Frontiers in Zoology最新文献_第9页

Ontogeny of the elemental composition and the biomechanics of radular teeth in the chiton Lepidochitona cinerea 石鳖根状齿元素组成的个体发育及生物力学研究

IF 2.8 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-06-11 DOI: 10.1186/s12983-022-00465-w

Krings, Wencke, Brütt, Jan-Ole, Gorb, Stanislav N.

The radula, a chitinous membrane with embedded teeth, is one important molluscan autapomorphy. In some taxa (Polyplacophora and Patellogastropoda) one tooth type (the dominant lateral tooth) was studied intensively in the last decades with regard to its mechanical properties, chemical and structural composition, and the relationship between these parameters. As the dominant lateral tooth is probably one of the best studied biological materials, it is surprising, that data on elements and mechanical properties of the other tooth types, present on a chiton radula, is lacking. We provide data on the elemental distribution and mechanical properties (hardness and elasticity, i.e. Young’s modulus) of all teeth from the Polyplacophora Lepidochitona cinerea (Linnaeus, 1767) [Chitonidae: Ischnochitonidae]. The ontogeny of elements, studied by energy-dispersive X-ray spectroscopy, and of the mechanical properties, determined by nanoindentation, was analysed in every individual tooth type. Additionally, we performed breaking stress experiments with teeth under dry and wet condition, highlighting the high influence of the water content on the mechanical behaviour of the radula. We thereby could determine the forces and stresses, teeth can resist, which were previously not studied in representatives of Polyplacophora. Overall, we were able to relate the mineral (iron, calcium) content with the mechanical parameters (hardness and Young’s modulus) and the breaking force and stress in every tooth type. This led to a better understanding of the relationship between structure, material, and function in radular teeth. Further, we aimed at determining the role of calcium for the mechanical behaviour of the teeth: we decalcified radulae by ethylene diamine tetra acetic acid and performed afterwards elemental analyses, breaking stress experiments, and nanoindentation. Among other things, we detected that wet and decalcified radular teeth could resist highest forces, since teeth have a higher range of bending motion leading to a higher capability of teeth to gain mechanical support from the adjacent tooth row. This indicates, that the tooth material is the result of a compromise between failure reduction and the ability to transfer forces onto the ingesta. We present novel data on the elemental composition, mechanical properties, and the mechanical behaviour of chiton teeth, which allows conclusions about tooth function. We could also relate the parameters mentioned, which contributes to our understanding on the origins of mechanical property gradients and the processes reducing structural failure in radular teeth. Additionally, we add more evidence, that the elemental composition of radular is probably species-specific and could be used as taxonomic character.

radula是一种具有嵌齿的几丁质膜，是软体动物的一种重要的自异形。在一些分类群(Polyplacophora和Patellogastropoda)中，一种牙齿类型(占优势的侧齿)的力学性能、化学和结构组成以及这些参数之间的关系在过去的几十年中得到了深入的研究。由于主要的侧牙可能是研究得最好的生物材料之一，令人惊讶的是，关于石鳖牙髓上存在的其他类型牙齿的元素和力学特性的数据却缺乏。我们提供了来自Polyplacophora Lepidochitona cinerea (Linnaeus, 1767)的所有牙齿的元素分布和力学性能(硬度和弹性，即杨氏模量)的数据[壳类科:Ischnochitonidae]。通过能量色散x射线光谱学研究了元素的个体发生，并通过纳米压痕测定了机械性能，分析了每一种牙齿类型。此外，我们进行了牙齿在干燥和潮湿条件下的断裂应力实验，突出了含水量对牙髓力学行为的高度影响。因此，我们可以确定力和应力，牙齿可以抵抗，这是以前没有研究的代表多placophora。总的来说，我们能够将矿物(铁，钙)含量与每种牙齿类型的机械参数(硬度和杨氏模量)以及断裂力和应力联系起来。这有助于更好地理解根状牙的结构、材料和功能之间的关系。此外，我们旨在确定钙在牙齿力学行为中的作用:我们用乙二胺四乙酸脱钙，然后进行元素分析、断裂应力实验和纳米压痕。除此之外，我们发现湿的和脱钙的根状牙齿可以抵抗最高的力，因为牙齿有更高的弯曲运动范围，从而使牙齿更有能力从相邻的牙齿排获得机械支持。这表明，牙齿材料是在减少失效和将力传递到摄取物的能力之间折衷的结果。我们提出的元素组成，机械性能和石鳖牙齿的力学行为的新数据，这使得结论关于牙齿的功能。我们还可以将上述参数联系起来，这有助于我们理解力学性能梯度的起源和减少根状齿结构破坏的过程。此外，我们还补充了更多的证据，表明radular的元素组成可能是种特异性的，可以作为分类特征。

