It is a shrub growing 1–2.5 m (3 ft 3 in – 8 ft 2 in) tall and wide. The leaves are evergreen, lanceolate, 3–10 cm long and 1–2 cm broad, dark green above and paler underneath. The flowers are 5–8 cm diameter, with 5 papery white petals, usually with a red to maroon spot at the base, surrounding the yellow stamens and pistils. The whole plant is covered with the sticky exudate of fragrant resin, the source of labdanum, used in herbal medicine and perfumery.
C. ladanifer is particularly well suited to the Mediterranean climate, standing both long summer droughts and cold weather. It is an extremely aggressive plant which has taken over much of former farmland and grasslands in the mountain regions of central Spain and much of southern Portugal. In Spanish it is known as Jara pringosa meaning "sticky shrub". In Portuguese it is known as "esteva". It has been found to have mycorrhizal associations with Boletus edulis, Boletus rhodoxanthus, and Laccaria laccata.[3]
The wide distribution and morphological variation of C. ladanifer across northern Africa, the Iberian Peninsula, and southern France has resulted in the recognition of three sub-species: subspp. ladanifer, sulcatus, and africanus.
Species-level cladogram of Cistus species, based on plastid and nuclear DNA sequences.[8][9][7][10]
Phylogenetic and divergence dating methods found that C. ladanifer diverged during the Pleistocene, long after the opening of the Strait of Gibraltar around 5 mya, which supports a hypothesis of dispersal for this species.[11] Although its seeds fall close to the maternal plant,[12]C. ladanifer may have successfully dispersed due to its preference for disturbed habitats.
It is a popular ornamental plant, grown for its strongly resin-scented foliage and conspicuous flowers. Its leaves yield a fragrant oleoresin known as labdanum, used in perfumes, especially as a fixative.[citation needed] (Not to be confused with "Laudanum", another name for tincture of opium).
^Guzmán, B. & Vargas, P. (2005). "Systematics, character evolution, and biogeography of Cistus L. (Cistaceae) based on ITS, trnL-trnF, and matK sequences". Molecular Phylogenetics and Evolution. 37 (3): 644–660. doi:10.1016/j.ympev.2005.04.026. PMID16055353.
^Guzmán, B. & Vargas, P. (2009). "Historical biogeography and character evolution of Cistaceae (Malvales) based on analysis of plastid rbcL and trnL-trnF sequences". Organisms Diversity & Evolution. 9 (2): 83–99. doi:10.1016/j.ode.2009.01.001.
^Civeyrel, Laure; Leclercq, Julie; Demoly, Jean-Pierre; Agnan, Yannick; Quèbre, Nicolas; Pélissier, Céline & Otto, Thierry (2011). "Molecular systematics, character evolution, and pollen morphology of Cistus and Halimium (Cistaceae)". Plant Systematics and Evolution. 295 (1–4): 23–54. doi:10.1007/s00606-011-0458-7. S2CID21995828.
^Guzmán, B. and P. Vargas. 2009. Long-distance colonization of the Western Mediterranean by Cistus ladanifer (Cistaceae) despite the absence of special dispersal mechanisms. Journal of Biogeography 36:954-968.
^Bastida, F. and S. Talavera. 2002. Temporal and spatial patterns of seed dispersal in two Cistus species (Cistaceae). Annals of Botany 89:427-434.
