Comparative Morphology of Epithemata (Polar Chorionic Structures) in the Eggs of Ephemerella ignita (Ephemeroptera: Ephemerellidae)

E. Gaino, E. Bongiovanni
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Structural changes in the architecture of the epithemata are discussed in relation to a different function of such devices. The fine structure of the egg chorionic pattern in Ephemeroptera has been used, as with other insect orders, to elucidate differences and relationships among species (Alba-Tercedor & Sowa, 1987; Gaino et al., 1987, 1989; Gaino & Mazzini, 1984; Mazzini & Gaino, 1990). In addition, ultrastructural studies on mayfly eggs have indicated the adhesive function of their peculiar projections, which may be involved in preventing egg drift following deposition in water (Gaino & Mazzini, 1987, 1988). As a consequence, shell surface structures may give some insight into the devices developed by different species to survive in their respective habitats (Gaino & Mazzini, 1988). Ootaxonomy is based chiefly on the species-specificity of chorionic architecture, which is constant within the representatives of a species. For instance, the organization of the mayfly egg has been employed to classify the order and to recognize nymph and adult stages in the same species (Koss, 1968). The polar devices, referred to as the \"epithema\" (this term having been introduced first by Bengtsson, 1913) or \"polar cap\" (terminology after Koss & Edmunds, 1974), is a unique chorionic structure in eggs of Ephemerella ignita Poda at the posterior polar region and is involved in egg adhesion to the substratum. The occurrence of eggs with adhesive polar devices of different lengths in E. ignita were noted earlier and were considered to be related to the position of the eggs within the ducts (Bengtsson, 1913; Degrange, 1960). This observation might have relevant implications in the field of ootaxonomy and may imply additional functions. The primary objective of this paper is to describe and document the ultraWe thank Prof. C. Falugi and Dr. C. Pesce for their helpful criticisms and F. Di Lauro for his technical assistance. This research was supported by the Italian Ministry for Public Education (M.U.R.S.T.40% and 60% funds). TRANS. AM. MICROSC. SOC., 11 l(3): 255-265. 1992. O Copyright, 1992, by the American Microscopical Society, Inc. 256 TRANS. AM. MICROSC. SOC. structural features of the eggs of E. ignita with emphasis on variations among epithemata. MATERIALS AND METHODS Adult females of Ephemerella ignita involved in oviposition were collected in June 1990 along the Berlino stream near Rossiglione, Genova, at approximately 300 m elevation. Ovipositing females were identified by the green aggregate of eggs adhering to the abdomen. Eggs were fixed in Karnovsky's (1965) fixative and rinsed in sodium cacodylate trihydrate buffer. For histological examination, eggs were dehydrated in a graded series of ethanol and embedded in metacrylate resin (JB4). Sections were stained with toluidine blue. For scanning electron microscopic (SEM) examination, selected material was dehydrated following the above-described procedure for histological study, critical-point dried using liquid CO, in a Bomar apparatus, attached to specimen holders by silver-conducting paint, and coated with gold-palladium in a Balzer Union evaporator. Specimens were observed with a Philips EM 505 scanning electron microscope. The dimensions, including epithemata, were measured in a sample of 120 eggs, subdivided into three groups of 40 eggs each, according to the morphology of their epithemata. 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引用次数: 11