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引用次数: 16

Sequence of chondrocranial development in basal anurans—Let’s make a cranium 基底动物软骨颅骨发育的序列——让我们做一个头盖骨

IF 2.8 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-05-03 DOI: 10.1186/s12983-022-00462-z

Lukas, Paul, Ziermann, Janine M.

The craniofacial skeleton is an evolutionary innovation of vertebrates. Due to its complexity and importance to protect the brain and aid in essential functions (e.g., feeding), its development requires a precisely tuned sequence of chondrification and/or ossification events. The comparison of sequential patterns of cartilage formation bears important insights into the evolution of development. Discoglossus scovazzi is a basal anuran species. The comparison of its chondrocranium (cartilaginous neuro- & viscerocranium) development with other basal anurans (Xenopus laevis, Bombina orientalis) will help establishing the ancestral pattern of chondrification sequences in anurans and will serve as basis for further studies to reconstruct ancestral conditions in amphibians, tetrapods, and vertebrates. Furthermore, evolutionary patterns in anurans can be studied in the light of adaptations once the ancestral sequence is established. We present a comprehensive overview on the chondrocranium development of D. scovazzi. With clearing and staining, histology and 3D reconstructions we tracked the chondrification of 44 elements from the first mesenchymal Anlagen to the premetamorphic cartilaginous head skeleton and illustrate the sequential changes of the skull. We identified several anuran and discoglossoid traits of cartilage development. In D. scovazzi the mandibular, hyoid, and first branchial arch Anlagen develop first followed by stepwise addition of the branchial arches II, III, and IV. Nonetheless, there is no strict anterior to posterior chondrification pattern within the viscerocranium of D. scovazzi. Single hyoid arch elements chondrify after elements of the branchial arch and mandibular arch elements chondrify after elements of the branchial arch I. In Osteichthyes, neurocranial elements develop in anterior to posterior direction. In the anurans investigated so far, as well as in D. scovazzi, the posterior parts of the neurocranium extend anteriorly, while the anterior parts of the neurocranium, extend posteriorly until both parts meet and fuse. Anuran cartilaginous development differs in at least two crucial traits from other gnathostomes which further supports the urgent need for more developmental investigations among this clade to understand the evolution of cartilage development in vertebrates.

