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Saturday, 1 May 2021

40 Million Year History of the Central Asian Steppe

Mongolian steppe.
Unfolding 40 million years of Asian steppe history | CNRS News

Young-Earth Creationist dogma, based on nothing more than a calculation by an Irish Bishop, not from looking at the geological record, but by reading a Book of Hebrew origin myths written in the Bronze Age by people who thought Earth was small and fat with a dome over it and that the Universe worked by magic and was haunted by demons, is that Earth was created in about 4004 BCE and so is about 6,000 years old give or take a century or two.

Bear that in mind as you read this article about the findings of a combined Dutch and French team of scientists who have just completed a project to map the evolution of the Central Asian steppe over the past 40 million years, then ask yourself why Bishop Ussher got it so badly wrong, if that's not already obvious.

What does this tell us about using religion, not science, to try to discover the truth about the world we live in? Answers below, please.

A news item from Le Centre National de la Recherche Scientifique (CNRS) (The French National Center for Scientific Research) explains how they went about this. The key to understanding how this vast area evolved over time was in the pollen grains trapped in sediments:
From the northern foothills of the Tibetan plateau to southern Siberia, and from western Kazakhstan to eastern Mongolia lies one of the world’s largest ecosystems, the Central Asian steppe. As far as the eye can see, an ocean of grass harbours a rich biodiversity. Elk, gazelles, brown bears, leopards and Siberian tigers, among other remarkable species, have made it their home.

However, until now, there was something missing from this vast region: its natural history. The evolution of the steppe over geological time remained a mystery, since it had hardly ever been studied. A French-Dutch team has now set out to fill the gap, by publishing the first-ever chronology of the main climatic and environmental events that have affected the region over the past 40 million years. This segment of history shows the extent to which this grassland is fragile and vulnerable to climate change.

Using pollen as a time machine


To reconstruct the evolution of the steppe, the researchers made use of one of the best indicators of past ecosystems: pollen. Every grain has a specific shape and pattern, making it possible to identify the plant species or family that produced it. As a result, a record of successive floras is preserved in different geological strata.

There we have a record that spans a period from 40 to 15 million years ago. It’s a unique site that provided us with an overview of the history of the steppes.

You have to be extremely careful not to contaminate samples with recent pollen.

One possible scenario is that the advance of the desert will leave only scattered islands of fertility. Then, if the barren areas continue to expand, the fertile patches will in turn disappear. What our work shows is that there is a threshold beyond which there is no turning back. Once a desert environment takes hold, it could last for millions of years. So, even if we managed to control levels of atmospheric CO2, returning to the previous situation would be impossible,

Guillaume Dupont-Nivet
CNRS researcher Université de Rennes, CNRS, Géosciences Rennes, France and Universität Potsdam, Institute of Geosciences, Potsdam, Germany.
In northwest China, the researchers found an exceptional location for the collection of pollen near the town of Xining, the capital of Qinghai province. “There we have a record that spans a period from 40 to 15 million years ago,” explains Guillaume Dupont-Nivet, a CNRS researcher at the Geosciences Rennes laboratory[1] and at the University of Potsdam (Germany). “It’s a unique site that provided us with an overview of the history of the steppes.”

Collecting these microscopic grains is a particularly tricky job. “You have to be extremely careful not to contaminate samples with recent pollen,” the researcher explains. Under the microscope, it is indeed very difficult to distinguish a 30 million-year-old grain from one that has just been released from a nearby flower.

To reconstruct the history of the climate and environment of the region, the scientists also used other information. They relied on climate models, animal fossil records, and isotopic data that can help track variations in temperature and precipitation over millions of years. This enabled them to identify three major ecological phases in the steppes of Central Asia.

Successive climate upheavals


Looking for pollen in sediments, bushes and plants (Xining Basin, Qinghai province, China, 16 August 2017).
© Guillaume Dupont-Nivet
Some 40 million years ago, two families of shrubs, the Nitrariaceae and the Ephedraceae, were found everywhere in the region. These plants fostered the emergence of a remarkable fauna dominated by the ancestors of horses and rhinoceros, the Perissodactyla, or odd-toed ungulates.

