Beaulieu, C., Libourel, C., Mbadinga Zamar, D.L., El Mahboubi, K., Hoey, D.J., Greiff, G.R.L., Keller, J., Girou, C., San Clemente, H., Diop, I., Amblard, E., Castel, B., Théron, A., Cauet, S., Rodde, N., Zachgo, S., Halpape, W., Meierhenrich, A., Laker, B., Bräutigam, A., Hoey, D.J., Moyroud, E., Wanke, A., Bonfanti, A., Gatti, S., Summers, A., Burmeister, E., Grube, K., Alexa, A., Kuksa, N., Gardiner, L., Balcerowicz, M., Salmon, J., Yates, B., Riglet, L., Salvi, E., Szovenyi, P., Cheng, S., Tanizawa, Y., Aziz, S., Leebens-Mack, J.H., Schmutz, J., Webber, J., Grimwood, J., Jacquet, C., Dunand, C., Nelson, J.M., Roux, F., Philippe, H., Schornack, S., Bonhomme, M. & Delaux, P.-M. (2025). The Marchantia polymorpha pangenome reveals ancient mechanisms of plant adaptation to the environment. Nature Genetics, 57(3), 729-740. Springer Science and Business Media LLC. doi:10.1038/s41588-024-02071-4.