析方法恢复河流地貌.以滹沱河为例.河北省科学院学报,1990(1):17~29
227. Bond G, Broecker W, Johnsen S, et al. Correlations between climatic records from North Atlantic sediments and Greenland ice, Nature, 1993,365: 143-147.
228. Bradley, R. S. Qutatemary paleoclimatology. London: Allen and Unwin, 1985.
229. Cande S C, Kent D V.Revised calibration of the geomagnetic polarity timescale for the Late Cretaceous and Cenozoic. Journal of Geophysical Research, 1995, 100 (B4): 6093~6095.
230. Coates A. G. et al. closure of the Isthinus of Panama :the near-shore marine record of Costa Pica and western Panama. Geol soc. Am. Bull. 1992, 104.. 814~828.
231. De Menocal P B. plio-pleistocenee African climate, Science, 1995, 270: 53~59.
232. De visser J P, Ebbing J H J, Gudjonson L. et al. The origin of rhythmic bedding in the Pliocene Trubi Formation of Sicily, Southern Italy[J]. Palaeogeography, Palaeoclimatology, Paleoecology, 1989, 69: 45~66.
233. Ding, Z. L., Rutter, N. W. and Liu, T. S. Pedostratigraphy of china loess deposits and climatic cycles in the last 2.5 Myr. Catena, 1993(20): 73~91.
234. Emeis K C, Anderson D M, Doose H et al. Sea surface temperatures and the history of monsoon upwelling in the Northwest Arabian Sea during the last 500000 years. Quatenary Research, 1995, 43(2): 355~361.
235. Fang X M, Ono Y, Fukusawa H, et al. Asian summer monsoon instability during the past 60000 years: Magnetic susceptibility and pedogenic evidence from the Chinese western loess plateau. Earth Planet Sci Lett, 1999, 168: 219~232.
236. Fernandes R N, Schulze D G. Color, organic matter, and pesticide adsorption relationships in a soft landscape. Soil Sci Soc Am J, 1988, 52:1023~1026.
237. Fischey A G. et al. cyclicity in the Green River Formation (lacustrine Eocene) of Wyoming. Journal of sedimentary petrology, 1991, 61(7): 1146~1154.
238. Gerald H. Haug, Ralf Tiedemann. Effect of the formation of the Isthmus of Panama on Atlantic Ocean thermohaline circulation. Nature, 1998, (393): 673~676.
239. Greenland Ice Core Project Members. Climate instability during the last interglacial period recorded in the GRIP ice core. Nature, 1993,364: 203~207.
240. Heller, E and Liu T. -S. Magnetism of Chinese loess deposits. Geophys. L R. Astro. Soc. 1984, 77: 125~141.
241. Heller, E and Liu T. -S. Magnetostratigraphical dating of loess deposits in china. Nature, 1982, 300:431~433.
242. Heller, E and Liu T. -S. Paleoclimatic and sedimentary history from magnetic susceptibility of loess in China.
Geophysical ResearchLetters. 1986, 13: 1169~1172.
243. Herman, Y. artic Paleoceanography in late cenozoic time and its relationship to global climates, in: gramberd, 1. s.,karasik A. M., krasilshchikov A. A., pogrebitsk-y, yu, e., sovokov, D. S. and yashin, d. s.(eds.), arctic geology, 27th international geological congress, nanka, moscow, 1984:161~172.
244. Johan H. ten Veen, george postma. Astronomically forced variations in gamma-ray intensity: Late Miocene hemipelagic successions in the eastern Mediterranean basin as a test. Geology, 1996, 24(1): 15~18.
245. Keller, G., Zenker, C.E., Stone, S. M. Late Neogene history of the Pacifie—Carbbean gateway. J. S. Am. Earth Sci. 1989, 2: 73~108.
246. Kennet, J. P. Marine geology. New jersey, prentice hall, 1982.
247. Krumbein W C. A history of the principle and methods of mechanical analysis. Journal of Sedimentary Petrology, 1932(2):89~124.
248. Leckie R M, Webb P N. Late Oligocene-early Miocene glacial record of the Ross sea, Antarctica: evid.ence from DSDP site 270, geology, 1993,11(10): 578~582.
249. Li jijun. The environmental effects the uplift of the Qinghai-Xizeng plateau and their environmental Quaternary Science Reviews, 1991, 10: 478~483.
250. Linsley B K. Oxygen isotope record of sea level and climate variations in the Sulu Sean over past 150 000 years. Nature, 1996,380:234~237.
251. Liu ZongYang. Rock magnetie study of marine sediment and its application to paleoenvironment research. Doctoral dissertation, Kyoto university, 1994.
252. Liu, Z.C., Wang, Y., Chen, Y. et al. Magnetostmtigraphy and sedimentologically derived geochronology of the Quaternary lacustrine deposits of a 3000 m thick sequence in the central Qaidam basin, western China. Palaeogeogr., Palaeoclimatol., Palaeoecol., 1998, 140,459~473.
253. Lizhong Yu, Oldfield F, Wu Yushu et al. Paleoenvironmental implications of magnetic measurements on sediment core from Kunming basin Southwest China. Journal of Paleoliminology, 1990(3): 95~111.
