Sanjeev Sanyal with Sowmya Rajendran
The Incredible History of India’s Geography
PUFFIN BOOKS
Contents
About the Author
1. Of Shakes and Quakes
2. Hello, Harappans!
3. Not Just the King of the Jungle
4. Dip Dip Dip, It’s a Stitched Ship!
5. Sinbad the Sailor
6. Where One-eyed Giants Roam
7. Here Comes the Train
8. We’re Munni and Modern
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PUFFIN BOOKS
The Incredible History of India’s Geography
Currently the global strategist of one of the world’s largest banks, Sanjeev Sanyal divides his time between India and Singapore. A Rhodes Scholar and an Eisenhower Fellow, Sanjeev was named Young Global Leader for 2010 by the World Economic Forum. He has written extensively on economics, environmental conservation and urban issues. His first two books, The Indian Renaissance: India’s Rise After a Thousand Years of Decline and Land of the Seven Rivers: A Brief History of India’s Geography, were published by Penguin in 2008 and 2012 respectively. This book is an adaptation of the latter.
Sowmya Rajendran writes for children across age groups, from picture books for tiny readers to young adult fiction. She is also a columnist with the school edition of The New Indian Express and Sify movies. Sowmya lives in Pune without any dogs or cats in the house.
1
Of Shakes and Quakes
If someone asked you to point out where India is on the world map, you’d probably do it in a jiffy. There it is, jutting into the Indian Ocean with Sri Lanka forming a teardrop beneath its land mass. The image is a very familiar one. But what if you were told that the Indian subcontinent was not always located where it is today? That it was once attached to Africa and Madagascar?
This is a fairly new discovery. For a long time, till the early twentieth century, people thought that continents were fixed land masses. But in 1912, a geologist called Alfred Wegener came up with the theory of continental drift.
Continental drift is the movement of the continents across the ocean bed. Now don’t look down at your feet to see if you are moving—this drifting happens very, very slowly, over hundreds of millions of years!
Wegener expanded on this idea in his book The Origin of Continents and Oceans, which was published in 1915. He argued that the present continents all came from one single land mass that later drifted apart. While this sounded strange to people at that time, it explained why the world map looks like a jigsaw puzzle with different countries and continents appearing like they could fit into each other. These countries are far apart but their outlines seem like they could be joined together.
It took nearly fifty years for Wegener’s arguments to be scientifically proved! In the late fifties and sixties, a great deal of new geological data established what Wegener had suspected: the earth’s crust is a patchwork of plates and these plates are moving relative to each other. This led to the modern theory of plate tectonics.
Here is how scientists believe it all happened . . .
A billion years ago, there was a supercontinent called Rodinia. It was probably located south of the equator but we are still not sure about its exact shape or size. This supercontinent broke up around 750 million years ago and the various pieces, i.e. continents began to drift apart. This period is loosely called the Pre-Cambrian period. There were only single-cell organisms like bacteria alive then.
Did you know?
The Aravalli Range in India is thought to be the oldest surviving geological feature anywhere in the world! These mountains were once very tall, maybe as tall as the Himalayas, but over hundreds of millions of years, they have been eroded down to low hills and ridges. The northernmost point of the Aravallis is the North Ridge near Delhi University. Farther south, near the Gujarat-Rajasthan border, these short hills turn into mountains again. The Guru Shikhar peak at Mount Abu rises to 1722 metres above sea level and is considered to be a sacred place. The Rajput warrior clans claim that their ancestors arose from a great sacrificial fire on this mountain! Despite the significance of the Aravallis, they are under threat today because of reckless mining and quarrying.
Fossil records show that around 530 million years ago, there was a sudden appearance of a large number of complex organisms on the earth. This is called the Cambrian Explosion—but remember that we’re talking in geological terms. This ‘explosion’ took millions of years to happen. Over the next 70–80 million years, a whole new array of life forms evolved. While all of this was happening, the continental land masses began to reassemble and, about 270 million years ago, fused into a new supercontinent called Pangea.
How did the new world look? As you can see, the Indian craton is wedged between Africa, Madagascar, Antarctica and Australia.
A craton is a large, stable block of earth which forms the centre of a continent.
It was on Pangea that the dinosaurs appeared 230 million years ago. But the earth was still restless and Pangea began to break up around 175 million years ago, during the Jurassic era. It first split into a northern continent called Laurasia (consisting of North America, Europe and Asia) and a southern continent called Gondwana (Africa, South America, Antarctica, Australia and India). You might have heard of the Gond tribe of central India—well, this is where the name comes from!
A large number of dinosaur remains have been found in Raioli village of Balasinor Taluka, Gujarat. The site was identified in 1981, and going by the thousands of fossilized eggs found there, it appears to have been a popular hatchery for dinosaur mothers. The fossilized bones of a previously unknown dinosaur, 25–30 feet long and two-thirds the size of the Tyrannosaurus Rex, were also discovered. This dinosaur has been named Rajasaurus Narmadsensis—the Lizard King of the Narmada!
