Quinolizidine Alkaloids from Cylicomorpha solmsii.

Five new quinolizidine alkaloids were isolated from the leaves of Cylicomorpha solmstii (Urb.) Urb. (Caricaceae) and named cylicomorphins A-E (1-5). They all are ester derivatives of the same basic quinolizidine skeleton bearing hydroxy, methyl, and ethanoic acid substituents. Their structures were mainly established by NMR spectroscopy, and the absolute configuration is proposed on the basis of VCD data and Mosher ester derivatization. Compound 5 displayed cytotoxicity in the 10 µM range against an HCT-116 cell line.

A 90,000-year record of Afromontane forest responses to climate change.

Pollen records from African highlands are scarce; hence, the paleoecology of the Afromontane forest and its responses to glacial cycles are poorly known. Lake Bambili (Cameroon) provides a record of vegetation changes in the tropical mountains of Africa over the past 90,000 years, with high temporal resolution. Pollen data and biome reconstructions show a diverging response of forests to climate changes; the upper tree line was extremely unstable, shifting substantially in response to glacial-interglacial climate alternation, whereas the transition between the montane and lowland forests remained remarkably stable. Such ecological instability may have had a critical influence on species richness in the Afromontane forests.

Phylogeny and biogeography of the rice tribe (Oryzeae): evidence from combined analysis of 20 chloroplast fragments.

Based on sequences of 20 chloroplast fragments, we generated a fully resolved phylogeny of Oryzeae and estimated divergence times of its major lineages as well as explored the historical biogeography of the tribe. Our results (1) confirmed the monophyly of Oryzeae and two-subtribe subdivision; (2) indicated that Maltebrunia, Potamophila and Prosphytochloa were genetically distinct enough to deserve generic status but Maltebrunia and Prosphytochloa were sister groups in the subtribe Oryzinae while Potamophila was a member in the subtribe Zizaniinae; (3) suggested that the previously unresolved phylogeny of the subtribe Zizaniinae was most likely explained by insufficient data due to rapid radiation; (4) provided the first well-corroborated timescale for the origin and divergence of Oryzeae, with the crown node of Oryzeae and the deepest split of Oryza at approximately 24 and 15MYA, respectively; (5) developed a biogeographic history of the tribe and substantiated the important roles of long-distance dispersal in the origin and diversification of the tribe Oryzeae.