松辽盆地姚家车站剖面嫩江组一段下部湖相有机质组成及其沉积环境特征
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摘要
姚家车站剖面位于松辽盆地东南部,是研究嫩江组一段烃源岩发育时湖泊沉积环境的一个典型露头剖面。通过测定和分析总有机碳(TOC)含量及其稳定碳同位素组成(δ~(13)C_(org))、特征分子标志物(Pr/Ph、伽玛蜡烷、C30甾烷、芳基类异戊二烯、脱羟基维生素E和GDGTs)的剖面变化,讨论了嫩江组一段下部湖泊有机质组成及沉积环境特征。根据剖面各参数的变化特征,可将其沉积划分为2个阶段。剖面TOC含量为0.06%~3.98%,具有阶段Ⅰ高,阶段Ⅱ低的特征,主要受初级生产力水平和保存条件的控制。δ~(13)C_(org)值揭示出沉积有机质主要来源于湖泊内源。特征生物标志物的剖面变化表明:嫩江组一段沉积期湖泊水体分层,下部水体缺氧,且阶段Ⅰ和阶段Ⅱ的上部湖泊水体缺氧已上升至透光带;湖泊下层水体盐度相对较高,存在短期快速变化。24-正丙基胆甾烷和24-异丙基胆甾烷含量的剖面变化揭示出嫩江组一段时期松辽古湖盆发生了海侵,但海侵是间歇性的,而不是持续的。分析认为:松辽海侵的发生与高盐、缺氧、分层的水体环境及油页岩的形成密切相关。尝试利用TEX_(86)指标定量重建了嫩江组一段下部古湖泊水体温度,结果表明松辽盆地在白垩纪基本处在亚热带气候区。
The Yaojia Station section, on the southeastern side of the Songliao Basin, is a typical outcrop to investigate the paleoenvironment of Member 1 of the Cretaceous Nenjiang Formation. Here, we present the total organic carbon(TOC), δ~(13) C_(org), and biomarker data from the 31 outcrop samples collected from this section. According to the variation in these parameters, the whole profile can be divided into two depositional stages. The TOC content is higher during stage I and lower during stage II. These results indicate that the primary productivity and sedimentary environment mainly controlled the enrichment of the deposited organic matter(OM) in the paleo-lake.The depleted δ~(13) C_(org) in the whole profile indicates that the OM was mainly derived from lake algae and aquatic macrophytes. The Pr/Ph ratios, as well as the occurrence of aryl-isoprenoids, gammacerance, and methytrimethyltridecyl chromans indices, indicate that the water column was stratified and the bottom water column was anaerobic with high salinity in the Songliao Basin. Marine transgression, indicated by the presence of24-n-propyl-cholestanes and 24-iso-propyl-cholestanes, occurred during deposition of the lower Member 1 of the Nenjiang Formation. The seawater incursions caused a stratified water column with high salinity and anoxicity,favoring the formation of the OM-rich source rocks in this basin. The paleo-lake water temperatures were reconstructed based on the TEX_(86) index. The estimated temperatures suggest that a subtropical climate prevailed during the deposition of Member 1 of the Nenjiang Formation.
The Yaojia Station section, on the southeastern side of the Songliao Basin, is a typical outcrop to investigate the paleoenvironment of Member 1 of the Cretaceous Nenjiang Formation. Here, we present the total organic carbon(TOC), δ~(13) C_(org), and biomarker data from the 31 outcrop samples collected from this section. According to the variation in these parameters, the whole profile can be divided into two depositional stages. The TOC content is higher during stage I and lower during stage II. These results indicate that the primary productivity and sedimentary environment mainly controlled the enrichment of the deposited organic matter(OM) in the paleo-lake.The depleted δ~(13) C_(org) in the whole profile indicates that the OM was mainly derived from lake algae and aquatic macrophytes. The Pr/Ph ratios, as well as the occurrence of aryl-isoprenoids, gammacerance, and methytrimethyltridecyl chromans indices, indicate that the water column was stratified and the bottom water column was anaerobic with high salinity in the Songliao Basin. Marine transgression, indicated by the presence of24-n-propyl-cholestanes and 24-iso-propyl-cholestanes, occurred during deposition of the lower Member 1 of the Nenjiang Formation. The seawater incursions caused a stratified water column with high salinity and anoxicity,favoring the formation of the OM-rich source rocks in this basin. The paleo-lake water temperatures were reconstructed based on the TEX_(86) index. The estimated temperatures suggest that a subtropical climate prevailed during the deposition of Member 1 of the Nenjiang Formation.
引文
[1]Wang C S,Feng Z Q,Zhang L M,Huang Y J,Cao K,Wang PJ,Zhao B.Cretaceous paleogeography and paleoclimate and the setting of SKI borehole sites in Songliao Basin,northeast China[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,385:17-30.
