Monthly Archives: March 2025

NASA’s Curiosity rover unearths largest organic molecules ever detected on Mars

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In a stunning new development, NASA scientists have confirmed that the Curiosity rover has discovered the largest organic molecules ever found on the Martian surface. The groundbreaking analysis of an existing rock sample, “Cumberland,” within Curiosity’s onboard lab revealed the presence of decane, undecane, and dodecane – compounds with 10, 11, and 12 carbon atoms respectively.

These molecules are believed to be fragments of preserved fatty acids, key building blocks of life as we know it on Earth. While non-biological origins are possible, the size of these newly detected molecules significantly boosts the potential for the preservation of complex biosignatures on the red planet.

This discovery builds upon years of tantalizing findings by Curiosity, including the detection of smaller organic molecules, organic salts, and the measurement of total organic carbon comparable to Earth’s most extreme environments. The new data suggests that larger, more complex organic compounds could have survived for billions of years despite harsh Martian conditions.

The network of cracks in this Martian rock slab called “Old Soaker” may have formed from the drying of a mud layer more than 3 billion years ago. The view spans about 3 feet (90 centimeters) left-to-right and combines three images taken by the MAHLI camera on the arm of NASA’s Curiosity Mars rover.
Credits: NASA/JPL-Caltech/MSSS

Lead author Caroline Freissinet emphasized the significance, stating, “Our study proves that, even today, by analyzing Mars samples, we could detect chemical signatures of past life—if it ever existed on Mars.”

Scientists are particularly intrigued by the carbon chain length of the presumed fatty acids (11-13 carbons), as non-biological processes typically yield shorter chains. This raises the exciting possibility of longer-chain fatty acids, often associated with biological activity, being present.

While the exact origin of these molecules remains under investigation, this major breakthrough reinforces the critical need for Mars Sample Return missions to conduct in-depth analysis with advanced Earth-based instruments.

“We are ready to take the next big step and bring Mars samples home to our labs to settle the debate about life on Mars,” declared Dr. Daniel Glavin.

This latest discovery marks a significant leap in our understanding of Martian organic chemistry and further fuels the compelling narrative that Mars may have once harbored the conditions necessary for life. The search for evidence of past life on the red planet has just intensified.

Chhaava Vs Sikandar: Bollywood Films Set New Records in 2025 Box-Office Collections

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​In 2025, Bollywood witnessed the release of two major films—”Chhaava” and “Sikandar”—each offering unique narratives and showcasing significant performances. With a high-profile cast including Vicky Kaushal, Rashmika Mandanna, Akshaye Khanna, and Ashutosh Rana, Chhaava has set the benchmark for all upcoming Bollywood films and overwhelming the past records by several blockbusters.​

Chhaava, produced with a substantial budget of approximately ₹200 crore, stands as a grand historical spectacle, showcasing elaborate production design and intricate period settings. Right from its release, the film made a significant impact at the box office, earning ₹31 crore on its opening day. Over four weeks, it amassed a net collection of ₹525.7 crore in India, reinforcing its dominance in the domestic market. On the global stage, Chhaava achieved a remarkable ₹691 crore in worldwide earnings, surpassing the lifetime collection of Sunny Deol’s Gadar 2, which stood at ₹686 crore.

When compared with previous Bollywood blockbusters, Chhaava finds itself in esteemed company. Salman Khan’s Bajrangi Bhaijaan (2015), made on a budget of ₹90 crore, grossed ₹969 crore worldwide, while Aamir Khan’s Dangal (2016), produced with ₹70 crore, achieved an extraordinary ₹2,024 crore globally.

In the historical drama genre, Padmaavat (2018), which had a budget of ₹215 crore, collected ₹585 crore worldwide. Meanwhile, the big-budget fantasy film Brahmastra (2022), made with ₹410 crore, managed to garner ₹430 crore at the global box office. With its impressive financial success, Chhaava has secured its place among the highest-grossing Bollywood films, further solidifying Bollywood’s ability to deliver large-scale, commercially successful epics.

