Soft threshold shown - WaterCareer

CareerSpot Login

26 July 2023

Print

Print

Archived News

RSS More »

March 2024 (33)

February 2024 (33)

January 2024 (24)

December 2023 (16)

November 2023 (39)

October 2023 (39)

+ 2023

– September 2023 (32)

– August 2023 (44)

– July 2023 (37)

– June 2023 (35)

– May 2023 (41)

– April 2023 (37)

– March 2023 (40)

– February 2023 (35)

– January 2023 (23)

+ 2022

– December 2022 (16)

– November 2022 (41)

– October 2022 (32)

– September 2022 (33)

– August 2022 (42)

– July 2022 (36)

– June 2022 (40)

– May 2022 (32)

– April 2022 (35)

– March 2022 (41)

– February 2022 (35)

– January 2022 (19)

+ 2021

– December 2021 (23)

– November 2021 (34)

– October 2021 (34)

– September 2021 (41)

– August 2021 (33)

– July 2021 (34)

– June 2021 (42)

– May 2021 (35)

– April 2021 (32)

– March 2021 (40)

– February 2021 (31)

– January 2021 (26)

+ 2020

– December 2020 (22)

– November 2020 (37)

– October 2020 (33)

– September 2020 (43)

– August 2020 (34)

– July 2020 (39)

– June 2020 (33)

– May 2020 (32)

– April 2020 (38)

– March 2020 (36)

– February 2020 (31)

– January 2020 (22)

+ 2019

– December 2019 (24)

– November 2019 (34)

– October 2019 (39)

– September 2019 (36)

– August 2019 (32)

– July 2019 (40)

– June 2019 (32)

– May 2019 (40)

– April 2019 (34)

– March 2019 (33)

– February 2019 (35)

– January 2019 (33)

+ 2018

– December 2018 (27)

– November 2018 (33)

– October 2018 (41)

– September 2018 (31)

– August 2018 (41)

– July 2018 (33)

– June 2018 (34)

– May 2018 (39)

– April 2018 (33)

– March 2018 (35)

– February 2018 (32)

– January 2018 (33)

+ 2017

– December 2017 (17)

– November 2017 (33)

– October 2017 (41)

– September 2017 (34)

– August 2017 (41)

– July 2017 (33)

– June 2017 (32)

– May 2017 (40)

– April 2017 (33)

– March 2017 (37)

– February 2017 (35)

– January 2017 (26)

+ 2016

– December 2016 (17)

– November 2016 (38)

– October 2016 (33)

– September 2016 (34)

– August 2016 (40)

– July 2016 (32)

– June 2016 (38)

– May 2016 (35)

– April 2016 (33)

– March 2016 (40)

– February 2016 (32)

– January 2016 (25)

+ 2015

– December 2015 (26)

– November 2015 (33)

– October 2015 (32)

– September 2015 (40)

– August 2015 (32)

– July 2015 (40)

– June 2015 (34)

– May 2015 (32)

– April 2015 (44)

– March 2015 (33)

– February 2015 (34)

– January 2015 (22)

+ 2014

– December 2014 (25)

– November 2014 (31)

– October 2014 (41)

– September 2014 (32)

– August 2014 (34)

– July 2014 (40)

– June 2014 (33)

– May 2014 (34)

– April 2014 (40)

– March 2014 (30)

– February 2014 (39)

– January 2014 (29)

+ 2013

– December 2013 (24)

– November 2013 (39)

– October 2013 (47)

– September 2013 (38)

– August 2013 (44)

– July 2013 (43)

– June 2013 (31)

– May 2013 (34)

– April 2013 (24)

– March 2013 (31)

– February 2013 (25)

– January 2013 (13)

+ 2012

– December 2012 (10)

– November 2012 (44)

– October 2012 (39)

– September 2012 (29)

– August 2012 (36)

– July 2012 (40)

– June 2012 (42)

– May 2012 (42)

– April 2012 (25)

– March 2012 (34)

– February 2012 (38)

– January 2012 (20)

+ 2011

– December 2011 (21)

– November 2011 (35)

– October 2011 (34)

– September 2011 (29)

– August 2011 (34)

– July 2011 (31)

– June 2011 (31)

– May 2011 (40)

– April 2011 (31)

– March 2011 (26)

– February 2011 (16)

– January 2011 (4)

Life in the deep sea may not be as sparse as once believed.

International researchers have stunned the scientific world with a remarkable discovery deep beneath the ocean waves.

Contrary to expectations, the number of animal species dwelling near the deep sea's bottom remains consistent with depth, defying conventional wisdom about this mysterious ecosystem.

But there is a twist - a clear boundary at 4.5km brings about a shift in the sea creature cast.

Shells are stars above, while deeper zones see the rise of soft-bodied celebrities like anemones, glass sponges, and sea cucumbers.

The abyssal zone, covering a whopping 60 per cent of Earth's surface, has long been the least explored habitat, hiding between 3 and 6 km below the surface where sunlight cannot venture.

Temperatures are icy cold, pressure is crushing, and only the fittest survive. It's believed to hold fewer species compared to shallower waters, but the secret of how biodiversity changes within this enigmatic abyss remains elusive.

But Erik Simon-Lledó and a group of intrepid scientists have plunged into the depths armed with data from over 50,000 megafauna living near the seabed.

Their 12 deep-sea expeditions in the Pacific Ocean's Clarion-Clipperton Zone revealed a sensational revelation: two distinct deep-sea communities.

Between 3.8 and 4.3km lies a shallow abyssal zone ruled by soft corals, brittle stars, and shelled molluscs. Deeper down, between 4.8 and 5.3km, the stage transforms, and a new cast emerges - showcasing the talents of anemones, glass sponges, and sea cucumbers in all their soft-bodied glory.

The transition zone between these depths, a wild mix of the two communities, keeps the biodiversity party going strong.

The big reveal lies in the carbonate compensation depth: the moment seawater becomes calcium carbonate-deprived, leaving no room for the construction of animal shells.

But the newfound wonders face an uncertain future.

Climate change and ocean acidification, along with the looming threat of deep-sea mining, cast shadows on this delicate ecosystem.

As they ponder this underwater spectacle, researchers hope the world can preserve this captivating show for generations to come.

The full study is accessible here.