Category Archives: Geoscience

Geoscience

Building blocks of life from space

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Narendra Bhandari, a planetary scientist formerly with the Indian Space Research Organisation, recollects the time when he fortuitously became part of a meteorite detective team.

Narendra Bhandari with a meteorite fragment.

We spend crores of rupees trying to go to the Moon and other planets and bring back rocks. But nature is bountiful, even lugging space debris to our door step free of cost.

I regaled in one such gift a few summers back.

Just before sunrise at 5.15 a.m. on 6 June 2016, a rock of extraordinary type fell from the skies in the farm of Bishan Mehta of the Mukundpura village. The sound woke up the whole village, located in the outskirts of the pink city of Jaipur in Rajasthan.

I was driving down from Ahmedabad to Udaipur in Rajasthan when I heard about the meteorite fall on radio. I called Rajendra Prasad Tripathi, my friend who had recently retired from Jai NarainVyas University, Jodhpur and had settled in Jaipur. Tripathi immediately went to the site and surveyed the small foot-deep pit that the meteorite had created. To his dismay, the Geological Survey of India had swiftly collected all the pieces of the 2.5 kg meteorite. Not one to give up, Tripathi went home to fetch a kitchen sieve and filtered the sand from the bottom of the pit. He found two small pitch black chips, easily distinguishable as meteorite pieces owing to their colour.

Within a day, three of us – Tripathi, Ambesh Dixit of Indian Institute of Technology Jodhpur and I – measured the pieces using Mossbauer spectroscopy- to be sure the rocks were a rare type of carbon-containing meteorite, somewhat similar to the famous rock that fell at Murchison, in Australia, in 1969. About 2.5 per cent carbon content made this black, fragile, coal-like rock a scientific treasure.

A fragment of the Mukundpura rock , about 3 cm x 2 cm. The greyish surface on the left is due to heating in the Earth’s atmosphere. Dark black colour of the interior suggests presence of carbon, which contains organic molecules including amino acids, the building blocks of life. Mineral grains appear white.{credit}Anil Shukla{/credit}

When we analysed the minerals and chemical composition, it became clearer that this was going to be an important rock to study. Soon, we embarked on a detailed study with N.G. Rudraswami and colleagues at the National Institute of Oceanography, Goa, and found several amino acids in it. Amino acids, the chemical molecules from which biomolecules can be formed, are the building blocks of life.

We found evidence of water activity on various silicate minerals indicating the presence of abundant water on the asteroid where this rock had been lying for most of its life time, till it was kicked off by another space rock to come to Earth. Isotopes of carbon and nitrogen confirmed its extraterrestrial origin from the interstellar space.

M. S. Kalpana at the National Geophysical Research Institute, Hyderabad soon joined the effort, bringing a different set of expertise and technically sophisticated machines to complete the description of the extraterrestrial rocks. The team work paid off and using many techniques of mass spectrometry and gas chromatography, we were able to identify over 40 organic molecules of polyatomic aliphatic and aromatic hydrocarbons, including some fatty acids, and naphthalene.

These molecules are formed in the interstellar clouds from which our sun and planets were made 4.5 billion years ago. It is surprising that these organic molecules, easily destroyed at high temperature, survived the chaotic and complex processes in the severe environment that resulted in the formation of the Earth. Obviously the rock had not gone through much heating, may be it stayed below 100 degrees Celsius on the asteroid harbouring water, which saved the organic molecules, albeit with some alteration.

Hundreds of meteorites fall on the Earth every year, but what we received were among the rarest of rare rocks – only five such have fallen in India, the last one about 75 years ago. The Mukundpura rocks are now kept at Geological Survey of India museum in Kolkata.

These messengers from space packed with valuable information can tell us how life appeared on the earth. Together, we found over 15 heavenly rocks of different types in the past 30 years, many of which are described in my book Falling Stones and the Secrets of the Universe.

Strange rocks, like the ones that fell at Piplia Kalan and Lohawat in Rajasthan, tell different stories of their origin from different asteroids and their journeys to Earth. They increase our horizon of knowledge on space and fetch us extraordinary material for laboratory studies. These rocks tell us fascinating storiess of how it all began — the formation of the Sun, Earth, planets and life.

(Narendra Bhandari can be reached at nnbhandari@yahoo.com.)

Nature India Photo Contest 2019: Finalist #1

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It’s time to roll out the shortlist of the Nature India Photo Contest 2019.