But then the local climate started to change. The Himalayas and Tibet began to rise, pushed up by the collision of the Indian subcontinent with Eurasia, leading to a change in the monsoon regime. To the north of Tibet, rainfall started to decrease. At the same time, the Paratethys, the extensive sea that stretched from Mongolia to the Mediterranean, gradually dried up, causing the area to become increasingly arid.

However, the final blow that ushered in the end of these early steppes occurred 34 million years ago. A global crisis known as the Eocene-Oligocene Transition brought about a mass extinction of species in many regions around the world. It was largely caused by the formation of the Antarctic ice sheet, an event that rapidly cooled the planet, leading to a sharp drop in precipitation in Central Asia. The steppes turned into a desert as arid as the Sahara. Sand dunes covered the last refuges of life. In this hostile environment, the fauna mainly consisted of a few rodents and rabbits.

Evolution of the geographical distribution of pollen records in Central Asia from the Eocene period (40 million years ago) to the modern era. These paleogeographies also show mountain ranges gradually rising and the Paratethys Sea receding westwards.
© G. Dupont-Nivet/Sciences Advances DOI: 10.1126/sciadv.abb8227
The desert persisted for millions of years. Then, in the middle of the Miocene, 17 to 14 million years ago, the climate became wetter again. As Dupont-Nivet admits, scientists don’t know what caused the change. Yet for whatever reason, there was a significant shift in conditions, which once again became more favourable to life. Steppes like those seen today, covered with grasses and shrubs, emerged. Large mammals, such as lions, aurochs and megaloceros (giant deer) encountered their ecological niche there, before being ruthlessly hunted down by a new invasive species that arrived 50,000 years ago: Homo sapiens.

The uncertain future of the steppes


This great ape may well turn out to be the cause of another environmental upheaval. Climate change models show that Central Asia is fast becoming one of the hottest and driest places on the planet. Researchers think that the steppes could turn into a highly arid desert again. Ecosystems are already visibly deteriorating, as shown by the expansion of the Gobi Desert, which has led the Chinese authorities to embark on a massive reforestation programme dubbed “the Great Green Wall”. “One possible scenario is that the advance of the desert will leave only scattered islands of fertility. Then, if the barren areas continue to expand, the fertile patches will in turn disappear,” the scientist predicts.

The problem is that this process could be irreversible. “What our work shows is that there is a threshold beyond which there is no turning back. Once a desert environment takes hold, it could last for millions of years. So, even if we managed to control levels of atmospheric CO2, returning to the previous situation would be impossible,” Dupont-Nivet warns. If this worst-case scenario were to come about, the livelihoods of hundreds of millions of people would collapse in just a few decades.
The team's open access paper was published last October in Science Advances:

Abstract

The origins and development of the arid and highly seasonal steppe-desert biome in Central Asia, the largest of its kind in the world, remain largely unconstrained by existing records. It is unclear how Cenozoic climatic, geological, and biological forces, acting at diverse spatial and temporal scales, shaped Central Asian ecosystems through time. Our synthesis shows that the Central Asian steppe-desert has existed since at least Eocene times but experienced no less than two regime shifts, one at the Eocene–Oligocene Transition and one in the mid-Miocene. These shifts separated three successive “stable states,” each characterized by unique floral and faunal structures. Past responses to disturbance in the Asian steppe-desert imply that modern ecosystems are unlikely to recover their present structures and diversity if forced into a new regime. This is of concern for Asian steppes today, which are being modified for human use and lost to desertification at unprecedented rates.

So there we have a clear, coherent picture of how the Central Asian steppe came to be what it is today over a period of some 40 million years.

Which all goes to show how:
The Bible is a book about what people used to believe before we knew any better.




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