颅面骨骼是脊椎动物的进化创新。由于其复杂性和重要性，以保护大脑和帮助基本功能(如进食)，它的发展需要一个精确调整的软骨化和/或骨化事件序列。软骨形成的顺序模式的比较对发展的演变具有重要的见解。大舌龙是一种基生无脊椎动物。将其软骨颅骨(软骨神经和内脏)发育与其他基础无尾动物(爪蟾，东方bomina orientalis)进行比较，将有助于建立无尾动物软骨化序列的祖先模式，并为进一步研究重建两栖动物、四足动物和脊椎动物的祖先条件奠定基础。此外，一旦祖先序列确定，无尾动物的进化模式就可以根据适应性来研究。我们对D. scovazzi软骨头盖骨的发育进行了全面的综述。通过清除和染色，组织学和3D重建，我们追踪了44个软骨细胞的软骨化，从第一个间充质胶原到预变质软骨头部骨骼，并说明了颅骨的顺序变化。我们发现了软骨发育的一些无骨和舌骨样特征。在D. scovazzi中，下颌弓、舌骨弓和第一鳃弓首先形成角原，然后逐步增加II、III和IV鳃弓。尽管如此，在D. scovazzi的内脏中没有严格的前后软骨形成模式。单个舌骨弓的软骨在鳃弓的软骨后形成，下颌弓的软骨在鳃弓的软骨后形成。在骨鱼类中，神经颅骨的软骨在前后方向发育。在迄今为止所研究的无尾目动物中，以及在D. scovazzi中，神经头盖骨的后部向前延伸，而神经头盖骨的前部向后延伸，直到两个部分相遇并融合。Anuran软骨发育至少在两个关键特征上与其他颌口动物不同，这进一步支持了对这一进化分支进行更多发育研究的迫切需要，以了解脊椎动物软骨发育的进化。

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引用次数: 1

Movement and storage of nematocysts across development in the nudibranch Berghia stephanieae (Valdés, 2005) 裸鳃棘球绦虫(Berghia stephanieae)线虫囊在发育过程中的运动和储存(vald<s:1>， 2005)

IF 2.8 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-04-18 DOI: 10.1186/s12983-022-00460-1

Goodheart, Jessica A., Barone, Vanessa, Lyons, Deirdre C.

Intracellular sequestration requires specialized cellular and molecular mechanisms allowing a predator to retain and use specific organelles that once belonged to its prey. Little is known about how common cellular mechanisms, like phagocytosis, can be modified to selectively internalize and store foreign structures. One form of defensive sequestration involves animals that sequester stinging organelles (nematocysts) from their cnidarian prey. While it has been hypothesized that nematocysts are identified by specialized phagocytic cells for internalization and storage, little is known about the cellular and developmental mechanisms of this process in any metazoan lineage. This knowledge gap is mainly due to a lack of genetically tractable model systems among predators and their cnidarian prey. Here, we introduce the nudibranch Berghia stephanieae as a model system to investigate the cell, developmental, and physiological features of nematocyst sequestration selectivity. We first show that B. stephanieae, which feeds on Exaiptasia diaphana, selectively sequesters nematocysts over other E. diaphana tissues found in their digestive gland. Using confocal microscopy, we document that nematocyst sequestration begins shortly after feeding and prior to the formation of the appendages (cerata) where the organ responsible for sequestration (the cnidosac) resides in adults. This finding is inconsistent with previous studies that place the formation of the cnidosac after cerata emerge. Our results also show, via live imaging assays, that both nematocysts and dinoflagellates can enter the nascent cnidosac structure. This result indicates that selectivity for nematocysts occurs inside the cnidosac in B. stephanieae, likely in the cnidophage cells themselves. Our work highlights the utility of B. stephanieae for future research, because: (1) this species can be cultured in the laboratory, which provides access to all developmental stages, and (2) the transparency of early juveniles makes imaging techniques (and therefore cell and molecular assays) feasible. Our results pave the way for future studies using live imaging and targeted gene editing to identify the molecular mechanisms involved in nematocyst sequestration. Further studies of nematocyst sequestration in B. stephanieae will also allow us to investigate how common cellular mechanisms like phagocytosis can be modified to selectively internalize and store foreign structures.