The 6th edition of our photo contest themed “food” opened in November 2019 and has received some remarkable entries from around the world.

We invited pictures that show food beyond just an instagram-worthy plateful — pictures that demonstrate the link between food and evironment, food and health/nutrition, food security, the processes and techniques of growing food, packaging, cooking or even the politics behind food storage and supply.

Like always, entries came from a mix of amateur and professional photographers, scientists and non-scientists, mobile cameras and high-end DSLRs.

The Nature India editorial and design teams chose ten stunning finalists, that will be rolled out (in no particular order of merit) over the next few days. Nature India’s final decision to chose the winner will be partly influenced by the engagement and reception these pictures receive here at the Indigenus blog, on Twitter and on Facebook. To give all finalists a fair chance, we will consider the social media engagement each picture gets only during the first seven days of its announcement. The final results will be announced sometime in early February 2020.

So here’s finalist number one in the Nature India photo contest 2019:

Sudip Maiti, Kolkata, West Bengal, India.

Photo caption: Open air restaurant

{credit}Sudip Maiti{/credit}

“A daily-wage worker cooks lunch for himself and his fellow workers in a hand-pulled cart below the famous Howrah Bridge in Kolkata, India. I was drawn to this scene because cooking is a private matter, mostly done indoors. In this man’s life, this important activity of the day happens in a busy, public space. The photo conveys the hardships such people face for their daily food, with a smile on their faces.” — Sudip Maiti.

Congratulations Sudip for making it to top 10!

Watch this space as we announce the other finalists in the coming days.

The winning pictures will get cash prizes worth $350, $250 and $200 respectively. The top 10 finalists will be featured here, on Nature India’s blog Indigenus and in our subsequent annual issue. 

These entries have been judged for novelty, creativity, quality and print worthiness. The winner and two runners-up will also receive a copy of the Nature India Annual Volume 2019 and a bag of Nature Research goodies (including Collector’s first issues of Nature and Scientific American and some other keepsakes). Winning entries stand a chance of being featured on the cover of one of our forthcoming print publications.

Nature India Photo Contest 2019 now open

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We are back with the annual Nature India photo contest.

This year’s theme is ‘Food’.

Say ‘food’ and everyone has a story to share. These stories could be as diverse as ‘I love pasta’ to ‘the cyclone ruined our paddy yield this year’ to ‘half my country is malnourished and the other half obese’.

These stories point to our deep-seated and lifelong relationship with food. For some food is nutrition, for some others it’s an emotion – a memory, perhaps associated with a smell, taste, place or person?

For a farmer, food may mean a farm, the seeds, the equipment, the land, the market, floods or famine or a harvest festival. For a school going child, food is the lunch box or a piping hot mid-day meal served in the classroom. For many communities, food is a social binder, intrinsically linked to the culture of their land.

For scientists, food is the metabolic, biochemical or physiological process that underlines how an organism uses its source of nutrition. For global policy makers, food is the challenge of securing nourishment for close to 10 billion people by 2050. Food is health, food is environment and many times the connection between the two.

So which face of food would you want to capture in a photograph? Which of these nuanced stories do you want to tell? For the Nature India photo competition this year, we urge you to think deeper about food, beyond just an Instagram-worthy plateful.

Think of pictures that demonstrate how food fundamentally influences or interacts with health, how food security defines the health and happiness of people or how the lack of food may result in a plethora of unwanted consequences. We would also be happy to receive entries that talk to us about the link between the food we eat and our environment, or ones that depict how balanced nutrition makes for healthy people and healthy communities.

You may also draw inspiration from scenes that portray the process and techniques of growing food, cooking it in many interesting and unique ways, of infant nutrition or the politics behind food storage and supply, or even the merits or demerits of packaging food.

The canvas is wide open.

So get set, click and send your entries by 21 December 2019!

Prizes

The top three pictures will get cash prizes worth $350, $250, $200. The top 10 finalists will be featured on Nature India’s blog Indigenus

Entries will be judged for novelty, creativity, quality and print worthiness. Winners will be chosen by a panel of Nature Research editors and photographers. The winner and two runners-up will receive a copy of the Nature India Annual Volume 2019 and a bag of Nature Research goodies (including Collector’s first issues of Nature and Scientific American and some other keepsakes). Winning entries also stand a chance of being featured on the cover of one of our forthcoming print publications.

