A soil behavior type (SBT) chart was developed to more reliably identify organic soil deposits at sites in the state of Michigan based on piezocone (CPTu) data. Organic soils are often highly compressible organic silts, clays, and peats. Many of these soils are fluvial with high void ratios and large compressibilities. These soils are typically removed prior to the construction of roadways and shallow bridge foundations due to the risk of excessive settlement. CPTu soundings were strategically performed alongside companion soil borings in which standard penetration testing (SPT) was performed and from which split-spoon and Shelby tube samples were recovered and tested. While many of the widely used SBT charts characterize the inorganic soils with reasonable agreement to the soil descriptions presented in the soil boring logs, the organic soils are often mischaracterized as inorganic clays. A hybrid SBT approach was therefore developed that yields more accurate characterization of the organic soils. The inorganic soils are reliably characterized by plotting the normalized tip resistance versus the normalized friction ratio after Robertson [1]. This SBT approach, however, ignores the valuable piezometric data provided by the CPTu. For organic soils, this data helps to more reliably distinguish between inorganic clays and organic soils. As such, a screening tool has been implemented to filter out likely-organic soils by plotting a parameter that accounts for both the tip resistance and pore pressure versus the normalized friction ratio, e.g. [2], before characterizing the likely-inorganic soils using the Robertson-based approach [1].