2005. First confirmation of a native bird-pollinated plant in Europe. Á/ Oikos 110: 578 Á/ 590.The pollination of Anagyris foetida L. (Fabaceae), a Mediterranean species that is a relict of the Tertiary, was studied in two populations of SW Spain over a three-year period. Numerous censuses of birds and insects were carried out, the floral nectar was quantified, and specific tests were performed to determine the pollinators' pollen load, the pollen's effective transfer to the pistil, and spontaneous self-pollination. The most important pollinators were three species of passeriforms Á/Phylloscopus collybita Vieillot, Sylvia atricapilla L. and S. melanocephala Gmelin Á/ a result coherent with findings in populations of S and E Spain. The negligible existence of insect visitors and pollinators of A. foetida flowers could be explained by the early flowering of this species during the autumn Á/winter, coinciding with the coolest and wettest months of the year (cold, high winds, almost daily mists that persist until nightfall, and above all, abundant rainfall). The pollen loads carried by the birds were high, as were also the loads transferred to the pistil. The fruit-set of bagged flowers was very low, evidence of the plant's need for the birds as pollinators. This is the first proof of the existence of a native European bird-pollinated plant, since besides its peculaliarities (flowers odourless, pseudotubular, with no landing platform, pendulous, diurnal populations were mainly pollinated by three passeriform species.
The species studied show a mixed pollination system between insects and passerine birds. In S. calliantha there is, in addition, a third agent (juveniles of Gallotia stehlini). The participation of birds in this mixed pollination system presents varying degrees of importance because, while in S. calliantha they are the main pollinators, in the other species they interact to complement the insects which are the main pollinators. A review of different florae showed that the large showy floral morphotypes of Scrophularia are concentrated in the western and central Mediterranean region, Macaronesia and USA (New Mexico).
As most plants of the Mediterranean region bloom in spring, there have been few studies of the reproductive biology of species with autumn-winter flowering. In this study, we investigate the breeding system of Anagyris foetida, one of the few shrubs that blooms at this time. The floral, phenological, and reproductive aspects of two populations of this Mediterranean legume from south-west Spain were studied via field and laboratory experiments. The variability of fruit and seeds was studied in another 12 Iberian populations with respect to certain meteorological parameters (temperature and rainfall). Anagyris foetida shows cauliflory, marked floral longevity, and adichogamy. The peak of flowering is in January-February. It is self-compatible, with no clear advantage of cross-over self-pollination, and with virtually no autonomous self-pollination. This is because the stigma, like some other legumes, prevents the germination of pollen if its surface is not ruptured by pollinators. The number of seeds per fruit under natural pollination was positively correlated with the total rainfall during the fruiting period (from January to May), and significantly influenced the percentage of fruit weight represented by the pericarp, in the sense that the smaller the number of viable seeds in the fruit, the greater the percentage of pericarp weight.
Many studies have addressed evolution and phylogeography of plant taxa in oceanic islands, but have primarily focused on endemics because of the assumption that in widespread taxa the absence of morphological differentiation between island and mainland populations is due to recent colonization. In this paper, we studied the phylogeography of Scrophularia arguta, a widespread annual species, in an attempt to determine the number and spatiotemporal origins of dispersal events to Canary Islands. Four different regions, ITS and ETS from nDNA and psbA‐trnH and psbJ‐petA from cpDNA, were used to date divergence events within S. arguta lineages and determine the phylogenetic relationships among populations. A haplotype network was obtained to elucidate the phylogenetic relationships among haplotypes. Our results support an ancient origin of S. arguta (Miocene) with expansion and genetic differentiation in the Pliocene coinciding with the aridification of northern Africa and the formation of the Mediterranean climate. Indeed, results indicate for Canary Islands three different events of colonization, including two ancient events that probably happened in the Pliocene and have originated the genetically most divergent populations into this species and, interestingly, a recent third event of colonization of Gran Canaria from mainland instead from the closest islands (Tenerife or Fuerteventura). In spite of the great genetic divergence among populations, it has not implied any morphological variation. Our work highlights the importance of nonendemic species to the genetic richness and conservation of island flora and the significance of the island populations of widespread taxa in the global biodiversity.
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