Anthropogenic activities are increasing the amount of carbon dioxide (CO2) in the atmosphere. There is mounting experimental evidence that lifetime exposure to these increasing atmospheric CO2 levels can negatively impact the normal physiology of organisms. However, directly assessing this in humans is very difficult. We analysed serum bicarbonate (HCO3−), calcium (Ca) and phosphorus (P) levels from the U.S. National Health and Nutrition Examination Survey (NHANES) from 1999 to 2020 as indirect proxies for atmospheric CO2 exposure. Over this period, average bicarbonate levels in this population show an increasing trend which parallels rising atmospheric CO2 concentrations. Both Ca and P have decreased steadily over the same period. If these trends continue, blood bicarbonate values could be at the limit of the accepted healthy range in half a century, and Ca and P will be at the limit of their healthy ranges by the end of this century. Studies indicate that, after this time, elevated atmospheric carbon dioxide, leading to CO2 accumulation in the body, has the potential to cause a range of adverse health effects. These findings highlight the urgent need for significant reductions in anthropogenic CO2 emissions to safeguard public health.
We examined the impact of indoor plants on air quality parameters in office environments, focusing on relative humidity, indoor air temperature, and CO2 concentration. Our findings demonstrated that, while indoor plants significantly increase relative humidity, they had a negligible effect on indoor air temperature and CO2 concentration in the offices we sampled. This suggests that while plants can enhance comfort in dry indoor environments, their role in regulating temperature and CO2 levels is limited.
The only maintenance required is changing
of the activated-carbon filter every six months, and replacement of the HEPA filter
every five years. In normal use, the carbon dioxide filter cassette has a lifetime of
at least 15 years.
Effects of indoor plants on CO2 concentration, indoor air temperature and relative humidity in office buildings
I guess I’d need to invest in a CO2 scrubber.
apparently there is this https://www.nih.gov/news-events/nih-research-matters/genetically-modified-houseplant-cleans-indoor-air
I have no idea what the cost, efficacy, or availability of this product is. https://hydrocell.fi/en/air-cleaners-carbon-dioxide-filters-and-dac-appliances/uniqfresh-air-cleaners/
yeah seems like co2 scrubbing isn’t really geared towards home use