新疆塔里木盆地早白垩世孢粉组合

本文记述了新疆塔里木盆地下白垩统卡普沙良群孢子花粉55属108种包括6新种,建立了本区早白垩世孢粉组合序列,并根据孢粉组合讨论了地质时代和古气候特征,亚格列木组孢粉组合以裸子植物松柏类为主,缺乏被子植物花粉,其时代相当于贝利亚斯期至凡兰吟期;舒善河组孢粉组合仍以裸子植物为主,但出现原始被子植物花粉,时代应属豪特里维斯至巴列姆期;巴西盖组孢粉组合的海金沙科孢子和被子植物花粉都有显著增加,时代应属阿普第期至阿尔必期,本区早白垩世古气候应属亚热带干燥或半干燥型,但在巴列姆期至阿尔必期相对潮湿。     

新疆塔里木盆地早白垩世孢粉组合

本文记述了新疆塔里木盆地下白垩统卡普沙良群孢子花粉55属108种包括6新种,建立了本区早白垩世孢粉组合序列,并根据孢粉组合讨论了地质时代和古气候特征,亚格列木组孢粉组合以裸子植物松柏类为主,缺乏被子植物花粉,其时代相当于贝利亚斯期至凡兰吟期;舒善河组孢粉组合仍以裸子植物为主,但出现原始被子植物花粉,时代应属豪特里维斯至巴列姆期;巴西盖组孢粉组合的海金沙科孢子和被子植物花粉都有显著增加,时代应属阿普第期至阿尔必期,本区早白垩世古气候应属亚热带干燥或半干燥型,但在巴列姆期至阿尔必期相对潮湿。     

新疆塔里木盆地中侏罗世塔尔尕组孢粉植物群及地层和古地理意义

新疆塔里木盆地侏罗系分布广泛,在库车凹陷和塔西南区发育最好。目前对库车凹陷的三叠纪和侏罗纪孢粉植物群研究较为深入,而对塔西南区侏罗纪孢粉化石专题研究不多,尚未建立孢粉组合。作者基于塔西南区乌恰中侏罗统塔尔尕组发现的孢子花粉33属48种的研究,建立了塔尔尕组孢粉组合。该组合以掌鳞杉科花粉Classopollis的优势和真蕨目桫椤科孢子Cyathidites的繁盛为特征,并含有丰富多样且颇具侏罗纪色彩的孢子花粉化石类型。该组合与西欧和俄罗斯巴柔期至巴通期孢粉组合以及北美和澳大利亚巴柔期至卡洛夫期孢粉组合可以进行对比;与我国新疆库车恰克马克组、陕西延安直罗组和湖北兴山沙溪庙组等孢粉组合也可对比。根据孢粉学证据,塔尔尕组的时代应属于中侏罗世晚期(巴通期至卡洛夫期)。当前孢粉植物群支持我国侏罗纪南北植物地理区系之西端分界之划分方案,即塔西南乌恰处于界线以南,而库车处于分界以北。     

新疆塔里木盆地早白垩世克孜勒苏群孢粉组合

基于新疆塔里木盆地西南区和东南区下白垩统克孜勒苏群发现的孢子花粉57属96种的研究,建立了克孜勒苏群下亚旋回和上亚旋回孢粉组合,并根据孢粉组合讨论了地层时代。克孜勒苏群孢粉组合以松杉目的优势、真蕨目海金沙科的显赫和原始被子植物的出现为特征。克孜勒苏群下亚旋回孢粉组合与欧洲韦尔登期(陆相尼欧克姆期)和北美巴列姆期孢粉组合可以对比,克孜勒苏群上亚旋回孢粉组合与欧亚大陆、北美和澳大利亚阿普第期至阿尔必期孢粉组合可以对比。根据孢粉学证据,克孜勒苏群下亚旋回应属于尼欧克姆期,或赫特里夫期至巴列姆期,克孜勒苏群上亚旋回应归于阿普第期至阿尔必期。     

