7 郑瑾, 邵曰舜. 云南腾冲火山群区域内水环境状况分析研究. 水利规划与设计, 2007, (6) :21~24 Zheng Jin, Shao Yueshun. The research on the water environment of the volcanic region, Tengchong, Yunnan. Water Resources Planning and Design, 2007, (6) :21~24
[2]
9 王宇. 湖泊沉积物粒度的环境含义. 中国新技术新产品, 2009, (15):190 Wang Yu. Environmental implications of lake sediment grain size. China New Technologies and Products, 2009, (15):190
[3]
10 Wang Sumin, Zhang Zhenke. New progress of lake sediments and environmental changes research in China. Chinese Science Bulletin, 1999, 44 (19):1744~1754
[4]
11 李其华. 沉积物粒度在古环境重建中的应用. 巢湖学院学报, 2003, 5 (3):26~28 Li Qihua. Application of deposit''s size to reconstruction of ancient environment. Journal of Chaohu College, 2003, 5 (3):26~28
[5]
12 刘兴起, 王苏民, 沈吉. 青海湖QH-2000钻孔沉积物粒度组成的古气候古环境意义. 湖泊科学, 2003, 15 (2):112~117 Liu Xingqi, Wang Sumin, Shen Ji. The grainsize of the core QH-2000 in Qinghai Lake and its implication for paleoclimate and paleoenvironment. Journal of Lake Sciences, 2003, 15 (2):112~117
[6]
13 汪勇, 沈吉, 羊向东等. 陕北红碱淖沉积物粒度特征所揭示的环境变化. 沉积学报, 2006, 24 (3):349~355 Wang Yong, Shen Ji, Yang Xiangdong et al. Environmental changes deduced from grain-size characteristics of the sediments from Hongjiannao Lake, Shaanxi Province. Acta Sedimentologica Sinica, 2006, 24 (3):349~355
[7]
14 陈敬安, 万国江, 张峰等. 不同时间尺度下的湖泊沉积物环境记录——以沉积物粒度为例. 中国科学(D辑), 2003, 33 (6):563~568 Chen Jing''an, Wan Guojiang, Zhang Feng et al. Environment record by lake sediments from different time scale:A case study of sediment grain size. Science in China(Series D), 2003, 33 (6):563~568
[8]
15 谢远云, 王秋良, 李长安等. 湖泊沉积物粒度的气候指示意义——以江汉平原江陵剖面为例. 地质科技报, 2004, 23 (4):41~43 Xie Yuanyun, Wang Qiuliang, Li Chang''an et al. Climatic implication if grain size from lacustrine sediments:A case study of Jiangling section Jianghan Plain, China. Geologica Science and Technology Information, 2004, 23 (4):41~43
[9]
16 雷国良, 张虎才, 张文翔等. Mastersize 2000型激光粒度仪分析数据可靠性检验及意义——以洛川剖面S4古土壤为例. 沉积学报, 2006, 24 (4):531~539 Lei Guoliang, Zhang Hucai, Zhang Wenxiang et al. The reliability and significance of the grain-size obtained by Mastersize 2000 laser analyzer:A case study on the typical S4 from Luochuan section. Acta Sedimentologica Sinica, 2006, 24 (4):531~539
[10]
17 陈敬安, 万国江, 徐经意等. 洱海沉积物粒度记录与气候干湿变迁. 沉积学报, 2000, 18 (3):341~345 Chen Jing''an, Wan Guojiang, Xiu Jingyi et al. Sediment particle sizes and the dry-humid transformation of the regional climate in Erhai Lake. Acta Sedimentologica Sinica, 2000, 18 (3):341~345
[11]
18 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 Zhang Enlou, Shen Ji, Xia Weilan et al. Environmental records from organic carbon and its isotope of Qinghai Lake sediment. Marine Geology & Quaternary Geology, 2002, 22 (2):105~108
[12]