[2]侯读杰,冯子辉,黄清华.松辽盆地白垩纪缺氧地质事件的地质地球化学特征[J].现代地质,2003,17(3):311-317.Hou Du-jie,Feng Zi-hui,Huang Qing-hua.Geological and geochemical evidences of anoxic event in the Songliao Basin,China[J].Geoscience,2003,17(3):311-317(in Chinese with English abstract).
[3]冯子辉,霍秋立,王雪,方伟,宋之光.松辽盆地松科1井晚白垩世沉积地层有机地球化学研究[J].地学前缘,2009,16(5):181-191.Feng Zi-hui,Huo Li-qiu,Wang Xue,Fang Wei,Song Zhi-guang.Geochemical research on the Late Cretaceous strata of Well SK1 in Songliao Basin[J].Earth Sci Front,2009,16(5):181-191(in Chinese with English abstract).
[4]Bechtel A,Jia J L,Strobl S A I,Sachsenhofer R F,Liu Z J,Gratzer R,Püttmann W.Palaeoenvironmental conditions during deposition of the Upper Cretaceous oil shale sequences in the Songliao Basin(NE China):Implications from geochemical analysis[J].Org Geochem,2012,46:76-95.
[5]刘美羽,胡建芳,万晓樵.松辽盆地嫩江组下部水体分层的有机地球化学证据[J].湖泊科学,2015,27(1):190-194.Liu Mei-yu,Hu Jian-fang,Wan Xiao-qiao.The organic geochemical evidences for the lake water stratification in Lower Nenjiang Formation,Songliao Basin[J].J Lake Sci,2015,27(1):190-194(in Chinese with English abstract).
[6]Song Z G,Qin Y,George S C,Wang L,Guo J T,Feng Z H.Abiomarker study of depositional paleoenvironments and source inputs for the massive formation of Upper Cretaceous lacustrine source rocks in the Songliao Basin,China[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,385:137-151.
[7]Wang L,Song Z G,Cao X X,Li Y.Compound specific carbon isotope study on the hydrocarbon biomarkers in lacustrine source rocks from Songliao Basin[J].Org Geochem,2015,87:68-77.
[8]Xi D P,Wan X Q,Jansa L,Zhang Y Y.Late Cretaceous paleoenvironment and lake level fluctuation in the Songliao Basin,northeastern China[J].Island Arc,2011,20:6-22.
[9]Wang L,Song Z G,Yin Q,George S C.Paleosalinity significance of occurrence and distribution of methyltrimethyltridecyl chromans in the Upper Cretaceous Nenjiang Formation,Songliao Basin,China[J].Org Geochem,2011,42(11):1411-1419.
[10]Xi D P,Cao W X,Huang Q H,Do Carmo D A,Li S,Jing X,Tu Y J,Jia J Z,Qu H Y,Zhao J,Wan X Q.Late Cretaceous marine fossils and seawater incursion events in the Songliao Basin,NE China[J].Cretaceous Research,2016,62:172-182.
[11]Hu J F,Peng P A,Liu M Y,Xi D P,Song J Z,Wan X Q,Wang C S.Seawater incursion events in a Cretaceous paleo-lake revealed by specific marine biological markers[J].Sci Rep,2015,5:9508.DOI:10.1038/srep09508
[12]Cao H S,Kaufman A J,Shan X L,Cui H,Zhang G J.Sulfur isotope constraints on marine transgression in the lacustrine Upper Cretaceous Songliao Basin,northeastern China[J].Palaeogeogr Palaeoclimatol Palaeoecol,2016,451:152-163.
[13]曹文心,席党鹏,黄清华,程祎,屈海英,高莲凤,万晓樵.松辽盆地海侵事件--松科1井钙质超微化石新证据[J].地质通报,2016,35(6):866-871.Cao Wen-xin,Xi Dang-peng,Huang Qing-hua,Cheng Yi,Qu Hai-ying,Gao Lian-feng,Wan Xiao-qiao.Seawater incursion event in Songliao Basin:New evidence from calcareous nannofossils of SK-1[J].Geol Bull China,2016,35(6):866-871.
[14]Jia J L,Bechtel A,Liu Z J,Strobl S A I,Sun P C,Sachsenhofer R F.Oil shale formation in the Upper Cretaceous Nenjiang Formation of the Songliao Basin(NE China):Implications from organic and inorganic geochemical analyses[J].Int JCoal Geol,2013,113:11-26.
[15]Pedersen T F,Calvert S E.Anoxia vs.productivity:What controls the formation of organic-carbon-rich sediments and sedimentary rocks?[J].AAPG Bulletin,1990,74(4):454-466.
