Chlorella is a resilient microalga ideal for CO₂ conversion in water-based systems due to its tolerance to pH (6–8) and temperature (20–30°C), making it effective for sustainable carbon capture with minimal mortality risk.

Paragraph 1 – General Introduction to Microalgae Microalgae are microscopic photosynthetic organisms found in both freshwater and marine environments. They play a crucial role in carbon sequestration by absorbing carbon dioxide (CO2) and converting it into oxygen through photosynthesis. Due to their rapid growth rates and high biomass productivity, microalgae are increasingly studied as a sustainable resource for bioenergy, carbon capture, and wastewater treatment. Paragraph 2 – Introduction to Chlorella and Supporting Literature One of the most researched species of microalgae is Chlorella, a unicellular green alga known for its high photosynthetic efficiency and adaptability to various environmental conditions. According to a study by [Author’s Name] (Year) published in [Journal Name], Chlorella can survive in a temperature range of approximately 20°C to 30°C and thrives in a pH range between 6.0 and 8.0. These parameters make Chlorella a favorable candidate for integration into air-to-water carbon conversion systems, especially in regions with stable environmental conditions. Paragraph 3 – Environmental Conditions and Tolerance Chlorella is capable of adapting to fluctuations in water quality and can tolerate moderate changes in temperature and pH without experiencing significant declines in growth or viability. Its robust nature allows it to survive even in suboptimal conditions, provided that CO2 levels do not exceed its assimilation capacity. Excessive CO2 can lead to a drop in pH, but Chlorella has been shown to buffer this effect to some extent, reducing the risk of culture collapse. Paragraph 4 – Suitability and Research Support Given its ability to thrive within a broad range of environmental parameters, Chlorella is highly suitable for use in systems aimed at converting air-based CO2 through aquatic media. Previous research by [Researcher Name] (Year) demonstrated that Chlorella cultures maintained in controlled pH and temperature conditions exhibited minimal mortality even under high CO2 exposure. This suggests that the species is not only resilient but also effective in maintaining stable photosynthetic activity, making it a promising tool for environmentally sustainable air purification through aquatic systems. Ensure this field has no more than 255 characters.