新疆准噶尔盆地东北缘孔雀坪剖面二叠纪金沟组孢粉组合及其地层意义

准噶尔盆地东北缘孔雀坪剖面金沟组孢粉组合中Protohaploxypinus,Striatoabieites等具肋双气囊花粉非常发育,类型丰富,达7属32种之多;Cordaitina,Zonalasporites等单气囊花粉分异度较高,但含量较低;少量出现单沟花粉、具肋纹花粉、无肋双气囊花粉和蕨类植物孢子等。所见孢粉类型中约1/2的已知种在新疆北部只见于二叠纪地层中,1/3已知种在晚石炭世至二叠纪地层中均可见到。孢粉组合特征与盆地南缘下二叠统塔什库拉组上部组合相似,地质时代为早二叠世空谷期。     

辽河盆地大民屯凹陷沈249井早白垩世九佛堂组孢粉组合

沈249井九佛堂组孢粉材料是目前所知辽河盆地孢粉类型最丰富、数量最多且保存最完好,可确定63属,包括蕨类植物孢子40属和裸子植物花粉23属;根据孢粉组合特征,可称其为Cicatricosisporites Concavissimi sporites Classopollis孢粉组合,具有裸子植物花粉相对含量明显较高、分异性较低,而蕨类植物孢子分异性明显较高、相对含量较低的特点;该组合与辽西九佛堂组、内蒙古二连盆地赛汉塔拉组一段的孢粉组合具有很强的一致性。本文资料可弥补辽河盆地九佛堂组孢粉组合的空白,并为深入认识我国北方区九佛堂组沉积时期植物群特征提供重要的帮助。     

海南乐东洪帽剖面鹿母湾组孢粉组合及其地层意义

作者系统地研究了海南乐东洪帽剖面鹿母湾组孢粉化石,共计26属60种,其中苔藓类植物孢子1属3种,蕨类植物孢子18属30种,裸子植物花粉7属27种,组成以Cicatricosisporites-Schizaeois porites-Ephedripites-Exe-sipollenites为特征的孢粉组合.依据组合中主要分子和重要分子地质时限的讨论以及与相关孢粉组合进行比较,将洪帽剖面鹿母湾组的地质时代归为Aptian期-早Albian期.     

新疆塔里木拜城地区早白垩世舒善河组孢粉组合

基于新疆塔里木盆地北部拜城卡普沙良河剖面下白垩统舒善河组发现的29属48种孢子花粉的研究,建立舒善河组自下而上的4个孢粉亚组合,分别为Classopollis-Cycadopites-Lygodioisporites-Biretisporites(CCLB)亚组合,Classopollis-Dicheiropollis-Schizaeoisporites-Klukisporites(CDSK)亚组合,Classopollis-Dicheiropollis-Par-visaccites-Lygodiumsporites(CDPL)亚组合和Classopollis-Dicheiropollis-Pinuspollenites-Impardecispora(CDPI)亚组合。舒善河组孢粉植物群以松柏类掌鳞杉科植物占优势以及真蕨类海金沙科的繁盛为主要特征。该孢粉植物群与欧洲、亚洲、美洲和澳大利亚早白垩世尼欧克姆期孢粉植物群可以对比。根据孢粉学证据,舒善河组的时代属于尼欧克姆期或欧特里夫期至巴列姆期。     

内蒙古钱家店凹陷晚白垩世姚家组的孢粉组合研究

内蒙古钱家店凹陷ML12井等12口井的孢粉材料,是目前所知该凹陷姚家组孢粉类型最丰富、数量最多且保存最完好的,已鉴定出孢粉共计116属,包括蕨类植物孢子51属、裸子植物花粉32属和被子植物花粉33属。根据姚家组中蕨类植物孢子分异度较高及相对含量较低、裸子植物花粉分异度较低及相对含量高、被子植物花粉分异度较低及相对含量波动幅度巨大的孢粉组合特征,将其命名为Exesipollenites-Nevesisporites-Retitricolpites组合。该组合与大庆长垣姚家组孢粉组合具有很好的横向对比性。以塔里木盆地西部东巴组中、下段被子植物花粉的演化阶段为参照标准,钱家店凹陷晚白垩世姚家组的孢粉组合时代应为晚白垩世Coniacian期—Santonian期。本文中的工作填补了钱家店凹陷姚家组孢粉组合研究的空白,并为深入认识我国北方区姚家组沉积时期植物群的特征提供了重要的证据。     