Eligibility

The contest is open to all – any nationality, any occupation, any profession. You may use whatever camera you wish – even your cell phone – as long as the photograph you send us is unedited, original, in digital format and of printable quality. Just make sure you are not violating any copyrights. Also, no obscene, provocative, defamatory, sexually explicit, or other inappropriate content please (refer to the contest terms and conditions below).

Please send your entries in jpeg format to npgindia@nature.com with your name and contact details. Please mention “Nature India Photo Contest 2019” in the subject line of your email. The photograph must be accompanied by a brief caption (please see some photo captions here for reference) explaining the subject of the picture along with the date, time and place it was taken.

We will accept a maximum of two entries per person. The last date for submissions is midnight of December 21, 2019 Indian Standard Time. On social media, please use the hashtag #NatureIndphoto to talk about the contest or to check out our latest updates.

The theme for our inaugural photo competition in 2014 was “Science & technology in India”. Our themes have then covered “Patterns”, “Nature”, “Grand Challenges” and “Vector-borne Diseases”. We have received some breathtaking entries from across the world all these years. You might want to take a look at the winning entries of the Nature India Photo Contest 201420152016, 2017 and 2018 for some inspiration and to get an idea of what we look for while selecting winners.

[TERMS AND CONDITIONS

Please read these terms and conditions carefully. By entering into this Nature India Annual photo contest (“Promotion”), you agree that you have read these terms and that you agree to them. Failure to comply with these terms and conditions may result in your disqualification from the Promotion.

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Water charity: What the drinking fountains of Mumbai tell us

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The pyaavs of Mumbai aren’t just public fountains but a repository of memories, architectural history and an important lesson in water philanthropy. Swapna Joshi, a PhD Student at the Indian Institute of Science Education and Research Pune, studies them closely to find new meaning in the old.

A pyaav on Mumbai’s Mohammad Ali Road

There is something mesmerizing about the architecture of South Mumbai. As a local train commuter, whenever I step into Mumbai’s CSMT railway station (formerly Victoria Terminus), I notice, despite the hustle, intricate details of the building. Working with a Mumbai based conservation architect’s firm gave me a vantage point to look at colonial period architecture and appreciate it. That’s how I came in contact with the public drinking water fountains of Mumbai, locally known as the pyaavs.

‘Thy thirst repose to quench a handful of life’. This was the quote we chose to restore the first pyaav through a public-private initiative in Mumbai. Why this intense thought in a structural conservation? Was there a story beyond the material fabric of the pyaav? The answer is yes.

This pyaav was in the Kessovji Naik Fountain and clock tower in Bhat Bazaar of Masjid Bunder, one of the busiest markets of Mumbai. Some 100 years ago, a generous patron had decided to support the construction of the pyaav and provide water for the city, without any other motive. How fascinating is this!

Around the same time I read ‘The Water Heritage of Mumbai’ by Dr. Varsha Shirgaonkar, the Vice-Chancellor of S.N.D.T Women’s University. In this seminal work, she painstakingly documents most of the city’s pyaavs, including many whose exact location was not known. Data on about thirty pyaavs of Mumbai are available today. These pyaavs were built during the 19th and 20th century and provided drinking water in commercial zones, along tram routes, in markets, gardens and other public places.

A pyaav in the Char Nal area of Mumbai.

The concept of a pyaav is based on two important things — the generosity of a philanthropist with an intention of giving back to the city; and building a monument in the memory of a deceased relative of the patron. Armed with Dr. Shirgaonkar’s foundation-laying information and with the thought of developing and restoring these pyaavs to their former glory, a group of like-minded people, including me, came together. The group — comprising an architect, a journalist, a historian and a heritage enthusiast — formed a social media group called ‘The Mumbai Pyaav Project’. Our reach was limited because all we had were photos of pyaavs, some in utterly dilapidated condition.

In Carnac Bandar in Mumbai, for example, a pyaav has been transformed into a temple. Similarly, another pyaav nearby was on the verge of being demolished for a developmental project, but was saved because of the awareness of local people. Identifying dangers to the pyaavs would help in their conservation. The need is to look at the data but through a contemporary lens.

This pyaav in the Crawford Market area of Mumbai is modeled like a shrine.