254. Lorius C, Jouzel J, Ritz C, et al. A 150 0002year climatic record from Antarctic ice. Nature, 1985,316: 591~596.
255. Mark A. Cane, Peter Molnar. Closing of the Indonesian seaway as a precursor to east African aridification around 3-4 million years ago, nature, 2001, 411: 157~162.
256. Marlabe S, Temptm T B. The eects of mountains on the general circulation of the atmosphere identified by numerical experiments. Journal of Atmospheric Science. 1974, 31(1): 342.
257. Miller K G; Falrbanks R G, Mountain G S. Tertiary oxygen isotope synthesis, sea level history, and continental margin erosion. Paleoceangraphy, 1987(2): 1~19.
258. MillerKG, Fairbanks RG,MountainGS. Tertiary oxygen isotope synthesis, sea level history, and continental margin erosion. Paleoceanography, 1987; 2(1):1~19.
259. Molnar P, England P, Martinod I. Mantle dynamics, uplift of Tibetan, and the Indian monsoon. Reviews of geophysics, 1993, 31:357~396.
260. Myers K J, et al. Understanding Jurassic organic-rich mudrocks New concepts using gamma-ray spectrometry and palaeocology:examples from the Kimmeridge Clay of Dorset and the Jet Rock of Yorkshire. In: Legger J K, Zuffa G G, eds, Marine elastic sedimentology. London: Graham and Trotman, 1987: 172~189.
261. Oik, Fukusawa H, Iwata S, et al, Last 2.4ma changes of monsoon and westerly activities in the east Asia, detected by clay mineral composition in loess-paleosol sequences at the inland area of China and deep-sea sediments of the Japan sea. J Geogr, 1997, 106:249~259.
262. Pisias N G, Moore T C. The evolution of Pleislocene climate: A time series approach. Earth and Planetary Science Letter, 1981, 52: 450~458.
263. Prell W L, Kutzhach J F. Sensitivity of Indian monsoon to forcing parameters for its evolution, Nature, 1992, 360: 647~652.
264. Prell W L. KLitzbach J E. Semitiviw of the Indian monsoon to forcing parameters and implications for its evolution. Nature, 1992, 360: 647-652.
265. Ramstein G F. Fluteau F D. Besse J. & Joussaume, S. Effect of orograohy, plate motion and land—sea distribution on Eurasian climate change over the past 30 million years. Nature, 1997, 386: 788~795
266. Raymo M E, Ruddiman W Efrodietlp N. TTm influence of late Cenozoic mountain buiding on oceanic geochemical cycles. Geology, 1992, 16: 649~653.
267. Rea D K, snocckx H and Joseph L H. Late Cenozoic eolim deposition in the North Pacific: Asian drying, Tibetan uplift, and cooling of the northern hemisphere. Paleoceanography,1998,130:215~224.
268. Schulz H, Pad U-v, Erlenkeuser H. Correlation between Arabian sea Schulz H, Pad U2v, Erlenkeuser H_ Correlation between Arabian sea and Greenland climate oscillations of the past 110,000 years, Nature, 1998,393: 54~57.
269. Shackleton, N.J.andkeanertt, J. P., Late Cenozoic Oxygen and Carbon lstobopic Changes at DSDP site 284: Implications for Glacial History of the Northern Hemisphere and.Antarctica, ibid., 1975, 29: 801~807.
270. Shields J A, Paul E A. Spectrophotometric measurement of soil color and its relationship to moisture and organic matter. Can J Soil Sci, 1968, 48:271~280.
271. Thompson L G, Mosley2Thompson E, Davis M E, et al. Late glacial stage and Holocene tropical ice core records from Huascar n, Peru. Science, 1995,269:46-50.
272. Thompson L G, Yao T, Davis M E, et al, Tropical climate instability: the last glacial cycle from a Qinghai-Tibetan ice core. Science, 1997,276: 1821-1825.
273. Thompson R. Oldfield F. Environmental Magetism. London: Allen&unwin, 1986:11-18.
274. Timothy D. Herbert, Larry A. Mayer long climatic time series from sediment physical property measurements. Joural of Sedimentary Petrology, 1991, 61(7): 1089~1108.
275. Trenberth, K E, Chen S C. Planetary waves kinematically forced by Himalayan Orography. J. Atmos, Sci. 1986(45): 293 4~2 948.
276. Van Zinderen Bakker E. M. and Mercer, J. H. Major Later Cainozoic Climatic Events and Palaeoenvironmental Changes in Africa Viewed in a World Wide Context. Palaeogeography, Palaeoclimatology, Palaeoecology,1986, 56: 135~217.
277. Visher. Grain size distributions and depositional of process. Journal of sedimentary petrology, 1969, 39(3):1074~1106.
278. Wesselman, H.B. Paleoclimate and Evolution with Emphasis on Human Origins. Yale univ. press, 1995, 356~368.
279. Yang S L, Chen S Y. Soil color: A new sensitive indicator for climatic change. Chinese Science Bulletin, 1999, 44(supp): 282~285.
280. Zhiyong Han, Dunyi Liu, Steven A. Hovan. Lightness timescale for terrestrial sediments in the past 500,000 years. Paleoceanography, 2001. Vol. 17, No. 3, 1048.
281. Zhong Dalai, Ding Lin. Rising process of the Qinghai-Xizang Plateau and its mechanism. Scientia Sinica, 1996, 39(4): 369~379.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |