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1.
河西走廊花海古湖泊全新世白云石的发现及其环境意义 总被引:4,自引:3,他引:1
通过对河西走廊花海古湖泊沉积物的X衍射分析发现,全新世期间有明显的白云石沉积.岩性、沉积过程、石膏以及Fe3+含量的变化表明,花海湖全新世白云石沉积环境以还原环境为主,即还原环境利于白云石的形成,为白云石的成因研究提供了新的证据.白云石作为碳酸盐矿物,可以反映湖水盐度,但并非直接指示了湖水的咸化.随着湖水盐度的进一步增加,在硫酸盐型湖泊中,白云石含量随盐度的增加而相应减少,表明利用白云石分析湖水盐度时需要结合其他矿物进行分析.结合石膏含量的变化,花海湖全新世时期白云石含量的变化可以揭示该区域湖水盐度的变化.在10.478.87 cal ka B.P.早全新世时期,湖水的盐度较高,气候由干向湿转变;8.87 cal ka B.P.时期,有大量石膏沉积,显示了湖水盐度的进一步升高,气候干旱;随后湖水相对淡化,气候湿润;5.50 cal ka B.P.至今,沉积出现间断,气候逐渐干旱. 相似文献
2.
湖相介形类壳体地球化学在环境变化研究中的应用与进展 总被引:9,自引:0,他引:9
双壳微体甲壳类动物介形虫,广泛分布于各类湖泊体系中,其碳酸盐壳化石通常在湖泊沉积物中保存完好,介形类的古生态学,尤其是介壳的地球化学在环境变化研究中,近年来得到越来越广泛的应用,介壳的氧同位素组成四形成壳体时湖水的同位素组成和温度决定,可以反映由蒸发和降水的变化所引起的湖水水化学以及与之关联的气候变化情况,一般而言,低δ^18O反映了温度潮湿的气候;高δ^18反映了寒冷干燥的气候,碳同位素可以反映总溶解无机碳的组成以及影响其组成的诸因素的变化,多数情况下可以反映湖泊古生产力的大小及变化,介壳中Mg和Sr的含量,往往与其宿生水体的盐度和温度呈一定的函数关系,据此可以恢复湖泊的温度,尤其是盐度的变化,为了满足高分辨率环境变化,特别是定量研究的要求,必须充分了解介形类各个种属的生命历史和生态消长的过程;通过定期收集野外介壳和水样进行化学分析了,了解湖水水化学和温度对介壳稳定同位素和微量元素组成的影响;详细了解湖泊湖沼学,包括湖水的同位素组成和M/Ca(M指微量元素Mg、Sr等)与盐度的关系以及它们随空间和季度变化的特征;开展实验室养殖培养实验,测定单个种属介壳与水体的氧同位素分馏系数,建立微量元素吸收的生理效应。 相似文献
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内蒙古岱海古水温定量恢复及其古气候意义 总被引:13,自引:4,他引:13
通过分析岱海岩芯沉积中介形类壳体(Limnocythere of.inopinata)的Sr/Ca比值,结合现代活体介形类生态特征研究,获取了湖水的定量古盐度.另外,在实验室内开展湖水蒸发模拟试验,建立了湖水盐度与氧同位素之间的定量函数关系,获取了古湖水的氧同位素.最后,根据岩芯沉积中自生碳酸盐矿物的氧同位素分析值,结合古湖水的氧同位素组成,定量恢复了岱海古湖水温度,并探讨了其古气候意义. 相似文献
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菲律宾海西部新生代介形虫演化事件及其古海洋学意义 总被引:2,自引:1,他引:1
菲律宾海西部DSDP2 92孔深海介形虫在渐新世以高值的丰度、分异度和新生率为特征 ,是适宜于深海介形虫生存的时期 ;而晚第三纪时期丰度和分异度显著下降 ,加上多次出现的灭绝 ,表明底层水环境的恶化 .根据丰度、分异度、演化活动 (新生和灭绝 )识别出介形虫动物群的 5个主要变化事件 ,分别发生在渐新世早期(P1 8)、渐新世中期 (P2 1 )、中新世最早期 (N4)、中中新世早期 (N8)和上新世晚期(N2 1 ) ,记录了新生代西太平洋和菲律宾海底层水逐步变冷的历史 . 相似文献
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孢粉-气候对应分析重建上海西部地区8.5 ka B.P.以来的气候 总被引:11,自引:0,他引:11
利用现代和化石孢粉资料,借助于对应分析方法,进行了古气候定量重建尝试,取自中国东部区域的表土层孢粉数据被用来建立孢粉-气候转换函数,对取自上清青浦县赵巷有^14C测年的钻孔孢粉数据进行转换,重建了上海地区8.5kaB.P.以来年年温度和降雨量系列,结果表明:约8.5kaB.P.以来,本区温度和降雨量持续升高,约8.2-6.0kaB.P.期间为全新世气候适宜期,年均温和降水量值平均高于现今值0.9℃和160mm,约8.0kaB.P.达到最高值(湿度和降雨量为18.5℃和1575mm);但气候波动剧烈;约6.0-4.0kaB.P.期间为温凉干燥期,气候波动平缓,年均温度和降雨量平衡低于现今值,最低值为13.5℃和827mm(4.1kaB.P.);约4.0-2.0kaB.P.,期间温度和降水回升,但暖湿程度远不及全新世大暖期。2.0kaB.P.以来温度和降雨又呈下降趋势。8.0kaB.P.、7.6kaB.P.和27kaB.P.前后的出现高温高湿峰值,7.5kaB.P.、7.3kaB.P.和4.0kaB.P.前后出现低温低湿谷值。气候变化对本区古文化的发展可能有重要影响。 相似文献
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藏南沉错钻孔硅藻组合与湖水古盐度定量恢复 总被引:18,自引:1,他引:18
通过藏南沉错钻孔化石硅藻组合研究, 应用青藏高原硅藻-湖水电导率转换函数, 对沉错最近300年来湖泊古盐度进行了定量恢复. 推导的电导率变化与近代湖泊水位变化记录有明显的负相关关系, 表明沉错湖水盐度可以反映大气有效湿度的变化. 古盐度的重建揭示了几次重要水文事件: 小冰期最后一次冷期(约1845~1885AD), 湖水明显淡化, 反映了冷湿气候组合特点; 20世纪60年代以来, 湖水盐度呈急剧增高趋势, 也是近300年来盐度最高、增加幅度最大时期, 湖水的咸化反映的有效湿度降低与近几十年来温度的不断上升而导致的蒸发量的增加有关. 相似文献
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藏西北结则茶卡湖面到高位湖岸线间湖泊记录发育,沿岸湖积物中3个U系年龄分别为14.2±1.2kaBP、38.0±3.5 kaBP和41.6±3.2 kaBP,6个浅井沉积物中CaO、MgO、NaCl、LiCl、B2O3的含量与沉积物形成时代和环境有一定的关联性.在中更新末期,该湖可能处于高湖位期,随着晚更新世初期以来气候变干,湖面开始下降,湖泊逐渐萎缩,湖水盐度逐渐增加,Ca和Mg含量变高,但在30kaBP左右,气候有过短暂湿润期,湖水出现返淡趋势,之后湖水进一步浓缩,湖水中Na、B、Li含量显著增高,盐湖大约在15kaBP左右形成. 相似文献
8.
以云南鹤庆盆地HQ孔上部15~55 m沉积物中2个不同种属的介形类壳体为研究对象, 通过比较壳体中Sr/Ca, Mg/Ca之间及其与沉积物Sr含量的关系, 得出以下结论: (1) 壳体Sr/Ca, Mg/Ca首先反映的是该介形类生存的微生态环境; (2) 壳体Sr/Ca较Mg/Ca更好地线性响应水环境的变化, 但当体系中有文石结晶沉降时Sr/Ca不再线性响应湖泊水体盐度的变化; (3) 壳体的Sr/Ca完全受控于湖水盐度及水体中自生碳酸盐矿物的结晶过程, 而壳体中的Mg/Ca则受湖水盐度和温度控制, 实际上温度只是壳体生长速率对壳体Mg/Ca控制的外在表现. 建议在以后的古环境重建及室内培养实验时, 更多地关注沉积物组成及其自生矿物结晶对生物壳体微量元素(如Mg/Ca, Sr/Ca)组成的制约. 相似文献
9.
呼伦湖晚第四纪湖相地层沉积学及湖面波动历史 总被引:2,自引:1,他引:2
对内蒙古呼伦湖盆地扎赉诺尔地区晚第四纪湖泊沉积物进行了沉积学(沉积构造、结构、垂向层序等)和~(14)C年代地层学研究,并逐层识别出地层剖面的各种沉积相类型,包括开阔湖、近岸带、滨岸沙滩、滨岸沼泽和滨岸沙丘等不同类型沉积,依此恢复了30kaB.P.以来的湖泊演化和湖面波动历史。其中13~11kaB.P.是湖面最高时期,10.9~0.6kaB.P.的低湖面可能与新仙女木事件有关。 相似文献
10.
在湖北崇阳二叠系-三叠系界线附近地层中共获得400余个介形虫实体标本,归属4科10属30种.其中在二叠纪末生物大灭绝界线之下长兴组灰岩中发现6属20种,大灭绝界线之上微生物岩中发现7属11种.崇阳微生物岩中的介形虫化石与前人在广西和重庆地区微生物岩中发现的介形虫不但在属种类型上存在差别,而且可作为海水含氧量指标的滤食性分子所占的比例也明显不同,反映出华南地区二叠纪末生物大灭绝后古海洋环境的多样性.在纵向地层序列上,崇阳剖面介形虫化石的分布具有明显的阶段性.在大灭绝界线之下200cm处部分介形虫已开始消失,界线附近再次遭受灭绝,在灭绝界线之上微生物岩的顶部部分属种再度消失.崇阳剖面介形虫的这种分阶段、多幕式演化规律表明,在二叠纪-三叠纪之交这一全球重大地质转折期,作为大灭绝后仅存的几类多细胞生物的介形虫所遭受的损失是个逐渐变化的过程.碳同位素测试分析也显示,古海洋环境的变化早在大灭绝界线之下200cm处就已开始.碳同位素曲线的波动与介形虫属种类型的变化和消失相关,但与介形虫化石的丰度变化没有必然联系. 相似文献
11.
西藏扎布耶湖ZK91-2钻孔沉积特征与气候环境演化 总被引:6,自引:0,他引:6
扎布耶盐湖位于西藏高原腹地,1991年在其南部干盐滩中钻取了20M深湖相沉积,以5~10CM/个的密度进行高分辨率取样,详细探讨了沉积标志,矿物组合(尤其Mg,Ca,Li碳酸盐)、干旱与潮湿两种气候类型的元素组合等气候环境指标,推导了晚更新世以来该湖区湖面涨缩,水质咸淡及气温高低变化。 相似文献
12.
Diatom assemblages and quantitative reconstruction for paleosalinity from a sediment core of Chencuo Lake,southern Tibet 总被引:3,自引:0,他引:3
Changing salinity in lakes and especially in closed lakes depends mainly on the balance between precipitation, runoff and evaporation in arid and semi-arid areas, hence influencing lake levels di-rectly[1-4]. Past salinity has been recovered by a vari-ety of environmental indicators from lake sediments such as diatoms, chironomids, ostracoda, isotopes of ostracoda shells, geochemistry, and isotopes of authi-cabonates[3,5—10]. Recently, with extensive data-base study on diatom-salinity transfe… 相似文献
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艾比湖水化学演化的初步研究 总被引:10,自引:0,他引:10
本文通过野外地质调查和大量样品的分析测试结果,从以下三个方面对艾比湖湖水的水化学特征进行论述:(1)湖水的矿化度和pH;(2)湖水的化学组成;(3)湖水化学组分的侧向分布。初步揭示了湖水水化学变化和主要化学元素迁移和富集的规律。艾比湖沉积物中碳酸盐矿物组成及其地球化学性质反映湖水化学组成的变动。这种变动明显受气候环境变化的影响。因此,CK4孔和湖底沉积物中的碳酸盐沉积,提供了许多信息作为湖水化学演化和古气候波动的标志,根据其碳酸盐含量、方解石含量、方解石格架中MgCO_3mol.%、Sr含量和Sr×1000/Ca比值,最后结合碳酸盐的沉积特征、地球化学演化和古沙嘴的演变,进一步阐明了湖水化学演化的趋势。 相似文献
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古昆仑湖地区183-90kaBP间的微体古生物与环境变迁 总被引:1,自引:0,他引:1
古昆仑湖位于昆仑山垭口昆仑河谷地,大约在200kaBP前已开始沉积,沉积物为一套灰、灰绿、土黄色粉砂质、砂质粘土,厚约7m.在纳赤台西北剖面5.6-2.4m层段产较多微体化石,介形类有8属12种:Ilyocypris biplicata(Koch),I.bradyi Sars,Eucypris crassa(Mller),E.elliptica(Baird),E.rischtanica Schneider,Candona candida(Mller),Stenocypriscf.major(Baird),Cypridopsis obesa Brady Robertson,Prionocypris gansenensis Huang,Potamocypris villosa(Jurine),P.cf.wolfi Brehm和Limnocythere dubiosa Daday等.轮藻类有Chara aliensis Z.Wang,Chara gansenensis S.Wang和Charasp.根据U系法测年,含化石地层的年龄大约为168-90kaBP,属于倒数第二次冰期至末次间冰期早期.按生物组合和沉积物特征分析,古昆仑湖区在183-90kaBP的环境气候变化大致有两个大的期次、6个小期次:(1)183-130kaBP冷湿期,湖区环境较冷湿,湖泊水质较淡,水温不高.早期(约183-170kaBP),湖面较宽,水体较深,环境动荡,化石贫乏;中期(约170-151.3kaBP),湖面有一定收缩,水质含盐度有所提升,水温仍不高,湖区环境湿度较大;晚期(约151.3-130kaBP),化石贫乏,生态环境、水质条件可能与早期类同.(2)130-90kaBP凉湿期,湖内生态环境较好,生物门类中除介形类外,出现沉水性植物轮藻类,且介形类生物量较前期有很大增加,属种分异度较好.早期(约130-105kaBP),偏冷湿;中期(约105-98kaBP),凉湿,为生物大发展大繁盛时期;晚期(约98-90kaBP),偏凉湿,在98-93kaBP,环境不宜生物生息,化石贫乏;约93-90kaBP,生态环境有所改善,有介形类3属5种,但生物量较小. 相似文献
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Palynological evidence for vegetational and climatic changes from the HQ deep drilling core in Yunnan Province, China 总被引:6,自引:0,他引:6
The high-resolution pollen study of a 737.72-m-long lake sediment core in the Heqing Basin of Yunnan Province shows that the vegetation and climate of mountains around the Heqing Basin went through six obvious changes since 2.780 Ma B.P. Namely, Pinus forest occupied most mountains around the studied area and the structure of vertical vegetational belt was simple between 2.780 and 2.729 Ma B.P., reflecting a relatively warm and dry climate. During 2.729―2.608 Ma B.P., the areas of cold-temperate conifer forest (CTCF) and Tsuga forest increased and the structure of vertical vegetational belt became clear. According to percentages of tropical and subtropical elements growing in low-altitude regions rifely increased, we speculate that the increase of CTCF and Tsuga forest areas mainly resulted from strong uplift of mountains which provided upward expanding space and growing condition for these plants. Thus, the climate of the low-altitude regions around the basin was relatively