Dark-centred umbels in Apiaceae: diversity, development and evolution.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2023-09-13 eCollection Date: 2023-10-01 DOI:10.1093/aobpla/plad065
Regine Claßen-Bockhoff, Ferhat Celep, Yousef Ajani, Lisa Frenken, Kerstin Reuther, Musa Doğan
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Abstract

The wild carrot (Daucus carota) is famous for its dark flowers in the umbel centre. Several studies have been conducted to figure out their functional significance, but the evolution of the dark centre remains an enigma. In the present paper, we consider all known apioid species with dark-centred umbels to get a deeper understanding of their biology and evolution. Based on herbaria studies, literature and field work, we reconstructed the distribution area of 10 species (7 genera, 6 clades) of Apiaceae-Apioideae. To recognize homology of the dark structures, developmental studies were conducted in Artedia squamata and Echiophora trichophylla Field studies included architecture, flower morph distribution (andromonoecy) and flowering sequence within the plants, abundancy and behaviour of umbel visitors and preliminary manipulation experiments (removal/adding of dark structures). The dark structures are not homologous to each other. In the Daucus alliance, central flowers or umbellets are conspicuous, whereas in other species dark brush-like (A. squamata) or club-shaped structures (Dicyclophora persica, Echinophora trichophylla, Tordylium aegyptiacum, T. cappadocicum) develop from a naked receptacle. Species are andromonoecious, have a modular architecture and flower in multicyclic protandrous sequence. Among the many umbel visitors, beetles were the most abundant group. Only visitors found on umbels in both flowering phases were recognized as possible pollinators. Manipulation experiments indicated that the dark structures influence the behaviour of some, but not all umbel visitors. In Echinophora trichophylla, a massive gall infection was observed. It is evident that the dark structures evolved several times in parallel. The brush- and club-shaped structures are interpreted as the results of mutations affecting umbel development. Dark umbel centres are most likely stabilized by selection due to their general adaptive function. Their appearance in an area known as a hotspot of beetle pollination gives rise to the assumption that they may act as beetle marks.

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芹菜科暗心伞形花序:多样性、发育和进化。
野生胡萝卜(Daucus carota)以其伞形花序中心的深色花朵而闻名。已经进行了几项研究来找出它们的功能意义,但暗中心的进化仍然是个谜。在本文中,我们考虑了所有已知的具有暗中心伞形花序的类人猿物种,以更深入地了解它们的生物学和进化。根据植物标本学研究、文献资料和野外调查,我们重建了Apiaceae Apioideae的10种(7属,6支)的分布区。为了识别暗结构的同源性,在Artedia squamata和Echiophora trichophylla中进行了发育研究。实地研究包括植物内的结构、花型分布(雄单胞体)和开花序列、伞形访客的丰度和行为以及初步操作实验(去除/添加暗结构)。暗结构彼此不同源。在Daucus联盟中,中心花或伞形花序是明显的,而在其他物种中,深色刷状(A.squamata)或棒状结构(Dicycophora persica、Echinophora trichophylla、埃及Tordylium aegyptiacum、T.cappadocicum)从裸露的花托中发育而来。物种为雄性雌雄同株,具有模块化结构,花为多环雄性序列。在众多伞状访客中,甲虫是数量最多的群体。只有在两个开花期的伞形花序上发现的访客才被认为是可能的传粉者。操纵实验表明,暗结构会影响一些但并非所有伞形访客的行为。在毛叶刺鼻中,观察到大量的胆囊感染。很明显,黑暗的结构同时进化了好几次。刷状和棒状结构被解释为影响伞形花序发育的突变的结果。深色伞形花序中心由于其一般的适应功能,最有可能通过选择来稳定。它们出现在一个被称为甲虫授粉热点的地区,这让人们认为它们可能是甲虫的印记。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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