Air Pollution: Beyond Human Causes

In environmental issues, industry is often the primary scapegoat. However, nature itself can exacerbate pollution: due to various weather conditions, harmful emissions can either accumulate in one area or spread widely. Details in our post.

Wind and Atmospheric Pressure

Air is constantly moving, spreading pollutants from one place to another and even across borders. For example, acid rains in Sweden are caused by sulfur and nitrogen oxides carried by winds from UK and German industries. Asia faces its own weather phenomenon - yellow dust. Powerful spring winds pick up dust particles from the Gobi Desert located in China and Mongolia and sweep it over the Korean Peninsula and Japan.

Within industrial hubs, even a low wind speed can pose a threat. At speeds of 1–2 m/s, toxic substances from ventilation systems settle on the ground, and at 4–6 m/s, from large power plants. The direction matters too; wind blowing from factories towards city centers will lead to pollution.

The most dangerous situation is a calm associated with a high-pressure area or anticyclone. Pollutants remain near the ground, trapped in one region. Conversely, in low-pressure areas or cyclones, swirling currents rise and precipitation occurs, scattering or washing away pollutants.

Air Temperature and Humidity

Temperature affects air movement: warmer, lighter currents rise and cooler, denser ones sink, a phenomenon called convection. Which pollutants travel depends on seasonal weather.

Cold Weather Impact

In cold seasons, exhaust fumes and smoke are more noticeable. One might wonder whether it’s just more visible or if there's more pollution. The answer is both. Firstly, exhausts are a mix of carbon dioxide, nitrogen, warm steam, and harmful impurities. We see condensed water droplets when steam hits cold temperatures. Moreover, during late autumn and winter, vehicles often idle, burning extra fuel and producing more emissions.

Secondly, even if industrial waste remains constant throughout the year, there's more heating during colder months, releasing carbon monoxide and other toxic hydrocarbons.

Temperature inversions can exacerbate the situation. Typically, warm air rises, carrying pollutants that disperse over large areas. But sometimes, a layer of unusually cold air forms at the ground with warmer air above, preventing the cold air from rising. This traps pollutants below, resulting in smog.

Heat Impact

During hot periods, ground-level ozone accumulates in cities and rural areas. In the stratosphere, this gas protects against ultraviolet rays, but at ground level, it's harmful. It's advisable to stay indoors during extreme heat, tracking hourly forecasts on our service. Luckily, summer often brings seasonal thunderstorms. Scientists note that high humidity helps break down ozone, so rain reduces it, and clouds inhibit its production.

May the air in your city be pure and your mood cloudless!

Read more

Understanding the phases of the Moon

During the course of a month, the Moon goes through several phases. The major Moon phases are the new moon, the first quarter, the full moon, and the third quarter. As a matter of fact, the Moon displays eight main phases. We'll dive deeper into these phases to find out why this Earth's most constant companion changes its appearance night after night.

The hottest places on Earth: Where the sun’s fury is unleashed

When we think of extreme heat, visions of arid deserts, parched landscapes, and relentless sun immediately come to mind. While many places on Earth experience scorching temperatures, only a few hold the records for being the hottest. These regions are not just hot; they are furnaces where the heat can be unbearable, even deadly. In this article, we will explore some of the hottest places on Earth and delve into the meteorological phenomena that make these locations so extreme

Greenhouse gases: The invisible drivers of climate change

Greenhouse gases (GHGs) are vital components of Earth's atmosphere that regulate the planet's temperature by trapping heat — a phenomenon known as the greenhouse effect. They function much like a thermal blanket, maintaining the warmth necessary to sustain life on Earth. However, human activities have significantly increased the concentrations of these gases, leading to global warming and climate change

Tornadoes and how they're formed

Tornadoes are as hard to predict as they are to forget after experiencing one. These mysterious whirlwinds can look like ordinary clouds, hide behind heavy rain, and even touch ground in a snowstorm. Keep reading to learn how tornadoes are formed and what myths get stuck in their vortex.

Fire Tornadoes: Nature's Fiery Spectacle

Discover the mesmerizing spectacle of fire tornadoes, a natural phenomenon that showcases nature's fiery power

More articles