19 卢凤艳, 安芷生. 鹤庆钻孔沉积物总有机碳氮含量测定的前处理方法及其环境意义. 地质力学学报, 2010, 16 (4):393~400 Lu Fengyan, An Zhisheng. Pretreatment methods for analyzing the total organic carbon and nitrogen contents of Heqing core sediments and their environmental significances. Journal of Geomechanics, 2010, 16 (4):393~400
[13]
20 谢远云, 何葵, 康春国等. 湖泊沉积物有机质碳同位素的气候意义: 以江汉平原江陵剖面为例. 哈尔滨师范大学自然科学学报, 2004, 20 (5):96~99 Xie Yuanyun, He Kui, Kang Chunguo et al. Climatic significance of organic matter carbon isotope in lacustrine sediments:A case study of Jiangling section, Jianghan Plain, China. Natural Sciences Journal of Harbin Normal University, 2004, 20 (5):96~99
[14]
21 孙伟伟, 沈吉, 张恩楼等. 日本大沼湖沉积物碳氮比值、有机碳同位素特征及其近400年的古气候环境意义. 第四纪研究, 2014, 34 (6):1306~1313 Sun Weiwei, Shen Ji, Zhang Enlou et al. Characteristics of organic stable carbon isotope and C/N ration of sediments in Lake Onuma, Japna and their environmental implicationd for the last 400 years. Quaternary Sciences, 2014, 34 (6):1306~1313
[15]
22 匡欢传, 周浩达, 胡建芳等. 末次盛冰期和全新世大暖期湖光岩玛珥湖沉积记录的正构烷烃和单体稳定碳同位素分布特征及其古植被意义. 第四纪研究, 2013, 33 (6):1222~1233 Kuang Huanchuan, Zhou Haoda, Hu Jianfang et al. Variations of n-alkanes and compound-specific carbon isotopes in sediments from Huguang Maar Lake during the last glacial maximum and Holocene optimum:Implications for paleovegetation. Quaternary Sciences, 2013, 33 (6):1222~1233
[16]
23 任雅琴, 王彩红, 李瑞博等. 有机质饱和烃和δ 13 Corg. 记录的博斯腾湖早全新世晚期以来生态环境演变. 第四纪研究, 2014, 34 (2):425~433 Ren Yaqin, Wang Caihong, Li Ruibo et al. Ecological environment change recorded by sediment n-alkane and δ13Corg. of Lake Bosten since late of Early Holocene. Quaternary Sciences, 2014, 34 (2):425~433
[17]
24 孙博亚, 岳乐平, 赖忠平等. 14ka B.P.以来巴里坤湖区有机碳同位素记录及古气候变化研究. 第四纪研究, 2014, 34 (2):418~424 Sun Boya, Yue Leping, Lai Zhongping et al. Paleoclimate changes recorded by sediment organic carbon isotopes of Lake Barkol since 14ka B.P.Quaternary Sciences, 2014, 34 (2):418~424
[18]
Qiang Mingrui, Chen Fahu, Gao Shangyu. A preliminary study on the palaeoclmatic implication of stable isotope of carbonate in the Sugan Lake sediments. Quaternary Sciences, 2004, 24 (5):598~599
[19]
34 雷国良, 张虎才, 朱芸等. 湖泊沉积碳酸盐氧同位素影响因素的定量评估. 第四纪研究, 2015, 35 (1):143~151 Lei Guoliang, Zhang Hucai, Zhu Yun et al. Quantitative evaluation for driving factors of carbonate oxygen isotope composition in lake sediments. Quaternary Sciences, 2015, 35 (1):143~151
[20]
35 滕晓华, 韩文霞, 叶程程等. 柴达木盆地SG-1孔1.0Ma以来碳酸盐同位素记录的亚洲内陆干旱化及成因. 第四纪研究, 2013, 33 (5):866~875 Teng Xiaohua, Han Wenxia, Ye Chengcheng et al. Aridification of the Asian inland since 1.0Ma:Evidences from carbonate isotope records of deep core from the Qaidam Basin. Quaternary Sciences, 2013, 33 (5):866~875
[21]
36 雷国良, 张虎才, 张文翔等. 柴达木盆地察尔汗湖贝壳堤剖面粒度特征及其沉积环境. 沉积学报, 2007, 25 (2):274~282 Lei Guoliang, Zhang Hucai, Zhang Wenxiang et al. Characteristics of grain size and sedimentation of Shell Bar section in salt Lake Qarhan, Qaidam Basin. Acta Sedimentologica Sinica, 2007, 25 (2):274~282
