Habitat Structure Affects Reproductive Success of the Rare Endemic Tree Syzygium mamillatum (Myrtaceae) in Restored and Unrestored Sites in Mauritius

Invasive alien plants affect the functioning of ecosystems by altering plant–animal interactions, such as pollination, which may impede natural regeneration of native plant species. In Mauritius, we studied the reproductive traits and pollination ecology of the rare endemic cauliflorous tree Syzygium mamillatum in a restored forest (all alien plant species removed) and an adjacent unrestored area (degraded by alien plants). Flowers of S. mamillatum were only visited by generalist bird species. Although the initial number of flower buds per tree in the restored forest tended to be higher than that of trees in the unrestored area, final fruit set and the number of seeds per fruit were lower in the restored forest. This corresponded with lower bird visitation rates in the restored area. Additionally, during budding stage, most trees were severely attacked by lepidopteran larvae, and bud loss through herbivory was higher in the restored forest. Thus, the difference in reproductive performance of S. mamillatum between the two localities was caused by contrasting herbivore attack and bird visitation behavior in restored and unrestored areas. Our findings illustrate the importance of restoration efforts in mimicking the original physical structure of habitats and interaction structure of interspecific relationships, and the difficulty of doing so given the imperfect knowledge and the reality that many native species have become locally extinct and replaced by exotic species.     

Facilitating sympatric species coexistence via pollinator partitioning in endemic tropical trees of Madagascar

Summary The island of Madagascar ranks second to the neotropics in diversity of Bignoniaceae. Tribe Coleeae (Bignoniaceae) is a monophyletic group of tropical trees endemic to Madagascar and surrounding islands. The Masoala assemblage of Coleeae, in northeastern Madagascar, utilizes four mechanisms for avoiding competition via niche specialization: (1) morphologically via characters that comprise syndromes, explaining part of the pattern in this system – although the syndrome concept is not perfect; (2) spatially via vertical stratification and potentially pollen placement; (3) temporally via phenological stagger; (4) ethologically via flowering duration and display. The 13 sympatric species of understory treelets and canopy trees did receive low flower visitor numbers. Contrary to the prevailing view of pollination systems where generalized systems predict equivalency between floral traits and pollinators, I found that different pollinators pollinated the 13 species of trees, that floral characters of different trees did not overlap in multidimensional phenotype space, and that few species of trees were visited by more than two pollinator groups. The use of multiple niches is potentially important in understanding both the origin and maintenance of tropical tree diversity.     

Reproductive biology in Anagyris foetida L. (Leguminosae), an autumn–winter flowering and ornithophilous Mediterranean shrub

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.  © 2008 The Linnean Society of London, Botanical Journal of the Linnean Society , 2008, 157 , 519–532.