Members of the AC Airstones and bubblers, as previously stated, will not destroy your plants. They're not actually assisting them either. They are, in fact, offgassing any CO2 that may be in the water for the plants to absorb. This is good for both plant health and for fish if you have any in your aquarium.
The only negative effect that air stones can have is they can mask the smell of ammonia or other chemicals in an aquarium. If you have any indication that one of your plants has a disease or injury, it should be taken out of the tank immediately so it does not further contaminate the rest of the aquarium.
Plants need oxygen to live; therefore, if an air stone was being used in conjunction with water movement, then less oxygen would be available to the plants. However, since air stones do not remove oxygen from the atmosphere, they do not harm plants in this way.
What is causing my air plants to die?
While most leafy plants are capable of cleaning indoor air, scientists have discovered that Japanese royal ferns, spider plants, Boston ferns, purple waffle plants, English ivy, areca palms, golden pothos, aloe vera, snake plants, and peace lilies are particularly effective at eliminating VOCs. This ability makes them good candidates for home air purification systems.
All ferns use photosynthesis to produce their own food instead of relying on the sun like other plants. This means they won't die when there's no light available. Instead, they will undergo a process called "carbon dioxide assimilation" which is how they clean the air.
They do this by using the gas carbon dioxide as their fuel. As they take in carbon dioxide, they release oxygen. This oxygen goes into the atmosphere, removing some of the chemicals that would otherwise pollute it.
Royal ferns are highly efficient at cleansing the air of pollutants. They can remove up to 95% of certain compounds such as benzene, toluene, and xylene (BTX). That's more than many conventional air purifiers can do. In fact, studies have shown that royal ferns can remove toxic substances such as mercury from the air.
If you want to grow your own air filter then ferns are an excellent choice. They're easy to care for and maintain, and they produce new fronds every year.
While many plants can withstand being touched, air plants cannot. Touch them as little as possible, and when you do, avoid crushing or bending any of their components. These actions will cause them to break down faster.
Air plants are already designed to be handled lightly, so there is no need to worry about damaging them. Just make sure that you don't go over their boundaries, since they won't able to recover if you pull them out of their pot too far.
If you are wondering whether it's okay to touch other types of plants, the answer is yes, as long as they can handle it. Some flowers like roses can be touched by anyone who isn't allergic, while others should not be approached unless you know for certain that the plant owner allows it. Don't worry about bruising the leaves of some plants or harming the pollen of blooming ones, since they are all part of what makes the garden beautiful.
Some people are concerned about germs on plants, but this is not a major issue in most cases. Air plants are cleaned with gentle air every time someone moves them, so you are helping them out by doing this.
VOCs are emitted by gasoline, paints, and a variety of cleaning solvents. When these compounds are exposed to sunlight, they produce airborne particles and ground-level ozone (or smog). Ozone can also make your eyes itch and burn. Smog is harmful to humans and animals, and it may even destroy vegetation. Plants use the water content of soil to grow. So if the soil becomes contaminated with toxic chemicals, then the plants will suffer too.
Smog can contain many dangerous substances. VOCs can bind to tiny particles in the air to form secondary pollutants. For example, when gasoline vapor reaches oxygen it forms hydrocarbons that can bind to particles of soot or dust to form organic carbon. This material is called particulate matter or PM. Some of this particle matter is very small - less than 2.5 microns across - and can get into deep lungs where it can cause health problems over time.
Secondary pollutants also include gases. For example, when diesel fuel burns it produces nitrogen oxides (NOx) which are responsible for acid rain and ozone formation. These gases can mix with other compounds present in smog to create new ones that are more toxic. For example, nitric oxide mixes with ammonia to form nitrogen dioxide, which is a respiratory irritant and can lead to asthma attacks. Carbon monoxide binds to haemoglobin in blood cells to form carboxyhaemoglobin, which can be fatal if not detected quickly.
Toxins (including VOCs) and bioeffluents (items that humans exhale, such as carbon dioxide and viruses) are absorbed in the air by plants that clean the air through small pores on their leaves. The process through which plants absorb gases via their leaves is known as photosynthesis. Plants use the oxygen released by this process to oxidize toxic substances in their environment. This process is called detoxification. Thus, plants play an important role in removing toxins from the air.
There are several ways in which plants reduce pollution levels including removal from the air through leaf photosynthesis and creation of soil carbon pools. The overall effect is that plant growth can reduce the toxicity of the atmosphere for other organisms. Organic farming methods that involve no pesticides or herbicides but rather promote healthy soil fertility and water retention capabilities are believed by some scientists to have a positive impact on local environmental quality.
Plants take up certain chemicals through their roots and transport them to their leaves where they are used in defense mechanisms against pests and disease or simply stored for future use. This is called phytoremediation and has been used in urban environments where it can be difficult or impossible to remove contaminants chemically.
Some plants produce toxic chemicals as a natural defense mechanism against harmful insects or animals. These defenses may take the form of poisonous berries or seeds, alkaloids, or cyanides.