[22]
37 姜文英, 吴海斌, 储国强等. 内蒙古巴彦查干湖白云石的成因及其环境意义. 第四纪研究, 2010, 30 (6):1116~1120 Jiang Wenying, Wu Haibin, Chu Guoqiang et al. Origin of dolomite in Lake Bayanchagan, Inner Mongolia and its palaeoclimatic implications. Quaternary Sciences, 2010, 30 (6):1116~1120
[23]
38 常凤琴, 张虎才, 陈玥等. 柴达木盆地察尔汗古湖贝壳堤剖面碳酸盐和瓣鳃化石碳氧稳定同位素. 第四纪研究, 2007, 27 (3):427~436 Chang Fengqin, Zhang Hucai, Chen Yue et al. Stable isotopes of carbonate and fossil shells from the shell bar section of the paleolake Qarhan, Qaidam Basin. Quaternary Sciences, 2007, 27 (3):427~436
[24]
39 胡守云, 邓成龙, Appele E等. 湖泊沉积物磁学性质的环境意义. 科学通报, 2001, 46 (17):1491~1494 Hu Shouyun, Deng Chenglong, Appele E et al. Environmental magnetic study of lacustrine sediments. Chinese Science Bulletin, 2001, 46 (17):1491~1494
[25]
40 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 Wang Jian, Liu Zechun, Jiang Wenying et al. A relationship between susceptibility and grain-size and minerals, and their paleo-environmental implications. Acta Geographica Sinica, 1996, 51 (2):155~163
[26]
41 胡守云, 吉磊, 王苏民等. 呼伦湖地区扎费诺尔晚第四纪湖泊沉积物的磁化率变化及其影响因素. 湖泊科学, 1995, 7 (1):33~40 Hu Shouyun, Ji Lei, Wang Sumin et al. Magnetic susceptibility of the Late Quaternary lacustrine sediments and its influence factors in Jula Nur, Hulun Lake area. Journal of Lake Sciences, 1995, 7 (1):33~40
[27]
42 吴瑞金. 湖泊沉积物的磁化率、频率磁化率及其古气候意义——以青海湖、岱海近代沉积为例. 湖科泊学, 1993, 5 (2):128~135 Wu Ruijin. Magnetic susceptibility(χ)and frequent dependent susceptibility(χfd)of lake sediments and their paleoclimatic implication——The case of recent sediments of Qinghai Lake and Daihai Lake. Journal of Lake Sciences, 1993, 5 (2):128~135
[28]
44 刘宇航, 夏敦胜, 周爱锋等. 乌伦古湖全新世气候变化的环境磁学记录. 第四纪研究, 2012, 32 (4):803~811 Liu Yuhang, Xia Dunsheng, Zhou Aifeng et al. Holocene environmental change recorded by magnetic properties of Wulungu Lake sediment. Quaternary Sciences, 2012, 32 (4):803~811
[29]
45 常秋芳, 常宏. 罗布泊Ls2孔近7.1Ma以来沉积物的环境磁学研究. 第四纪研究, 2013, 33 (5):876~888 Chang Qiufang, Chang Hong. The environmental magnetism study of core Ls2 in Lop Nur, Tarim since 7.1Ma. Quaternary Sciences, 2013, 33 (5):876~888
[30]
46 殷勇, 方念乔, 王倩等. 云南中甸纳帕海湖泊沉积物的磁化率及环境意义. 地理科学, 2002, 22 (4):413~419 Yin Yong, Fang Nianqiao, Wang Qian et al. Magnetic susceptibility of lacustrine sediments and its environmental significance: Evidence from Napahai Lake, northwestern Yunnan, China. Geographic Sciences, 2002, 22 (4):413~419
[31]
47 陈皎杰, 刘焱光, 葛淑兰等. 末次盛冰期以来兴凯湖的古环境演变——基于地磁场长期变化的年龄框架. 第四纪研究, 2014, 34 (3):528~539 Chen Jiaojie, Liu Yanguang, Ge Shulan et al. Paleoenvironment evolution of the Lake Khanka since the last glacial maximum:Age model reconstructed by secular variation of geomagnetic field. Quaternary Sciences, 2014, 34 (3):528~539