新疆三塘湖盆地奎苏煤矿中侏罗世西山窑组孢粉组合

本文系统研究了新疆三塘湖盆地奎苏煤矿西山窑组的孢粉化石,共计38属70种,其中蕨类植物孢子13属18种,裸子植物花粉25属52种,组成以Osmundacidites-Quadraeculina-Perinopollenites为代表的孢粉组合。根据组合内一些重要分子地质历程的分析及与相关组合的对比,其时代应归为中侏罗世早期。     

Early Cretaceous Palynoflora from Anchow Basin,Korea

Fifty-nine species of fossil spores and pollen referred to 34 genera found from the Lower Cretaceous Longpan Formation in Anehow Basin of North Korea have been studied. Two species were described as new. The palynoflora of the Longpan Formation was characterized by its predominance of gymnosperms and subdominance of pteridophyta. A few primitive angiospermous pollen grains occured in the middle to upper part of the formation. Coniferae was dominant in the whole palynoflora, while Lygodiaceae and Schizaeaceae were dominant in the pteridophyta. The important species of spores and pollen comprised Cicatricosisporites dorogensis, C. subrotundus, L ygodioisporites gemmatus, Concavissimisporites asper, C. variverrucatus, C. penolaensis, Trilobosporites minor, Klukisporites variegatus, K. pseudoreticulatus, K. scaberis, Sch, izaeoisporites cretacius, S. certus, S. zizyphinus, S. gansuensis, Foraminisporis wonthaggiensis, Converrucosisporites saskatchewanensis, Densoisporites microrugulatus, Parvisaccites radiatus, Platysaccus oculus, P. gansuensis, Podocarpidites canadensis, AbietineaepoUenites minimus, Pinuspollenites insignis, Cedripites cretaceus, C. canadensis, Classopollis classoides, C. annulatus, C. minor, C. anchowensis, Cycadopites minimus, Ephedripites tarimensis, and Clavatipollenites hughesii. The palynoflora is comparable with that of the Changcai Formation of the Yanbian District of the Jilin Province of China. It is suggested that the Longpan Formation of North Korea should belong to Barremian to Aptian in age. Judging from the palynoflora, the Early Cretaceous palaeoclimate in the Anchow Basin should belong to the semi-arid type of the subtropic zone.     

