Skepticism about claims regarding sustainability reduces consumers’ intentions to purchase sustainable products by weakening two important drivers of green consumption: people’s willingness to look for trustworthy environmental information and their anticipated guilt about making less sustainable choices.

Osaka Metropolitan University researchers examined the impact of total working hours, which include paid work and unpaid work such as housework, childcare, and caregiving, on nonrestorative sleep and mental health.

Researchers investigated how the η′ meson behaves inside atomic nuclei and found evidence that it may form bound states known as η′-mesic nuclei. Using high-energy particle experiments and sophisticated data analysis, the team observed signals consistent with theoretical predictions and measured a possible change in the particle’s mass in nuclear matter. These findings provide new insight into the structure of the vacuum and the origin of mass.

Kyoto, Japan -- The two largest planets in our Solar System, Jupiter and Saturn, also have the largest satellite systems, or the most moons. At present, Jupiter's reported moon count stands at more than 100 moons, and along with its many rings Saturn has more than 280 reported moons. Not all these moons are equal, however. Jupiter's moon family has four large members, including the largest moon in the solar system, Ganymede, while Saturn's family is dominated by one large moon, Titan, the Solar System's second largest.

Since both planets are gas giants, the reasons for the differences in these satellite systems have long puzzled astronomers. Satellite formation theories have proposed some possibilities, but recent studies on stellar magnetic fields have hinted at the need to rethink these theories. There is also a long-running debate surrounding magnetic accretion and satellite formation: specifically, whether an inner cavity can be formed in Jupiter’s circumplanetary disk, the accumulation of material orbiting a planet from which satellites may form.

A physically consistent model that can explain multiple systems, like the satellite systems of Jupiter and Saturn, may be applicable to other planetary and satellite systems beyond the Solar System. This motivated a collaborative team of researchers from institutions in Japan and China, including Kyoto University, to develop such a model.

A new study shows that simple biological traits can help predict how species respond to multiple environmental changes over time. Smaller, less mobile species are more vulnerable to warming, while short-lived species show more variable responses. The findings offer a framework for better anticipating biodiversity change and improving proactive conservation strategies.