[16]Chamberlain C P,Wan X Q,Graham S A,Carroll A R,Doebbert A C,Sagema,B B,Blisniuk P,Kent-Corson M L,Zhou W,Wang C S.Stable isotopic evidence for climate and basin evolution of the Late Cretaceous Songliao basin,China[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,385:106-124.
[17]Wang C S,Scott R W,Wan X Q,Graham S A,Huang Y J,Wang P J,Wu H C,Dean Walter E,Zhang L M.Late Cretaceous climate changes recorded in Eastern Asian lacustrine deposits and North American Epieric sea strata[J].Earth Sci Rev,2013,126:275-299.
[18]Schouten S,Hopmans E C,Sinninghe DamstéJ S.The organic geochemistry of glycerol dialkyl glycerol tetraether lipids:A review[J].Org Geochem,2013,54:19-61.
[19]Powers L,Werne J P,Vanderwoude A J,Sinninghe DamstéJ S,Hopmans E C,Schouten S.Applicability and calibration of the TEX86 paleothermometer in lakes[J].Org Geochem,2010,41(4):404-413.
[20]Schouten S,Hopmans E C,Sinninghe DamstéJ S.The effect of maturity and depositional redox conditions on archaeal tetraether lipid palaeothermometry[J].Org Geochem,2004,35(5):567-571.
[21]席党鹏,李罡,万晓樵,荆夏,李顺.松辽盆地东南区姚家组-嫩江组一段地层特征与湖泊演变[J].古生物学报,2009,48(3):556-568.Xi Dang-peng,Li Gang,Wan xiao-qiao,Jing Xia,Li Shun.Yaojia-lower Nenjiang Formations and lake evolution of southern Songliao Basin,NE China[J].Acta Palaeontol Sinica,48(3):556-568(in Chinese with English abstract).
[22]俞志强.松辽盆地白垩系营城组-嫩江组离子探针锆石U-Pb定年[D].中国地质大学(北京),2017.Yu Zhi-qing.Zircon U-Pb chronology of Cretaceous Yingcheng Formation and Nenjiang Formation in the Songliao Basin[D].China University of Geosciences(Beijing),2017(in Chinese with English abstract).
[23]童晓宁,胡建芳,祝孟博,彭平安,席党鹏,宋建中.分子标志物揭示的松辽盆地晚三冬期气候环境[J].地学前缘,2017,24(1):154-165.Tong Xiao-ning,Hu Jian-fang,Zhu Meng-bo,Peng Ping-an,Xi Dang-peng,Song Jian-zhong.Late Santonian paleoenvironment reconstruction based on molecular markers in Songliao Basin,Northeast China[J].Earth Sci Front,2017,24(1):154-165.
[24]侯启军,冯志强,冯子辉.松辽盆地陆相石油地质学[M].石油工业出版社,2009:1-654.Hou Qi-jun,Feng Zhi-qiang,Feng Zi-Hui.Continental Petroleum Geology of Songliao Basin[M].Beijing:Petroleum Industry Press,2009:1-654(in Chinese).
[25]Lafargue E,Marquis F,Pillot D.Rock-Eval 6 applications in hydrocarbon exploration,production,and soil contamination studies[J].Oil Gas Sci Technol Rev IFP,1998,53(4):421-437.
[26]Feng Z Q,Jia C Z,Xie X N,Zhang S,Feng Z H,Cross T A.Tectonostratigraphic units and stratigraphic sequences of the nonmarine Songliao basin,northeast China[J].Basin Res,2010,22(1):79-95.
[27]Peters K E,Walters C C,Moldowan J M.The Biomarker Guide.Biomarkers and Isotopes in Petroleum Exploration and Earth History(Vol.2)[M].New York:Cambridge University Press,2005:1-500.
[28]Goossens H,Leeuw J W D,Schenck P A,Brassell S C.Tocopherols as likely precursors of pristane in ancient sediments and crude oils[J].Nature,1984,312(5993):440-442.
[29]Ten Haven H L,Leeuw J W D,Rullk?tter J,Sinninghe DamatéJ S.Restricted utility of the pristane/phytane ratio as a palaeoenvironmental indicator[J].Nature,1987,330(6149):641-643.
[30]Summons R E,Powell T G.Identification of aryl isoprenoids in source rocks and crude oils:Biological markers for the green sulphur bacteria[J].Geochim Cosmochim Acta,1987,51:557-566.
[31]Sinninghe DamstéJ S,Van Duin A C T,Hollander D,Kohnen M E L,Leeuw J W D.Early diagenesis of bacteriohopanepolyol derivatives:Formation of fossil homohopanoids[J].Geochim Cosmochim Acta,1995,59(24):5141-5157.
[32]Sinninghe DamstéJ S,Keely B J,Betts S E,Baas M,Maxwell J R,de Leeuw J W.Variations in abundances and distributions of isoprenoid chromans and long-chain alkylbenzenes in sediments of the Mulhouse Basin:a molecular sedimentary record of palaeosalinity[J].Org Geochem,1993,20:1201-1215.