Early Cretaceous Palynofloras from Tarim Basin,Xinjiang

One hundred and eight species of fossil spores and pollen referred to 55 genera found from the Lower Cretaceous Kapushaliang (Kizilsu) Group in the Tarim Basin of Xinjiang have been studied in this paper. The Kapushaliang Group may be divided into the Yageliemu Formation, the Shushanhe Formation and Baxigai Formation in ascending order. The Yageliemu palynoflora is characterized by the predominance of gymnospermous pollen, the relative abundance of pteridophytic spores and the absence of angiospermous pollen. Coniferae is dominant, while Lygodiaceae and Schizaeaceae are important in the flora. The most common species of palynomorphs are Todisporites minor, Cicatricosisporites dorogensis, C. australiensis, Lygodiumsporites subsimplex, Schizaeoisporites cretacius, S. zizyphinus, S. certus. Cibotiumspora paradoxa, Cyathidites australis, C. minor, Biretisporites potoniael, Cycadopites minimus, Pseudowalchia hiangulina, Parvisaccites radiatus, Podocarpidites multesimus, P. canadensis, Alisporites bilateralis, Cedripites cretaceus, C. canadenris, Abietineaepollenites microalatus, Clarsopollis classoides, C annulatus, C. xinjiangensis (sp. nov.), Ephedripites multicostatus, E. tarimensis (sp. nov.), etc . The palynoflora is comparable with those of the lower part of the Lower Xinminbu Formation in northwestern China and the lower part of the Lower Mannville Formation in western Canada, which is considered corresponding from Berriasian to Valanginian in age. The Shushanhe palynoflora is also characterized by dominance of gymnosperms and subdominance of pteridophyta. Some primitive angiospermons pollen grains are found in the upper part of the formation. In addition to the most common species of the above mentioned palynoflora, the important species in the present palynoflora comprise Cicatricosisporites potomacensis, C. orbiculatus, C. subrotundus, Concavissimisporites punctatus, C. verrucosus, C. globosus, lmpardecispora apiverrucata, Trilobosporites crassus, T. trioreticulosus, Pilosisporites verus, P. trichopapillosus, Klukisporites pseudoreticulatus, Verrucosisporites obscurilaesuratur, Converrucosisporites saskatchewanensis, Foraminisporis wonthaggiensis, Cingulatisporites valdensis, C. ruginosus, Jiaohepollis verus, Pityosporites constrictus, etc. More than 40 in dicative species of Early Cretaceous occur in the assemblage. The palynoflora compares clcsely with those of the middle part of the Lower Xinminbu Formation and the Quartz Sand Member of the Lower Mannville Formatton. It is suggested that the Shushanhe Formation should belong to Hauterivian of Barremian in age. The Baxigai palynoflora is basically similar to the Shushanhe palynoflora. But the palynoflora shows an obvious increase in abundance of lygodiaceous spores and angiospermous pollen accompanied by a great reduction of Classopollis and Ephedripltes. Most of the Early Cretaceous species occurring in the above mentioned palynofloras are present. In addition, some Cretaceous species recorded from Aptian and Albian Stages in Europe, North America and Australia, such as Trilobosporites tribotrys, T. trioreticulosus, Coptospora paradoxa, Camarozonosporites insignis, Crybelosporites punctatus, etc., appear in the assemblage. In comparison with the microfloras of the upper part of the Lower Xinminbu Formation, the Upper Mannville Formation and the lower part of the Lower Colorado Group, the Baxigai Forma- tion should be referred to Aptian to Albian in age. Judging from the palynofloras, the early Cretaceous palaeoclimate in the basin should belong to the arid or semi-arid type of the subtropic zone. However, from Barremtan through Albian the climatic conditions might appear relatively wet.     

新疆独山子油田原油中的孢子花粉

本文研究了新疆准噶尔盆地独山子油田原油中分离出的孢子花粉35属51种。基于原油中孢子花粉的研究,追溯了该含油区的油源并讨论了油气运移问题。根据原油中找到的孢子花粉化石来判断,准噶尔盆地西南含油区有两套油源岩系,即下一中侏罗统八道湾一头屯河组和渐新统安集海河组。     

