A New Molecular Phylogeny of Salps (Tunicata: Thalicea: Salpida) and the Evolutionary History of Their Colonial Architecture.

IF 2.2 4区 生物学 Q2 BIOLOGY Integrative Organismal Biology Pub Date : 2023-09-27 eCollection Date: 2023-01-01 DOI:10.1093/iob/obad037
A Damian-Serrano, M Hughes, K R Sutherland
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Abstract

Salps are marine pelagic tunicates with a complex life cycle, including a solitary and colonial stage composed of asexually budded individuals. These colonies develop into species-specific architectures with distinct zooid orientations, including transversal, oblique, linear, helical, and bipinnate chains, as well as whorls and clusters. The evolutionary history of salp colony architecture has remained obscured due to the lack of an ontology to characterize architectures, as well as a lack of phylogenetic taxon sampling and resolution of critical nodes. We (1) collected and sequenced eight species of salps that had never been sequenced before, (2) inferred the phylogenetic relationships among salps, and (3) reconstructed the evolutionary history of salp colony architecture. We collected salp specimens via offshore SCUBA diving, dissected tissue samples, extracted their DNA, amplified their 18S gene, and sequenced them using Sanger technology. We inferred the phylogeny of Salpida based on 18S using both Maximum Likelihood and Bayesian approaches. Using this phylogeny, we reconstructed the ancestral states of colony architecture using a Bayesian ordered Markov model informed by the presence and absence of specific developmental mechanisms that lead to each architecture. We find that the ancestral salp architecture is either oblique or linear, with every other state being derived. Moreover, linear chains have evolved independently at least three times. While transversal chains are developmentally basal and hypothesized to be ancestral, our phylogenetic topology and reconstructions strongly indicate that they are evolutionarily derived through the loss of zooid torsion. These traits are likely critical to multijet locomotory performance and evolving under natural selection. Our work showcases the need to study the broader diversity of salp species to gain a comprehensive understanding of their organismal biology, evolutionary history, and ecological roles in pelagic ecosystems.

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Salps的一个新的分子系统发育(Tunicata:Talicea:Salpida)及其殖民地结构的进化史。
Salps是一种海洋中上层被膜动物,有着复杂的生命周期,包括由无性繁殖的个体组成的孤独和殖民阶段。这些菌落发展成具有不同动物取向的物种特异性结构,包括横向、倾斜、线性、螺旋和双先天链,以及轮生和集群。由于缺乏表征结构的本体论,以及缺乏系统发育分类单元的采样和关键节点的解析,萨尔普群落结构的进化史仍然模糊不清。我们(1)收集并测序了8种以前从未测序过的莎草,(2)推断了莎草之间的系统发育关系,(3)重建了莎草群落结构的进化史。我们通过海上SCUBA潜水采集了输卵管标本,解剖了组织样本,提取了它们的DNA,扩增了它们的18S基因,并使用Sanger技术对它们进行了测序。我们使用最大似然和贝叶斯方法,基于18S推断了萨尔皮达的系统发育。利用这种系统发育,我们使用贝叶斯有序马尔可夫模型重建了群体结构的祖先状态,该模型根据导致每种结构的特定发展机制的存在和不存在来确定。我们发现,祖先的salp结构要么是倾斜的,要么是线性的,其他所有状态都是派生出来的。此外,线性链已经独立进化了至少三次。虽然横向链在发育上是基础的,并被假设为祖先,但我们的系统发育拓扑结构和重建有力地表明,它们在进化上是通过失去动物扭转而衍生出来的。这些特征可能对多喷气发动机的运动性能和在自然选择下的进化至关重要。我们的工作表明,有必要研究更广泛的鲑鱼物种多样性,以全面了解它们的组织生物学、进化史和在远洋生态系统中的生态作用。
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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