[33]Schwark L,Vliex M,Schaeffer P.Geochemical characterization of Malm Zeta laminated carbonates from the Franconian Alb,SW-Germany(II)[J].Org Geochem,1998,29(8):1921-1952.
[34]侯读杰,黄清华,黄福堂,孔庆云.松辽盆地海侵地层的分子地球化学特征[J].石油学报,1999,20(2):30-34.Hou Du-jie,Huang Qing-hua,Huang Fu-tang,Kong Qing-yun.The characteristics of molecular geochemistry of marine transgression start in Songliao Basin[J].Acta Pet Sinica,1999,20(2):30-34.
[35]Powers L A,Werne Josef P,Johnson Thomas C,Hopmans E C,Sinninghe DamstéJ S,Schouten S.Crenarchaeotal membrane lipids in lake sediments:A new paleotemperature proxy for continental paleoclimate reconstruction?[J].Geology,2004,32(7):613-616.
[36]Blaga C I,Reichart G J,Heiri O,Sinninghe DamstéJ S.Tetraether membrane lipid distributions in water-column particulate matter and sediments:A study of 47 European lakes along a north-south transect[J].J Paleolimnol,2009,41(3):523-540.
[37]Powers L,Werne J P,Vanderwoude A J,Sinninghe DamstéJ S,Hopmans E C,Schouten S.Applicability and calibration of the TEX86 paleothermometer in lakes[J].Org Geochem,2010,41(4):404-413.
[38]Pearson E J,Juggins S,Talbot H M,Weckstr?m J,Rosén P,Ryves D B,Roberts S J,Schmidt R.A lacustrine GDGT-temperature calibration from the Scandinavian Arctic to Antarctic:Renewed potential for the application of GDGT-paleothermometry in lakes[J].Geochim Cosmochim Acta,2011,75(20):6225-6238.
[39]Brochier A C,Boussau B,Gribaldo S,Forterre P.Mesophilic crenarchaeota:Proposal for a third archaeal phylum,the Thaumarchaeota[J].Nat Rev Micro,2008,6(3):245-252.
[40]Schouten S,Hopmans E C,Schefu?E,DamstéJ S S.Distributional variations in marine crenarchaeotal membrane lipids:a new tool for reconstructing ancient sea water temperatures?[J].Earth Planet Sci Lett,2002,204(1/2):265-274.
[41]Zhang Y G,Pagani M,Wang Z.Ring Index:A new strategy to evaluate the integrity of TEX86 paleothermometry[J].Paleoceanography,2015,31(2):220-232.
[42]Tierney J E,Russell J M,Eggermont H,Hopmans E C,Verschuren D,Sinninghe DamstéJ S.Environmental controls on branched tetraether lipid distributions in tropical East African lake sediments[J].Geochim Cosmochim Acta,2010,74(17):4902-4918.
[43]申家年,王庆红,何江林,卢双舫.松辽盆地白垩纪湖泊水体温度与古气候温度估算[J].吉林大学学报(地球科学版),2008,38(6):946-952.Shen Jia-nian,Wang Qing-hong,He Jiang-lin,Lu Shuangfang.Estimation of the ancient lake temperature and paleoclimate of the Cretaceous Period in the Songliao Basin[J].J Jilin Univ(Earth Sci Ed),2008,38(6):946-952(in Chinese with English abstract).
[44]Moldowan J M,Fago F J,Lee C Y,Jacobson S R,Watt D S,Slougui N E,Jeganathan A,Young D C.Sedimentary 24-npropylcholestanes,molecular fossils diagnostic of marine algae[J].Science,1990,247(4940):309-312.
[45]Love G D,Grosjean E,Stalvies C,Fike D A,Grotzinger J P,Bradley A S,Kelly A E,Bhatia M,Meredith W,Snape C E.Fossil steroids record the appearance of demospongiae during the Cryogenian period[J].Nature,2009,457(7230):718-722.
[46]Tyson R V.The“productivity versus preservation”controversy:Cause,flaws,and resolution[M]//Harris N.The Deposition of Organic-Carbon-Rich Sediments:Models,Mechanisms,and Consequences.SEPM Special Publication,No.82.2005:17-33.
[47]Wan X Q,Zhao J,Scott Robert W,Wang P J,Feng Z H,Huang Q H,Xi D P.Late Cretaceous stratigraphy,Songliao Basin,NE China:SK1 cores[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,385:31-43.
[48]Uramoto G I,Tomotaka F,Akinori T,Hirano H.Cenomanian(Upper Cretaceous)carbon isotope stratigraphy of terrestrial organic matter for the Yezo Group,Hokkaido,Japan[J].Island Arc,2007,16(3):465-478.
