Sphaerocrystals in seeds of Euphorbia subgenus Esula (Euphorbiaceae): morphology, occurrence, and relationship with phylogeny

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Dmitry V Geltman, Nina A Medvedeva, Galina E Titova, Olga V Yakovleva
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Abstract

The term ‘sphaerocrystals’ (also sphaerites) in classic plant morphology was usually applied to spherical bodies visible in polarized light with a characteristic ‘Maltese cross’ and consisting of both inorganic and organic compounds. Initially sphaerocrystals were found in algal cells but were later also discovered in various organs of vascular plants (including seeds). Several authors noticed spherical particles on the seed surface and in testa cells of some Euphorbia species but a comprehensive study of this character in the genus (including the morphological origin of such particles) has not been carried out. We studied 72 species belonging to all 21 sections of Euphorbia subgenus Esula for presence of spherical particles on seed surface and in the testa using scanning, transmission, confocal laser electron microscopy, and light microscopy; histochemical and element analyses were also involved. We found that these particles have the same morphological features (including the demonstration of ‘Maltese cross’ in polarized light) as the ‘classic’ sphaerocrystals. We have recorded sphaerocrystals in 53 sampled species belonging to 20 sections of Euphorbia subgenus Esula; they are localized mostly in mesotesta cells and in some species are exuded onto the seed surface where they are often aggregated into clusters. Sphaerocrystals were absent in the sampled species (with one exception) of one of the major clades of the subgenus, formed by E. sect. Helioscopia and E. sect. Holophyllum. The absence of sphaerocrystals in this early divergent lineage of E. subgen. Esula may be related with adaptation of species of this lineage to more mesic habitats.
大戟科大戟属(Euphorbia subgenus Esula)种子中的 Sphaerocrystals:形态、发生以及与系统发育的关系
经典植物形态学中的 "水芒晶体"(也称水芒石)通常指在偏振光下可见的球形体,具有 "马耳他十字 "的特征,由无机和有机化合物组成。最初,人们在藻类细胞中发现了海绵状晶体,但后来也在维管植物的各种器官(包括种子)中发现了海绵状晶体。有几位作者注意到一些大戟科植物种子表面和种皮细胞中的球形颗粒,但尚未对该属的这一特征(包括此类颗粒的形态起源)进行全面研究。我们利用扫描、透射、激光共聚焦电子显微镜和光学显微镜研究了大戟科大戟属所有 21 个科中的 72 个物种,以观察种子表面和种皮中是否存在球形颗粒;同时还进行了组织化学和元素分析。我们发现这些颗粒具有与 "经典 "水螅晶体相同的形态特征(包括在偏振光下显示 "马耳他十字")。我们在大戟科大戟属 20 个分枝的 53 个取样物种中记录到了水芒晶体;它们主要分布在中胚层细胞中,有些物种的水芒晶体会渗出到种子表面,并经常聚集成团。在由 E. sect.Helioscopia 和 E. sect.Holophyllum.在 E. 亚属的这一早期分化支系中没有水螅晶体,这可能与 E. 亚属的适应性有关。Esula亚属的这一早期分化品系中没有海绵状晶体,这可能与该品系的物种适应较为中生的生境有关。
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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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