Pakkapol Thaowetsuwan, Ricarda Riina, Louis P Ronse De Craene
{"title":"花的形态和发育揭示了巴豆(大戟科)一些物种的极端多样化。","authors":"Pakkapol Thaowetsuwan, Ricarda Riina, Louis P Ronse De Craene","doi":"10.1007/s10265-024-01572-x","DOIUrl":null,"url":null,"abstract":"<p><p>Floral diversity of Croton, the second largest genus in Euphorbiaceae, is currently under-explored. Several clades demonstrate an unusual floral morphology, e.g., lower or higher stamen number, bilateral symmetry and reduced ovary, but have never been investigated in a comparative study with typical Croton. This study examined morphology and ontogeny of flowers in nine Croton species from different clades within the genus with light and scanning microscopy, resin sectioning and micro-computed tomography. In staminate flowers, great variations of stamen number and arrangement are observed. The ancestral androecium likely consisted of two or more whorls with the outermost antepetalous stamen whorl developing centrifugally. Modification by reduction of the antepetalous whorl resulted in an outer alternipetalous stamen whorl in Croton section Moacroton, subgenus Quadrilobi. Several species in the subgenus Geiseleria show an independent reduction of stamen numbers by absence of a centrifugal development with the antepetalous whorl the first whorl to develop. Petal losses are observed in the distantly related C. setiger and C. dioicus. Chaotic stamen arrangement is found in C. celtidifolius (subgenus Adenophylli) as a result of a secondary stamen increase. In pistillate flowers, reduction of carpel numbers happened three times in the subgenus Geiseleria. C. monanthogynus has a bicarpellate ovary, while in C. setiger and C. michauxii the ovary is monocarpellate. Reduction of carpel number is linked with merism change and perianth reduction. The ovary in C. michauxii has basal placentation which is unique among all Croton. Moreover, strong bilateral sepals and nectaries are observed in species from section Julocroton. Therefore, the floral diversity of some species in the genus Croton could be explained by developmental modification of an ancestral form via reduction, rearrangement of stamen whorls, and symmetry shifts.</p>","PeriodicalId":16813,"journal":{"name":"Journal of Plant Research","volume":" ","pages":"721-743"},"PeriodicalIF":2.7000,"publicationDate":"2024-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Floral morphology and development reveal extreme diversification in some species of Croton (Euphorbiaceae).\",\"authors\":\"Pakkapol Thaowetsuwan, Ricarda Riina, Louis P Ronse De Craene\",\"doi\":\"10.1007/s10265-024-01572-x\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Floral diversity of Croton, the second largest genus in Euphorbiaceae, is currently under-explored. Several clades demonstrate an unusual floral morphology, e.g., lower or higher stamen number, bilateral symmetry and reduced ovary, but have never been investigated in a comparative study with typical Croton. This study examined morphology and ontogeny of flowers in nine Croton species from different clades within the genus with light and scanning microscopy, resin sectioning and micro-computed tomography. In staminate flowers, great variations of stamen number and arrangement are observed. The ancestral androecium likely consisted of two or more whorls with the outermost antepetalous stamen whorl developing centrifugally. Modification by reduction of the antepetalous whorl resulted in an outer alternipetalous stamen whorl in Croton section Moacroton, subgenus Quadrilobi. Several species in the subgenus Geiseleria show an independent reduction of stamen numbers by absence of a centrifugal development with the antepetalous whorl the first whorl to develop. Petal losses are observed in the distantly related C. setiger and C. dioicus. Chaotic stamen arrangement is found in C. celtidifolius (subgenus Adenophylli) as a result of a secondary stamen increase. In pistillate flowers, reduction of carpel numbers happened three times in the subgenus Geiseleria. C. monanthogynus has a bicarpellate ovary, while in C. setiger and C. michauxii the ovary is monocarpellate. Reduction of carpel number is linked with merism change and perianth reduction. The ovary in C. michauxii has basal placentation which is unique among all Croton. Moreover, strong bilateral sepals and nectaries are observed in species from section Julocroton. 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引用次数: 0