细胞内隔离需要特殊的细胞和分子机制，使捕食者能够保留和使用曾经属于猎物的特定细胞器。很少有人知道常见的细胞机制，如吞噬作用，是如何被修改以选择性地内化和储存外来结构的。防御性隔离的一种形式涉及动物从刺胞动物猎物身上隔离刺胞细胞器(刺丝囊)。虽然人们假设线虫囊是由专门的吞噬细胞鉴定的，用于内化和储存，但在任何后生动物谱系中，对这一过程的细胞和发育机制知之甚少。这种知识差距主要是由于在捕食者及其刺胞动物猎物之间缺乏遗传上可处理的模型系统。在此，我们以裸鳃棘球菊为模型系统，研究线虫囊选择性的细胞、发育和生理特征。我们首先表明，以棘球绦虫为食的棘球绦虫选择性地隔离线虫囊，而不是在其消化腺中发现的其他棘球绦虫组织。使用共聚焦显微镜，我们记录了线虫囊的分离在进食后不久开始，在附属物(角状体)形成之前，其中负责分离的器官(刺囊)位于成虫体内。这一发现与先前的研究不一致，即刺胞体的形成是在角虫出现之后。我们的研究结果还表明，通过实时成像分析，线虫囊和鞭毛藻都可以进入新生的刺胞结构。这一结果表明，刺丝囊的选择性发生在刺丝囊内，很可能发生在刺丝噬细胞本身。我们的工作强调了stephanieae对未来研究的效用，因为:(1)该物种可以在实验室中培养，这提供了进入所有发育阶段的途径，(2)早期幼虫的透明度使得成像技术(因此细胞和分子分析)变得可行。我们的研究结果为未来使用实时成像和靶向基因编辑来确定线虫囊隔离的分子机制的研究铺平了道路。进一步研究刺丝囊在stephanieae中的隔离也将使我们能够研究如何修改常见的细胞机制，如吞噬作用，以选择性地内化和储存外来结构。

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引用次数: 2

A subterminal growth zone at arm tip likely underlies life-long indeterminate growth in brittle stars 在臂尖的亚末端生长区可能是海蛇尾终生不确定生长的基础

IF 2.8 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-04-12 DOI: 10.1186/s12983-022-00461-0

Mashanov, Vladimir, Whaley, Lauren, Davis, Kenneth, Heinzeller, Thomas, Machado, Denis Jacob, Reid, Robert W., Kofsky, Janice, Janies, Daniel

Echinoderms are a phylum of marine invertebrates with close phylogenetic relationships to chordates. Many members of the phylum Echinodermata are capable of extensive post-traumatic regeneration and life-long indeterminate growth. Different from regeneration, the life-long elongation of the main body axis in adult echinoderms has received little attention. The anatomical location and the nature of the dividing progenitor cells contributing to adults’ growth is unknown. We show that the proliferating cells that drive the life-long growth of adult brittle star arms are mostly localized to the subterminal (second from the tip) arm segment. Each of the major anatomical structures contains dividing progenitors. These structures include: the radial nerve, water-vascular canal, and arm coelomic wall. Some of those proliferating progenitor cells are capable of multiple rounds of cell division. Within the nervous system, the progenitor cells were identified as a subset of radial glial cells that do not express Brn1/2/4, a transcription factor with a conserved role in the neuronal fate specification. In addition to characterizing the growth zone and the nature of the precursor cells, we provide a description of the microanatomy of the four distal-most arm segments contrasting the distal with the proximal segments, which are more mature. The growth of the adult brittle star arms occurs via proliferation of progenitor cells in the distal segments, which are most abundant in the second segment from the tip. At least some of the progenitors are capable of multiple rounds of cell division. Within the nervous system the dividing cells were identified as Brn1/2/4-negative radial glial cells.

棘皮动物是海洋无脊椎动物的一个门，与脊索动物有着密切的系统发育关系。棘皮动物门的许多成员能够广泛的创伤后再生和终身不确定的生长。与再生不同，成年棘皮动物主体轴的终身伸长很少受到关注。分化祖细胞在成体发育中的解剖位置和性质尚不清楚。我们发现，驱动成年海蛇尾臂终身生长的增殖细胞主要定位于亚末端(从尖端开始的第二个)臂段。每个主要解剖结构都包含分裂祖细胞。这些结构包括:桡神经、水血管管和臂体腔壁。其中一些增殖祖细胞能够进行多轮细胞分裂。在神经系统中，祖细胞被鉴定为不表达Brn1/2/4的放射状胶质细胞的一个子集，Brn1/2/4是一种在神经元命运规范中起保守作用的转录因子。除了描述生长区和前体细胞的性质外，我们还描述了四个最远端的手臂节段的显微解剖，对比了远端和近端更成熟的节段。成年海蛇尾臂的生长是通过远端节段祖细胞的增殖发生的，远端节段的祖细胞最为丰富。至少有一些祖细胞能够进行多轮细胞分裂。神经系统内的分裂细胞鉴定为brn1 /2/4阴性的放射状胶质细胞。

