Cover crops can provide many benefits to peanut and cotton rotation including: suppressing weeds, conserving soil moisture after termination, increasing soil organic matter, and reducing soil erosion. However, herbicide carryover can affect cover crop establishment. The objective of this study was to investigate the responses of six cover crops (daikon radish, cereal rye, oat, crimson clover, winter wheat, and common vetch) to twelve soil residual herbicides. A multi-year (2016-2018), multi-location study was conducted in Macon and Henry counties, Alabama. Herbicide treatments included; S-metolachlor, acetochlor, pyroxasulfone, diclosulam, imazapic, chlorimuron-ethyl, bentazon plus acifluorfen, pyrithiobac-sodium, trifloxysulfuron-sodium, diuron, prometryn, and flumioxazin, each applied at 10% of full-labelled rate. At 42 to 52 and 145 to 149 d after planting (DAP), cover crop plant heights and stand counts were evaluated, as well as biomass at 145 to 149 DAP. Treatments varied from year to year but not locations. In 2016, significant stand reductions (p≤0.05) of 36 to 43% in rye and 44 to 75% in wheat were observed at 48 to 52 DAP for S-metolachlor, acetochlor, pyroxasulfone, imazapic, and bentazon plus acifluorfen as compared to the non-treated. Vetch had stand reductions for all treatments 50 DAP except for prometryn ranging from 14 to 80%. S-metolachlor, pyroxasulfone and acetochlor reduced the stand of rye, wheat, and vetch more than any other herbicides. In 2017, at 147 to 149 DAP, clover stands were reduced by 29% for diclosulam and 38% for trifloxysulfuron-sodium. Similarly, radish stands were reduced by 64% in the diclosulam treatment. No significant biomass reductions were observed for any cover crop species either year. Oat showed the most tolerance with no treatments reducing any growth parameters either year. Although initial injury and stunting may occur, biomass at termination of cover crops were not affected by herbicide residues evaluated in this study.