Spores and Pollens from Crude Oil of Turpan Basin,Xinjiang

Sixty-eight species of fossil spores and pollens referred to 39 genera extracted from the crude oil samples collected from the Turpan Basin of Xinjiang are recorded in this paper. Based on the investigations of fossil spores and pollens in petroleum, the questions on petroleum migration and source rocks are discussed. It is expounded and proved theoretically and practically that the phenomenon that the crude oil samples usually contain the fossil spores and pollen grains with different geological ages from reservoir rocks should result from petroleum migration, but not from resedimentation. The fossil spores and pollens in crude oil of the Middle Jurassic reservoir of the Qiktim Oil-Field of the Turpan Basin comprise mainly Leiotriletes pflugi, Deltoidospora gradata, D. magna, Cyathidites australir, C. minor, Biretisporites cf. potoniaei, Dictyophyllidites harrisii. Cibotiumspora paradoxa, C. jurienensis, Gleicheniidites rousei, G. conflexus, Undulatisporites concavus, U. pflugii, Granulatisporites arenaster, G. minor, Todisporites minor, Osmundacidites wellmanii, dpiculatisporis variabilis, Leptolepidites major, Aratrisporites scabratus Cycadopites nitidus, C. typicus, C. subgranulosus, Chasmatosporites elegans, Classopollis classoides, C. itunen- sis, C. annulatus, C. qiyangensis, Callialarporites dampieri, C. radius, lnaperturopollenites det- tmannii, Protoconiferus funarius, Paleoconiferus asaccatus, CaytonipoUenites pallidus, Vitreis- porites jurassicus, V. jansonii, Pseudowalchia ovalis, P. landesii, P. biangulina, Podocarpidites unicus, P. major, P. multicinus, P. multesimus, P. rousei, P. wapellaensis, Platysaccus lopsinensis, Ovalipollis enigmatica, O. minor, O. canadensis, Pteruchipollenites thomasii, Alisporites grandis, A. bilateralis, Pityosporites similis, P. divulgatus, Piceites expos us, P. podocarpoides, P. latens, Protopicea exilioides, Pseudopicea variabitifornus, Piceaepollenites complanatiformus, Abietineaepollenites dunrobinensis, A. microalatus, A. minimus, Cedripites minor, Eucommiidites troedssonii, etc. Some of the species are also found from the crude oil sampls taken from the Middle Jurassic reservoir of the Shengjinkou Oil-Field of the Turpan Basin. The above mentioned species of spores and pollens are widely distributed in the Lower to Middle Jurassic sediments of North America, Europe, Australia and China. They have also been found from the Lower to Middle Jurassic sediments of the Turpan Basin. Judging from the spores and pollen in petroleum, it may be concluded that the Lower Jurassic Badaowan-Sangonhe Formation and the Middle Jurassic Xishanyao-Toudenhe Formation should contain the favorable petroleum source rocks in the basin. As to petroleum migration mechanism, it is considered that petroleum must have migrated for comparatively short distances to accumulate into petroleum pools in this region.     

Early and Middle Jurassic Sporo-Pollen Assemblages of Qiquanhu Coal-Field of Turpan Xinjiang

One hundred and thirteen species of spores and pollens belonging to 58 genera were found from 66 core samples taken from two boreholes of the Early and Middle Jurassic deposits in the Qiquanhu coal-field of the Turpan Basin, Xinjiang have been investigated in this paper. Two of the species are described as new. Three sporo-pollen zones from lower to upper are described as follows: Sporo-pollen zone Ⅰ (equivalent bed: Badaowan Formation) . The pteridophytic spores are slightly more abundant than the gymnospermous pollen in this assemblage. The most abundant spores are Cyathidites minor, C. australis and Undulatisporites pflugii, U. taenus and so on. The second important fern spores are Osmundacidites, Lycopodiumsporites, Apiculatisporis and Duplexisporites. The most important gymnospermous genus is Cycadopites which ranks highest in the assemblage and includes C. nitidus and C. typicus.The other gymnospermous pollen include Classopollis, Pinuspollenites, Protoconiferus Piceites. Besides, there are a few pollen grains of Taeniaesporites and Chordasporites surviving from the Late Triassic in this assemblage. The present assemblage may be compared with the Early Jurassic sporopollen assemblage from the Daling Formation of the North-East Guangxi. Therefore, the Badaowan Formtion may be referred to Early Jurassic in age, probably Early Lias. Sporo-pollen zone Ⅱ (equivalent bed: Sangonghe Formation) In this assemblage the gymnosperms are predominant.Of them, Podocarpidites and Pinuspollenites increase obviously, and Quadraeculina and Protoconiferus are common. Few surviving elements are observed. The most abundant spores are those of Cyathidites, and the particularly abundant pollens are those of Cycadopites, This assemblage may be compared with the Late Lias sporo-pollen assemblage from the Fuxian Formation of the Northern Shangganning Basin. Therefore, the Sangonghe Formation should belong to Early Jurassic, probably Late Lias in age. Sporo-pollen zone Ⅲ (equivalent bed: Xishanyao Formation). The contents of the spores and pollens are almost equal in this assemblage. Cyathidites and Cycadopites are the most important spores and pollen. Osmundacidites and Quadraeculina are common. Neoraistrickia, Lycopodiumsporites and Eucommiidites troedssonii are present. Ancient striate bisaccate pollen disappears. The characteristics of this assemblage show some resemblances to those of the Middle Jurassic Yanan Formation in Chongxin county of Gansu province. So the Xishanyao Formation should belong to Middle Jurassic.     

