Preservation of ephemeral microbial fabrics: late Messinian filamentous dendrolites from the Salento Peninsula (central Mediterranean)
Articolo
Data di Pubblicazione:
2026
Citazione:
Preservation of ephemeral microbial fabrics: late Messinian filamentous dendrolites from the Salento Peninsula (central Mediterranean) / Vescogni, Alessandro; Guido, Adriano. - In: PALAEOGEOGRAPHY PALAEOCLIMATOLOGY PALAEOECOLOGY. - ISSN 0031-0182. - 689:(2026), pp. 1-19. [10.1016/j.palaeo.2026.113668]
Abstract:
During the late Messinian, the Mediterranean Sea underwent the “Messinian Salinity Crisis,” a major event that
shifted carbonate platforms from coral-dominated to microbialite-dominated systems. While upper Messinian
microbial carbonates are well documented in the western Mediterranean, new findings from the central basin,
particularly the Salento Peninsula, provide fresh insights into their diversity and evolution. This study focuses on
enigmatic carbonate fabrics (ECF) from Salento, previously tentatively identified as dendrolites. A multidisciplinary
approach, combining field observations, microscopic fabric analysis, and biogeochemical techniques
(UV-epifluorescence and SEM/EDS), was applied to investigate their nature and palaeoenvironment. The Salento
ECF consist of fan-like, lobate structures forming vertically elongated aggregates a few centimeters tall, with
microstructures containing organic-derived micritic clots and filamentous remains consistent with cyanobacterial
microfabrics. These features support their identification as filamentous dendrolites, comparable to modern
analogues from Hamelin Pool, western Australia. Stratigraphic and facies analyses suggest they formed in a
lagoonal environment, very shallow and with fluctuating conditions, influenced by unstable connections to the
open sea. In particular, although strongly affected by reworking, the sedimentary textures and bioclastic assemblages
associated with the dendrolites indicate a phase of warm, moderate-energy waters with near-normal
marine chemistry. Unlike modern examples, which show minimal or no mineralization, the Messinian dendrolites
display a well-cemented, originally aragonitic microfabric, potentially linked to elevated carbonate
saturation or to specific microbial assemblages that facilitated their preservation. These findings represent the
first fossil record of filamentous dendrolites and highlight the Messinian Mediterranean carbonate factories as a
key archive for microbialite research.
shifted carbonate platforms from coral-dominated to microbialite-dominated systems. While upper Messinian
microbial carbonates are well documented in the western Mediterranean, new findings from the central basin,
particularly the Salento Peninsula, provide fresh insights into their diversity and evolution. This study focuses on
enigmatic carbonate fabrics (ECF) from Salento, previously tentatively identified as dendrolites. A multidisciplinary
approach, combining field observations, microscopic fabric analysis, and biogeochemical techniques
(UV-epifluorescence and SEM/EDS), was applied to investigate their nature and palaeoenvironment. The Salento
ECF consist of fan-like, lobate structures forming vertically elongated aggregates a few centimeters tall, with
microstructures containing organic-derived micritic clots and filamentous remains consistent with cyanobacterial
microfabrics. These features support their identification as filamentous dendrolites, comparable to modern
analogues from Hamelin Pool, western Australia. Stratigraphic and facies analyses suggest they formed in a
lagoonal environment, very shallow and with fluctuating conditions, influenced by unstable connections to the
open sea. In particular, although strongly affected by reworking, the sedimentary textures and bioclastic assemblages
associated with the dendrolites indicate a phase of warm, moderate-energy waters with near-normal
marine chemistry. Unlike modern examples, which show minimal or no mineralization, the Messinian dendrolites
display a well-cemented, originally aragonitic microfabric, potentially linked to elevated carbonate
saturation or to specific microbial assemblages that facilitated their preservation. These findings represent the
first fossil record of filamentous dendrolites and highlight the Messinian Mediterranean carbonate factories as a
key archive for microbialite research.
Tipologia CRIS:
Articolo su rivista
Elenco autori:
Vescogni, Alessandro; Guido, Adriano
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