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引用次数: 2

A microCT-based atlas of the central nervous system and midgut in sea spiders (Pycnogonida) sheds first light on evolutionary trends at the family level 基于微ct的海蜘蛛(Pycnogonida)中枢神经系统和中肠图谱首次揭示了家族水平上的进化趋势

IF 2.8 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-03-31 DOI: 10.1186/s12983-022-00459-8

Frankowski, Karina, Miyazaki, Katsumi, Brenneis, Georg

Pycnogonida (sea spiders) is the sister group of all other extant chelicerates (spiders, scorpions and relatives) and thus represents an important taxon to inform early chelicerate evolution. Notably, phylogenetic analyses have challenged traditional hypotheses on the relationships of the major pycnogonid lineages (families), indicating external morphological traits previously used to deduce inter-familial affinities to be highly homoplastic. This erodes some of the support for phylogenetic information content in external morphology and calls for the study of additional data classes to test and underpin in-group relationships advocated in molecular analyses. In this regard, pycnogonid internal anatomy remains largely unexplored and taxon coverage in the studies available is limited. Based on micro-computed X-ray tomography and 3D reconstruction, we created a comprehensive atlas of in-situ representations of the central nervous system and midgut layout in all pycnogonid families. Beyond that, immunolabeling for tubulin and synapsin was used to reveal selected details of ganglionic architecture. The ventral nerve cord consistently features an array of separate ganglia, but some lineages exhibit extended composite ganglia, due to neuromere fusion. Further, inter-ganglionic distances and ganglion positions relative to segment borders vary, with an anterior shift in several families. Intersegmental nerves target longitudinal muscles and are lacking if the latter are reduced. Across families, the midgut displays linear leg diverticula. In Pycnogonidae, however, complex multi-branching diverticula occur, which may be evolutionarily correlated with a reduction of the heart. Several gross neuroanatomical features are linked to external morphology, including intersegmental nerve reduction in concert with trunk segment fusion, or antero-posterior ganglion shifts in partial correlation to trunk elongation/compaction. Mapping on a recent phylogenomic phylogeny shows disjunct distributions of these traits. Other characters show no such dependency and help to underpin closer affinities in sub-branches of the pycnogonid tree, as exemplified by the tripartite subesophageal ganglion of Pycnogonidae and Rhynchothoracidae. Building on this gross anatomical atlas, future studies should now aim to leverage the full potential of neuroanatomy for phylogenetic interrogation by deciphering pycnogonid nervous system architecture in more detail, given that pioneering work on neuron subsets revealed complex character sets with unequivocal homologies across some families.