Sikandar

Sikandar, produced with a budget of ₹180 crore (excluding Salman Khan’s remuneration), was backed by an additional ₹20 crore allocated for promotions and advertising. Even before its theatrical release, the film secured impressive non-theatrical revenue, mitigating financial risks. The OTT rights were sold to Netflix for ₹85 crore, with a clause that could increase the deal to ₹100 crore if the box office collection crosses ₹350 crore. Additionally, the satellite rights were acquired by Zee for ₹50 crore, while Zee Music Company secured the music rights for ₹30 crore. With a total potential non-theatrical revenue of ₹180 crore, the film had already recovered a significant portion of its production cost.

Released on March 30, 2025, Sikandar received positive initial reviews, and its box office figures were highly anticipated. Comparisons with previous Bollywood action blockbusters highlight its financial standing in the industry. Tiger Zinda Hai (2017), made on a ₹210 crore budget, amassed ₹565 crore worldwide, while War (2019), with a budget of ₹170 crore, collected ₹475 crore globally. Salman Khan’s Sultan (2016), produced for ₹145 crore, outperformed both with a staggering ₹623 crore worldwide. By securing major non-theatrical deals ahead of time, Sikandar showcased a strategic financial approach, ensuring stability regardless of its box office trajectory.

Both “Chhaava” and “Sikandar” have made notable contributions to Bollywood’s 2025 cinematic landscape. “Chhaava” has achieved remarkable box office success, while “Sikandar” has leveraged non-theatrical avenues to mitigate financial risks. These strategies reflect the evolving dynamics of Bollywood’s film production and distribution in a competitive market.

Fluorescent caves could explain how life can persist in other planets

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A section of South Dakota’s Wind Cave seen under normal white light (left image) transforms into something otherworldly when placed under UV light (right image) / Credit: Joshua Sebree

Deep below Earth’s surface, rock and mineral formations lay hidden with a secret brilliance. Under a black light, the chemicals fossilized within shine in brilliant hues of pink, blue and green. Scientists are using these fluorescent features to understand how the caves formed and how life is supported in extreme environments, which may reveal how life could persist in faraway places, like Jupiter’s icy moon Europa.

The researchers will present their results at the spring meeting of the American Chemical Society’s (ACS) ACS Spring 2025 being held March 23-27, 2025.

As it turns out, the chemistry in South Dakota’s Wind Cave is likely similar to places like Europa — and easier to reach. This is why astrobiologist Joshua Sebree, a professor at the University of Northern Iowa, ended up hundreds of feet underground investigating the minerals and lifeforms in these dark, cold conditions.

“The purpose of this project as a whole is to try to better understand the chemistry taking place underground that’s telling us about how life can be supported,” he explains.

As Sebree and his students began to venture into new areas of Wind Cave and other caves across the U.S., they mapped the rock formations, passages, streams and organisms they found. As they explored, they brought along their black lights (UV lights), too, to look at the minerals in the rocks.

Under the black light, certain areas of the caves seemed to transform into something otherworldly as portions of the surrounding rocks shone in different hues. Thanks to impurities lodged within the Earth millions of years ago — chemistry fossils, almost — the hues corresponded with different concentrations and types of organic or inorganic compounds. These shining stones often indicated where water once carried minerals down from the surface.

“The walls just looked completely blank and devoid of anything interesting,” says Sebree. “But then, when we turned on the black lights, what used to be just a plain brown wall turned into a bright layer of fluorescent mineral that indicated where a pool of water used to be 10,000 or 20,000 years ago.”

Typically, to understand the chemical makeup of a cave feature, a rock sample is removed and taken back to the lab. But Sebree and his team collect the fluorescence spectra — which is like a fingerprint of the chemical makeup — of different surfaces using a portable spectrometer while on their expeditions. That way, they can take the information with them but leave the cave behind and intact.