[49]Uramoto G I,Tahara R,Sekiya T,Hirano H.Carbon isotope stratigraphy of terrestrial organic matter for the Turonian(Upper Cretaceous)in northern Japan:Implications for ocean-atmosphere,13C trends during the mid-Cretaceous climatic optimum[J].Geosphere,2013,9(2):355-366.
[50]Ando A,Kakegawa T,Takashima R,Saito T.Stratigraphic carbon isotope fluctuations of detrital woody materials during the Aptian Stage in Hokkaido,Japan:Comprehensiveδ13Cdata from four sections of the Ashibetsu area[J].J Asian Earth Sci,2003,21(8):835-847.
[51]Yazykova E,Zonova T.Upper Cretaceous stable carbon isotope stratigraphy of terrestrial organic matter from Sakhalin,Russian Far East:a proxy for the isotopic composition of paleoatmospheric CO2,by T.Hasegawa et al.-Discussion[J].Palaeogeogr Palaeoclimatol Palaeoecol,2004,215(1/2):173-177.
[52]Hong S K,Yong I L.Contributions of soot toδ13C of organic matter in Cretaceous lacustrine deposits,Gyeongsang Basin,Korea:Implication for paleoenvironmental reconstructions[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,371:54-61.
[53]Schnyder J,Dejax J,Keppens E,Nguyen T T T,Spagna P,Boulila S,Galbrun B,Riboulleau A,Tshibangu J P,Yans J.An Early Cretaceous lacustrine record:Organic matter and organic carbon isotopes at Bernissart(Mons Basin,Belgium)[J].Palaeogeogr Palaeoclimatol Palaeoecol,2009,281(1/2):79-91.
[54]Sinninghe DamstéJ S,Bentum E C V,Reichart G J,Pross J?rg,Schouten S.A CO2 decrease-driven cooling and increased latitudinal temperature gradient during the mid-Cretaceous Oceanic Anoxic Event 2[J].Earth Planet Sci Lett,2010,293(1/2):97-103.
[55]Hu G,Hu W,Cao J,Yao S P,Liu W H,Zhou Z Y.Fluctuation of organic carbon isotopes of the Lower Cretaceous in coastal southeastern China:Terrestrial response to the Oceanic Anoxic Events(OAE1b)[J].Palaeogeogr Palaeoclimatol Palaeoecol,2014,399:352-362.
[2]侯读杰,冯子辉,黄清华.松辽盆地白垩纪缺氧地质事件的地质地球化学特征[J].现代地质,2003,17(3):311-317.Hou Du-jie,Feng Zi-hui,Huang Qing-hua.Geological and geochemical evidences of anoxic event in the Songliao Basin,China[J].Geoscience,2003,17(3):311-317(in Chinese with English abstract).
[3]冯子辉,霍秋立,王雪,方伟,宋之光.松辽盆地松科1井晚白垩世沉积地层有机地球化学研究[J].地学前缘,2009,16(5):181-191.Feng Zi-hui,Huo Li-qiu,Wang Xue,Fang Wei,Song Zhi-guang.Geochemical research on the Late Cretaceous strata of Well SK1 in Songliao Basin[J].Earth Sci Front,2009,16(5):181-191(in Chinese with English abstract).
[4]Bechtel A,Jia J L,Strobl S A I,Sachsenhofer R F,Liu Z J,Gratzer R,Püttmann W.Palaeoenvironmental conditions during deposition of the Upper Cretaceous oil shale sequences in the Songliao Basin(NE China):Implications from geochemical analysis[J].Org Geochem,2012,46:76-95.
[5]刘美羽,胡建芳,万晓樵.松辽盆地嫩江组下部水体分层的有机地球化学证据[J].湖泊科学,2015,27(1):190-194.Liu Mei-yu,Hu Jian-fang,Wan Xiao-qiao.The organic geochemical evidences for the lake water stratification in Lower Nenjiang Formation,Songliao Basin[J].J Lake Sci,2015,27(1):190-194(in Chinese with English abstract).
[6]Song Z G,Qin Y,George S C,Wang L,Guo J T,Feng Z H.Abiomarker study of depositional paleoenvironments and source inputs for the massive formation of Upper Cretaceous lacustrine source rocks in the Songliao Basin,China[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,385:137-151.
[7]Wang L,Song Z G,Cao X X,Li Y.Compound specific carbon isotope study on the hydrocarbon biomarkers in lacustrine source rocks from Songliao Basin[J].Org Geochem,2015,87:68-77.
[8]Xi D P,Wan X Q,Jansa L,Zhang Y Y.Late Cretaceous paleoenvironment and lake level fluctuation in the Songliao Basin,northeastern China[J].Island Arc,2011,20:6-22.
