Nowadays, Kermadec Trench is a topic that has gained special relevance in society. For years, it has generated great interest in different areas, from politics to technology, including culture and science. Kermadec Trench has deeply impacted people's lives, their beliefs and their actions. In this article, we will explore in detail different aspects related to Kermadec Trench and its influence on our current situation. From its origin to its possible future consequences, Kermadec Trench is a topic that does not leave anyone indifferent and that deserves to be analyzed in depth.
The major geological relationships of the Kermadec Trench (violet) which extends south as a continuation of the Tonga Trench (violet) from the Osbourn Trough to the Hikurangi Trough. Blue represents ocean depths of a kilometer or so and brown shades are shallower. Land is shown in dark green and the black line delineates the continent of Zealandia.
The Kermadec Trench is one of Earth's deepest oceanic trenches, reaching a depth of 10,047 metres (32,963 ft). Formed by the subduction of the Pacific Plate under the Indo-Australian Plate, it runs parallel with and to the east of the Kermadec Ridge and island arc. The Tonga Trench marks the continuation of subduction to the north.
The Kermadec Trench has a southern continuation in the turbidite-filled Hikurangi Trough, but a series of seamounts on the Australian Plate act as a dam and prevents this turbidity from reaching the sediment-starved Kermadec Trench. Debris from a larger subducted seamount probably dammed the trench from 2 Ma to 0.5 Ma and similar events probably redirected sediments in similar ways before that.
Two oceanic plates meet at the Kermadec Trench which is located far from any larger landmass. Because of this, the Pacific Plate as well as the trench itself is only covered by c. 200 m (660 ft) of sediments. The trench is almost perfectly straight and its simple geometry is the result of the uniformity of the subducting sea-floor. This sea-floor formed at the extinct Osbourn Trough, located just north of the Louisville Seamount Chain. Abyssal hills on the subducting sea-floor are oriented perpendicular to the old spreading centre and the sea-floor is 72–80 Ma near the Louisville seamounts at the northern end and more than 100 Ma near Hikurangi Plateau at the southern end. There are no seamounts on the sea-floor near the Kermadec Trench except one sitting on the trench slope at 31°30′S176°27′W / 31.50°S 176.45°W / -31.50; -176.45 which has been dated to 54.8±1.9 Ma.
The Hikurangi Plateau formed part of the Ontong-Java-Manihiki-Hikurangilarge igneous province (LIP) during the Ontong Java Event 120 Ma. The Manihiki Plateau is currently subducting under the southern part of the Kermadec Arc but most of it has already been subducted. The LIP-arc collision occurred 250 km (160 mi) north of its present location, but oblique plate convergence has migrated the subducted plateau southward.
Fauna
In 2012, deep sea researchers discovered individuals of a species of giant amphipod at the trench's lowest depths. Unlike most amphipods, which are approximately 2.5 cm (1 inch) long, this species reaches up to 34 cm (13 inches) in length, and is milky-white.
The second-deepest fish, the hadalsnailfishNotoliparis kermadecensis, is endemic to the trench and occupies a very limited depth range, 6,472 to 7,561 m (21,234 to 24,806 ft).
A species of pearlfish, Echiodon neotes, has been caught in the Kermadec Trench at a depth of 8,200–8,300 m (26,900–27,200 ft). All other known pearlfishes live in the range 1,800–2,000 m (5,900–6,600 ft) and the presence of E. neotes at this depth remains unexplained.
Exploration
In May 2014, the Nereus, an unmanned research submarine operated by the Woods Hole Oceanographic Institution (WHOI), imploded due to high pressure at a depth of 9,990 metres while exploring the Kermadec Trench.