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Simulating the unthinkable: Models show nuclear winter food production plunge

A nuclear winter is a theoretical concept, but if the climate scenario expected to follow a large-scale nuclear war, in which smoke and soot from firestorms block sunlight, came to fruition, global temperatures would sharply drop, extinguishing most agriculture. A nuclear winter could last for more than a decade, potentially leading to widespread famine for those who survive the devastation of the bomb blasts.

Now, a team led by researchers at Penn State have modeled precisely how various nuclear winter scenarios could impact global production of corn—the most widely planted grain crop in the world. They also recommended preparing “agricultural resilience kits” with seeds for faster-growing varieties better adapted to colder temperatures that could potentially help offset the impact of nuclear winter, as well as like volcanic eruptions.

In findings recently published in Environmental Research Letters, the team reported that the level of corn crop decline would vary, depending on the scale of the conflict.

How Google’s Android earthquake detection system can save lives

If you’re in an earthquake-prone area and own an Android phone, it could save your life. It may even have already done so. The Android Earthquake Alert (AEA) system, which began in the U.S. in 2020 and has since expanded globally, sends an automatic alert approximately one minute before the ground starts shaking. That can be enough time to take cover or warn others nearby.

In a new paper published in Science, Google explains how its , which is built into most Android phones, works. They also share insights from its first years of operation and the improvements they’ve made.

Between 2021 and 2024, the AEA system sent warnings to millions of people in 98 countries. This included more than half a million people in Turkey and Syria who received an alert on February 6, 2023, just before a magnitude 7.8 struck. Overall, Google’s researchers report that alerts were issued for 1,279 events, with only three of them being , two of which were triggered by thunderstorms.

Official Trailer

It’s the year 2073, and the worst fears of modern life have been realized. Surveillance drones fill the burnt orange skies and militarized police roam the wrecked streets, while survivors hide away underground, struggling to remember a free and hopeful existence. In this ingenious mixture of visionary science fiction and speculative nonfiction, Academy Award®-winning filmmaker Asif Kapadia (Amy) transports us to a future foreshadowed by the terrifying realities of our present moment. Two-time Academy Award® nominee Samantha Morton (In America, Sweet and Lowdown, Minority Report) plays a survivor besieged by nightmare visions of the past—a past that happens to be our present, visualized through contemporary footage interconnecting today’s global crises of authoritarianism, unchecked big tech, inequality, and global climate change. 2073 is an urgent, unshakable vision of a dystopic future that could very well be our own.

Scientists repurpose old solar panels to convert CO₂ exhaust into valuable chemicals

Centuries ago, alchemists worked furiously to convert the common metal lead to valuable gold. Today, chemists are repurposing discarded solar panels to create valuable organic compounds from carbon dioxide (CO2), a common greenhouse gas.

Significantly reducing greenhouse gases in the atmosphere to mitigate the most devastating effects of climate change will require a large reduction in emissions as well as strategies designed to sequester emitted CO2 and other offending gases. While simply sequestering greenhouse gases would fulfill this goal, creating useful organic chemicals from waste CO2 is akin to generating valuable materials from trash.

A team of chemists from Yokohama National University, Electric Power Development Co., Ltd. and the Renewable Energy Research Center at the National Institute of Advanced Industrial Science and Technology (AIST) recently decided to tackle two waste problems—excess CO2 emissions and decommissioned —in the pursuit of creating value-added organic chemicals. The team designed a study to determine if recycled components of discarded solar panels could be used to efficiently convert CO2 into useful, carbon-based compounds.

Harmful algae blooms have secret to success over other algaes—manipulating its environment

An alga that threatens freshwater ecosystems and is toxic to vertebrates has a sneaky way of ensuring its success: It suppresses the growth of algal competitors by releasing chemicals that deprive them of a vital vitamin.

The finding was reported in a new study from Cornell University, describing how the cyanobacteria Microcystis aeruginosa manipulates its environment to give itself advantages to take over the water column, leading to and mats in lakes during hot summers.

“Microcystis seems to be able to dominate more and more in the changing climate,” said Beth Ahner, professor in the Department of Biological and Environmental Engineering and corresponding author of the paper.

Precipitation extremes in 2024 Reviews Earth & Environment

2024 was one of the wettest years on record, witnessing record-breaking extreme precipitation events across the globe, several of which were compound events. Extreme rainfalls were unprecedented in arid regions and parts of the Global South, with severe monsoon rains and rapidly intensifying tropical cyclones causing severe casualties and economic losses.