Li, Hongjie, Sun, Chang-Yu, Fang, Yihang, Carlson, Caitlin M., Xu, Huifang, Ješovnik, Ana, Sosa-Calvo, Jeffrey, Zarnowski, Robert, Bechtel, Hans A., Fournelle, John H., Andes, David R., Schultz, Ted R., Gilbert, Pupa U. P. A., and Currie, Cameron R. 2020. "Biomineral armor in leaf-cutter ants." Nature Communications, 11, (1). https://doi.org/10.1038/s41467-020-19566-3.
Although calcareous anatomical structures have evolved in diverse animal groups, such structures have been unknown in insects. Here, we report the discovery of high-magnesium calcite CaMg(CO 3 ) 2 ] armor overlaying the exoskeletons of major workers of the leaf-cutter ant Acromyrmex echinatior . Live-rearing and in vitro synthesis experiments indicate that the biomineral layer accumulates rapidly as ant workers mature, that the layer is continuously distributed, covering nearly the entire integument, and that the ant epicuticle catalyzes biomineral nucleation and growth. In situ nanoindentation demonstrates that the biomineral layer significantly hardens the exoskeleton. Increased survival of ant workers with biomineralized exoskeletons during aggressive encounters with other ants and reduced infection by entomopathogenic fungi demonstrate the protective role of the biomineral layer. The discovery of biogenic high-magnesium calcite in the relatively well-studied leaf-cutting ants suggests that calcareous biominerals enriched in magnesium may be more common in metazoans than previously recognized.
