Abstract
Abstract. Integrated analyses of multiple groups of microfossils are frequently performed to unravel the palaeoenvironmental evolution of subsurface coastal successions, where the complex interaction among several palaeoecological factors can be detected with benthic assemblages. This work investigates the palaeoenvironmental resolution potential provided by benthic foraminifera and ostracoda within a Pleistocene lagoonal succession of the Romagna coastal plain (northern Italy). Quantitative approaches and statistical techniques have been applied to both groups in order to understand the main factors that controlled the composition of assemblages and compare the palaeoecological record provided by single fossil groups. The two faunal groups are characterized by the high dominance of opportunistic species (Ammonia tepida–Ammonia parkinsoniana and Cyprideis torosa); however, detailed palaeoecological information is inferred from less common taxa. Benthic foraminiferal assemblages are mainly determined by the frequencies of abnormal individuals and species related to high concentrations of organic matter, showing two assemblages: a stressed assemblage, consistent with a brackish-water environment subject to salinity and oxygen fluctuations, and an unstressed assemblage, which indicates more stable conditions. Despite the lower number of species, ostracoda show more significant differences in terms of species composition and ecological structure between their three assemblages, formed in response to a salinity gradient and indicative of inner, central, and outer lagoon conditions. The stratigraphic distribution of ostracod assemblages shows a general transgressive–regressive trend with minor fluctuations, whereas benthic foraminifera highlight the presence of a significant palaeoenvironmental stress. In this case, the higher abundance along the stratigraphic succession, the higher differentiation of the assemblages, and the well-defined relationship between taxa and ecological parameters determine Ostracoda as the most reliable fossil group for precise palaeoenvironmental reconstructions. Nevertheless, benthic foraminifera indicate palaeoenvironmental stress and can be used to refine the environmental interpretation in the presence of monospecific ostracod assemblages.
Highlights
The use of microfossils as palaeoenvironmental proxies is quite common in geological studies since they are sensitive to a great number of ecological factors
The high morphological variability shown by Elphidiidae and Ammonia specimens allowed the identification of several taxa, which are described in detail in the taxonomic section (Appendix A) and depicted in Plates 1 and 2
Both assemblages are dominated by euryhaline taxa, such as A. parkinsoniana, A. tepida, and H. germanica, which suggest the development of a brackish lagoon environment
Summary
The use of microfossils as palaeoenvironmental proxies is quite common in geological studies since they are sensitive to a great number of ecological factors. Benthic foraminifera and Ostracoda are widely applied for stratigraphic and palaeoecological purposes since both of them have (i) an extremely wide distribution, from continental water bodies to the deep ocean; (ii) a short reproductive cycle that allows them to react quickly to environmental changes; and (iii) a hard shell that guarantees a high preservation potential in sediments (Murray, 2006; Rodriguez-Lazaro and RuizMuñoz, 2012). These characteristics make them suitable for ecological studies in modern environments, especially in the paralic realm, where benthic foraminifera and ostracoda are abundant.
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