Inflorescence scents of Calendula maritima, C. suffruticosa subsp. fulgida, and their hybrid
Zito P, Tavella F, Sajeva M, Carimi F, Dötterl S
International journal of plant sciences [ISSN: 1537-5315] (2018)
Premise of research. Hybridization is an important driver of plant evolutionary processes. By attracting the same pollinators to different species, floral scents may be involved in formation of hybrids and breakdown of species boundaries. In contrast, by attracting a different suite of pollinators to hybrids and their parents, floral scents are believed to contribute to speciation processes initiated by hybridization events. Scents may or may not differ between the hybrids and the parents, but little is known about the scent chemistry of parental species and their hybrids. Methodology. We studied the inflorescence scents of parental Calendula maritima and C. suffruticosa subsp. fulgida (henceforth C. fulgida), and a morphologically intermediate hybrid. Scents were collected by dynamic headspace and analysed by thermal desorption-gas chromatography/mass spectrometry. Insects visiting inflorescences of the three taxa were also captured. Pivotal results. C. maritima and C. fulgida emitted different absolute amounts of scent, the hybrid released intermediate amounts of scent. The scents of the parental and hybrid taxa were all dominated by monoterpenes, with several compounds in common among the taxa. Nevertheless, the three taxa showed differences in qualitative and semi-quantitative scent patterns. C. maritima emitted more and a higher amount of sesquitepenes than the other taxa. The hybrid was overall more similar in scent properties to C. fulgida than to C. maritima. Conclusions. The overlap in scent compounds among the taxa may be responsible for attraction of the same insect pollinators resulting in interspecific pollen transfer between parents and formation of hybrids. Indeed, preliminary observations revealed that all three taxa are visited by Panurgus siculus bees (Andrenidae).