Anna Van Der Weide, an undergraduate student at the university, has accompanied Sebree on some of these explorations. Using the information collected during that fieldwork, she is building a publicly accessible inventory of fluorescence fingerprints to help provide an additional layer of information to the traditional cave map and paint a more complete picture of its history and formation.

Additional undergraduate students have contributed to the study. Jacqueline Heggen is further exploring these caves as a simulated environment for astrobiological extremophiles; Jordan Holloway is developing an autonomous spectrometer to make measurement easier and even possible for future extraterrestrial missions; and Celia Langemo is studying biometrics to keep explorers of extreme environments safe. These three students are also presenting their findings at ACS Spring 2025.

Doing science in a cave is not without its challenges. For example, in the 48-degrees Fahrenheit (9-degrees Celsius) temperature of Minnesota’s Mystery Cave, the team had to bury the spectrometer’s batteries in handwarmers to keep them from dying. Other times, to reach an area of interest, the scientists had to squeeze through spaces less than a foot (30 centimeters) wide for hundreds of feet, sometimes losing a shoe (or pants) in the process. Or, they’d have to stand knee-deep in freezing cave water to take a measurement, and hope that their instruments didn’t go for an accidental swim.

But despite these hurdles, the caves have revealed a wealth of information already. In Wind Cave, the team found that manganese-rich waters had carved out the cave and produced the striped zebra calcites within, which glowed pink under black light. The calcites grew underground, fed by the manganese-rich water. Sebree believes that when these rocks shattered, since calcite is weaker than the limestone also comprising the cave, the calcite worked to expand the cave too. “It’s a very different cave forming mechanism than has previously been looked at before,” he says.

And the unique research conditions have provided a memorable experience to Van Der Weide. “It was really cool to see how you can apply science out in the field and to learn how you function in those environments,” she concludes.

In the future, Sebree hopes to further confirm the accuracy of the fluorescence technique by comparing it to traditional, destructive techniques. He also wants to investigate the cave water that also fluoresces to understand how life on Earth’s surface has affected life deep underground and, reconnecting to his astrobiological roots, understand how similar, mineral-rich water may support life in the far reaches of our solar system.

IIIT Hyderabad’s ‘Crop Darpan’ App Helps Farmers Diagnose Crop Health Instantly

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A research team from the International Institute of Information Technology (IIIT) Hyderabad, led by Prof. P. Krishna Reddy, in collaboration with scientists from Professor Jayashankar Telangana State Agricultural University (PJTSAU), has launched Version 2 of the Crop Darpan app—an AI-powered mobile tool designed to help farmers instantly diagnose crop health issues.

The development of Crop Darpan is part of a joint research initiative between India and Japan under the India-Japan Joint Research Laboratory project. The initiative, titled ‘Data Science-based Farming Support System for Sustainable Crop Production under Climatic Change’, involves multiple institutes, including IIT Hyderabad, IIT Bombay, PJTSAU, and the University of Tokyo.

Designed as a portable agricultural expert, Crop Darpan helps farmers detect issues in rice and cotton crops, including pest infestations, bacterial and fungal diseases, and nutrient deficiencies. The app not only diagnoses problems but also offers scientific guidance on corrective measures. “Currently, it is available for use in English and Telugu languages with a vision to expand into other Indian languages,” said Prof Krishna Reddy.

The system uses a structured, question-based approach, where farmers respond to a series of “Yes” or “No” questions based on visual symptoms observed in their crops. As they progress through the hierarchy of questions, the app narrows down the issue and provides specific solutions.

Crop cultivation involves three key stages:

  1. Selecting the right crop and sowing time
  2. Managing crop health, including pests, diseases, and nutrient deficiencies
  3. Maximizing market price realization

“Crop Darpan primarily focuses on phase two, allowing farmers to manage crop health without requiring direct assistance from agricultural experts,” says Prof Krishna Reddy. By leveraging data science and AI, the app acts as a virtual extension of experts from National Agricultural Institutes, providing real-time, field-based support.