海蜘蛛是所有现存螯合动物(蜘蛛、蝎子及其近亲)的姐妹类群，因此是早期螯合动物进化的一个重要分类群。值得注意的是，系统发育分析挑战了传统的关于主要蛇蛛谱系(家族)关系的假设，表明以前用于推断家族间亲缘关系的外部形态特征是高度同质的。这削弱了外部形态学中系统发育信息内容的一些支持，并要求研究额外的数据类别来测试和支持分子分析中提倡的群体内关系。在这方面，锥虫的内部解剖结构仍然很大程度上未被探索，现有研究的分类覆盖范围有限。基于微型计算机x射线断层扫描和3D重建，我们创建了一个全面的地图集，包括所有pynogonid家族的中枢神经系统和中肠布局。除此之外，微管蛋白和突触蛋白的免疫标记被用来揭示神经节结构的选定细节。腹侧神经束始终以一系列独立的神经节为特征，但由于神经细胞融合，某些谱系表现出扩展的复合神经节。此外，神经节间距离和相对于节段边界的神经节位置各不相同，在几个科中有前移。节间神经以纵肌为目标，纵肌萎缩时神经缺失。跨科，中肠显示线性腿憩室。然而，在碧萝蛛科中，复杂的多分支憩室出现，这可能与心脏的缩小在进化上相关。一些大体的神经解剖学特征与外部形态学有关，包括与躯干节段融合相一致的节间神经复位，或与躯干伸长/压实部分相关的前后神经节移位。最近的系统基因组系统发育图显示了这些特征的不相交分布。其他性状则没有这种依赖性，并有助于巩固碧果科亚分支之间更密切的亲缘关系，如碧果科和舌胸科的食道下神经节。在这个大体解剖图谱的基础上，未来的研究现在应该致力于利用神经解剖学的全部潜力，通过更详细地破译巨核神经系统结构来进行系统发育研究，因为在神经元子集上的开创性工作揭示了一些家族中具有明确同源性的复杂字符集。

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引用次数: 5

Sexual dimorphism in ritualized agonistic behaviour, fighting ability and contest costs of Sus scrofa 礼仪化竞争行为的两性二态性、战斗能力和竞争成本

IF 2.8 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-03-12 DOI: 10.1186/s12983-022-00458-9

I. Camerlink, M. Farish, G. Arnott, S. Turner

引用次数: 3

Effects of host state and body condition on parasite infestation of bent-wing bats. 寄主状态和身体状况对弯翅蝙蝠寄生虫感染的影响。

IF 2.6 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-03-05 DOI: 10.1186/s12983-022-00457-w

Yik Ling Tai, Ya-Fu Lee, Yen-Min Kuo, Yu-Jen Kuo

Background: Ectoparasites inhabit the body surface or outgrowths of hosts and are usually detrimental to host health and wellbeing. Hosts, however, vary in quality and may lead ectoparasites to aggregate on preferred hosts, resulting in a heterogeneous distribution of parasite load among hosts.

Results: We set out to examine the effects of host individual state and body condition on the parasite load of multiple nycteribiid and streblid bat flies and Spinturnix wing mites on eastern bent-wing bats Miniopterus fuliginosus in a tropical forest in southern Taiwan. We detected a high parasite prevalence of 98.9% among the sampled bats, with nearly 75% of the bats harboring three or more species of parasites. The parasite abundance was higher in the wet season from mid spring to early fall, coinciding with the breeding period of female bats, than in the dry winter season. In both seasonal periods, the overall parasite abundance of adult females was higher than that of adult males. Among the bats, reproductive females, particularly lactating females, exhibited a higher body condition and were generally most infested. The Penicillidia jenynsii and Nycteribia parvula bat flies showed a consistent female-biased infection pattern. The N. allotopa and Ascodipteron speiserianum flies, however, showed a tendency towards bats of a moderate to higher body condition, particularly reproductive females and adult males.

Conclusions: We found an overall positive correlation between parasite abundance and reproductive state and body condition of the host and female-biased parasitism for M. fuliginosus bats. However, the effects of body condition and female-biased infestation appear to be parasite species specific, and suggest that the mobility, life history, and potential inter-species interactions of the parasites may all play important roles.