Abstract

The eggs of the mayfly Ephemerella ignita (Ephemeroptera: Ephemerellidae) are characterized by a polar adhesive structure, the epithema. The epithema prevents egg drift following deposition in water by extending a network of threads. Mated females lay an aggregate of eggs that is attached to the last abdominal sternites. Within the aggregate, eggs with differently shaped epithemata are arranged in a well-defined pattern. Three types of eggs were defined by three types of epithemata, namely short, bulging, and long. In addition, histological observations confirmed the thread-like composition of the epithemata and their peculiar arrangement in each type. Short and long epithema egg types differed also by their total lengths. Structural changes in the architecture of the epithemata are discussed in relation to a different function of such devices. The fine structure of the egg chorionic pattern in Ephemeroptera has been used, as with other insect orders, to elucidate differences and relationships among species (Alba-Tercedor & Sowa, 1987; Gaino et al., 1987, 1989; Gaino & Mazzini, 1984; Mazzini & Gaino, 1990). In addition, ultrastructural studies on mayfly eggs have indicated the adhesive function of their peculiar projections, which may be involved in preventing egg drift following deposition in water (Gaino & Mazzini, 1987, 1988). As a consequence, shell surface structures may give some insight into the devices developed by different species to survive in their respective habitats (Gaino & Mazzini, 1988). Ootaxonomy is based chiefly on the species-specificity of chorionic architecture, which is constant within the representatives of a species. For instance, the organization of the mayfly egg has been employed to classify the order and to recognize nymph and adult stages in the same species (Koss, 1968). The polar devices, referred to as the "epithema" (this term having been introduced first by Bengtsson, 1913) or "polar cap" (terminology after Koss & Edmunds, 1974), is a unique chorionic structure in eggs of Ephemerella ignita Poda at the posterior polar region and is involved in egg adhesion to the substratum. The occurrence of eggs with adhesive polar devices of different lengths in E. ignita were noted earlier and were considered to be related to the position of the eggs within the ducts (Bengtsson, 1913; Degrange, 1960). This observation might have relevant implications in the field of ootaxonomy and may imply additional functions. The primary objective of this paper is to describe and document the ultraWe thank Prof. C. Falugi and Dr. C. Pesce for their helpful criticisms and F. Di Lauro for his technical assistance. This research was supported by the Italian Ministry for Public Education (M.U.R.S.T.40% and 60% funds). TRANS. AM. MICROSC. SOC., 11 l(3): 255-265. 1992. O Copyright, 1992, by the American Microscopical Society, Inc. 256 TRANS. AM. MICROSC. SOC. structural features of the eggs of E. ignita with emphasis on variations among epithemata. MATERIALS AND METHODS Adult females of Ephemerella ignita involved in oviposition were collected in June 1990 along the Berlino stream near Rossiglione, Genova, at approximately 300 m elevation. Ovipositing females were identified by the green aggregate of eggs adhering to the abdomen. Eggs were fixed in Karnovsky's (1965) fixative and rinsed in sodium cacodylate trihydrate buffer. For histological examination, eggs were dehydrated in a graded series of ethanol and embedded in metacrylate resin (JB4). Sections were stained with toluidine blue. For scanning electron microscopic (SEM) examination, selected material was dehydrated following the above-described procedure for histological study, critical-point dried using liquid CO, in a Bomar apparatus, attached to specimen holders by silver-conducting paint, and coated with gold-palladium in a Balzer Union evaporator. Specimens were observed with a Philips EM 505 scanning electron microscope. The dimensions, including epithemata, were measured in a sample of 120 eggs, subdivided into three groups of 40 eggs each, according to the morphology of their epithemata. Data given are means from each group of 40 eggs.
蜉蝣(蜉蝣目:蜉蝣科)卵上皮(极性绒毛膜结构)的比较形态学
蜉蝣(蜉蝣目:蜉蝣科)的卵具有极粘连结构,即卵皮。脓肿通过延伸网状线防止卵在水中沉积后漂移。交配后的雌性会产下一堆卵,这些卵附着在最后的腹部胸骨上。在聚集体内,具有不同形状上皮的卵以明确的模式排列。三种类型的卵被定义为三种类型的上皮,即短,鼓鼓的和长的。此外,组织学观察证实了针状脓肿的组成和它们在每种类型中的特殊排列。短卵和长卵的总长度也不同。讨论了与此类装置的不同功能有关的脓肿结构的结构变化。与其他昆虫目一样,蜉蝣目卵膜图案的精细结构已被用来阐明物种之间的差异和关系(Alba-Tercedor & Sowa, 1987;Gaino et al., 1987, 1989;Gaino & Mazzini, 1984;Mazzini & Gaino, 1990)。此外,对蜉蝣卵的超微结构研究表明,其特殊突起具有粘附功能,这可能与防止卵在水中沉积后漂移有关(Gaino & Mazzini, 1987, 1988)。因此,壳的表面结构可以让我们深入了解不同物种为在各自的栖息地生存而开发的设备(Gaino & Mazzini, 1988)。卵分类学主要基于绒毛膜结构的种特异性,这在一个物种的代表中是恒定的。例如,蜉蝣卵的组织结构已被用于分类,并在同一物种中识别若虫和成虫阶段(Koss, 1968)。极性装置,被称为“epithema”(这个术语由Bengtsson于1913年首次提出)或“polar cap”(来自Koss & Edmunds, 1974年的术语),是星历藻卵中位于后极性区域的独特绒毛膜结构,参与卵与底层的粘附。早前就注意到,在火炬手中出现了具有不同长度的粘附极性装置的卵,并被认为与卵在导管内的位置有关(Bengtsson, 1913;Degrange, 1960)。这一观察结果可能对卵巢分类学领域有相关的启示,并可能暗示其他功能。本文的主要目的是描述和记录超光速。我们感谢C. Falugi教授和C. Pesce博士的有益批评和F. Di Lauro的技术支持。这项研究得到了意大利公共教育部(M.U.R.S.T.40%和60%的资金)的支持。反式。点。MICROSC。SOC。浙江农业学报,11(3):255-265。1992. O版权所有,1992,由美国显微学会,Inc. 256 TRANS。点。MICROSC。SOC。火花菌卵的结构特征,并着重于脓肿间的变异。材料与方法于1990年6月在热那亚Rossiglione附近的Berlino溪流附近海拔约300 m处采集了处于产卵期的蜉蝣成虫。通过附着在腹部的绿色卵团来识别产卵的雌性。鸡蛋用Karnovsky(1965)固定液固定,用三水合乙酸钠缓冲液冲洗。为了进行组织学检查,鸡蛋在分级的乙醇系列中脱水,并包埋在甲基丙烯酸树脂(JB4)中。切片用甲苯胺蓝染色。对于扫描电镜(SEM)检查,选择的材料按照上述程序脱水进行组织学研究,用液态CO在Bomar设备中进行临界点干燥,用银导电涂料附着在样品支架上,并在Balzer Union蒸发器中涂上金钯。用Philips EM 505扫描电镜观察标本。尺寸,包括脓肿,是在120个鸡蛋的样本中测量的,根据脓肿的形态,再分为三组,每组40个鸡蛋。给出的数据是每组40个卵子的平均值。
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