Farmers can download the Crop Darpan app for free on:
📲 Google Play Store: Crop Darpan on Play Store
📲 Apple App Store: Crop Darpan on App Store

With Version 2, Crop Darpan continues to bridge the gap between traditional farming expertise and modern digital solutions, helping farmers improve crop health, productivity, and sustainability in the face of climate change.

New study offers innovative model to reindeer conservation with global potential

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A groundbreaking study from the University of Calgary presents a novel method for identifying wildlife populations at risk—such as caribou and reindeer—based on their individual movement patterns. This approach could revolutionize future conservation strategies.

Published in Biological Conservation, the study utilizes a long-term dataset from GPS-collared caribou across Western Canada. Researchers identified six distinct behavioral groups, each requiring tailored conservation actions.

Spanning vast regions of the Rocky Mountains, particularly in British Columbia, the study area encompasses protected parklands as well as private and multi-use public lands. This diverse landscape, with its rugged topography and climate of long winters and short summers, has been increasingly impacted by habitat fragmentation due to roads, seismic exploration, railways, and logging.

The research analyzed key movement behaviors—such as migration patterns, range sizes, and elevation shifts—to gain deeper insights into caribou ecology. Lead author Margaret Hughes, a PhD candidate in the Department of Biological Sciences, explains that the study revealed subtle but significant differences from current caribou management practices in Western Canada.

“Our approach focuses on behavior to distinguish differences between individuals and groups, clustering them based on movement patterns,” Hughes says. “By understanding where they go and why, we can better inform conservation efforts.”

Behavioural Analysis

This behavioral analysis offers a more comprehensive framework for defining population boundaries, optimizing conservation resource allocation, and improving biodiversity management. While genetic studies have traditionally guided caribou conservation, Hughes emphasizes the added value of integrating movement behavior into conservation planning.

“It helps managers recognize ecologically meaningful variations within species, ultimately leading to more effective conservation strategies,” she explains.

Caribou, an iconic member of the deer family, face mounting threats from habitat loss, industrial development, and climate change. Professor Marco Musiani, a co-author from the University of Bologna and adjunct professor at UCalgary, underscores the species’ significance.

“Caribou are one of the most affected species in Canada due to oil and gas development, forestry, and climate change. Their sensitivity makes them a key indicator of ecosystem health,” Musiani says.

Beyond caribou, the study’s methodology holds promise for broader conservation efforts. Hughes notes that the findings could inform habitat protection, ecological corridor design, and even species translocation strategies—critical areas receiving increasing conservation investment.

By incorporating behavioral science into conservation, this research offers a powerful tool for safeguarding not only caribou populations but also broader biodiversity in a rapidly changing world beset with human activities which have driven species extinction rates to nearly 1,000 times from the natural background rate.

What IUCN says?

The International Union for Conservation of Nature (IUCN) reports that over 42,100 assessed species are at risk, including 25% of mammals, 14% of birds, and 40% of amphibians. However, the true numbers could be far higher, as not all species have been evaluated.

A 2019 UN biodiversity report estimated that up to one million species worldwide could face extinction, highlighting the urgent need for conservation. Yet, limited resources often force conservationists to prioritize species based on economic, ecological, or aesthetic value—leaving many vulnerable species without sufficient protection.

Ecosystems supporting endangered species are also disappearing at an alarming rate despite the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) and the Convention on Biological Diversity (CBD) in vogue to protect vulnerable species and habitats across the planet. Beyond government efforts, conservation organizations such as the Nature Conservancy, World Wildlife Fund, and Conservation International are playing a crucial role in safeguarding biodiversity.

As global collaboration model remains essential to preserving the planet’s natural ecosystems for future generations, “This approach can be applied to other at-risk species, helping guide habitat restoration and protection on a much larger scale,” Hughes says.