[32]
48 Oldfield F. Environmental magnetism——A personal perspective. Quaternary Science Reviews, 1991, 10 (1):73~85
[33]
49 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, 17 (增刊):763~768 Yang Xiaoqiang, Li Huamei. The sediment susceptibility and grain-size profile respond to change of depositional environment in Nihewan Basin. Acta Sedimentologica Sinica, 1999, 17 (Suppl.):763~768
[34]
50 赵国永, 刘秀铭, 吕镔等. 全新世黄土记录的古气候演化及磁化率和粒度参数灵敏性探讨. 第四纪研究, 2012, 32 (4):777~784 Zhao Guoyong, Liu Xiuming, Lü Bin et al. The paleoclimatic evolution recorded by Holocene loess and discussing on the parameter sensitivity of magnetic susceptibility and medium particle diameter. Quaternary Sciences, 2012, 32 (4):777~784
[35]
51 彭子成, 张兆峰, 蔡演军等. 贵州七星洞晚更新世晚期石笋的古气候环境记录. 第四纪研究, 2002, 22 (3):273~282 Peng Zicheng, Zhang Zhaofeng, Cai Yanjun et al. The paleoclimatic records from the Late Pleistocene stalagmite in Guizhou Qixing Cave. Quaternary Sciences, 2002, 22 (3):273~282
[36]
52 吴江滢, 汪永进, 孔兴功. 贵州白骨洞石笋记录的全新世季风气候演化与突变. 海洋地质与第四纪地质, 2006, 26 (5):55~60 Wu Jiangying, Wang Yongjin. Kong Xinggong. Evolution and abrupt changes of the Holocene Asian monsoon climate recorded by stalagmite in Baigu Cave in Guizhou. Marine Geology & Quaternary Geology, 2006, 26 (5):55~60
[37]
53 羊向东, 朱育新, 蒋雪中等. 沔阳地区一万多年来孢粉记录的环境演变. 湖泊科学, 1998, 10 (2):23~29 Yang Xiangdong, Zhu Yuxin, Jiang Xuezhong et al. Environmental changes from spore-pollen record of Mianyang region over the past 10000 years. Journal of Lake Sciences, 1998, 10 (2):23~29
[38]
1 史正涛, 明庆忠, 张虎才. 云南高原典型湖泊演化及环境变化初步考察. 地质力学学报, 2004, 10 (4):344~350 Shi Zhengtao, Ming Qingzhong, Zhang Hucai. Investigation of the evolution and environment change of typical lakes in Yunnan. Journal of Geomechanics, 2004, 10 (4):344~350
[39]
2 史正涛, 明庆忠, 张虎才. 云南高原典型湖泊现代过程及环境研究进展. 云南地理环境研究, 2005, 17 (1):24~26 Shi Zhengtao, Ming Qingzhong, Zhang Hucai. A study review on the modern processes and environmental evolution of the typical lakes in Yunnan. Yunnan Geographic Environment Research, 2005, 17 (1):24~26
[40]
3 郑茜, 张虎才, 明庆忠等. 泸沽湖记录的西南季风区15000a B.P.以来植被与气候变化. 第四纪研究, 2014, 34 (6):314~1326 Zheng Qian, Zhang Hucai, Ming Qingzhong et al. Vegetation and environmental changes since 15ka B.P.recorded by Lake Lugu in the southwest monsoon domain region. Quaternary Science, 2014, 34 (6):1314~1326
[41]
4 沈吉, 杨丽原, 羊向东等. 全新世以来云南洱海流域气候变化与人类活动的湖泊沉积记录. 中国科学(D辑), 2004, 34 (2):130~138 Shen Ji, Yang Liyuan, Yang Xiangdong et al. Lake sediment records on climate change and human activities since the Holocene in Erhai catchment, Yunnan Province, China. Science in China (Series D), 2005, 48 (2): 353~363
[42]
5 王苏民, 窦鸿身. 中国湖泊志. 北京: 科学出版社, 1998. 389~390 Wang Sumin, Dou Hongshen. Chinese Lakes. Beijing:Science Press, 1998. 389~390