背景：体外寄生虫栖息在宿主的体表或外生组织中，通常会损害宿主的健康和福祉。然而，宿主的质量参差不齐，可能导致体外寄生虫聚集在喜欢的宿主身上，从而导致寄生虫负荷在宿主之间的异质性分布：结果：我们在台湾南部的热带森林中研究了宿主个体状态和身体状况对东方弯翅蝠（Miniopterus fuliginosus）身上多种蛱蝶、链蝠蝇和翼螨寄生量的影响。在采样的蝙蝠中，我们发现寄生虫的流行率高达 98.9%，其中近 75% 的蝙蝠携带三种或三种以上的寄生虫。仲春至初秋的雨季恰好是雌性蝙蝠的繁殖期，因此寄生虫的数量要高于干燥的冬季。在这两个季节，成年雌性寄生虫的总体数量都高于成年雄性寄生虫。在蝙蝠中，繁殖期雌性，尤其是哺乳期雌性，身体状况较好，通常受感染最多。Penicillidia jenynsii 和 Nycteribia parvula 蝙蝠蝇表现出一致的雌性偏向感染模式。然而，N. allotopa 和 Ascodipteron speiserianum 苍蝇则倾向于感染身体状况中等或较好的蝙蝠，尤其是生殖雌性和成年雄性蝙蝠：我们发现，寄生虫数量与宿主的生殖状态和身体状况之间总体上呈正相关，且雌性寄生虫偏向于富里吉野蝠。然而，身体状况和雌性寄生的影响似乎是寄生物种特有的，这表明寄生虫的流动性、生活史和潜在的物种间相互作用可能都起着重要作用。

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引用次数: 0

Eggs to long-legs: embryonic staging of the harvestman Phalangium opilio (Opiliones), an emerging model arachnid. 从卵到长腿：新出现的蛛形纲模式动物禾本科动物 Phalangium opilio（Opiliones）的胚胎分期。

IF 2.6 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-03-04 DOI: 10.1186/s12983-022-00454-z

Guilherme Gainett, Audrey R Crawford, Benjamin C Klementz, Calvin So, Caitlin M Baker, Emily V W Setton, Prashant P Sharma

Background: The comparative embryology of Chelicerata has greatly advanced in recent years with the integration of classical studies and genetics, prominently spearheaded by developmental genetic works in spiders. Nonetheless, the understanding of the evolution of development and polarization of embryological characters in Chelicerata is presently limited, as few non-spider species have been well studied. A promising focal species for chelicerate evo-devo is the daddy-long-legs (harvestman) Phalangium opilio, a member of the order Opiliones. Phalangium opilio, breeds prolifically and is easily accessible in many parts of the world, as well as tractable in a laboratory setting. Resources for this species include developmental transcriptomes, a draft genome, and protocols for RNA interference, but a modern staging system is critically missing for this emerging model system.

Results: We present a staging system of P. opilio embryogenesis that spans the most important morphogenetic events with respect to segment formation, appendage elongation and head development. Using time-lapse imaging, confocal microscopy, colorimetric in situ hybridization, and immunohistochemistry, we tracked the development of synchronous clutches from egg laying to adulthood. We describe key events in segmentation, myogenesis, neurogenesis, and germ cell formation.

Conclusion: Considering the phylogenetic position of Opiliones and the unduplicated condition of its genome (in contrast to groups like spiders and scorpions), this species is poised to serve as a linchpin for comparative studies in arthropod development and genome evolution. The staging system presented herein provides a valuable reference for P. opilio that we anticipate being useful to the arthropod evo-devo community, with the goal of revitalizing research in the comparative development of non-spider arachnids.

背景：近年来，随着经典研究与遗传学的结合，蝶形纲比较胚胎学取得了很大进展，其中以蜘蛛的发育遗传学研究最为突出。然而，由于对非蜘蛛物种的研究较少，目前对螯足类胚胎学特征的发育演化和两极分化的了解还很有限。螯足类进化演变的一个有希望的重点物种是长脚蛙（禾本科）Phalangium opilio，它是裸盖目（Opiliones）的成员。Phalangium opilio 繁殖旺盛，在世界许多地方都很容易找到，在实验室环境中也很容易控制。该物种的资源包括发育转录组、基因组草案和 RNA 干扰协议，但这一新兴模式系统严重缺乏现代分期系统：结果：我们提出了一种欧皮里罗胚胎发生的分期系统，该系统涵盖了节段形成、附肢伸长和头部发育等最重要的形态发生事件。利用延时成像、共聚焦显微镜、比色原位杂交和免疫组化技术，我们追踪了同步群卵从产卵到成年的发育过程。我们描述了分节、肌肉发生、神经发生和生殖细胞形成过程中的关键事件：考虑到Opiliones的系统发育位置及其基因组的无重复状态（与蜘蛛和蝎子等类群不同），该物种有望成为节肢动物发育和基因组进化比较研究的关键。本文介绍的分期系统为蛛形纲提供了一个宝贵的参考，我们预计该系统将对节肢动物进化-变形学界有用，其目标是振兴非蜘蛛类蛛形纲动物的比较发育研究。