It is believed that, first, India, Antarctica and Madagascar separated from Africa around 158 million years ago and then, 130 million years ago, India and Madagascar separated from Antarctica. Around 90 million years ago, India separated from Madagascar and drifted steadily northwards, towards Asia. As this happened, the land mass passed over the Reunion ‘hotspot’, causing an outburst of volcanic activity. This hotspot is currently under the island of Reunion in the Indian Ocean and the eruptions it caused then, mostly in the Western Ghats near Mumbai, created the Deccan Traps.
When we say ‘eruptions’, it’s not the conical sort of eruption that you may associate with volcanoes. These eruptions are more like a layer-by-layer oozing that created the stepped, flat-topped outcrops that geologists call Traps. (In the late seventeenth century, Shivaji and his band of Maratha guerrillas used this unique terrain to wear down the armies of the Mughal emperor Aurangzeb. The Traps lived up to their name on that occasion!) In geological terms, this volcanic episode did not last very long—just 30,000 years. But it was a dramatic phenomenon and might well have led to the extinction of the dinosaurs.
As India continued its northward journey, it collided with the Eurasian plate 55–60 million years ago. This collision pushed up the Himalayas and the Tibetan Plateau. And the process is still not over! The Himalayas are rising even now by around 5 mm every year, although erosion reduces the actual increase in height. This region is considered to be seismically unstable, meaning that it is prone to frequent and powerful earthquakes.
Did you know?
What are now the towering Himalayan mountains were once under the sea. This is why marine fossils are commonly found high up in the range.
While most of the above is generally accepted by geologists, there are many unresolved issues and
findings that don’t tie in with this story. For example, a large number of insects preserved in amber were discovered in Vatsan, 30 km north of Surat, in a geological zone called Cambay Shale. About 700 species of insects, representing fifty-five families, were found. But these insects were not unique to India. They were similar to those found in other countries in other continents, as far away as Spain. If we are to go by the currently accepted view about the northward drift of the Indian land mass, we have to believe that the subcontinent was an isolated island for tens of millions of years. But if these insects emerged then, how did they come to India? Were there other islands that allowed them to hop across to the subcontinent? Maybe the Indo-Asian collision happened earlier than what we think? We really don’t know!
Nonetheless, India continued to push into Asia, making the subcontinent tectonically very active. This meant that there were many powerful earthquakes that took place during this time. This region is still very unstable. In 2005, an earthquake in North Pakistan and Pakistan-occupied-Kashmir registered a magnitude of 7.6 on the Richter scale and claimed 80,000 lives (note that the Richter scale is a logarithmic scale, so each point increase is equivalent of a ten-times increase in the amount of shaking and 31.6 times the amount of energy released).
There have been many far more powerful earthquakes that have been recorded along the mountain range. The Assam earthquake of 1950 registered a magnitude of 8.6 and is one of the most powerful earthquakes ever recorded. It happened in a sparsely populated area and yet killed 1500 people. Imagine if it had taken place in a densely populated area—the lives of millions of people would have been in danger. This is why the Himalayan range is one of the most dangerous places to build large dams.
If the Aravallis are one of the oldest geological features, the Gangetic plains are among the youngest. They started out as a marshy depression running between the Himalayas and an older mountain range called the Vindhyas. Silt brought down by the Ganga and its tributaries began to fill up this hollow and create a fertile alluvial plain. The Ganga changed course repeatedly and shifted southward leaving behind oxbow or curved lakes that can still be seen. Early humans would have seen it all happening. The Ganga continued to drift southward and was arrested only when it nudged into the Vindhyas near Chunar (close to Varanasi). It is the only place in the plains where a hill commands such a view over the river. And that is why the Chunar fort was considered a strategic location in the times of warring kingdoms. It was once said that he who controlled the Chunar fort also controlled the destiny of India!
A walk through the fort is a walk through Indian history. The walls resonate with the tales of the legendary King Vikramaditya, the Mughals, Sher Shah Suri and Governor-General Warren Hastings. There are remains here from each era, including an eighteenth-century sundial. There are British graves below the walls, too. You must be familiar with the national emblem of India, of course.
These are the Mauryan lions of Sarnath. They were carved out of the stone quarried from the south-west of the Chunar fort. We will return to them in Chapter 3.
MOVE IT, PEOPLE!
Many people assume that the similarities between present-day Indian and African mammals are because India was once attached to Africa. Elephants, rhinos and lions are common to both. But, as we have seen, India separated from Africa during the dinosaur era. So actually, these big mammals came to India because of its geographical reattachment to Eurasia and the changing climate zones that allowed or forced these animals to migrate.
A genetic study of the frozen remains of a Siberian mammoth that died 33,000 years ago revealed that the Asian elephant is more closely related to the mammoth than to the African elephant! It appears that the genetic lines of the Asian and the African elephants separated six million years ago whereas the Asian elephants and the mammoths diverged only 4,40,000 years ago.