[9]Wang L,Song Z G,Yin Q,George S C.Paleosalinity significance of occurrence and distribution of methyltrimethyltridecyl chromans in the Upper Cretaceous Nenjiang Formation,Songliao Basin,China[J].Org Geochem,2011,42(11):1411-1419.
[10]Xi D P,Cao W X,Huang Q H,Do Carmo D A,Li S,Jing X,Tu Y J,Jia J Z,Qu H Y,Zhao J,Wan X Q.Late Cretaceous marine fossils and seawater incursion events in the Songliao Basin,NE China[J].Cretaceous Research,2016,62:172-182.
[11]Hu J F,Peng P A,Liu M Y,Xi D P,Song J Z,Wan X Q,Wang C S.Seawater incursion events in a Cretaceous paleo-lake revealed by specific marine biological markers[J].Sci Rep,2015,5:9508.DOI:10.1038/srep09508
[12]Cao H S,Kaufman A J,Shan X L,Cui H,Zhang G J.Sulfur isotope constraints on marine transgression in the lacustrine Upper Cretaceous Songliao Basin,northeastern China[J].Palaeogeogr Palaeoclimatol Palaeoecol,2016,451:152-163.
[13]曹文心,席党鹏,黄清华,程祎,屈海英,高莲凤,万晓樵.松辽盆地海侵事件--松科1井钙质超微化石新证据[J].地质通报,2016,35(6):866-871.Cao Wen-xin,Xi Dang-peng,Huang Qing-hua,Cheng Yi,Qu Hai-ying,Gao Lian-feng,Wan Xiao-qiao.Seawater incursion event in Songliao Basin:New evidence from calcareous nannofossils of SK-1[J].Geol Bull China,2016,35(6):866-871.
[14]Jia J L,Bechtel A,Liu Z J,Strobl S A I,Sun P C,Sachsenhofer R F.Oil shale formation in the Upper Cretaceous Nenjiang Formation of the Songliao Basin(NE China):Implications from organic and inorganic geochemical analyses[J].Int JCoal Geol,2013,113:11-26.
[15]Pedersen T F,Calvert S E.Anoxia vs.productivity:What controls the formation of organic-carbon-rich sediments and sedimentary rocks?[J].AAPG Bulletin,1990,74(4):454-466.
[16]Chamberlain C P,Wan X Q,Graham S A,Carroll A R,Doebbert A C,Sagema,B B,Blisniuk P,Kent-Corson M L,Zhou W,Wang C S.Stable isotopic evidence for climate and basin evolution of the Late Cretaceous Songliao basin,China[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,385:106-124.
[17]Wang C S,Scott R W,Wan X Q,Graham S A,Huang Y J,Wang P J,Wu H C,Dean Walter E,Zhang L M.Late Cretaceous climate changes recorded in Eastern Asian lacustrine deposits and North American Epieric sea strata[J].Earth Sci Rev,2013,126:275-299.
[18]Schouten S,Hopmans E C,Sinninghe DamstéJ S.The organic geochemistry of glycerol dialkyl glycerol tetraether lipids:A review[J].Org Geochem,2013,54:19-61.
[19]Powers L,Werne J P,Vanderwoude A J,Sinninghe DamstéJ S,Hopmans E C,Schouten S.Applicability and calibration of the TEX86 paleothermometer in lakes[J].Org Geochem,2010,41(4):404-413.
[20]Schouten S,Hopmans E C,Sinninghe DamstéJ S.The effect of maturity and depositional redox conditions on archaeal tetraether lipid palaeothermometry[J].Org Geochem,2004,35(5):567-571.
[21]席党鹏,李罡,万晓樵,荆夏,李顺.松辽盆地东南区姚家组-嫩江组一段地层特征与湖泊演变[J].古生物学报,2009,48(3):556-568.Xi Dang-peng,Li Gang,Wan xiao-qiao,Jing Xia,Li Shun.Yaojia-lower Nenjiang Formations and lake evolution of southern Songliao Basin,NE China[J].Acta Palaeontol Sinica,48(3):556-568(in Chinese with English abstract).
[22]俞志强.松辽盆地白垩系营城组-嫩江组离子探针锆石U-Pb定年[D].中国地质大学(北京),2017.Yu Zhi-qing.Zircon U-Pb chronology of Cretaceous Yingcheng Formation and Nenjiang Formation in the Songliao Basin[D].China University of Geosciences(Beijing),2017(in Chinese with English abstract).
[23]童晓宁,胡建芳,祝孟博,彭平安,席党鹏,宋建中.分子标志物揭示的松辽盆地晚三冬期气候环境[J].地学前缘,2017,24(1):154-165.Tong Xiao-ning,Hu Jian-fang,Zhu Meng-bo,Peng Ping-an,Xi Dang-peng,Song Jian-zhong.Late Santonian paleoenvironment reconstruction based on molecular markers in Songliao Basin,Northeast China[J].Earth Sci Front,2017,24(1):154-165.
