Stratigraphic expression of the human impacts in condensed deposits of the Northern Adriatic Sea

Author(s)
Michaela Berensmeier, Adam Tomašových, Rafał Nawrot, Daniele Cassin, Roberto Zonta, Ivana Koubová, Martin Zuschin
Abstract

Evaluating the history of human impacts on marine ecosystems based on sediment cores is challeng-ing on shelves characterized by very slow sedimentation. To assess the stratigraphic expression of such impacts in the condensed deposits of an epicontinental sea, we analysed a 3 m-long core collected at 31 m water depth off the Po prodelta in the Northern Adriatic Sea by integrating geochronological (

14 C and

210 Pb), sedimento-logical, geochemical and palaeontological proxies. A depositional history of the last 10 000 years is expressed in four different facies: (1) alluvial floodplain, (2) transitional, shell-poor silts, (3) a condensed 30 cm-thick shell lag, and (4) a 10 cm-thick layer of distal prodelta silts comprising the last c. 500 years. 10 000-year-old shells of Lentidium mediterraneum spread over the shell lag and prodelta sediments document onshore transport during the early Holocene sea-level rise. Varicorbula gibba shells are age-homogeneous within the subsurface shell lag, documenting decimetre-scale mixing by bioturbation in the past. However, in spite of low sedimentation rates, the organic and heavy metal enrichment, the increase in proportional abundance of benthic foraminifers preferring organic-rich sediments (Nonionella sp.), and the increase in size of molluscs (V. gibba) in the upper 10 cm formed by prodelta silts still detect the eutrophication in this region during the twentieth century. These eutrophication proxies are preserved in the stratigraphic record owing to temporarily increasing sedimentation rate and decreasing mixing depth.

Organisation(s)
Department of Palaeontology
External organisation(s)
Slovak Academy of Sciences (SAS), Institute of Marine Sciences (ISMAR)
Volume
529
Pages
195-222
No. of pages
28
DOI
https://doi.org/10.1144/SP529-2022-188
Publication date
2023
Peer reviewed
Yes
Austrian Fields of Science 2012
105121 Sedimentology, 105123 Stratigraphy, 105118 Palaeontology
ASJC Scopus subject areas
Water Science and Technology, Ocean Engineering, Geology
Portal url
https://ucrisportal.univie.ac.at/en/publications/772877f2-2251-4778-997d-f7a151abb27b