Environmental gradients influence geographic differentiation and low genetic diversity of morphologically similar Ulva species in the Northwest Pacific

Species classified in the genus are important foundational marine primary producers distributed worldwide. These species are particularly abundant and diverse through the northwest Pacific (NWP) where they experience marked latitudinal gradients of environmental heterogeneity. It is unclear, however...

Full description

Saved in:
Bibliographic Details
Published inBotanica marina Vol. 67; no. 2; pp. 139 - 151
Main Authors Zhong, Kai-Le, Hiraoka, Masanori, Gao, Xu, Russell, Bayden, Hu, Zi-Min, Chen, Weizhou, Kim, Ju-Hyoung, Yotsukura, Norishige, Endo, Hikaru, Oka, Naohiro, Yoshikawa, Shinya, Gaitan-Espitia, Juan Diego
Format Journal Article
LanguageEnglish
Published Berlin De Gruyter 25.04.2024
Walter de Gruyter GmbH
Subjects
Abiotic factors
biodiversity
Biogeography
China
Clines
Dispersal
Environmental gradient
Evolution
Gene sequencing
Genetic diversity
Genetic variation
green tides
Heterogeneity
Latitudinal variations
Morphology
Ocean currents
Sea surface
Sea surface temperature
seaweed
Species
Surface temperature
TufA gene
Online AccessGet full text

Cover

More Information
Summary:Species classified in the genus are important foundational marine primary producers distributed worldwide. These species are particularly abundant and diverse through the northwest Pacific (NWP) where they experience marked latitudinal gradients of environmental heterogeneity. It is unclear, however, to what extent such dynamic conditions can modulate phenotypic and genetic patterns in these organisms, potentially reflecting the influence of historical and contemporary biotic and abiotic factors. Here, we assessed inter- and intra-specific genetic patterns of species through the NWP using plastid L and A gene sequences. Although we initially targeted based on morphological identification, we recovered eight genetic entities masked by morphological similarities. Except for the and complexes, six of these genetic entities were recovered as individual species (i.e.,  , , , , , and ), and showed biogeographic patterns likely explained by clines in sea surface temperature and ocean current dispersal. At intra-specific level, all the genetic entities showed low genetic variation and divergence based on L (0–0.3 %) and A (0–0.9 %) data. Our results provide insights regarding intra- and inter-specific genetic patterns characterizing morphologically similar species through the NWP. However, further studies are needed to understand the mechanisms underpinning such patterns and the associated ecological and evolutionary implications.
ISSN:0006-8055
1437-4323
DOI:10.1515/bot-2023-0073