I’m a science journalist and researcher at The Watchers, contributing to the Epicenter edition, where I cover peer-reviewed scientific research and emerging discoveries across Earth and space sciences. With a background in astronomy and a passion for environmental science, I’ve worked in shark and coral conservation in Fiji, conducting reef and shark-behavior research, contributing to mangrove restoration, and earning PADI Open Water and Coral Reef Certifications. I bring a blend of scientific rigor and storytelling to illuminate the discoveries shaping our planet and beyond.
I’m a science journalist and researcher at The Watchers, contributing to the Epicenter edition, where I cover peer-reviewed scientific research and emerging discoveries across Earth and space sciences. With a background in astronomy and a passion for environmental science, I’ve worked in shark and coral conservation in Fiji, conducting reef and shark-behavior research, contributing to mangrove restoration, and earning PADI Open Water and Coral Reef Certifications. I bring a blend of scientific rigor and storytelling to illuminate the discoveries shaping our planet and beyond.
New 3D magnetohydrodynamic simulations show that Earth’s magnetic field has, for billions of years, funneled charged atmospheric particles toward the Moon through the planet’s magnetotail, gradually embedding traces of terrestrial gases into lunar soil. The findings, published in Nature Communications Earth and Environment, suggest that the lunar regolith holds a geochemical record of Earth’s evolving atmosphere.
An offshore M7.2 earthquake known as the Grand Banks earthquake or the Laurentian Slope earthquake and sometimes the South Shore Disaster struck south of Newfoundland on November 18, 1929 at 17:02 p.m. local time (LT), . The shaking triggered a massive 200 km³ (48 miles³) submarine slump that ruptured 12 trans-Atlantic cables and generated a tsunami that devastated more than 40 villages on the Burin Peninsula, killing 28 people.
Tectonic earthquakes come from fault slips deep within the crust, while volcanic earthquakes form as magma and gas shift under a volcano. Agencies such as the USGS use signal shape, depth, and frequency to tell them apart, guiding both seismic hazard and eruption forecasting.
Teleconnections are patterns in the atmosphere and oceans that link weather and climate anomalies across long distances, allowing conditions in one region, including the Pacific Ocean, to influence rainfall and temperature patterns elsewhere.
An Alberta Clipper is a compact and fast moving winter cyclone that forms east of the Canadian Rockies and races across the northern United States and southern Canada, often bringing sharp temperature drops, strong winds, and brief but disruptive snowfall.
New geodetic measurements along an 800 km (500 miles) section of the Himalayas indicate that seven centuries of accumulated strain may be enough to produce two M8.8 earthquakes, according to a study published recently in Geophysical Research Letters.
The exact moonrise time varies with longitude, so optimal viewing intervals depend on local conditions. After moonrise, observers can continue viewing by facing westward to minimize lunar glare.
Scientists at the University of Hong Kong (HKU) have identified a previously unknown tectonic regime, the “episodic-squishy lid”, redefining how terrestrial planets evolve and offering new insights into the tectonic histories of Earth and Venus.
An international team led by the University of Oxford has identified a 15-megaparsec-long rotating filament of galaxies about 140 million light-years away, one of the largest spinning structures ever observed.
Earthquake swarms are sequences of many small to moderate earthquakes that cluster in time and space without producing a single defining mainshock. Their unusual patterns reveal how stress, fluids and magma shift through the crust, offering one of the clearest signals that the Earth is actively reshaping itself beneath our feet.
