Aug 20, 2024
Lightning sparks the discovery of a new electromagnetic wave
Posted by Genevieve Klien in category: climatology
New electromagnetic wave discovery reshapes our understanding of the impact of lightning on Earth’s magnetosphere.
New electromagnetic wave discovery reshapes our understanding of the impact of lightning on Earth’s magnetosphere.
Two University of Alaska Fairbanks scientists have discovered a new type of “whistler,” an electromagnetic wave that carries a substantial amount of lightning energy to the Earth’s magnetosphere.
Cities around the globe are experiencing increased flooding due to the compounding effects of stronger storms in a warming climate and urban growth. New research from the University of California, Irvine suggests that urban form, specifically the building density and street network of a neighborhood, is also affecting the intensity of flooding.
For a paper published today in Nature Communications, researchers in UC Irvine’s Department of Civil and Environmental Engineering turned to statistical mechanics to generate a new formula allowing urban planners to more easily assess flood risks presented by land development changes.
Co-author Mohammad Javad Abdolhosseini Qomi, UC Irvine associate professor of civil and environmental engineering who holds a joint appointment in UC Irvine’s Department of Materials Science and Engineering, said that he and his colleagues were inspired by how physicists study intricate systems such as disordered porous solids, glasses and complex fluids to develop universal theories that can explain city-to-city variations in flood hazards.
According to the infamous myth, groups of lemmings sometimes run off cliffs to their collective doom. Imagine you are one of these rodents: On a sunny day you join your companions in a joyous climb up a mountain beneath clear skies, traipsing across grass and dirt and rock, glad to be among friends, until suddenly you plunge through the brisk air and all goes black.
How can scientists protect biodiversity across the Earth while climate change continues to ravage the planet? This is what a recent study published in Conservation Biology hopes to address as an international team of researchers investigated how conservation efforts within the Southern Ocean should be addressed due to human activities (i.e., tourism, climate change, and fishing). This study holds the potential to help scientists, conservationists, and the public better understand the negative effects of human activities on the Earth’s biodiversity, specifically since the Southern Ocean is home to an abundance of species.
“Despite the planet being in the midst of a mass extinction, the Southern Ocean in Antarctica is one of the few places in the world that hasn’t had any known species go extinct,” said Sarah Becker, who is a PhD student in the Department of Environmental Studies at the University of Colorado Boulder (CU Boulder) and lead author of the study.
For the study, the researchers used the Key Biodiversity Area (KBA) standard—which used to identify sites of vital importance to preserving biodiversity—to examine species within the Southern Ocean. After analyzing tracking data for 13 Antarctic and sub-Antarctic seabirds and seals, the researchers found a total of 30 KBAs existed within the Southern Ocean, specifically sites used for migration, breeding, and foraging. This study improves upon previous research that identified KBAs on a macroscale, whereas this recent study focused on sites at the microscale. The researchers hope this study will help raise awareness for mitigating fishing activities in these areas along with developing improved conservation strategies, as well.
Nanomaterials, with their distinctive physical and chemical properties, hold significant promise for revolutionizing the housing construction industry. By enabling the development of stronger, more durable, efficient, and sustainable structures, nanotechnology offers solutions to challenges such as climate change and global urbanization.
The use of nanomaterials in construction began in the mid-1980s with the advent of carbon-based structures. Since then, their application has become more widespread, driving innovations in the sector. Today, advances in nanotechnology are leading to the creation of increasingly sophisticated, selective, and efficient nanomaterials, broadening the scope of construction capabilities.
This study explored the application of various nanomaterials—titanium dioxide, carbon nanotubes (CNTs), nanosilica, nanocellulose, nanoalumina, and nanoclay—in residential construction. These materials were chosen for their potential to enhance the structural integrity, thermal performance, and overall functionality of building materials used in housing.
“Establishing that there is a big reservoir of liquid water provides some window into what the climate was like or could be like,” said Dr. Michael Manga.
While Mars is incapable of having liquid water on its surface, what about underground, and how much could there be? This is what a recent study published in the Proceedings of the National Academy of Sciences hopes to address as a team of researchers investigated how liquid water might be present beneath the Martian surface. This study holds the potential to help researchers not only better understand the current conditions on the Red Planet, but also if these same conditions could have led to life existing on the surface in the past.
For the study, the researchers analyzed seismic data obtained by NASA’s now-retired InSight lander, which landed on Mars in 2018 and sent back valuable data regarding the interior of Mars until the mission ended in 2022. This was after mission planners determined the amount of dust that had collected on the lander’s solar panels did not allow for sufficient solar energy to keep it functioning. However, despite being expired for two years, scientists continued to pour over vast amounts of data regarding the interior of Mars.
Continue reading “Probing Mars’ Interior Reveals Vast Underground Water Reservoir” »
How can older trees help combat climate change? This is what a recent study published in Nature Climate Change hopes to address as an international team of researchers investigated changes in woody biomass in older trees that have been while exposed to free-air CO2 enrichment (FACE) resulting from climate change. This study holds the potential to help researchers, climate scientists, and the public better understand the steps that can be taken to decrease CO2 emissions and combat climate change worldwide.
For the study, the researchers, led by the University of Birmingham’s Institute of Forest Research (BIFoR), conducted a FACE experiment through a combination of canopy laser scanning and tree-ring analysis to examine the 180-year-old Quercus robur L. woodland in central England between 2021and 2022. The goal was ascertaining the effectiveness of older trees compared to younger trees regarding their consumption of CO2, also known as CO2 storage. In the end, the researchers found increased levels of CO2 compared to ambient conditions in 2021 and 2022, respectively, equivalent to 1.7 tons of dry matter per hectare per year.
“Our findings refute the notion that older, mature forests cannot respond to rising levels of atmospheric CO2, but how they respond will likely depend on the supply of nutrients from the soil,” said Dr. Richard Norby from the University of Birmingham, who is lead author of the study. “Evidence from BIFoR FACE of a significant increase in woody biomass production supports the role of mature, long-established, forests as natural climate solutions in the coming decades while society strives to reduce its dependency on carbon.”
‘Earth Science to Action: How NASA connects space to village’ Learn from experts how NASA’s cutting-edge Earth observation and satellite technology is empowering communities worldwide to tackle climate change and natural disasters. This talk, organised by the SERVIR-HKH initiative at ICIMOD, features key speakers Dan Irwin (SERVIR Global Program Manager) and Ashutosh Limaye (SERVIR Chief Scientist) from NASA Marshall Space Flight Center. Learn how these advancements are bridging the gap between data and actionable insights for a thriving planet.
Fascinating study!
A new study suggests that cloud-to-ground lightning likely provided the necessary material for the first organisms on Earth to form.