warm and humid. Between 2.608 and 1.553 Ma B.P., Pinus forest occupied most mountains around the studied area and forest line of CTCF rose, which reflects a moderately warm-dry climate on the whole. During 1.553―0.876 Ma B.P., the structure of vertical vegetational belt in mountains around the studied area became complicated and the amplitude of vegetational belts shifting up and down enlarged, which implies that the amplitude of climatic change increased, the climatic associational feature was more complex and the climate was moderately cold at a majority of the stage. During 0.876―0.252 Ma B.P., there were all vertical vegetational belts existing at present in mountains around the studied area. The elements of each belt were more abundant and complex than earlier. At different periods in the stage vertical vegetational belts occurred as expanding or shrinking, and alternated each other. The amplitude of vegetational belts shifting up and down was the maximum in the whole section. This change suggests that the amplitude of climatic change was evidently larger than earlier, but the frequency reduced and the climatic associational feature was more complex. From 0.252 Ma B.P. to the present, the most time was characteristic of the expanding of Pinus forest and semi-humid evergreen broad-leaved forest (SEBF) in mountains around the studied area, while expanding time of other vegetational belts was very short, which reflects a smaller amplitude of cold and warm fluctuation. On the basis of the six obvious cycles of vegetational and climatic changes, there were still many times of secondary vegetational successions and climatic oscillations. Based on the above analysis, the forcing mechanism of vegeta-tional succession and climatic change in the Heqing Basin is further discussed. It is primarily consid-ered that main influential factors were exterior factors such as orbital parameters, etc., but the uplift of the Qinghai-Tibet Plateau played a very important function for environmental changes in the Heqing Basin at two times obvious increase of vertical vegetational belts and three climatic transitions. 相似文献
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Two sediment cores, one 396 cm long from west Taihu Lake, another 246 cm long from east Taihu Lake, are interpreted from the analysis of their magnetic susceptibility, total organic carbon, total nitrogen, total pigments, organic carbon isotope, hydrogen index, saturated hydrocarbons, 14C dating and surficial sediment conditions. The west Taihu Lake core is the longest one studied in this lake so far, and has provided us the most complete environmental and climatic information for this lake. The results from the west Taihu lake core indicate that Taihu Lake has undergone the following stages:from ca.14 300 to 13 300 aB.P. Taihu Lake was in low lake-level, and there existed exposed features from the proxies reflecting arid paleoclimate. From ca.13 300 to 12 400 aB.P. an arid transitional stages occurred with a slightly warmer and wetter climate. From ca. 12 400 to 10 900 aB.P. a period of large climatic fluctuation occurred and from 10900-10 000 aB.P. a warm period developed with deep water and strongly reducing sediments. During ca.10 000-7 200aB.P., a cool transitional period alternating with a warm climate occurred. It was warm and wet during 7 200-5 700aB.P.; some proxies changed violently in 5 050aB.P., reflecting obvious changes in material source and a probable interruption of sedimentation. The east Taihu Lake history from ca. 6 550 to 6 450 aBP, the climate was cold and dry, and gradually turned warm and wet in ca. 6 450-6 050 aBP. It was warm and wet in ca. 6 050-5 800 aBP and had a cold tendency in 5 800-ca. 5 000 aBP. An abrupt change occurred at ca. 5 000 aBP, and the lake sediment in the uppmost part was disturbed by wave action indicating shallow water conditions. 相似文献