Whole‐genome resequencing reveals the pleistocene temporal dynamics of Branchiostoma belcheri and Branchiostoma floridae populations

Changwei Bi; Na Lu; Zhen Huang; Junyuan Chen; Chunpeng He; Zuhong Lu

doi:10.1002/ece3.6527

Ecology and Evolution (Aug 2020)

Whole‐genome resequencing reveals the pleistocene temporal dynamics of Branchiostoma belcheri and Branchiostoma floridae populations

Changwei Bi,
Na Lu,
Zhen Huang,
Junyuan Chen,
Chunpeng He,
Zuhong Lu

Affiliations

Changwei Bi: State Key Laboratory of Bioelectronics School of Biological Science and Medical Engineering Southeast University Nanjing China
Na Lu: State Key Laboratory of Bioelectronics School of Biological Science and Medical Engineering Southeast University Nanjing China
Zhen Huang: The Public Service Platform for Industrialization Development Technology of Marine Biological Medicine and Product of State Oceanic Administration College of Life Sciences Fujian Normal University Fuzhou China
Junyuan Chen: Nanjing Institute of Paleontology and Geology Chinese Academy of Sciences Nanjing China
Chunpeng He: State Key Laboratory of Bioelectronics School of Biological Science and Medical Engineering Southeast University Nanjing China
Zuhong Lu: State Key Laboratory of Bioelectronics School of Biological Science and Medical Engineering Southeast University Nanjing China

DOI: https://doi.org/10.1002/ece3.6527
Journal volume & issue: Vol. 10, no. 15
pp. 8210 – 8224

Abstract

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Abstract Global climatic fluctuations governed the ancestral demographic histories of species and contributed to place the current population status into a more extensive ecological and evolutionary context. Genetic variations will leave unambiguous signatures in the patterns of intraspecific genetic variation in extant species since the genome of each individual is an imperfect mosaic of the ancestral genomes. Here, we report the genome sequences of 20 Branchiostoma individuals by whole‐genome resequencing strategy. We detected over 140 million genomic variations for each Branchiostoma individual. In particular, we applied the pairwise sequentially Markovian coalescent (PSMC) method to estimate the trajectories of changes in the effective population size (Ne) of Branchiostoma population during the Pleistocene. We evaluated the threshold of sequencing depth for proper inference of demographic histories using PSMC was ≥25×. The PSMC results highlight the role of historical global climatic fluctuations in the long‐term population dynamics of Branchiostoma. The inferred ancestral Ne of the Branchiostoma belcheri populations from Zhanjiang and Xiamen (China) seawaters was different in amplitude before the first (mutation rate = 3 × 10−9) or third glaciation (mutation rate = 9 × 10−9) of the Pleistocene, indicating that the two populations most probably started to evolve in isolation in their respective seas after the first or third glaciation of the Pleistocene. A pronounced population bottleneck coinciding with the last glacial maximum was observed in all Branchiostoma individuals, followed by a population expansion occurred during the late Pleistocene. Species that have experienced long‐term declines may be especially vulnerable to recent anthropogenic activities. Recently, the industrial pollution and the exploitation of sea sand have destroyed the harmonious living environment of amphioxus species. In the future, we need to protect the habitat of Branchiostoma and make full use of these detected genetic variations to facilitate the functional study of Branchiostoma for adaptation to local environments.

Published in Ecology and Evolution

ISSN: 2045-7758 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General): Ecology
Website: https://onlinelibrary.wiley.com/journal/20457758

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