Biologically secreted carbonates are archives of environmental conditions, as shell and skeletal element minerals record chemical and physical signals of the ambient environment. We report the impact of Cd 2+ and Pb 2+ on foraminiferal shell crystal structural and organizational characteristics, such as microstructure, texture, crystal co-orientation strength and crystal twin formation for the rotaliid foraminifera Amphistegina lessonii and Amphistegina lobifera. The investigated species lived first in Cd 2+ - and Pb 2+ -free and, at a later growth stage, in Cd 2+ - and Pb 2+ -containing water. Enrichment in Cd 2+ was increased 4 times relative to the ecological criteria maximum concentration (CMC) for both species. For Pb 2+ , it was increased 5 times for A. lobifera and 6 times for A. lessonii . Crystal organization was measured with Electron-Backscattered-Diffraction (EBSD), shell structure was imaged with FE-SEM. We detect that the Cd 2+ and Pb 2+ concentrations influence the degree of shell calcite twin formation. For A. lessonii the addition of Cd 2+ to the water prevents crystal twin generation, Pb 2+ induces decreased twinned calcite secretion. For A. lobifera , both Cd 2+ and Pb 2+ significantly decrease crystal twin formation. Our study indicates that crystal twin generation by Rotaliida can be developed as a structural indicator for environmental pollution with heavy toxic elements.