[24]侯启军,冯志强,冯子辉.松辽盆地陆相石油地质学[M].石油工业出版社,2009:1-654.Hou Qi-jun,Feng Zhi-qiang,Feng Zi-Hui.Continental Petroleum Geology of Songliao Basin[M].Beijing:Petroleum Industry Press,2009:1-654(in Chinese).
[25]Lafargue E,Marquis F,Pillot D.Rock-Eval 6 applications in hydrocarbon exploration,production,and soil contamination studies[J].Oil Gas Sci Technol Rev IFP,1998,53(4):421-437.
[26]Feng Z Q,Jia C Z,Xie X N,Zhang S,Feng Z H,Cross T A.Tectonostratigraphic units and stratigraphic sequences of the nonmarine Songliao basin,northeast China[J].Basin Res,2010,22(1):79-95.
[27]Peters K E,Walters C C,Moldowan J M.The Biomarker Guide.Biomarkers and Isotopes in Petroleum Exploration and Earth History(Vol.2)[M].New York:Cambridge University Press,2005:1-500.
[28]Goossens H,Leeuw J W D,Schenck P A,Brassell S C.Tocopherols as likely precursors of pristane in ancient sediments and crude oils[J].Nature,1984,312(5993):440-442.
[29]Ten Haven H L,Leeuw J W D,Rullk?tter J,Sinninghe DamatéJ S.Restricted utility of the pristane/phytane ratio as a palaeoenvironmental indicator[J].Nature,1987,330(6149):641-643.
[30]Summons R E,Powell T G.Identification of aryl isoprenoids in source rocks and crude oils:Biological markers for the green sulphur bacteria[J].Geochim Cosmochim Acta,1987,51:557-566.
[31]Sinninghe DamstéJ S,Van Duin A C T,Hollander D,Kohnen M E L,Leeuw J W D.Early diagenesis of bacteriohopanepolyol derivatives:Formation of fossil homohopanoids[J].Geochim Cosmochim Acta,1995,59(24):5141-5157.
[32]Sinninghe DamstéJ S,Keely B J,Betts S E,Baas M,Maxwell J R,de Leeuw J W.Variations in abundances and distributions of isoprenoid chromans and long-chain alkylbenzenes in sediments of the Mulhouse Basin:a molecular sedimentary record of palaeosalinity[J].Org Geochem,1993,20:1201-1215.
[33]Schwark L,Vliex M,Schaeffer P.Geochemical characterization of Malm Zeta laminated carbonates from the Franconian Alb,SW-Germany(II)[J].Org Geochem,1998,29(8):1921-1952.
[34]侯读杰,黄清华,黄福堂,孔庆云.松辽盆地海侵地层的分子地球化学特征[J].石油学报,1999,20(2):30-34.Hou Du-jie,Huang Qing-hua,Huang Fu-tang,Kong Qing-yun.The characteristics of molecular geochemistry of marine transgression start in Songliao Basin[J].Acta Pet Sinica,1999,20(2):30-34.
[35]Powers L A,Werne Josef P,Johnson Thomas C,Hopmans E C,Sinninghe DamstéJ S,Schouten S.Crenarchaeotal membrane lipids in lake sediments:A new paleotemperature proxy for continental paleoclimate reconstruction?[J].Geology,2004,32(7):613-616.
[36]Blaga C I,Reichart G J,Heiri O,Sinninghe DamstéJ S.Tetraether membrane lipid distributions in water-column particulate matter and sediments:A study of 47 European lakes along a north-south transect[J].J Paleolimnol,2009,41(3):523-540.
[37]Powers L,Werne J P,Vanderwoude A J,Sinninghe DamstéJ S,Hopmans E C,Schouten S.Applicability and calibration of the TEX86 paleothermometer in lakes[J].Org Geochem,2010,41(4):404-413.
[38]Pearson E J,Juggins S,Talbot H M,Weckstr?m J,Rosén P,Ryves D B,Roberts S J,Schmidt R.A lacustrine GDGT-temperature calibration from the Scandinavian Arctic to Antarctic:Renewed potential for the application of GDGT-paleothermometry in lakes[J].Geochim Cosmochim Acta,2011,75(20):6225-6238.
[39]Brochier A C,Boussau B,Gribaldo S,Forterre P.Mesophilic crenarchaeota:Proposal for a third archaeal phylum,the Thaumarchaeota[J].Nat Rev Micro,2008,6(3):245-252.
[40]Schouten S,Hopmans E C,Schefu?E,DamstéJ S S.Distributional variations in marine crenarchaeotal membrane lipids:a new tool for reconstructing ancient sea water temperatures?[J].Earth Planet Sci Lett,2002,204(1/2):265-274.
