Cita APA (7a ed.)

Torres, L., Pante, E., González‐Solís, J., Viricel, A., Ribout, C., Zino, F., . . . Bretagnolle, V. (2021). Sea surface temperature, rather than land mass or geographic distance, may drive genetic differentiation in a species complex of highly dispersive seabirds. Wiley.

Cita Chicago Style (17a ed.)

Torres, Lucas, et al. Sea Surface Temperature, Rather than Land Mass or Geographic Distance, May Drive Genetic Differentiation in a Species Complex of Highly Dispersive Seabirds. Wiley, 2021.

Cita MLA (8a ed.)

Torres, Lucas, et al. Sea Surface Temperature, Rather than Land Mass or Geographic Distance, May Drive Genetic Differentiation in a Species Complex of Highly Dispersive Seabirds. Wiley, 2021.