Many Indian animals also came to the subcontinent from the east. The tiger is one such example. Some say that the tiger came from Siberia while others say it came from South China. Two-million-year-old remains of the tiger’s ancestors have been found in Siberia, China, Sumatra and Java but it’s a relative newcomer to India. The Bengal tiger is believed to have come to India only about 12,000 years ago.
Where were the human beings when all of this was happening? Most scientists agree that human beings first evolved in Africa around 2,00,000 years ago. The San tribe of the Kalahari (also called the Bushmen) is probably the oldest surviving population of humans. A genetic study of the members of this tribe revealed that they show the greatest genetic variation of any racial group. This means that they are likely to be the direct descendants of the earliest modern human population.
What do we mean by ‘modern humans’? Human beings, as we call ourselves today, are only one kind of hominids (the genetic classification of which humans are a part) to have walked the earth. More than a million years ago, pre-modern humans like Homo erectus used stone tools and had wandered as far as China and Java. When modern humans were evolving in Africa, their close cousins, the Neanderthals, were already well established in Europe and West Asia.
We are survivors from a large family tree. There were many challenges that modern humans had to meet in those times. The first attempt by modern humans to leave Africa was a failure. Archaeological remains in the Skhul and Qafzeh caves in Israel show that modern humans may have made their way to the Levant (the region immediately east of the Mediterranean) about 1,20,000 years ago. The planet was then enjoying a relatively wet and warm interglacial period, which would have allowed them to wander up north. However, this climatic period didn’t last for long and a new ice age started. It looks like the early settlers who made it to this point either died out or were forced to go back. The Neanderthals who were better adapted to the cold probably reoccupied the area.
An ice age is a long period of time when the temperatures on the earth are so low that the ice covering the surface—glaciers, polar ice caps, continental ice sheets—expand. In the history of the earth there have been many ice ages that alternate with warm periods, when the ice melts, the sea levels rise and the climate is warmer. Just to make it a little confusing, though, within the time period of an ice age you also have shorter periods of warmer and colder temperatures that alternate! The colder periods are called glacials, because the glaciers grow, and the warmer periods are called interglacials.
For the next 50,000 years, our ancestors remained in Africa. Around 65,000–70,000 years ago, a very small number, perhaps a single band, crossed over from Africa into the southern Arabian peninsula. And it was from this group that all non-Africans descended!
Climate and environment had a very big impact on the expansion of modern humans. Our planet goes through natural cycles of cooling and heating. When the modern humans made their way out of Africa, the earth was much cooler and much of the world’s water was locked in giant ice sheets because of the low temperature. As a result, the sea levels were as much as 100 metres lower than today and coastlines and climate zones were very different, too. The early band of humans migrating from Africa to southern Arabia would have had to make a relatively short crossing across the Red Sea. They would have also found the Arabian coastline to be wetter and better for survival.
After this, the modern humans made their way along the coast to what is now the Persian Gulf. The average depth of the Persian Gulf is just 36 metres. With sea levels 100 metres below current levels, this area would have been a lush and fertile plain. It would have been paradise for the modern humans who are likely to have flourished and increased their numbers. Central Asia and Europe would have been very cold at this time because of the ice age. The modern humans must have spread out along the Makran coast into the Indian subcontinent.
At some stage, groups of the Persian Gulf people explored the Indian subcontinent more. But they weren’t the first to do this. The Neanderthals from Europe steadily moved westwards till one of their last bands died out in a cave in Gibraltar. But we don’t really know what happen
ed to the pre-modern hominids of Asia.
Was it the eruption of the Toba volcano in Sumatra 74,000 years ago that led to the extinction of the pre-modern hominids of Asia? Excavations have shown that peninsular India was covered in volcanic ash from the eruptions. Experts still disagree on what really happened because of these eruptions but it’s possible that they led to the disappearance of the pre-modern hominids, clearing the way for the modern humans.
The modern humans who had reached the subcontinent spread quickly through it and then to South East Asia. Some believe that the indigenous tribes of the Andaman and Nicobar Islands were maybe descendants of the earliest people who came into the region!
From here, one branch reached Australia around 40,000 years ago and became the ancestors of the aborigines. Studies have confirmed that the Australian aborigines have a genetic link with aboriginal tribes in South East Asia. However, for a long time, researchers couldn’t find a direct genetic link between present-day Indians and native Australians. But in 2009, a study published by the Anthropological Survey of India found genetic traces to link some Indian tribes with native Australians. These were very tiny traces but still, they were there! The researchers suggested that the Indian and Australian groups had separated about 50,000–60,000 years ago.
We’ve talked about the adventurous people who left the Persian Gulf and went exploring. But what of those who were content to stay behind? The population that remained in the vicinity of the Persian Gulf and the subcontinent stayed there for several thousand years. Scientists think that many important genetic branches came from this area at this time. During the relatively warmer interglacial periods, sub-branches would have spread farther out into Europe, Central Asia and so on. But you have to remember that temperatures would have still been far lower than present-day levels and that there would have been many drastic climatic changes. Much of the Persian Gulf is now underwater, so it’s not very easy to conduct research on the people who lived there.
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