How do wildfires and volcanoes influence the Earth’s temperature? This is what a recent study published in the Proceedings of the National Academy of | Earth And The Environment
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Mars volcano formed through multiple eruptive phases
“Our results show that even during Mars’ most recent volcanic period, magma systems beneath the surface remained active and complex,” said Dr. Bartosz Pieterek. [ https://www.labroots.com/trending/space/30240/mars-volcano-f…e-phases-2](https://www.labroots.com/trending/space/30240/mars-volcano-f…e-phases-2)
How did young volcanoes on Mars form? This is what a recent study published in the journal Geology hopes to address as a team of scientists investigated the complex geological processes responsible for forming the first volcanoes on Mars. This study has the potential to help scientists better understand the recent environment on Mars over the last several million years and what this could mean for finding signs of life on the Red Planet.
For the study, the researchers used a combination of mapping and orbital data to analyze the mineralogical and geological volcanic features near one of Mars’ largest volcanoes, Pavonis Mons. The goal of the study was to ascertain the eruption history of these volcanoes, specifically whether they formed from single, short-lived eruptions or perhaps something that lasted longer and was more complex. In the end, the researchers found that the processes involved in forming the volcanoes were far more complex than previously thought. Specifically, the interior volcanic activity consisted of several magma chambers that grew and developed over time, resulting in multiple eruption events and several types of minerals that erupted onto the surface over several eruption cycles.
Scientists reverse muscle aging in mice and discover a surprising catch
A UCLA study in mice reveals that aging muscle stem cells accumulate a protein that slows repair but boosts survival. This protein, NDRG1, acts like a brake, preventing cells from activating quickly after injury. When researchers blocked it in older mice, muscle healing sped up dramatically — but stem cells became less resilient over time. The work suggests aging may reflect a survival trade-off rather than straightforward decline.
Effects of debunking interventions on endorsement of alternative medicine: a randomized controlled experiment in Peru
Fasce, A., Rosales-Trabuco, J., Barberia, I. et al. Sci Rep 16, 4,995 (2026). https://doi.org/10.1038/s41598-026-38260-w.
Meloidogyne nematodes reprogram rhizosphere metabolism to suppress antagonistic microbiota and enable bacterial pathogen co-infection
Xu et al. reveal that co-infection of nematodes and pathogens is a global phenomenon. Root-knot nematodes reprogram rhizosphere metabolism, reducing defensive tomatidine while increasing sugars that reshape rhizosphere microbiome. These changes suppress antagonistic microbes and promote pathogen proliferation, which enhances nematode survival and gall formation, leading to complex co-infection dynamics.
‘Off the shelf’ immunotherapy could get a lift from gene-edited natural killer cells
Since scientists first discovered that human immune cells could be modified to become cancer-fighting agents, they’ve been trying to engineer a cell that’s effective against solid tumors, which account for the vast majority of cancer cases. In a key advance in meeting this “holy grail challenge” in the field of cancer cell therapy, a team of Yale scientists led by geneticist Sidi Chen has revealed how immune cells can be “boosted” to target and eradicate solid tumors.
The field of cell therapy began to revolutionize cancer treatment several decades ago, when researchers pioneered the use of therapeutic cells. In this process, immune cells are removed from a patient, modified so that they can better fight cancer, and then reintroduced into the patient’s body.
Two major streams of this therapy exist: CAR-NK cell therapy, which uses a patient’s natural killer (NK) cells, and CAR-T cell therapy, which uses a patient’s T cells. In both cases, scientists genetically modify the cells to express Chimeric Antigen Receptor (CAR), a synthetic receptor that helps immune cells recognize proteins on cancer cells.
