Origin and Early Evolution of Angiosperms
Overview
Affiliations
Contributions from paleobotany, phylogenetics, genomics, developmental biology, and developmental genetics have yielded tremendous insight into Darwin's "abominable mystery"--the origin and rapid diversification of the angiosperms. Analyses of morphological and molecular data reveal a revised "anthophyte clade" consisting of the fossils glossopterids, Pentoxylon, Bennettitales, and Caytonia as sister to angiosperms. Molecular estimates of the age of crown group angiosperms have converged on 140-180 million years ago (Ma), older than the oldest fossils (132 Ma), suggesting that older fossils remain to be discovered. Whether the first angiosperms were forest shrubs (dark-and-disturbed hypothesis) or aquatic herbs (wet-and-wild hypothesis) remains unclear. The near-basal phylogenetic position of Nymphaeales (water lilies), which may include the well-known fossil Archaefructus, certainly indicates that the aquatic habit arose early. After initial, early "experiments," angiosperms radiated rapidly (<or=5 million years [Myr]), yielding the five lineages of Mesangiospermae (magnoliids and Chloranthaceae as sisters to a clade of monocots and eudicots + Ceratophyllaceae). This radiation ultimately produced approximately 97% of all angiosperm species. Updated estimates of divergence times across the angiosperms conducted using nonparametric rate smoothing, with one or multiple fossils, were older than previous reports, whereas estimates using PATHd8 were typically younger. Virtually all angiosperm genomes show evidence of whole-genome duplication, indicating that polyploidy may have been an important catalyst in angiosperm evolution. Although the flower is the central feature of the angiosperms, its origin and subsequent diversification remain major questions. Variation in spatial expression of floral regulators may control major differences in floral morphology between basal angiosperms and eudicot models.
Convergent evolution in angiosperms adapted to cold climates.
Wang S, Li J, Yu P, Guo L, Zhou J, Yang J Plant Commun. 2025; 6(2):101258.
PMID: 39849842 PMC: 11897497. DOI: 10.1016/j.xplc.2025.101258.
Srikant T, Gonzalo A, Bomblies K Mol Biol Evol. 2024; 41(10).
PMID: 39404085 PMC: 11518924. DOI: 10.1093/molbev/msae213.
Unique Jurassic Ovaries Shed a New Light on the Nature of Carpels.
Fu Q, Sun J, Zheng S, Wang X Plants (Basel). 2024; 13(16).
PMID: 39204675 PMC: 11360278. DOI: 10.3390/plants13162239.
Evolution of the Family in Angiosperms and Functional Diversity under Environmental Stress.
Wu W, Yang J, Yu N, Li R, Yuan Z, Shi J Int J Mol Sci. 2024; 25(6).
PMID: 38542523 PMC: 10971295. DOI: 10.3390/ijms25063551.
Genome-wide identification and evolutionary view of ALOG gene family in Solanaceae.
Turchetto C, Silverio A, Waschburger E, Lacerda M, Quintana I, Turchetto-Zolet A Genet Mol Biol. 2023; 46(3 Suppl 1):e20230142.
PMID: 38048778 PMC: 10695626. DOI: 10.1590/1415-4757-GMB-2023-0142.