摘要
大戟科第二大属巴豆属(Croton)的花多样性目前还未得到充分探索。有几个支系表现出不寻常的花形态,如雄蕊数量较少或较多、两侧对称和子房缩小,但从未与典型的巴豆属植物进行过比较研究。本研究采用光学显微镜、扫描显微镜、树脂切片和微型计算机断层扫描技术,对该属不同支系的九个巴豆属物种的花的形态和发育过程进行了研究。在雄花中,可以观察到雄蕊数量和排列方式的巨大差异。祖先的雄蕊群可能由两轮或更多轮组成,最外层的对瓣雄蕊轮离心发育。由于减少了对瓣雄蕊轮,在 Quadrilobi 亚属的 Croton 节 Moacroton 中形成了外轮互瓣雄蕊。Geiseleria 亚属中的几个物种显示出雄蕊数量的独立减少,因为没有离心发育,对瓣轮是最先发育的一轮。在远缘的 C. setiger 和 C. dioicus 中也发现了花瓣脱落现象。C.celtidifolius(亚属 Adenophylli)的雄蕊排列混乱,这是次生雄蕊增加的结果。在雌花中,Geiseleria 亚属的心皮数减少了三次。C. monanthogynus 的子房为双心皮,而 C. setiger 和 C. michauxii 的子房则为单心皮。心皮数量的减少与分生组织的变化和花被的减少有关。michauxii 的子房基部有胎座,这在所有巴豆属植物中是独一无二的。此外,在胡芦巴科的物种中还能观察到较强的两侧萼片和蜜腺。因此,克罗顿属一些物种的花卉多样性可以解释为通过退化、雄蕊轮的重新排列和对称性转变对祖先形态进行了发育改造。
Floral morphology and development reveal extreme diversification in some species of Croton (Euphorbiaceae).
Floral diversity of Croton, the second largest genus in Euphorbiaceae, is currently under-explored. Several clades demonstrate an unusual floral morphology, e.g., lower or higher stamen number, bilateral symmetry and reduced ovary, but have never been investigated in a comparative study with typical Croton. This study examined morphology and ontogeny of flowers in nine Croton species from different clades within the genus with light and scanning microscopy, resin sectioning and micro-computed tomography. In staminate flowers, great variations of stamen number and arrangement are observed. The ancestral androecium likely consisted of two or more whorls with the outermost antepetalous stamen whorl developing centrifugally. Modification by reduction of the antepetalous whorl resulted in an outer alternipetalous stamen whorl in Croton section Moacroton, subgenus Quadrilobi. Several species in the subgenus Geiseleria show an independent reduction of stamen numbers by absence of a centrifugal development with the antepetalous whorl the first whorl to develop. Petal losses are observed in the distantly related C. setiger and C. dioicus. Chaotic stamen arrangement is found in C. celtidifolius (subgenus Adenophylli) as a result of a secondary stamen increase. In pistillate flowers, reduction of carpel numbers happened three times in the subgenus Geiseleria. C. monanthogynus has a bicarpellate ovary, while in C. setiger and C. michauxii the ovary is monocarpellate. Reduction of carpel number is linked with merism change and perianth reduction. The ovary in C. michauxii has basal placentation which is unique among all Croton. Moreover, strong bilateral sepals and nectaries are observed in species from section Julocroton. Therefore, the floral diversity of some species in the genus Croton could be explained by developmental modification of an ancestral form via reduction, rearrangement of stamen whorls, and symmetry shifts.
期刊介绍:
The Journal of Plant Research is an international publication that gathers and disseminates fundamental knowledge in all areas of plant sciences. Coverage extends to every corner of the field, including such topics as evolutionary biology, phylogeography, phylogeny, taxonomy, genetics, ecology, morphology, physiology, developmental biology, cell biology, molecular biology, biochemistry, biophysics, bioinformatics, and systems biology.
The journal presents full-length research articles that describe original and fundamental findings of significance that contribute to understanding of plants, as well as shorter communications reporting significant new findings, technical notes on new methodology, and invited review articles.