{"title":"中侏罗世-最早的晚白垩世孢粉植物,坦桑尼亚沿海-第一部分","authors":"E. Msaky","doi":"10.1127/PALB/286/2011/101","DOIUrl":null,"url":null,"abstract":"This Part Two of the current monograph (Msaky 2011) completes the systematic palaeontology and discusses the biostratigraphic and palaeogeographic significance of the palynofloras together with the results of palynofacies analyses. In the systematic section, two new species are established: Pseudoceratium redactum and Sentusidinium tanzaniensis. Six informal, stratigraphically successive, dinoflagellate assemblages are distinguished, as follows: Assemblage I (Bajocian–Bathonian); Assemblage II (Callovian); Assemblage III (Oxfordian); Assemblage IV (Kimmeridgian–Tithonian); Assemblage V (Berriasian–Barremian); and Assemblage VI (Aptian–Cenomanian). Coastal Tanzania appears referable to the Austral dinoflagellate realm due to the presence of, inter alia, Broomea ramosa, Komewuia glabra, Wanaea clathrata, and Wanaea digitata. Some minor biostratigraphic anomalies are noted, including the introduction of Glossodinium dimorphum; this is datable as early Oxfordian in Tanzania whereas in Australasia the species appears earlier (in the Callovian). A few noteworthy quantitative phenomena are evident; for instance, the abundance of Lithodinia jurassica in the vicinity of the Callovian–Oxfordian boundary and the marked increase of Wanaea spp. in the Oxfordian, specifically in the Ruvu Basin of the northern coastal belt. These events are of chronostratigraphic significance and could be applicable to regional correlation. Middle– Late Jurassic assemblages show a conspicuous degree of cosmopolitanism, and include some species previously considered to be restricted to certain regions in the low and high latitudes. The Early Cretaceous (Berriasian–Barremian) assemblages show close affinity to the Tethyan Realm. The latest Early Cretaceous (Albian) to earliest Late Cretaceous (Cenomanian) strata are allied to the Albian–Cenomanian Elaterates province. The presence of elater-bearing pollen in offshore and onshore sections of Tanzania indicates that the Elaterates had a wider geographic distribution than previously reported: i.e., extending beyond the northern part of the African and South American continents. The lower part of the Kipatimu Formation, which contains Assemblage IV, yielded Komewuia glabra, Broomea ramosa, and Rigaudella aemula and their presence precludes the Early Cretaceous age previously ascribed to this part of the formation. Likewise the Makonde and Mikindani Beds have yielded typically Early Cretaceous pollen grains including Classopollis braziliensis, Retitricol pites vulgaris, and Elaterocolpites castelainii. The Jurassic/Cretaceous boundary is coincident with the upper limit of Assemblage IV, based on the last appearances of, in particular, Komewuia glabra and Rigaudella aemula. Within the Kipatimu Formation (as represented in wells SS-5 and SS-7), the systemic boundary appears conformable. But elsewhere in the coastal belt, the boundary is clearly unconformable. On the basis of palynostratigraphic data, significant biostratigraphic events, such as introductions and exits of certain dinoflagellate species commonly match sequence boundaries. From palynofacies analyses and palynostratigraphic data, the Kipatimu Formation is dominated by phytoclasts indicating high terrestrial inputs during its deposition. Abundance of black wood (of high buoyancy) in the majority of samples implies high energy settings and abundance of brown wood (less buoyant) is an indication of a sudden terrestrial input into the marine system. The organic composition of sedimentary rocks is an important means whereby the depositional history of the enclosing sediments can be understood. Different environmental settings clearly influence the character of palynofacies. For example, abundant Author’s address: Dr. Emma S. Msaky, Tanzania Petroleum Development Corporation, BWM Tower A, Azikiwe/Jamhuri strees, P.O.Box 2774, Dar Es Salaam, United Republic of Tanzania. E-mail: emma.msaky@uqconnect.edu.au, emmalekei@yahoo.com (c) 2015 www.schweizerbart.com DOI:10.1127/palb/286/2011/101","PeriodicalId":56273,"journal":{"name":"Palaeontographica Abteilung B-Palaeophytologie Palaeobotany-Palaeophytology","volume":"48 1","pages":"101-209"},"PeriodicalIF":1.6000,"publicationDate":"2011-11-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"10","resultStr":"{\"title\":\"Middle Jurassic – earliest Late Cretaceous palynofloras, coastal Tanzania - Part One\",\"authors\":\"E. 