1. Psychrophiles – low temperature microbes
2. Mesophiles -medium temperature microbes
3. Thermophiles – high temperature microbes

Temperature is directly proportional to the biological activity within the composting system. Generally, composting begins at mesophilic temperatures of 37-44° C (98-112° F), and progresses into the thermophilic range of 45-80° C (113-176° F). Maintaining a temperature of 54° C (130° F) for three to four days favors the destruction of weed seeds, fly larvae and plant pathogens. At a temperature of 155° F, organic matter will decompose about twice as fast as at 130° F. Temperatures above 68° C (155° F) may result in the destruction of certain microbe populations causing the temperature to rapidly decline. Temperature will slowly rise again as the microbe population regenerates.

In later stages, other organisms including actinomycetes, centipedes, millipedes, fungi, sowbugs, spiders and earthworms assist in the process. As the metabolic rate of the microbes accelerate, temperatures within the system increase. Conversely, as the metabolic rate of the microbes decrease, the system temperature decreases.

Moisture content, oxygen availability, and microbial activity all influence temperature. Composting microorganisms thrive in moist conditions. For optimum performance, moisture content within the composting environment should be maintained at 45 percent. Too much water can cause the compost pile to go anaerobic and emit obnoxious odors. Too little will prevent the microorganisms from propagating. When moisture is correct and the pile temperature is increasing, it is operating at optimum performance and should not be disturbed. As the temperature peaks and begins to decrease, the pile should be turned to incorporate SEA-90 and oxygen into the compost. Subsequently, the micro-organism populations rebound and temperatures should again cycle upwards. The turning process should be continued until the compost is biologically stable and has the appearance of top soil.