From Schmidt Ocean Institute: “Charting Earth’s Submerged Microcontinents”

From Schmidt Ocean Institute


My name is Luca Magri. I am from Italy and currently a PhD student studying geophysics at the Institute for Marine and Antarctic Studies at the University of Tasmania(AU). My research focuses on reconstructing the plate tectonic history of a section of the south-eastern Indian Ocean by analyzing geophysical data, such as multichannel seismic reflection, gravity, and magnetics, collected during a research voyage last year in early 2020.

Luca standing multibeam watch in the Science Control room. Credit: Francisco Gelves-Gómez.

In particular, I am studying unique seafloor features – the submarine ridges that reveal the geological processes involved in microcontinent formation. These microcontinents are isolated pieces of continental crust, detached from a continent and surrounded by oceanic crust (Scrutton 1976 [Microcontinents and their Significance]).

I was given the opportunity to be part of the science party on the R/V Falkor “Seafloor to Seabirds” voyage by one of my PhD supervisors and the current Chief Scientist, Dr Derya Gürer. On this voyage, we are investigating the geologic processes of microcontinent formation by collecting geophysical data. Specifically we are exploring the formation of the Coral and Tasman Sea Basins by studying the now extinct and enigmatic mid-ocean ridges. As part of my PhD, I will compare this region to my previous case study in the southern Indian Ocean.

Conceptual models of microcontinent formation at active margins (subduction model, Coral Sea case) and at passive margins (mantle plume model).

I am interested in how continents break-up and disperse. The separation of continental fragments from the main continent can occur at both passive and active continental margins. Active continental margins are where tectonic plates converge or subduct (such as along the Ring of Fire), or move parallel to each other in opposite directions called a transform fault (like the San Andreas Fault in California). Passive continental margins are located away from plate tectonic boundaries and in these areas microcontinents are formed through the rise of a mantle plume (Müller et al. 2001 [Journal of Geophysical Research: Solid Earth]).

Based on current geological data, it is postulated that a subduction system under northeast Australia may have influenced microcontinent formation in the Coral Sea during the Cretaceous ( ~100 million years ago) (Broek and Gaina 2020 [Tectonics]). As the subsiding plate was increasing its angle of subduction under the Australian plate, the upper plate started stretching. It formed new oceanic crust that resulted in the opening of the Coral Sea and the isolation of the Mellish Rise; Louisiade; Papuan; and Kenn plateaus.

Aboard Falkor, we are able to study the ancient signatures of subduction, rifting, and mantle plumes, using the multibeam to identify different shapes and features and the magnetometer to measure the magnetic intensity of the ocean floor. We are currently investigating the Kenn Plateau, a microcontinent that makes up part of Zealandia (New Zealand). We hope our new detailed seafloor maps of microcontinents will allow us to contribute new pieces to the complex puzzle of this part of the planet and put submerged parts of Earth’s hidden continent Zealandia on the map.

See the full article here.


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Schmidt Ocean Institute RV Falkor

Schmidt Ocean Institute ROV Subastian

Schmidt Ocean Institute is a 501(c)(3) private non-profit operating foundation established in March 2009 to advance oceanographic research, discovery, and knowledge, and catalyze sharing of information about the oceans.

Since the Earth’s oceans are a critically endangered and least understood part of the environment, the Institute dedicates its efforts to their comprehensive understanding across intentionally broad scope of research objectives.

Eric and Wendy Schmidt established Schmidt Ocean Institute in 2009 as a seagoing research facility operator, to support oceanographic research and technology development focusing on accelerating the pace in ocean sciences with operational, technological, and informational innovations. The Institute is devoted to the inspirational vision of our Founders that the advancement of technology and open sharing of information will remain crucial to expanding the understanding of the world’s oceans.