Connect with us

Published

on

Researchers at the China University of Geosciences in Beijing, led by Professor Shaofeng Liu, have shed light on the mysterious transformation of the North China Craton (NCC). This research, published in Nature Geoscience, presents a breakthrough model that explains the processes behind the craton’s gradual erosion, which began in the Mesozoic era. Using detailed mantle-flow modelling, Liu’s team has traced how tectonic forces deep within the Earth have destabilised this ancient portion of continental crust, challenging long-held assumptions about craton stability.

Reconstructing Ancient Tectonic Forces

In a recent study published in Nature Geosciencethe model suggests subducted beneath the Eurasian plate where the NCC is located. Unlike typical subduction, this plate didn’t immediately sink into the mantle. Instead, it slid horizontally under the NCC’s crust, weakening its foundation in a process known as flat-slab subduction. Using seismic and stratigraphic data, the team reconstructed this tectonic behaviour, revealing how the unusual movement triggered chemical reactions that steadily eroded the NCC’s once-stable base.

Three Stages of Deformation

The research identifies three key stages in the NCC’s deformation. First, as the Izanagi plate began to subduct, it exerted horizontal pressure that altered the composition of the NCC’s foundation. In the second stage, the plate eventually rolled back, sinking deeper and creating a thinning effect on the lithosphere. This rollback phase also caused surface uplift and the formation of rift basins. The final stage saw the development of a “mantle wedge”—a zone of partially melted material—between the sinking plate and the craton, further eroding the base and promoting volcanic activity.

Implications for Geological Understanding

This study provides a more nuanced view of how tectonic and mantle forces interact to erode stable crustal structures over time. Liu’s model offers insight into the NCC’s transformation and makes our understanding of craton stability better, with practical implications for exploring mineral deposits essential to technology. The research paves the way for future studies on the complex life cycles of Earth’s crustal plates, offering a window into ancient geological processes that shape the modern landscape.

For the latest tech news and reviews, follow Gadgets 360 on X, Facebook, WhatsApp, Threads and Google News. For the latest videos on gadgets and tech, subscribe to our YouTube channel. If you want to know everything about top influencers, follow our in-house Who’sThat360 on Instagram and YouTube.


Samsung Opens Largest Experience Store in Gurugram With Exclusive Offers on Select Galaxy Devices



Ajayante Randam Moshanam to Premiere on Disney+ Hotstar on November 8

Continue Reading

Science

Microplastics Could Be Changing Earth’s Climate, Reveals New Study

Published

on

By

Microplastics Could Be Changing Earth’s Climate, Reveals New Study

Scientists at Penn State University have identified that microplastics present in the atmosphere could be influencing the Earth’s climate. A study published in Environmental Science and Technology: Air reveals that these tiny plastic particles may act as ice nucleating agents within clouds, impacting precipitation, weather, and possibly even aviation. Although the precise effects remain unclear, the findings highlight the possibility of microplastics playing an underestimated role in climate dynamics.

Microplastics Detected in Remote and Extreme Locations

As per the study, Microplastics—particles less than five millimetres in size—have been found globally, from deep ocean trenches to high-altitude clouds. Penn State’s research now adds that airborne microplastics, found even in remote mountain regions, may contribute to climate change by altering cloud structures. Professor Miriam Freedman, a senior author and chemistry professor at Penn State, stated that the study underscores the need to understand microplastics’ interactions with the atmospheric system, especially in cloud formation processes.

Laboratory Analysis Reveals Microplastic Behaviour in Ice Formation

The study further mentions that in the experiments, the research team examined how four types of microplastics—low-density polyethylene (LDPE), polypropylene (PP), polyvinyl chloride (PVC), and polyethylene terephthalate (PET)—affect ice formation. The particles were reported to suspended in water droplets and cooled, revealing that microplastic-laden droplets froze at higher temperatures compared to those without. Lead author Heidi Busse, a Penn State graduate researcher, reported that the presence of microplastics allowed freezing at up to 10 degrees warmer, signifying that such particles could promote cloud ice nucleation at milder temperatures.

Implications for Climate Patterns and Precipitation

While the full impact of microplastics on climate remains uncertain, Dr. Freedman suggests they may alter precipitation patterns by influencing cloud properties. In areas with high microplastic levels, water dispersal among many particles could result in smaller droplets, delaying rainfall but potentially leading to heavier precipitation once droplets coalesce.

Environmental Ageing and Future Research Directions

Environmental factors, such as exposure to sunlight and atmospheric chemicals, also appear to affect microplastics’ ice-forming potential, with aged PVC showing increased nucleation ability. Future research will focus on additives in plastics, which could reveal further effects on Earth’s climate.

For the latest tech news and reviews, follow Gadgets 360 on X, Facebook, WhatsApp, Threads and Google News. For the latest videos on gadgets and tech, subscribe to our YouTube channel. If you want to know everything about top influencers, follow our in-house Who’sThat360 on Instagram and YouTube.