8 王云飞, 朱育新, 潘红玺等. 云南腾冲青海-酸性湖泊的环境特征. 湖泊科学, 2002, 14 (2):117~124 Wang Yunfei, Zhu Yuxin, Pan Hongxi et al. Environmental characteristics of an acid Qinghai Lake in Tengchong, Yunnan Province. Journal of Lake Sciences, 2002, 14 (2):117~124
[45]
25 吴敬禄, 王苏民. 湖泊沉积物中有机质碳同位素特征及其古气候. 海洋地质与第四纪地质, 1996, 16 (2):103~109 Wu Jinglu, Wang Sumin. Climate versus changes in δ 13 C values of the organic matter in lake sediments. Marine Geology & Quaternary Geology, 1996, 16 (2):103~109
[46]
26 卢粤晗, 孙永革, 翁焕新. 湖泊沉积有机质的地球化学记录与古气候古环境重建. 地球化学, 2004, 33 (1):20~28 Lu Yuehan, Sun Yongge, Weng Huanxin. Lacustrine sediments as a record of changes of regional climate and environment. Geochimica, 2004, 33 (1):20~28
[47]
27 王小燕. 黄旗海湖积物中有机质及有机碳同位素古气候意义的研究. 西宁: 中国科学院青海盐湖研究所硕士学位论文, 2000. 32~36 Wang Xiaoyan. An Organic Carbon Isotopic Record from the Sediments of Lake Huangqihai, Inner Mongolia:Implications for Post Glacial Climatic Change. Xining:The Master Thesis of Qinghai Institute of Salt Lakes, Chinese Academy of Sciences, 2000. 32~36
[48]
28 张成君, 陈发虎, 尚华明等. 中国西北干旱区湖泊沉积物中有机质碳同位素组成的环境意义——以民勤盆地三角城古湖泊为例. 第四纪研究, 2004, 24 (1):88~94 Zhang Chengjun, Chen Fahu, Shang Huaming et al. The paleoenvironmental significance of inorganic carbon isotope in lacustrine sediments in the arid China: An example from Sanjiaocheng palaeolake in Minqin. Quaternary Sciences, 2004, 24 (1):88~94
[49]
29 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 Huang Qi, Meng Zhaoqiang, Liu Hailing. A preliminary study of the Qaidam Basin, Lake Charlekhan paleoclimate fluctuation patterns. Science in China (Series B), 1990, 6 :652~663
[50]
30 张平中, 王先彬, 陈践发等. 青藏高原若尔盖盆地RH孔沉积有机质的δ13 C和氢指数记录. 中国科学(B辑), 1995, 25 (6):631~638 Zhang Pingzhong, Wang Xianbin, Chen Jianfa et al. δ13C values and hydrogen index records in sediment organic matter of RH core of Zoigê Basin, eastern Qing-Zang (Tibet) Plateau and their environmental significance. Science in China (Series B), 1995, 25 (6): 631~638
[51]
31 郭金春, 马海州, 宋恩玉等. 湖泊碳酸盐在过去环境变化研究中的应用. 盐湖研究, 2008, 16 (2):66~72 Guo Jinchun, Ma Haizhou, Song Enyu et al. Applications of lacustrine carbonate in paleoenvironment research. Journal of Salt Lake Research, 2008, 16 (2):66~72
[52]
32 李明慧, 康世昌. 青藏高原湖泊沉积物对古气候环境变化的响应. 盐湖研究, 2007, 15 (1):63~72 Li Minghui, Kang Shichang. Responses of lake sediments to paleoenvironmental and paleoclimate changes in Tibetan Plateau. Journal of Salt Lake Research, 2007, 15 (1):63~72
43 杨建强, 崔之久, 易朝露等. 云南点苍山冰川湖泊沉积物磁化率的影响因素及其环境意义. 第四纪研究, 2004, 24 (5):591~597 Yang Jianqiang, Cui Zhijiu, Yi Zhaolu et al. The influencing factors and environmental significance of magnetic susceptibility in the glacio-lacustrinal sediments on the Diancang Mountains, Yunnan Province. Quaternary Sciences, 2004, 24 (5):591~597
