Friday, July 1, 2022

New DNA Technology Is Shaking Up The Branches of The Evolutionary Tree


A short comment here.... My Christian heritage was devoid of evolutionary studies. Occasionally I will place biological, geological, and astronomical evolutionary articles into Relevancy22 to help those new to Whiteheadian/Cobb Process Philosophy and Theology understand that it will always accept and embrace academic studies as being current with the best of the sciences rather than shy away from them.

For Process Christians there is every need to incorporate science into Process thought. They each need the other in order to progress further into the areas of their own respective studies... as well as importantly resting together in mutually symbiotic relationships with one another as relevant interdisciplinary studies with one another.

As example, as quantum technology explores artificial intelligence, sentient consciousness, nanotechnology, and the algorithmic processes available to quantum computing, process thought can help open up quantum processing into its own right without any need or reliance upon its past Binary/Boolean/Silicon self-history. Amazingly, such process-based quantum  computer-processing / A.I. studies have been pursued as early as the 1960s (cf. Tim Eastman's, The Gordian Knot series)

Similarly, process thought can provide direction into all areas of scientific inquiry: from cosmo-ecological societies, psychological/sociological speculations, neurobiology, even education and socio-political eco-economies. Process Philosophy/Theology is not only a philosophical/theological study in its own right but applicable into all areas of human study.

R.E. Slater
July 1, 2022


Ernst Haeckel's 'tree of life' sketch | Click to Enlarge


New DNA Technology Is Shaking Up The
Branches of The Evolutionary Tree

by Matthew Wills, The Conversation
June 25, 2022


If you look different to your close relatives, you may have felt separate from your family. As a child, during particularly stormy fall outs you might have even hoped it was a sign that you were adopted.

As our new research shows, appearances can be deceptive when it comes to family. New DNA technology is shaking up the family trees of many plants and animals.

The primates, to which humans belong, were once thought to be close relatives of bats because of some similarities in our skeletons and brains. However, DNA data now places us in a group that includes rodents (rats and mice) and rabbits. Astonishingly, bats turn out to be more closely related to cows, horses, and even rhinoceroses than they are to us.

Scientists in Darwin's time and through most of the 20th century could only work out the branches of the evolutionary tree of life by looking at the structure and appearance of animals and plants. Life forms were grouped according to similarities thought to have evolved together.

About three decades ago, scientists started using DNA data to build "molecular trees". Many of the first trees based on DNA data were at odds with the classical ones.

Sloths and anteaters, armadillos, pangolins (scaly anteaters), and aardvarks were once thought to belong together in a group called edentates ("no teeth"), since they share aspects of their anatomy.

Molecular trees showed that these traits evolved independently in different branches of the mammal tree. It turns out that aardvarks are more closely related to elephants while pangolins are more closely related to cats and dogs.

Coming together

There is another important line of evidence that was familiar to Darwin and his contemporaries. Darwin noted that animals and plants that appeared to share the closest common ancestry were often found close together geographically. The location of species is another strong indicator they are related: species that live near each other are more likely to share a family tree.

For the first time, our recent paper cross-referenced location, DNA data, and appearance for a range of animals and plants. We looked at evolutionary trees based on appearance or on molecules for 48 groups of animals and plants, including bats, dogs, monkeys, lizards, and pine trees.

Evolutionary trees based on DNA data were two-thirds more likely to match with the location of the species compared with traditional evolution maps. In other words, previous trees showed several species were related based on appearance.

Our research showed they were far less likely to live near each other compared to species linked by DNA data.

It may appear that evolution endlessly invents new solutions, almost without limits. But it has fewer tricks up its sleeve than you might think.

Animals can look amazingly alike because they have evolved to do a similar job or live in a similar way. Birds, bats and the extinct pterosaurs have, or had, bony wings for flying, but their ancestors all had front legs for walking on the ground instead.


(Oyston et al., Communication Biology, 2022)

Above: The color wheels and key indicate where members of each order are found geographically. The molecular tree has these colors grouped together better than the morphological tree, indicating closer agreement of the molecules to biogeography.

Similar wing shapes and muscles evolved in different groups because the physics of generating thrust and lift in air are always the same. It is much the same with eyes, which may have evolved 40 times in animals, and with only a few basic "designs".

Our eyes are similar to squid's eyes, with a crystalline lens, iris, retina, and visual pigments. Squid are more closely related to snails, slugs, and clams than us. But many of their mollusk relatives have only the simplest of eyes.

Moles evolved as blind, burrowing creatures at least four times, on different continents, on different branches of the mammal tree. The Australian marsupial pouched moles (more closely related to kangaroos), African golden moles (more closely related to aardvarks), African mole rats (rodents), and the Eurasian and North American talpid moles (beloved of gardeners, and more closely related to hedgehogs than these other "moles") all evolved down a similar path.

Evolution's roots

Until the advent of cheap and efficient gene sequencing technology in the 21st century, appearance was usually all evolutionary biologists had to go on.

While Darwin (1859) showed that all life on Earth is related in a single evolutionary tree, he did little to map out its branches. The anatomist Ernst Haeckel (1834-1919) was one of the first people to draw evolutionary trees that tried to show how major groups of life forms are related.

Haeckel's drawings (shown at the top) made brilliant observations of living things that influenced art and design in the 19th and 20th centuries. His family trees were based almost entirely on how those organisms looked and developed as embryos. Many of his ideas about evolutionary relationships were held until recently.

As it becomes easier and cheaper to obtain and analyze large volumes of molecular data, there will be many more surprises in store.

Matthew Wills, Professor of Evolutionary Palaeobiology at the Milner Centre for Evolution, University of Bath.

This article is republished from The Conversation under a Creative Commons license. Read the original article.

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For further reference:

The Tree of Life: Tangled Roots and Sexy Shoots

"Tracing the genetic pathway from the last universal
common ancestor to Homo Sapiens"

by Chris King

Dec 2009-Feb 2022
Genotype: 1.5.32