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Some minor biostratigraphic anomalies are noted, including the introduction of Glossodinium dimorphum; this is datable as early Oxfordian in Tanzania whereas in Australasia the species appears earlier (in the Callovian). A few noteworthy quantitative phenomena are evident; for instance, the abundance of Lithodinia jurassica in the vicinity of the Callovian–Oxfordian boundary and the marked increase of Wanaea spp. in the Oxfordian, specifically in the Ruvu Basin of the northern coastal belt. These events are of chronostratigraphic significance and could be applicable to regional correlation. Middle– Late Jurassic assemblages show a conspicuous degree of cosmopolitanism, and include some species previously considered to be restricted to certain regions in the low and high latitudes. The Early Cretaceous (Berriasian–Barremian) assemblages show close affinity to the Tethyan Realm. The latest Early Cretaceous (Albian) to earliest Late Cretaceous (Cenomanian) strata are allied to the Albian–Cenomanian Elaterates province. The presence of elater-bearing pollen in offshore and onshore sections of Tanzania indicates that the Elaterates had a wider geographic distribution than previously reported: i.e., extending beyond the northern part of the African and South American continents. The lower part of the Kipatimu Formation, which contains Assemblage IV, yielded Komewuia glabra, Broomea ramosa, and Rigaudella aemula and their presence precludes the Early Cretaceous age previously ascribed to this part of the formation. Likewise the Makonde and Mikindani Beds have yielded typically Early Cretaceous pollen grains including Classopollis braziliensis, Retitricol pites vulgaris, and Elaterocolpites castelainii. The Jurassic/Cretaceous boundary is coincident with the upper limit of Assemblage IV, based on the last appearances of, in particular, Komewuia glabra and Rigaudella aemula. Within the Kipatimu Formation (as represented in wells SS-5 and SS-7), the systemic boundary appears conformable. But elsewhere in the coastal belt, the boundary is clearly unconformable. On the basis of palynostratigraphic data, significant biostratigraphic events, such as introductions and exits of certain dinoflagellate species commonly match sequence boundaries. From palynofacies analyses and palynostratigraphic data, the Kipatimu Formation is dominated by phytoclasts indicating high terrestrial inputs during its deposition. Abundance of black wood (of high buoyancy) in the majority of samples implies high energy settings and abundance of brown wood (less buoyant) is an indication of a sudden terrestrial input into the marine system. The organic composition of sedimentary rocks is an important means whereby the depositional history of the enclosing sediments can be understood. Different environmental settings clearly influence the character of palynofacies. For example, abundant Author’s address: Dr. Emma S. Msaky, Tanzania Petroleum Development Corporation, BWM Tower A, Azikiwe/Jamhuri strees, P.O.Box 2774, Dar Es Salaam, United Republic of Tanzania. 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Middle Jurassic – earliest Late Cretaceous palynofloras, coastal Tanzania - Part One
This Part Two of the current monograph (Msaky 2011) completes the systematic palaeontology and discusses the biostratigraphic and palaeogeographic significance of the palynofloras together with the results of palynofacies analyses. In the systematic section, two new species are established: Pseudoceratium redactum and Sentusidinium tanzaniensis. Six informal, stratigraphically successive, dinoflagellate assemblages are distinguished, as follows: Assemblage I (Bajocian–Bathonian); Assemblage II (Callovian); Assemblage III (Oxfordian); Assemblage IV (Kimmeridgian–Tithonian); Assemblage V (Berriasian–Barremian); and Assemblage VI (Aptian–Cenomanian). Coastal Tanzania appears referable to the Austral dinoflagellate realm due to the presence of, inter alia, Broomea