[41]Zhang Y G,Pagani M,Wang Z.Ring Index:A new strategy to evaluate the integrity of TEX86 paleothermometry[J].Paleoceanography,2015,31(2):220-232.
[42]Tierney J E,Russell J M,Eggermont H,Hopmans E C,Verschuren D,Sinninghe DamstéJ S.Environmental controls on branched tetraether lipid distributions in tropical East African lake sediments[J].Geochim Cosmochim Acta,2010,74(17):4902-4918.
[43]申家年,王庆红,何江林,卢双舫.松辽盆地白垩纪湖泊水体温度与古气候温度估算[J].吉林大学学报(地球科学版),2008,38(6):946-952.Shen Jia-nian,Wang Qing-hong,He Jiang-lin,Lu Shuangfang.Estimation of the ancient lake temperature and paleoclimate of the Cretaceous Period in the Songliao Basin[J].J Jilin Univ(Earth Sci Ed),2008,38(6):946-952(in Chinese with English abstract).
[44]Moldowan J M,Fago F J,Lee C Y,Jacobson S R,Watt D S,Slougui N E,Jeganathan A,Young D C.Sedimentary 24-npropylcholestanes,molecular fossils diagnostic of marine algae[J].Science,1990,247(4940):309-312.
[45]Love G D,Grosjean E,Stalvies C,Fike D A,Grotzinger J P,Bradley A S,Kelly A E,Bhatia M,Meredith W,Snape C E.Fossil steroids record the appearance of demospongiae during the Cryogenian period[J].Nature,2009,457(7230):718-722.
[46]Tyson R V.The“productivity versus preservation”controversy:Cause,flaws,and resolution[M]//Harris N.The Deposition of Organic-Carbon-Rich Sediments:Models,Mechanisms,and Consequences.SEPM Special Publication,No.82.2005:17-33.
[47]Wan X Q,Zhao J,Scott Robert W,Wang P J,Feng Z H,Huang Q H,Xi D P.Late Cretaceous stratigraphy,Songliao Basin,NE China:SK1 cores[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,385:31-43.
[48]Uramoto G I,Tomotaka F,Akinori T,Hirano H.Cenomanian(Upper Cretaceous)carbon isotope stratigraphy of terrestrial organic matter for the Yezo Group,Hokkaido,Japan[J].Island Arc,2007,16(3):465-478.
[49]Uramoto G I,Tahara R,Sekiya T,Hirano H.Carbon isotope stratigraphy of terrestrial organic matter for the Turonian(Upper Cretaceous)in northern Japan:Implications for ocean-atmosphere,13C trends during the mid-Cretaceous climatic optimum[J].Geosphere,2013,9(2):355-366.
[50]Ando A,Kakegawa T,Takashima R,Saito T.Stratigraphic carbon isotope fluctuations of detrital woody materials during the Aptian Stage in Hokkaido,Japan:Comprehensiveδ13Cdata from four sections of the Ashibetsu area[J].J Asian Earth Sci,2003,21(8):835-847.
[51]Yazykova E,Zonova T.Upper Cretaceous stable carbon isotope stratigraphy of terrestrial organic matter from Sakhalin,Russian Far East:a proxy for the isotopic composition of paleoatmospheric CO2,by T.Hasegawa et al.-Discussion[J].Palaeogeogr Palaeoclimatol Palaeoecol,2004,215(1/2):173-177.
[52]Hong S K,Yong I L.Contributions of soot toδ13C of organic matter in Cretaceous lacustrine deposits,Gyeongsang Basin,Korea:Implication for paleoenvironmental reconstructions[J].Palaeogeogr Palaeoclimatol Palaeoecol,2013,371:54-61.
[53]Schnyder J,Dejax J,Keppens E,Nguyen T T T,Spagna P,Boulila S,Galbrun B,Riboulleau A,Tshibangu J P,Yans J.An Early Cretaceous lacustrine record:Organic matter and organic carbon isotopes at Bernissart(Mons Basin,Belgium)[J].Palaeogeogr Palaeoclimatol Palaeoecol,2009,281(1/2):79-91.
[54]Sinninghe DamstéJ S,Bentum E C V,Reichart G J,Pross J?rg,Schouten S.A CO2 decrease-driven cooling and increased latitudinal temperature gradient during the mid-Cretaceous Oceanic Anoxic Event 2[J].Earth Planet Sci Lett,2010,293(1/2):97-103.
[55]Hu G,Hu W,Cao J,Yao S P,Liu W H,Zhou Z Y.Fluctuation of organic carbon isotopes of the Lower Cretaceous in coastal southeastern China:Terrestrial response to the Oceanic Anoxic Events(OAE1b)[J].Palaeogeogr Palaeoclimatol Palaeoecol,2014,399:352-362.