Showing posts with label Evolution. Show all posts
Showing posts with label Evolution. Show all posts

Sunday, November 4, 2018

Eggciting News

Regular readers will know that I like to add a little variety to the blog but never stray too far from birds. After all, birds are not just for looking at and it's doubtful that curiosity ever really killed a cat, least of all an enquiring mind, amateur or professional. 

Birds feature in many branches of science, history, art, and in recent years, studies of evolution, and the origin of birds via dinosaurs. Research in the past few decades has shown many traits once thought to define modern birds, including feathers, wishbones, brooding behaviours, avian-style lungs, and hollow skeletons evolved first in their dinosaur forebears. 

Bird eggs have been admired since ancient times for their many hues and patterns, from the turquoise-blue of the Common Starling to the blotchy browns of the Curlew. And now, a study shows the colours and markings on birds’ eggs are even older than thought. They may have graced dinosaur eggs some 150 million years ago. 

Curlew eggs 

Mini dinosaur hatching

Starling nest

Yale University. "Dinosaurs put all coloured birds' eggs in one basket, evolutionarily speaking." 

ScienceDaily. 31 October 2018. 

"According to researchers at Yale, the American Museum of Natural History, and the University of Bonn, birds inherited their egg colour from non-avian dinosaur ancestors that laid eggs in fully or partially open nests. 

Last year, molecular paleo biologist Jasmina Wiemann of Yale University published the first evidence of dinosaur egg colouration, using chemical analysis to detect two pigments—blue-green biliverdin and red-brown protoporphyrin—in the eggs of a 70-million-year-old parrot-beaked oviraptorosaur called Heyuannia from China. 

"This completely changes our understanding of how egg colours evolved," said author, Jasmina Wiemann. "For two centuries, ornithologists assumed that egg colour appeared in modern birds' eggs multiple times, independently." 

The egg colours of birds reflect characteristic preferences in nesting environments and brooding behaviours. Modern birds use only two pigments, red and blue, to create all of the various egg colours, spots, and speckles. 

Wiemann and her colleagues analysed 18 fossil dinosaur eggshell samples from around the world, using non-destructive laser micro spectroscopy to test for the presence of the two eggshell pigments. They found them in eggshells belonging to Eumaniraptoran dinosaurs, which include small, carnivorous dinosaurs such as Velociraptor. 

"We infer that egg colour co-evolved with open nesting habits in dinosaurs," Wiemann said. "Once dinosaurs started to build open nests, exposure of the eggs to visually hunting predators and even nesting parasites favoured the evolution of camouflaging egg colours, and individually recognizable patterns of spots and speckles." 

Co-author Mark Norell, the Macaulay Curator of Palaeontology at the American Museum of Natural History, noted that "Coloured eggs have been considered a unique bird characteristic for over a century. Like feathers and wishbones, we now know that egg colour evolved in their dinosaur predecessors long before birds appeared."  

Eggs of British Birds - Seebohm - 1896

Now never let it be said that Another Bird Blog doesn't offer its readers food for thought.

Back soon with more birds and things.

In the meantime, linking with Stewart's World Bird Wednesday.


Sunday, October 21, 2018

Extinct? Who Cares?

“The sixth mass extinction is under way, this time caused by humans. A team of researchers have calculated that species are dying out so quickly that nature's built-in defence mechanism, evolution, cannot keep up. If current conservation efforts are not improved, so many mammal species will become extinct during the next five decades that nature will need 3-5 million years to recover to current biodiversity levels. And that's a best-case scenario.” 

Date: October 15, 2018 

Source: Aarhus University 

"There have been five upheavals over the past 450 million years when the environment on our planet has changed so dramatically that the majority of Earth's plant and animal species became extinct. After each mass extinction, evolution has slowly filled in the gaps with new species. 

The sixth mass extinction is happening now, but this time the extinctions are not being caused by natural disasters; they are the work of humans.  A team of researchers from Aarhus University and the University of Gothenburg has calculated that the extinctions are moving too rapidly for evolution to keep up. 

If mammals diversify at their normal rates, it will still take them 5-7 million years to restore biodiversity to its level before modern humans evolved, and 3-5 million years just to reach current biodiversity levels, according to the analysis, which was published recently in the scientific journal, PNAS." 

Some species are more distinct than others 

"The researchers used their extensive database of mammals, which includes not only species that still exist, but also the hundreds of species that lived in the recent past and became extinct as Homo sapiens spread across the globe. This meant that the researchers could study the full impact of our species on other mammals. 

However, not all species have the same significance. Some extinct animals, such as the Australian leopard-like marsupial lion Thylacoleo, or the strange South American Macrauchenia (imagine a lama with an elephant trunk) were evolutionary distinct lineages and had only few close relatives. When these animals became extinct, they took whole branches of the evolutionary tree of life with them. We not only lost these species, we also lost the unique ecological functions and the millions of years of evolutionary history they represented. 

"Large mammals, or megafauna, such as giant sloths and sabre-toothed tigers, which became extinct about 10,000 years ago, were highly evolutionarily distinct. Since they had few close relatives, their extinctions meant that entire branches of Earth's evolutionary tree were chopped off" says palaeontologist Matt Davis from Aarhus University, who led the study. 

And he adds: "There are hundreds of species of shrew, so they can weather a few extinctions. There were only four species of sabre-toothed tiger; they all went extinct." 

Long waits for replacement rhinos 

"Regenerating 2.5 billion years of evolutionary history is hard enough, but today's mammals are also facing increasing rates of extinction. Critically endangered species such as the black rhino are at high risk of becoming extinct within the next 50 years. Asian elephants, one of only two surviving species of a once mighty mammalian order that included mammoths and mastodons, have less than a 33 percent chance of surviving past this century. 

The researchers incorporated these expected extinctions in their calculations of lost evolutionary history and asked themselves: Can existing mammals naturally regenerate this lost biodiversity? 

Using powerful computers, advanced evolutionary simulations and comprehensive data about evolutionary relationships and body sizes of existing and extinct mammals, the researchers were able to quantify how much evolutionary time would be lost from past and potential future extinctions as well as how long recovery would take. 

The researchers came up with a best-case scenario of the future, where humans have stopped destroying habitats and eradicating species, reducing extinction rates to the low background levels seen in fossils. However, even with this overly optimistic scenario, it will take mammals 3-5 million years just to diversify enough to regenerate the branches of the evolutionary tree that they are expected to lose over the next 50 years. It will take more than 5 million years to regenerate what was lost from giant Ice Age species." 

Prioritizing conservation work 

"Although we once lived in a world of giants: giant beavers, giant armadillos, giant deer, etc., we now live in a world that is becoming increasingly impoverished of large wild mammalian species. The few remaining giants, such as rhinos and elephants, are in danger of being wiped out very rapidly," says Professor Jens-Christian Svenning from Aarhus University, who heads a large research program on megafauna, which includes the study. 

The research team doesn't have only bad news, however. Their data and methods could be used to quickly identify endangered, evolutionarily distinct species, so that we can prioritise conservation efforts, and focus on avoiding the most serious extinctions.

As Matt Davis says: "It is much easier to save biodiversity now than to re-evolve it later." 


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