ramosa, Komewuia glabra, Wanaea clathrata, and Wanaea digitata. Some minor biostratigraphic anomalies are noted, including the introduction of Glossodinium dimorphum; this is datable as early Oxfordian in Tanzania whereas in Australasia the species appears earlier (in the Callovian). A few noteworthy quantitative phenomena are evident; for instance, the abundance of Lithodinia jurassica in the vicinity of the Callovian–Oxfordian boundary and the marked increase of Wanaea spp. in the Oxfordian, specifically in the Ruvu Basin of the northern coastal belt. These events are of chronostratigraphic significance and could be applicable to regional correlation. Middle– Late Jurassic assemblages show a conspicuous degree of cosmopolitanism, and include some species previously considered to be restricted to certain regions in the low and high latitudes. The Early Cretaceous (Berriasian–Barremian) assemblages show close affinity to the Tethyan Realm. The latest Early Cretaceous (Albian) to earliest Late Cretaceous (Cenomanian) strata are allied to the Albian–Cenomanian Elaterates province. The presence of elater-bearing pollen in offshore and onshore sections of Tanzania indicates that the Elaterates had a wider geographic distribution than previously reported: i.e., extending beyond the northern part of the African and South American continents. The lower part of the Kipatimu Formation, which contains Assemblage IV, yielded Komewuia glabra, Broomea ramosa, and Rigaudella aemula and their presence precludes the Early Cretaceous age previously ascribed to this part of the formation. Likewise the Makonde and Mikindani Beds have yielded typically Early Cretaceous pollen grains including Classopollis braziliensis, Retitricol pites vulgaris, and Elaterocolpites castelainii. The Jurassic/Cretaceous boundary is coincident with the upper limit of Assemblage IV, based on the last appearances of, in particular, Komewuia glabra and Rigaudella aemula. Within the Kipatimu Formation (as represented in wells SS-5 and SS-7), the systemic boundary appears conformable. But elsewhere in the coastal belt, the boundary is clearly unconformable. On the basis of palynostratigraphic data, significant biostratigraphic events, such as introductions and exits of certain dinoflagellate species commonly match sequence boundaries. From palynofacies analyses and palynostratigraphic data, the Kipatimu Formation is dominated by phytoclasts indicating high terrestrial inputs during its deposition. Abundance of black wood (of high buoyancy) in the majority of samples implies high energy settings and abundance of brown wood (less buoyant) is an indication of a sudden terrestrial input into the marine system. The organic composition of sedimentary rocks is an important means whereby the depositional history of the enclosing sediments can be understood. Different environmental settings clearly influence the character of palynofacies. For example, abundant Author’s address: Dr. Emma S. Msaky, Tanzania Petroleum Development Corporation, BWM Tower A, Azikiwe/Jamhuri strees, P.O.Box 2774, Dar Es Salaam, United Republic of Tanzania. E-mail: emma.msaky@uqconnect.edu.au, emmalekei@yahoo.com (c) 2015 www.schweizerbart.com DOI:10.1127/palb/286/2011/101
期刊介绍:
Section B of Palaeontographica publishes contributions to palaeobotany, i.e. papers on morphological traits, systematics and phylogenetic features of plants as well as papers on palaeoclimatology and palynogeography. Especially worth mentioning are the comprehensive monographs published in Palaeontographica B on specific floras or plant groups. Often palaeoclimatic or stratigraphic problems are clarified by resorting to palaeobotanical data published in Section B of Palaeontographica.
Throughout the last decades, numerous objects important to palaeophytology have been found in many places all over the world. As Palaeontographica publishes papers on floras on any parts of the world to report world-wide research, contributions in German, English and French have been published since the beginning of the journal, today English language publications are preferred.
Palaeontographica B is of interest to palaeobotanists, palynologists, palaeoclimatologists, stratigraphers and the libraries of all institutions engaging in such research.