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引用次数: 0

The interactive effect of ambient temperature and brood size manipulation on nestling body mass in blue tits: an exploratory analysis of a long-term study 环境温度和育雏规模对蓝山雀雏鸟体重的交互影响:一项长期研究的探索性分析

IF 2.8 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2022-02-28 DOI: 10.1186/s12983-022-00456-x

A. Arct, S. Drobniak, A. Dubiec, R. Martyka, Joanna Sudyka, L. Gustafsson, M. Cichoń

引用次数: 3

Differential time allocation of foraging workers in the subterranean termite. 地下白蚁觅食工蚁的时间分配差异。

IF 2.8 2区生物学 Q1 ZOOLOGY

Frontiers in Zoology

Pub Date : 2021-12-13 DOI: 10.1186/s12983-021-00446-5

Sang-Bin Lee, Thomas Chouvenc, Nan-Yao Su

Background: Foraging in group living animals such as social insects, is collectively performed by individuals. However, our understanding on foraging behavior of subterranean termites is extremely limited, as the process of foraging in the field is mostly concealed. Because of this limitation, foraging behaviors of subterranean termites were indirectly investigated in the laboratory through tunnel geometry analysis and observations on tunneling behaviors. In this study, we tracked subsets of foraging workers from juvenile colonies of Coptotermes formosanus (2-yr-old) to describe general foraging behavioral sequences and to find how foraging workers allocate time between the foraging site (food acquisition or processing) and non-foraging site (food transportation).

Results: Once workers entered into the foraging site, they spent, on average, a significantly longer time at the foraging site than the non-foraging site. Our clustering analysis revealed two different types of foraging workers in the subterranean termite based on the duration of time they spent at the foraging site and their foraging frequency. After entering the foraging site, some workers (cluster 1) immediately initiated masticating wood fragments, which they transferred as food boluses to recipient workers at the foraging site. Conversely, the recipient workers (cluster 2) moved around after entering the foraging site and received food from donating workers.

Conclusions: This study provides evidence of task specialization within foraging cohorts in subterranean termites.

背景:群居动物(如群居昆虫)的觅食是由个体集体完成的。然而，我们对地下白蚁的觅食行为的了解非常有限，因为在野外的觅食过程大多是隐蔽的。由于这一限制，我们在实验室中通过隧道几何分析和隧道行为观察间接研究了地下白蚁的觅食行为。在本研究中，我们追踪了台湾白蚁(Coptotermes formosanus)幼蚁群(2岁)的觅食工蜂亚群，以描述觅食行为的一般序列，并找出觅食工蜂如何在觅食地点(食物获取或加工)和非觅食地点(食物运输)之间分配时间。结果:工蜂进入觅食地点后，在觅食地点的平均停留时间明显长于非觅食地点。聚类分析显示，地下白蚁的觅食工蚁在觅食地点停留的时间和觅食频率不同，可分为两类。进入觅食地后，部分工蚁(集群1)立即开始咀嚼木屑，并将木屑作为食物粉粒转移给觅食地的接收工蚁。相反，接收工蜂(集群2)在进入觅食地点后四处移动，并从捐赠工蜂那里获得食物。结论:本研究为地下白蚁觅食群体的任务分工提供了证据。

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引用次数: 7