In 2017, I received the Sahapedia Unesco Project Fellowship. It enabled me to map all the pyaavs in the city, understand their present condition, interview people associated with them and document them audio-visually. While doing the field work and photo documentation, I came across many pyaavs still in use as drinking water sources. When I saw a small child drinking from the pyaav in the King Circle garden, I was convinced of the need for their revival. I joined hands with people who shared this conviction to retrieve and share information on the pyaavs with a larger audience.

Apart from their heritage value, pyaavs reduce plastic pollution by eliminating the need for packaged drinking water. Commuters I interviewed near a pyaav in Kalachowki area, and the owner of a nearby shop, were delighted that it was being restored. The question of whether working class people were the only ones to drink water from these pyaavs was answered by visits to some modern paanpois (water storage tanks) and earthen water pots kept charitably for passers by on crossroads. Also, almost every tea stall serves water to customers before tea, which is a kind of a pyaav system in itself. The project started building up with all this and the same data now got a fresh relook.

The endeavour was to understand the basic drinking water supply system of Mumbai and functioning of the dams in the city — from when and why they were built to the quantity of water supply to the city. When we showed our audio-visual content, people admitted they passed these pyaavs every day but did not know what they were. Armed with knowledge, they expressed interest in seeing more of these.

Pyaavs are a network of history and heritage, drinking water supply and memories. As of now, three other pyaavs have been restored and many others are in the process of being revived . The re-collation of the data in the  Sahapedia project gave me the key to understand pyaavs much better.

The pyaavs have various functions but we have largely failed to admire them as spaces to pause, gather and remember. They are soothing beauties and heritage markers. As the great poet Rabindranath Tagore puts it: “For many years at great cost, I traveled through many countries, saw the high mountains and the ocean. The only things I did not see were the sparkling dewdrops in the grass…. just outside my door.”

[Photo credits: Swapna Joshi.]

The science behind India’s heatwaves

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Its that time of the year when mobile phone screenshots increasingly lend themselves to Facebook posts grimly declaring regional temperatures from across the country — most on the wrong side of 40 and some hovering around 50 in degree celsius. It’s the time for the deadly heatwaves that kill thousands every year, close down schools and offices and, in general, make life miserable for millions.

The increasing intensity and number of these heatwaves between March and June every year have been a subject of concern for scientists for close to a decade now. In daily conversations, it is not unusual to encounter someone loosely blaming ‘global warming’ or ‘climate change’ for the phenomenon.

IMG_1443

{credit}S. Priyadarshini{/credit}

Scientists from the Japan Agency for Marine-Earth Science and Technology in Yokohama and India’s ministry of earth sciences have now come together to analyse the anatomy of these heatwaves in a paper1 published in Scientific Reports last week. They tried to understand what causes these severe spells of heat. They looked at observed patterns and statistical analyses of the maximum temperature variability and have identified two types of heatwaves in the country — the first over north-central India and the second over coastal eastern India.

They associate the first one over north-central India with ‘blocking’ over faraway North Atlantic, which results in a cyclonic anomaly west of North Africa at upper atmospheric levels. All of this triggers a chain of events that eventually affects the Indian subcontinent causing heatwave conditions over India. The heatwave in coastal eastern India, on the other hand, is due to anomalous cooling in the Pacific which generates ‘northwesterly anomalies’ over the landmass reducing the land-sea breeze and resulting in heatwaves.

As several studies, including IPCC estimates, suggest that the frequency of heatwaves would only increase in near future, understanding the science behind India’s heatwaves would help policy makers design better strategies to tackle these annual extreme events.

In another related study2 in Scientific Reports last week, a group of international scientists, primarily from China and USA, have questioned earlier estimates of groundwater depletion in the Northwest India aquifer based on data from NASA’s Gravity Recovery and Climate Experiment (GRACE) satellites. Research in the past showed that groundwater levels in northern India have been declining very rapidly — by as much as a meter every three years — between 2002 and 2008. And also that the calamity was almost entirely man-made. In the hotbed of this unprecedented deletion are Rajasthan, Punjab, and Haryana — states with staggering population growth, rapid economic development, and water-hungry farms — accounting for about 95 percent of groundwater use in the region.

Last week’s study, however, says accurate ground water depletion estimation is challenging because of ‘uncertainties in GRACE data processing’ and that earlier studies might have overestimated the depletion over this region. This study highlights uncertainties in the estimates and the importance of incorporating a priori information to refine spatial patterns of GRACE signals that could be more useful in groundwater resource management.

