Due to many industrial and technological advances, carbon dioxide levels in the atmosphere have increased signficantly faster than in the past. To prevent global warming, organizations and people have worked to plant more trees as carbon sinks. However, not everyone has the time to work at a tree farm, the space for a tree, or the money to donate to such organizations. The purpose of this experiment is to test Triticum Aestivum as a possible houseplant carbon sink, inside in warm climate and outside, and how increased carbon dioxide affects the houseplant's growth and carbon dioxide absorption. If the carbon dioxide concentration in the plants environment rises, then the plant will show more growth and absorb more carbon dioxide, measured by mass in grams. I first created 3 carbon dioxide control boxes, to act as controlled environments with carbon dioxide levels varying by 75 ppm. Studies were done to test the seal and calibrate the sensors to atmospheric carbon dioxide levels, using the ideal gas law, PV = nRT. The plants were grown with 40 mL of water every other day in a day/night cycle. The control group will be normal carbon dioxide levels, 400 ppm, 475 ppm and 550 ppm. The box, in terms of sealing and controlling its environment, was successful. In the 400 ppm and 475 ppm boxes, 25 plants germinated, with an average mass of 0.023 grams. In the 550 ppm box, 28 plants germinated with an average mass of 0.022 grams. The boxes rose in ppm, the 400 ppm box reached 1830 ppm, the 475 reached 2015 ppm, and the 550 ppm reached 2015. The 475 ppm box reached higher levels of CO2 than the 550 ppm box. The hypothesis was not supported because I did not account for the plants to undergo cellular respiration as opposed to photosynthesis. This could be influenced by the fact that I conducted this experiment in winter, where there is a lower ratio between day to night, causing the plants to undergo cellular respiration. This could also be caused by a leak in the box, which while unlikely, is still a possibility and will need further tests to confirm.