4. ConclusionsSoil quality is an in

4. Conclusions
Soil quality is an integrated function of biological, chemical and physical properties of soil. Results showed that tillage and crop rotation had significant impact on soil microbial biomass, basal respiration, catabolism of carbon, total carbon, active carbon, total nitrogen, aggregate stability and particulate organic matter except total porosity at different depths of soil when measured and/or calculated as selected soil quality indicators. The No-till significantly increased soil microbial biomass, basal respiration, total carbon, active carbon, total nitrogen, aggregate stability, sand free particulate organic matter and decreased catabolism of carbon over time. In contrast, the conventional tillage decreased soil microbial biomass, total carbon, active carbon, total nitrogen, aggregate stability and sand free particulate organic matter and increased catabolism of carbon. Similarly, soil biological quality, soil chemical quality, soil physical quality and soil quality index improved under No-till and reduced under conventional tillage overtime. Among the tillage and crop rotation combinations, the corn–soybean–wheat under No-till performed best to improve soil quality properties and soil quality over time. A significant relationship between soil quality index and soil biological quality suggests that soil biological quality can be used as a sensitive and indicator of soil quality evaluation including soil carbon sequestration in response to sustainable management practices. Moreover, a routine measurement of soil biological quality can be used as an early indicator of both soil quality and carbon sequestration.