Research press release


Nature Geoscience

Three hundred million years under the sea



Roi Granotは今回、磁気データを用いてヘロドトス海盆の地殻構造を解析し、岩石には、大洋中央海嶺で形成された海洋地殻の証明となる磁気縞模様の特徴が見られることを見つけた。大洋中央海嶺軸でマグマが冷えると、新しく形成された岩石中の磁性鉱物は地球磁場の方向に並ぶ。時間と共に磁場の方向が変化することは海底に記録され、地殻が形成された時刻を記録した独特のバーコードを生成する。この原理を用い、磁気縞模様が斜めのパターンを持つことから、著者はヘロドトス海盆の海洋地殻は3億4千万年前の年代を持つ可能性があることを示した。


The eastern Mediterranean Sea contains the world's oldest oceanic crust still in place at the bottom of the ocean, reports a paper published online in Nature Geoscience this week.

The high density of oceanic crust causes it to be recycled back into Earth's mantle relatively rapidly at subduction zones, meaning most oceanic crust is less than 200 million years old. Although an older remnant of crust may be preserved in the Herodotus Basin of the eastern Mediterranean Sea, that area is covered by thick sediments, making it unclear precisely how old the crust is and whether it is even oceanic at all.

Roi Granot uses magnetic data to analyse the structure of the crust in the Herodotus Basin, and finds that the rocks are characterized by magnetic stripes - the hallmark of oceanic crust formed at a mid-ocean ridge. As magma at a mid-ocean ridge axis cools, magnetic minerals in the newly forming rocks align with the direction of Earth's magnetic field. Changes in the magnetic field's orientation over time are recorded in the ocean floors, creating a unique barcode that provides a time stamp for crust formation. By using this principle and identifying skewed patterns in the magnetic stripes, the author shows that the oceanic crust in the Herodotus Basin could be as much as 340 million years old.

He suggests that the crust might be a remnant of the ancient Tethys Ocean, which existed long before the Atlantic and Indian Oceans. If correct, this implies the ocean formed much earlier than previously thought.

doi: 10.1038/ngeo2784


メールマガジンリストの「Nature 関連誌今週のハイライト」にチェックをいれていただきますと、毎週各ジャーナルからの最新の「注目のハイライト」をまとめて皆様にお届けいたします。