The current version of the tree is available at
https://tree.opentreeoflife.org
https://tree.opentreeoflife.org
‘Tree of life’ for 2.3 million species released
A first draft of the "tree of life" for the roughly 2.3 million named species of animals, plants, fungi and microbes — from platypuses to puffballs — has been released.
A collaborative effort among 11 institutions, the tree depicts the relationships among living things as they diverged from one another over time, tracing back to the beginning of life on Earth more than 3.5 billion years ago.
Tens of thousands of smaller trees have been published over the years for select branches of the tree of life - some containing upwards of 100,000 species - but this is the first time those results have been combined into a single tree that encompasses all of life. The end result is a digital resource available free online for anyone to use or edit, much like a 'Wikipedia' for evolutionary trees.
"This is the first real attempt to connect the dots and put it all together," said principal investigator Karen Cranston of Duke University. "Think of it as Version 1.0."
Evolutionary trees, branching diagrams that often look like a cross between a candelabra and a subway map, aren't just for figuring out whether aardvarks are more closely related to moles or manatees, or pinpointing a slime mold's closest cousins.
Understanding how the millions of species on Earth are related to one another helps scientists discover new drugs, increase crop and livestock yields, and trace the origins and spread of diseases such as HIV, Ebola and influenza.
Rather than build the tree from scratch, the researchers pieced it together by compiling thousands of smaller chunks that had already been published online and merging them together into a gigantic "supertree" that encompasses all named species. The initial draft is based on nearly 500 smaller trees.
To map trees from different sources to the branches and twigs of a single supertree, one of the biggest challenges was simply accounting for the name changes, alternate names, common misspellings and abbreviations for each species. Only a tiny fraction of published trees are digitally available.
To help fill in the gaps, the team is also developing software that will enable researchers to log on and update and revise the tree as new data come in for the millions of species still being named or discovered.
"It's by no means finished," Cranston said. "It's important to share data for already-published and newly-published work if we want to improve the tree." - PMB
A collaborative effort among 11 institutions, the tree depicts the relationships among living things as they diverged from one another over time, tracing back to the beginning of life on Earth more than 3.5 billion years ago.
Tens of thousands of smaller trees have been published over the years for select branches of the tree of life - some containing upwards of 100,000 species - but this is the first time those results have been combined into a single tree that encompasses all of life. The end result is a digital resource available free online for anyone to use or edit, much like a 'Wikipedia' for evolutionary trees.
"This is the first real attempt to connect the dots and put it all together," said principal investigator Karen Cranston of Duke University. "Think of it as Version 1.0."
Evolutionary trees, branching diagrams that often look like a cross between a candelabra and a subway map, aren't just for figuring out whether aardvarks are more closely related to moles or manatees, or pinpointing a slime mold's closest cousins.
Understanding how the millions of species on Earth are related to one another helps scientists discover new drugs, increase crop and livestock yields, and trace the origins and spread of diseases such as HIV, Ebola and influenza.
Rather than build the tree from scratch, the researchers pieced it together by compiling thousands of smaller chunks that had already been published online and merging them together into a gigantic "supertree" that encompasses all named species. The initial draft is based on nearly 500 smaller trees.
To map trees from different sources to the branches and twigs of a single supertree, one of the biggest challenges was simply accounting for the name changes, alternate names, common misspellings and abbreviations for each species. Only a tiny fraction of published trees are digitally available.
To help fill in the gaps, the team is also developing software that will enable researchers to log on and update and revise the tree as new data come in for the millions of species still being named or discovered.
"It's by no means finished," Cranston said. "It's important to share data for already-published and newly-published work if we want to improve the tree." - PMB
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