Lifeboat Foundation

“This paper shows a fun way to make carbon-neutral fuels and chemicals,” said Dr. Curtis P. Berlinguette. “We’ll need plastic on Mars one day, and this technology shows one way we can make it there.”

Can we use the planetary environment of Mars to help power a future colony on the Red Planet? This is what a recent study published in Device hopes to address as a team of researchers investigated how current thermoelectric generators—which can operate in a myriad of environments—on Mars could convert carbon dioxide (CO₂) into fuel and other chemicals that can be used for a future Mars colony. This study holds the potential to help scientists, engineers, and the public better understand how a future Mars colony could be managed and operated without constant need for resupply from Earth.

“This is a harsh environment where large temperature differences could be leveraged to not only generate power with thermoelectric generators, but to convert the abundant CO₂ in Mars’ atmosphere into useful products that could supply a colony,” said Dr. Abhishek Soni, who is a postdoctoral research fellow at the University of British Columbia (UBC) and lead author of the study.

Continue reading “Harnessing Earth’s and Mars’ Temperature Extremes for CO2 Conversion into Fuels” »

It is the first time that synaptic density has been measured in living people with autism.

Furthermore, the research team found that the fewer synapses an individual had, the more features of autism they exhibited.

The findings appear in Molecular Psychiatry.

Continue reading “Brain difference tied to autism found in living people for 1st time” »

How organisms age is a question with broad implications for human health. In mammals, DNA methylation is a biomarker for biological age, which may predict age more accurately than date of birth. However, limitations in mammalian models make it difficult to identify mechanisms underpinning age-related DNA methylation changes. Here, we show that the short-lived model plant Arabidopsis thaliana exhibits a loss of epigenetic integrity during aging, causing heterochromatin DNA methylation decay and the expression of transposable elements. We show that the rate of epigenetic aging can be manipulated by extending or curtailing lifespan, and that shoot apical meristems are protected from this aging process. We demonstrate that a program of transcriptional repression suppresses DNA methylation maintenance pathways during aging, and that mutants of this mechanism display a complete absence of epigenetic decay. This presents a new paradigm in which a gene regulatory program sets the rate of epigenomic information loss during aging.

The authors have declared no competing interest.

The stretchable display twists and extends, surpassing standard flexible displays that only bend or fold.

LG unveils breakthrough display technology with “world’s first stretchable display” capable of expanding by 50 percent.

The groundbreaking invention may alter how we use displays going forward, according to a press release by LG Display from Sunday.

Continue reading “LG display expands by 50%, folds, twists, survives 10,000 stretches” »

Black hole light echoes are an extreme form of gravitational lensing.

Key Takeaways.

Amazon’s vision for delivery drivers now reportedly includes smart glasses.

Inside cells, there exists an extensive system of canals known as the endoplasmic reticulum (ER), which consists of membrane-encased tubes that are partially broken down as needed—for instance in case of a nutrient deficiency. As part of this process, bulges or protrusions form in the membrane, which then pinch off and are recycled by the cell.

In this work, we analyzed in detail the motion of thousands of stars within each cluster,” said Alessandro Della Croce. “It quickly became clear that stars belonging to different populations have distinct kinematic properties…

How do stars form and evolve inside globular clusters? This is what a recent study published in Astronomy & Astrophysics hopes to address as an international team of researchers conducted a groundbreaking examination of star populations that reside within globular clusters, which consists of a densely packed group of stars pulled together by gravity, with the densest part in the center of the cluster. This study holds the potential to help researchers better understand the formation and evolution of stars and star populations in these unique environments throughout the cosmos.

For the study, the researchers conducted a 3D kinematic analysis of stars and star populations within 16 Galactic globular clusters (GCs) to determine the movements of stars and star populations within these clusters and how this causes the cluster to evolve over time. Since astronomers hypothesize that globular clusters are almost as old as the universe itself, they offer a unique opportunity to study some of the oldest stars in the universe, as well. In the end, the researchers found the rotation and orbital behaviors of stars were based on their light properties.

Continue reading “Unveiling the Evolution of Globular Clusters: A 3D View of Stellar Kinematics” »

How is California’s rapidly shrinking Salton Sea contributing to dust pollution in the Golden State? This is what a recent study published in Geographies hopes to address as a team of researchers investigated how much dust pollution is occurring from Salton’s receding shoreline, which has been occurring due to water needs transitioning from the Colorado River to San Diego. This study holds the potential to help researchers better understand water management strategies and how to curtail potential environmental catastrophes from them.

“This research was a direct response to a request from the community, which wanted to be involved in impactful research questions to understand shoreline reduction,” said Dr. Ryan Sinclair, MPH, who is an associate professor of environmental microbiology at Loma Linda University School of Public Health and lead author of the study. “The community wants to be able to live next to a Salton Sea that they’re proud of.”

For the study, the researchers analyzed balloon and satellite images obtained between 2002 and 2021 and estimated the average rate of shoreline loss the Salton Sea experienced during that period. They estimated the shoreline loss averaged 12.53 meters/year between 2002 and 2017 and more than tripled to 38.44 meters/year between 2017 to 2020. They also provided predictions regarding its continued retreat, estimating that between 2030 and 2041 the shoreline is estimated to retreat 22 meters in total. They caution this retreat will contribute to increased dust pollution as a result of the continued shoreline retreat.