New Fire-Resilient Dicliptera Polymorpha Discovered in India’s Western Ghats



NASA’s Atmospheric Waves Experiment Captures Gravity Waves From Hurricane Helene in Florida

Continue Reading

Science

New Fire-Resilient Plant Species Found in India’s Western Ghats

Published

on

By

New Fire-Resilient Plant Species Found in India’s Western Ghats

A new plant species, Dicliptera polymorpha, notable for its resilience to fire and dual blooming pattern, has been identified in the Northern Western Ghats by scientists from the Agharkar Research Institute (ARI), Pune. This rare find contributes to the biodiversity records of one of India’s major ecological hotspots. Unlike typical plants, Dicliptera polymorpha showcases an unusual adaptation, flowering twice a year, with one phase triggered by grassland fires. This unique characteristic makes it one of the few known Indian species with such adaptive flowering.

Unique Fire Response and Growth Characteristics

As per the official release from Department of Science & Technology, Dicliptera polymorpha, collected in Talegaon-Dabhade’s grasslands by ARI botanists, demonstrates a remarkable response to grassland fires that periodically sweep the region. A research team led by Dr. Mandar Datar, with botanist Adittya Dharap and Ph.D. student Bhushan Shigwan, observed that while the plant’s primary flowering occurs post-monsoon, a second, shorter flowering phase is prompted by fire exposure, with dwarf shoots emerging from woody rootstocks. The plant’s adaptation is seen as an evolved survival trait in response to the region’s harsh climatic conditions and human-ignited fires.

Validation and Conservation Implications

The distinctive inflorescence of Dicliptera polymorpha was confirmed as a new species by Dr. I. Darbyshire from the Kew Botanic Garden, London. Published recently in Kew Bulletin, the study highlights the species’ potential for conservation interest due to its limited habitat and specialised blooming cycle. Conservation efforts are recommended to manage human-induced fires sustainably to protect the delicate grassland ecosystems that support species like Dicliptera polymorpha, emphasising the ecological importance of the Western Ghats and the need for targeted management to prevent habitat degradation.

In light of this discovery, the researchers stress the urgency of conserving the Western Ghats’ unique biodiversity, which remains a source of undiscovered species with adaptive traits.

For the latest tech news and reviews, follow Gadgets 360 on X, Facebook, WhatsApp, Threads and Google News. For the latest videos on gadgets and tech, subscribe to our YouTube channel. If you want to know everything about top influencers, follow our in-house Who’sThat360 on Instagram and YouTube.


Signal Updated With Call Links Feature, Raise Hand Button, Emoji Reactions and More Improvements



NASA’s Atmospheric Waves Experiment Captures Gravity Waves From Hurricane Helene in Florida

Continue Reading

Science

Tiny Indian CubeSat to Ride Japanese Lander to Moon

Published

on

By

Tiny Indian CubeSat to Ride Japanese Lander to Moon

In a new partnership between India and Japan, an Indian CubeSat is set to accompany a Japanese lunar lander to orbit the Moon. HEX20Labs India Private Limited has announced a collaborative mission with the Japanese firm ispace, intending to launch a CubeSat aboard one of ispace’s lunar landers in an upcoming mission. The agreement, signed by HEX20Labs’ Co-Founder and CEO Lloyd Jacob Lopez and ispace’s Founder and CEO Takeshi Hakamada in Milan, marks a significant step in extending Indian satellite operations beyond Earth’s orbit.

As per official report by ispace, the CubeSat will be built by HEX20Labs, aiming to conduct scientific research and technological trials in cislunar space, further integrating India’s technological contributions into international lunar missions. ispace has multiple lunar landing ventures planned, but details on which mission will include HEX20Labs’ CubeSat remain undisclosed.

Mission Details

The mission, according to ispace, will help accelerate lunar exploration by standardising satellite platforms and interfaces necessary for effective operations in cislunar space. “Standardisation of satellite and its interfaces are essential to accelerate cislunar space activities,” said Takeshi Hakamada, Founder & CEO of ispace. This collaboration with HEX20Labs, he added, aligns with these goals.

In addition to HEX20Labs, the partnership also includes Skyroot Aerospace, an Indian aerospace company noted for launching India’s first private rocket in 2022, adding another key player to this international mission.

Japan’s Lunar Endeavours and Future Prospects

Japan’s recent lunar success, including the precise landing by its Smart Lander for Investigating Moon (SLIM) in January 2024, demonstrates significant advancements in lunar exploration, which are anticipated to benefit the current project. ispace’s upcoming Mission 2, expected to launch in December 2024, involves a 1000 kg lander named Resilience, along with a small rover, Tenacious, aimed at exploring the Mare Frigoris region.

Continue Reading

Trending