ecosystem importance: new single cell organism import (Introduction)

by David Turell , Sunday, October 02, 2022, 16:40 (781 days ago) @ David Turell

Just discovered:

https://phys.org/news/2022-10-discovery-microscopic-species-tree-life.html

"Scientists have discovered several very rare species of microorganisms, some of which have never been seen before and others which have escaped the curious eyes of scientists for over a hundred years.

"The discovery of these elusive species, published in the scientific journal PROTIST, was made by an unconventional duo who never met in person; Professor Genoveva Esteban of Bournemouth University and James Weiss, an independent scientist operating in his private lab in Warsaw, Poland, with his two cats.

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"Microorganisms are made up of only one cell and are at the bottom of the food chain. They live all around us and can be found in any habitat, from small puddles to vast oceans; there is still a great deal to discover about them.

"'Biodiversity at a microscopic level is not as widely understood as other areas of nature, despite the fact that whole ecosystems depend on it," explained Professor Esteban.

"'Some of these species are completely new and others have not been seen for over a century. We documented many curious behaviours on them and carried out DNA analysis of them for the first time.

"'This means we can understand more about their relationships with other microbes and find new branches for them on the tree of life," Professor Esteban continued.

The very rare and new microorganisms include Legendrea loyezae.

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"They have also discovered, a new Lacerus, meaning "having irregular edges" due to serrated appearance of the cell edges, as well as a new Apertospathula, meaning "ventral mouth opening".

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"'Most organisms on the tree of life are microscopic. In fact, most life on Earth has always been microscopic. Microorganisms were the first predators on Earth, their greedy appetites were one of the leading factors of the evolution of more complex life in the early ages of Earth," Weiss explained.

"'As prey developed better defences, predators needed to develop better ways of catching them. After the evolution of multicellular, complex life they became the main food source for others such as krill and plankton, which in turn are food for larger species. If the organisms at the very bottom were removed, all other parts of the food chain above them would collapse too," he added. (my bold)
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"After isolating the microorganisms in each sample, they were able to study their DNA and identify those that were new to science and others which were extremely rare, and they needed a specialist. Dr. Demetra Andreou, a molecular ecologist at Bournemouth University also brought her expertise to the team."

Comment: Note my bold. It covers the Darwinist fairy tale for evolution, but it contains a kernel of truth in red. Ecosystems start at their bottom and their bottoms must survive.