Growth pattern of the siliceous skeletons of living Spumellaria (Radiolaria) from the Kuroshio Current, offshore southwestern Shikoku Island, Japan

IF 0.7 Q4 PALEONTOLOGY
Rie S. Hori , Takenobu Shinki , Akihiro Iwakiri , Atsushi Matsuoka , Noritoshi Suzuki , Kaoru Ogane , Akihiro Tuji
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引用次数: 1

Abstract

Experimental culture studies of living radiolarians experience many difficulties because radiolarians are too sensitive to be maintained alive in artificial conditions. We here developed an improved experimental protocol in order to detect newly-formed parts of the polycystine radiolarian skeletons after they were labeled with fluorescent markers. Living samples were collected from surface seawater of the Kuroshio Current offshore from Kashiwajima Island, Kochi Prefecture on the island of Shikoku, Japan. The taxonomic composition of the Kashiwajima radiolarian samples varied markedly across the seasons and sampling sites. Spumellaria were usually abundant in samples collected near Kashiwajima, and had high diversity in shell morphology. Here, we performed experimental studies on living spumellarian radiolarians to clarify their siliceous skeletogenesis. Our culture-based research on spumellarians provided the following results.

(A) The pattern of silica deposition on the skeleton of Spongaster tetras tetras varies depending on the growth stage. Three ontogenetic stages were identified: (1) young, (2) progressively-growing and (3) fully-grown. Furthermore, novel varied types of skeletal growth modes were determined as follows: (i) rapid growth on the outermost shell with enlargement of shell size and (ii) internal deposition on skeletal components without change in shell size. From measurements of the growth rate of cultured radiolarians, it is assumed that S. tetras tetras cell has at least a month-long life cycle.

(B) Spherical spumellarians have their own shell-forming strategy that permits additional silicogenesis while maintaining the taxonomically-specific shape of their shell; the meshwork of their shell surface consists of polygonal-shaped pore-frames formed by heterogeneous patterns of added silica.

Our direct observation with fluorescence markers detected a skeletogenesis process of Haliommilla capillacea possessing a fragile spherical shell. We thus confirm the bridge-growth hypothesis for morphogenesis of the polygonal frame as proposed in previous studies. Spongosphaera streptacantha, having extremely long spines, exhibited a special growth pattern of spine elongation in a centrifugal direction, without a change in width. This was achieved by a particular temporal pattern of silicification characterized by an alternating pattern of patchy addition of new silica on the entire part of each blade from the base to the tip. Moreover, a thin layer of new silica was added by a flowing deposition along the edge of the spine. Based on these culture-based studies using living radiolarians, we conclude that Spumellaria control and maintain a particular shell shape by regulating where silicification takes place on the skeleton, particularly depending on the growth stage.

日本四国岛西南近海黑潮潮中活刺藻(放射菌属)硅质骨架的生长模式
活体放射虫的实验培养研究遇到了许多困难,因为放射虫过于敏感,无法在人工条件下维持生命。我们在此开发了一种改进的实验方案,以便在荧光标记后检测多胱氨酸放射虫骨架的新形成部分。活体样本采集自日本四国岛高知县鹿岛近海黑潮表层海水。柏岛放射虫样品的分类组成在不同季节和采样地点有显著差异。在柏岛附近采集的样品中通常有大量的刺藻,并且在壳形态上具有很高的多样性。在这里,我们对活的刺虫放射虫进行了实验研究,以阐明它们的硅质骨骼形成。我们对棘球菌的培养研究得出以下结果:(A)不同生长阶段,海绵骨架上二氧化硅沉积的模式不同。确定了三个个体发生阶段:(1)幼体,(2)逐渐生长和(3)完全生长。此外,确定了新的不同类型的骨骼生长模式:(i)在最外层外壳上快速生长,外壳尺寸增大;(ii)在骨骼部件上内部沉积,外壳尺寸不变。根据对培养放射虫生长速率的测量,可以假设S. tetras tetras细胞至少有一个月的生命周期。(B)球形spumellarians有自己的壳形成策略,允许额外的硅发生,同时保持其外壳的分类特异性形状;其壳表面的网状结构由添加的非均相二氧化硅形成的多边形孔框组成。我们用荧光标记直接观察毛缕花的骨骼形成过程,发现毛缕花有一个脆弱的球形外壳。因此,我们证实了先前研究中提出的多边形框架形态发生的桥梁生长假说。Spongosphaera streptacantha具有超长的棘,棘呈离心方向延伸的特殊生长模式,而棘的宽度没有变化。这是通过一种特殊的硅化时间模式来实现的,其特征是在每个叶片的整个部分从基部到尖端上交替地添加新的二氧化硅。此外,通过沿脊柱边缘的流动沉积,增加了一层薄薄的新二氧化硅。基于这些利用活放射虫进行的基于培养的研究,我们得出结论,Spumellaria通过调节骨骼上硅化的位置来控制和维持特定的外壳形状,特别是取决于生长阶段。
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来源期刊
CiteScore
2.50
自引率
0.00%
发文量
17
期刊介绍: La Revue de micropaléontologie publie 4 fois par an des articles de intérêt international, consacrés à tous les aspects de la micropaléontologie. Les textes, en anglais ou en français, sont des articles originaux, des résultats de recherche, des synthèses et mises au point, des comptes rendus de réunions scientifiques et des analyses de ouvrages. La revue se veut résolument ouverte à tous les aspects de la micropaléontologie en accueillant des travaux traitant de la systématique des microfossiles (et de leurs équivalents actuels), des bactéries aux microrestes de vertébrés, et de toutes leurs applications en sciences biologiques et géologiques.
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