The Key Role of Aptian-Albian Marine Fossils from Eastern Heilongjiang in Marine-Nonmarine Stratigraphic Correlation ()
1. Introduction
The upper Mesozoic deposits in China are mainly of nonmarine origin [1] [2] . The lack of index fossils makes it difficult to correlate precisely the nonmarine Cretaceous successions with the standard geological time scale. In particular, it is problematic to identify the nonmarine Jurassic-Cretaceous boundary [3] , and to date the well-known Jehol Biota [4] [5] . In eastern Heilongjiang in northeastern China, an upper Lower Cretaceous succession of alternately marine and nonmarine coal-bearing rocks is well-developed, comprising the Jixi Group in the west (in which component taxa of the Jehol Biota were recovered) and the Longzhaogou Group in the east [6] . Since the discovery of the first ammonite specimen in 1958 [7] , the coal-bearing beds in eastern Heilongjiang have attracted the attention of the Chinese geologists, not only because of the economic value of the coal, but also owing to the difficulties of stratigraphic correlation of the nonmarine and marine beds.
2. Marine Transgressions in Eastern Heilongjiang
The Early Cretaceous transgressions introduced marine faunas into eastern Heilongjiang, thus providing opportunities to correlate the Jixi and Longzhaogou groups. During the early Aptian transgression, the seawater advanced from the eastern continental margin through a narrow bay across the Hulin and Mishan areas to the Jixi area. The lower Aptian marine beds of the lower part of the Chengzihe Formation (Jixi Group) have yielded an Aucellina (A.) caucasica-Filosina subovalis-Thracia rotundata assemblage [8] . The contemporaneous marine Qihulin Formation (Longzhaogou Group) has yielded the following macro- and micro-faunas: 1) a low-diversity ammonite fauna dominated by Pseudohaploceras? cf. nipponicum and Pseudohaploceras peideense, with subordinate Eogaudryceras (E.) cf. yunshanense [9] ; 2) an abundant bivalve fauna containing Nuculana (Praesaccella) cf. yatsushiroensis, Filosina subovalis and Thracia rotundata [8] ; 3) a low-diversity, poorly preserved radiolarian fauna containing Archaeodictyomitra sp., Novixitus sp. and Xitus sp. [10] ; 4) a low-diversity agglutinated foraminifer fauna with Cribrostomoides nonioninoides, Haplophragmoides concavus and H. gigas minor [11] .
The upper Aptian marine deposits of the upper part of the Yunshan Formation (Longzhaogou Group) are characterized by an Aucellina (Aucellina) caucasica-A. (A.) aptiensis-Filosina subovalis-Thracia rotundata bivalve assemblage, overlain by beds containg an Aucellina (A.) cf. caucasica-A. (A.) cf. aptiensis bivalve assemblage and an Odontochitina operculata-esperopsis didaoensis dinocyst assemblage. The upper part of the Chengzihe Formation (Jixi Group) contains a marine Sinopsamobia ovalis-Filosina subovalis bivalve assemblage [8] .
The Albian marine transgression introduced dinocysts to the Muling Formation (Jixi Group), which include the endemic taxa Circulodinium cingulatum and Sentusidinium sp., and the cosmopolitan species C. attadalicum, Palaeoperidinium cretaceum and Oligosphaeridium totum [8] . A contemporaneous marine Sinopsamobia ovalis bivalve fauna has been identified in the Zhushan Formation (Longzhaogou Group).
3. Marine-Nonmarine Correlation
The marine lower part of the Chengzihe Formation can be correlated with the Qihulin Formation through the early Aptian marine transgression that brought the ammonite fauna to the Hulin and Mishan areas and the bivalve Aucellina to the Jixi area [9] . The brackish-water bivalve Sphaerioides yixianensis (= Tetoria yixianensis) and the freshwater bivalves Arguniella cf. quadrata and Arguniella cf. ventricosa from the upper Chengzihe Formation provide direct correlation with the Shahai Formation of the Jehol Group in western Liaoning [9] . The overlying Fuxin Formation of the upper part of the Jehol Group can be correlated with the Muling Formation of the upper part of the Jixi Group, through a Sphaerium bivalve fauna contained in both formations.
Acknowledgements
The study was supported by the Strategic Priority Research Program of the Chinese Academy of Sciences (XDB26000000) and the National Natural Science Foundation of China (41572006, 41688103, 41972007). This is a contribution to UNESCO-IUGS IGCP Project 679.