Scientists at the US National Oceanic and Atmospheric Administration have officially confirmed that El Nino has formed and is developing in the Pacific Ocean. Experts warn this climate event could further intensify the global trend of extreme weather, push up global average temperatures, and pose serious threats to agriculture and ecosystems.

Details

According to the BBC and The Guardian, US scientists announced this week that an El Nino event has officially begun. Monitoring data shows abnormally high sea surface temperatures in the equatorial Pacific, meeting the criteria for El Nino classification.

Researchers note the concerning speed of development, suggesting it could become one of the strongest El Nino events in recent years. The phenomenon typically triggers heavy flooding in South America, intensified droughts in Australia and Southeast Asia, and abnormal rainfall patterns in the Horn of Africa.

Notably, coinciding with the El Nino confirmation, a new study found that just four days of extreme rainfall killed 7% of the world’s rarest orangutan population, highlighting the direct impact of climate change on endangered species.

Analysis

The official El Nino confirmation sends an urgent signal to global policymakers. After years of La Nina’s “cooling buffer,” Earth’s climate system has re-entered warming mode. Combined with long-term greenhouse effects, 2026-2027 is highly likely to set multiple temperature records.

El Nino’s impact on global agriculture is significant. Historically, each strong El Nino event has been accompanied by reduced yields in major grain-producing regions, pushing up global food prices and directly threatening food security in developing nations.

From a technology perspective, this event will accelerate investment in climate adaptation technologies, including drought-resistant crop development, flood warning system upgrades, and AI-based climate modeling capabilities.

Editor: GoodInfo Global News Team

Scientists are warning that a developing El Nino event could become one of the strongest on record, potentially pushing global temperatures to new highs.

El Nino, a natural climate phenomenon characterized by warming waters in the equatorial Pacific, typically leads to rising global temperatures, altered rainfall patterns, and more extreme weather events. Climate models suggest this year’s El Nino could rival the most destructive events in recorded history.

Researchers warn that combined with ongoing global warming, the amplified effect could trigger more frequent heatwaves, droughts, and heavy rainfall across Southeast Asia, Australia, South America, and parts of North America.

The Washington Post recently published a report highlighting that microplastic particles suspended in the atmosphere are absorbing solar radiation and contributing to global warming, adding a new dimension to climate change science.

Microplastics, defined as plastic fragments smaller than 5 millimeters in diameter, have long been studied primarily for their impact on marine ecosystems and the food chain. However, new research reveals that airborne microplastics also carry significant environmental consequences.

According to the report, microplastic particles in the atmosphere can absorb and scatter solar radiation, functioning similarly to greenhouse gases. When these tiny plastic fragments remain suspended in the air, they capture a portion of solar energy that would otherwise be reflected back into space, leading to increased atmospheric temperatures.

While the exact magnitude of microplastics’ contribution to global warming still requires further quantification, scientists warn that this effect should not be ignored. As global plastic production continues to rise, the amount of microplastics entering the environment is also increasing, and their potential climate impact could become more significant in the coming decades.

This finding serves as a reminder that plastic pollution is not only an ecological and health concern but also a complex environmental issue closely linked to the global climate system. Reducing plastic production and strengthening waste management could serve as dual strategies for addressing both climate change and ecological protection.

Source: Washington Post

A study published on May 4, 2026, in Nature Climate Change has revealed a concerning new finding: colored micro- and nanoplastics suspended in the atmosphere are contributing significantly to global warming. The research shows that their warming effect is equivalent to 16% of that caused by black carbon (soot).

Research Breakthrough

The study was conducted by a team of atmospheric chemists led by Professor Hongbo Fu at Fudan University, in collaboration with Drew Shindell, Nicholas Distinguished Professor of Earth Science at Duke University. Using high-resolution electron spectroscopy and atmospheric transport simulations, the researchers precisely measured the optical properties of microplastics and found that the net atmospheric effect of nearly all types of microplastics across a range of optical properties is warming.

“Prior to this research, we really didn’t know if these things were even warming or cooling,” Shindell said during a press briefing.

How It Works

Plastic pollution on land and in the ocean gradually breaks down into micro- and nanoplastics. These particles are so light that they can be lofted into the atmosphere by wind. Atmospheric plastic concentrations are particularly high over ocean gyres — large systems of rotating ocean currents where plastic accumulates and degrades.

The North Pacific Garbage Patch — an enormous floating island of trash between Hawaii and California, created by the North Pacific Gyre — is one such area. Over ocean regions with high plastic concentrations, the warming effect of microplastics can exceed that of black carbon by nearly a factor of five.

Comparison with Previous Research

A 2021 study published in Nature had estimated that colored microplastics had a negligible effect on Earth’s climate. However, the new study used a more systematic approach, analyzing how microplastics absorb and scatter sunlight, and found their warming potential to be much higher than the 2021 estimate.

Global Impact

On a global scale, the warming effect is still relatively small. But researchers warn that its influence will intensify as plastic pollution worsens.

“We’re really confident now that we understand their optics and their net effect on radiation, but we’re not as confident — and we need more measurements from all around the world — to really characterize more precisely how much of the stuff is in the atmosphere,” Shindell said.

Scientific Response

Zamin Kanji, an atmospheric scientist and lecturer at ETH Zurich who was not involved in the study, said the findings are “not altogether surprising.” He noted: “If the plastic particles start to be present in significant amounts, they are bound to have effects on direct and indirect radiative forcing.”

Kanji also warned: “The fact that the concentrations of micro- and nanoplastics that we detect in airborne samples is increasing — as the techniques and analytical methods to characterize them are advancing — is definitely worrying.”

Unknowns Remain

The study’s authors acknowledge significant uncertainties about the concentration and distribution of microplastics throughout the global atmosphere. Key unknowns include where airborne microplastics are found globally, how different particle sizes are distributed, and how their physical and chemical properties change over time.

This finding adds a new dimension to the impact of plastic pollution — it not only degrades terrestrial and marine ecosystems but may also directly influence Earth’s climate system.

Sources: Gizmodo | Nature Climate Change