四川宣汉晚三叠世孢粉组合及其古植被与古气候意义

对四川盆地东北缘宣汉七里峡剖面须家河组进行了详细的孢粉学研究,发现丰富的孢粉化石,共计59属113种,其中包括蕨类植物孢子35属62种,裸子植物花粉22属47种,苔藓类植物孢子1属3种,以及藻类化石1属1种。据此建立一个孢粉组合,命名为Dictyophyllidites-Lunzisporites-Chasmatosporites组合(简称DLC组合),并进一步分为上、下两个亚组合。根据孢粉组合内一些重要分子的地质时代延限及与国内外有关孢粉组合的对比,提出其地质时代属于晚三叠世诺利期—瑞替期(Norian—Rhaetian)。该孢粉植物群反映了一个以蕨类植物的真蕨类、石松类和裸子植物的松柏类和苏铁类群等占主导且较为繁盛的植被面貌,揭示出温暖潮湿的亚热带—热带气候环境。     

Petroleum Sporo-Pollen Assemblages and Oil Source Rock of Yumen Oil bearing Region in Gansu

Twenty-six species (or forms) of fossil pollen and spores referred to 24 genera extracted from the crude oil samples collected from the Yumen oil-bearing region in West Gansu are observed and the definition of the petroleum sporo-pollen assemblage is given by the authors. On the basis of palynological investigation, the oil source rock of this oil-bearing region is tentatively discussed in this paper. The fossil pollen and spores found from the Tertiary petroleum in this region may be divided into two groups, because they are extremely different in fossilized state. The group of spores and pollen with higher fossilized state is mainly consisted of Schizaeoisporites zizyphinus, Gibotiumspora paradoxa, Monosulcites minimus and Bennettiteaepollenites sp. The other group comprises Pinus, Picea, Ephedra, Potamogeton, Lilium, Ulmus, Chenopodium, Nymphaea, Eutrema, Lens, Nitraria, Tamarix, Achillea, Artemisia, Solidago, Bidens, Graminidites, Cypheraceaepollis, etc. The above mentioned petroleum sporo-pollen assemblage of the tertiary oil reservoir rock is a gathering of fossil pollen and spores brought from the Lower Cretaceous deposits and the tertiary deposits respectively. The appearance of the Early Cretaceous pollen and spores bearing in the black shales of the Lower Xinminbu Formation in the tertiary petroleum may be considered to be a result of petroleum migration. And it reflects that the oil source rock might belong to Early Cretaceous Series. The fossil pollen and spores extracted from the Early Cretaceous petroleum in this region contain merely Schizaeoisporites zizyphinus, Monosulcites minimus, Bennettiteaepollenites sp., Psophosphaera, etc. The tertiary pollen and spores are completely absent there. So it indicates that both the oil source rock and the oil reservoir rock should belong to the fossil-bearing Lower Xinminbu Formation. In addition, there are some pollen of Monosulcites and Psophosphaera in the petroleum reserved in the fissures of the Silurian metamorphic rock. They are also probably brought from the Lower Xinminbu Formation by oil and gas in the process of their migration. In any case, judging from the pollen and spores found from the crude oil, the oil source rock of this oil-bearing region is deduced to be the black shales of the Lower Xinminbu Formation referred to as Early Cretaceous Epoch.