Dramatic Pliocene–Quaternary subsidence of the southern Rhodes Basin and concomitant north-tilting and uplift of the Anaximander Mountains, the junction of Hellenic and Cyprus arcs, eastern Mediterranean Sea

A. E. Aksu*, J. Hall, C. Yaltırak

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

9 Citations (Scopus)

Abstract

The Anaximander Mountains and the Rhodes Basin at the junction of Cyprus and Hellenic arcs are one of the tectonically most complex regions in the eastern Mediterranean. Harmonically-tilted Messinian and the uppermost Messinian–Pliocene successions across the northern and eastern margins of the Rhodes Basin showed that these regions experienced dramatic subsidence exceeding ~1500–2500 ms (~1125–1875 m @ 1500 m s−1) during the upper Pliocene–Quaternary. Tilted upper Pliocene–Quaternary growth strata wedges showing apparent north-directed downlap along the northern foothills of the Anaximander Mountain suggested that this region experienced ~1000–2500 ms (~750–1125 m) concomitant uplift. The absence of faults showing extensional stratigraphic separations and the relative subsidence rates calculated using amount of tilting collectively suggest that the Rhodes Basin experienced sagging of its deeper basinal regions, which is attributable to the loading effect of the building of the Tauride Mountains modified by the vertical axis rotations of the Beydağları Block and the Island of Rhodes, and the horizontal axis rotation of the Anaximander Mountain. Messinian and uppermost Messinian–Pliocene were tectonically relatively quiet as shown by the harmonically structured and isopachous successions across the Rhodes Basin and Anaximander Mountain. This interval coincides with the paleomagnetically-determined 9° counterclockwise vertical axis rotation of the Island of Rhodes. The dramatic subsidence observed within the Rhodes Basin and the concommitant uplift of the Anaximander Mountain and its western extension occurred broadly coincident with southeast tilting of the Island of Rhodes and its associated 500–600 m subsidence between 2.5 and 1.8 Ma, the northwest tilting between 1.5 and 1.1 Ma, and the associated re-emergence of the southeastern coast. The large counterclockwise rotation of the Island of Rhodes since 0.8 Ma corresponds with the enormous subsidence observed across the northeastern sector of the Rhodes Basin, which brought the shelf-edge deltas from the near-sea level to their present-day depth of 1200–1500 m.

Original languageEnglish
Pages (from-to)121-143
Number of pages23
JournalTectonophysics
Volume762
DOIs
Publication statusPublished - 5 Jul 2019

Bibliographical note

Publisher Copyright:
© 2019 Elsevier B.V.

Funding

We thank the officers and crew of the RV Koca Piri Reis of the Institute of Marine Sciences and Technology, Dokuz Eylül University, for their assistance in data acquisition, in particular the former Captain Kemal Dursun and the former Chief Engineer Ömer Çubuk, without whom we could not have acquired the seismic reflection data. Special thanks are extended to the Turkish Petroleum Corporation for kindly providing copies of their multichannel seismic profiles and well information. We acknowledge (a) research and ship-time funds from the Natural Sciences and Engineering Research Council of Canada (NSERC), (b) research and ship-time funds from the Turkish Scientific Research Council , (c) travel funds from the Dean of Science, Memorial University of Newfoundland , and (d) a special grant from the VP Research, Memorial University of Newfoundland . We thank Savaş Gürçay and Günay Çifçi of the Dokuz Eylül University for their assistance during the acquisition of the 2007 and 2010 multichannel seismic reflection profiles. Seismic data were processed at Memorial University of Newfoundland, using the ProMAX software donated by Landmark Graphics. Assistance with data processing was provided by Sharon Deemer, and during thesis studies at Memorial University of Newfoundland by Iştar Işler, Deanne Duff, Grant Lethbridge, Michelle Martin, Roger Walters, Mark Colbourne, Chelsea Squires, Kyle Foley, Jennifer Cunningham, Matthew Baird, Ezgi Çınar, Julie Halliday, Jennifer Cranshaw and Pınar Güneş.

FundersFunder number
Dean of Science, Memorial University of Newfoundland
Turkish Scientific Research Council
Natural Sciences and Engineering Research Council of Canada
Memorial University of Newfoundland

    Keywords

    • Anaximander Mountain
    • Eastern Mediterranean
    • Rhode Basin
    • Sırrı Erinç Plateau
    • Subsidence
    • Uplift

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