Biometric analyses of Discorhabdus coccoliths were performed on a set of 29 samples taken from the marl/limestone couplets of the reference section of Cabo Mondego (Lusitanian Basin, west Portugal), Late Aalenian to Early Bajocian in age. Mixture analysis performed on the whole dataset revealed a bimodal length size distribution for the Discorhabus pool composed of D. Arians and D. ignotus. The size limit at 51 mu m proposed here can be reliably used to distinguish both populations, but optical characteristics, namely birefringence, form an additional criterion essential to discriminate the two species. An increase in Discorhabdus size occurred from the Late Aalenian to the Early Bajocian, clue to a raise in size of the whole Discorhabdus pool and in the abundance of D. striatus. We propose that an increase in Discorhabdus size upward in the section is associated with a positive trend in paleoproductivity as supported by the increase of nannofossil accumulation rates as well as the delta C-13 values of bulk carbonates sampled in the Cabo Mondego section. However, the Discorhabdus size pattern may also represent a response to sea-surface temperature, salinity or an evolutionary trend. A relative supra-regional warming of sea-surface water masses is suggested by delta O-18 values of biogenic carbonates and apatites that were sampled in several Mediterranean Tethyan settings. Rise of sea-surface temperature may have triggered an increase in the abundances of D. striatus as well as of the size of the Discorhabdus pool. A hypothetical influence of changing sea-surface salinity on Discorhabdus size or species-specific Discorhabdus abundances is not supported by our micropaleontological data or by available geochemical data. Our results also reveal that the increase in Discorhabdus size matches the history of calcareous nannofossil turnover (radiation, diversity and increasing abundances) during the Middle Jurassic.

• 出版日期2012-10