  1. Ratnam, J. V.  et al. Anatomy of Indian heatwaves. Sci. Rep. 6 (2016) doi: 10.1038/srep24395
  2. Long, D. et al. Have GRACE satellites overestimated groundwater depletion in the Northwest India Aquifer? Sci. Rep. 6 (2016) doi: 10.1038/srep24398 

Borlaug award

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This week saw another alumnus of the Presidency College, fondly called the Oxford of the East, do India proud by bagging Rockefeller Foundation’s first ever Borlaug Field Award, which has been constituted to recognise young researchers helping farmers and hungry people around the world through science. Earlier this month string theorist Ashoke Sen, another Presidency product, wowed the world when he was named one among the eight scientists worldwide to receive the three million dollar Fundamental Physics Prize in its first edition.

Presidency College, now Presidency University, counts among its illustrious alumi the famous scientists Jagadish Chandra Bose,  Satyendra Nath Bose, Meghnad Saha and statistician Prasanta Chandra Mahalanobis. Something in the air at this grand institution that breeds such wonderful science and scientists?

Coming back to the young social scientist who influenced policy through her work , after Presidency College, Aditi Mukherji studied at the Jawaharlal Nehru University, Delhi; and the Indian Institute of Technology, Mumbai; and completed a Ph.D degree in Human Geography at the University of Cambridge, United Kingdom.
Her research on groundwater resources in agriculture has done thousands of farmers in West Bengal a world of good. According to the press release announcing the honour, Mukherji a senior researcher at the International Water Management Institute’s New Delhi office, has surveyed more than 4,000 groundwater users to discover that smallholder farmers in water-abundant eastern India were unable to get water for their irrigation needs due to policy restrictions that actually were made keeping in mind the water scarcity in other parts of the country. She became the voice of the voiceless working closely with farmers and villagers to record their concerns.
Through research and political engagement, she became instrumental in getting two critical policy changes in two years— one to remove a restrictive permit requirement for operating low-power irrigation pumps; and another to reduce the electrification cost to run the pumps. Following these policy changes, the farmers now have easier and more universal access to groundwater for irrigation and will be able to intensify their cropping systems, earn better livelihoods and emerge out of poverty, the award committee noted. Mukherji presented her research to the government convincing them that the situation in water-rich east India was different from other parts of the country facing scarcity and depletion of groundwater.
Mukherji will get the 10,000 dollar award at the World Food Prize international symposium in the US in October.
Here’s raising a toast to the Oxford of the East for nurturing some of the best brains this country has produced!

Double collision theory

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This week  a new theory has been proposed on how India and Asia collided, geographically speaking, in the ‘Cenozoic’ era. It suggests that the collision happened in two stages — one about 50 million years ago and the other about 25-20 million years ago to give a final shape to the present day continent.

The continents as we know them today. Ian Faulkner/Photodisc/Macmillan Australia

Earlier research has estimated the time of this collision and shown that the convergence between Indian and Asian plates produced the ‘archetypical continental collision zone’ comprising the Himalaya mountain belt and the Tibetan Plateau. But how and where was the India–Asia convergence got accommodated after the collision remains a long-standing controversy. The two plates have converged up to around 3,600 km, yet the shortening of the upper crusts of Asia and Himalaya as documented in geological records shows this to be approximately 2,350-km less.

Fresh evidence has now emerged to suggest that that this discrepancy can be explained by ‘subduction of highly extended continental and oceanic Indian lithosphere’ within the Himalaya around that time — 50 and 25 million years ago.

Using paleomagnetic data, researchers have shown that this continental and oceanic “Greater India” resulted from around 2,675 km of North–South extension, accommodated between the Tibetan Himalaya and cratonic India. This happened between 120 and 70 million years ago.

The researchers suggest that approximately 50 million years ago  the India–Asia collision was actually a collision of the Tibetan-Himalayan microcontinent with Asia, followed by subduction of the largely oceanic Greater India Basin. According to them, the “hard” India–Asia collision occurred around 25–20 million years ago. This happened alongside deformation in central Asia and rapid exhumation of Greater Himalaya crystalline rocks. All this could have a link with intensification of the Asian monsoon system, the researchers say.

Seismic tomography also reflects this two-stage collision between India and Asia.

Here’s adding a fresh angle to the ever-evolving theory of the India-Asia collision!