Intertidal population genetic dynamics at a microgeographic seascape scale

The intertidal community is among the most physically harsh niches on earth, with highly heterogeneous environmental and biological factors that impose strong habitat selection on population abundance, genetic connectivity and ecological adaptation of organisms in nature. However, most genetic studi...

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Bibliographic Details
Published in:Molecular Ecology
Main Authors: Hu, Zi-Min, Hu, ZM
Format: Report
Language:English
Published: 2013
Subjects:
Chondrus Crispus
Intertidal Niche
Microgeographic Seascape
Population Genetic Dynamics
Sexual Traits
Tidal Amplitude
Biochemistry & Molecular Biology
Environmental Sciences & Ecology
Evolutionary Biology
Ecology
Science & Technology
Life Sciences & Biomedicine
SEAWEED CHONDRUS-CRISPUS
MASTOCARPUS-PAPILLATUS RHODOPHYTA
RED SEAWEED
GRACILARIA-GRACILIS
LARVAL DISPERSAL
NORTH-ATLANTIC
MATING SYSTEM
LANDSCAPE
PATTERNS
CONNECTIVITY
North Atlantic
Online Access:http://ir.qdio.ac.cn/handle/337002/16597
https://doi.org/10.1111/mec.12327
Description
Summary:The intertidal community is among the most physically harsh niches on earth, with highly heterogeneous environmental and biological factors that impose strong habitat selection on population abundance, genetic connectivity and ecological adaptation of organisms in nature. However, most genetic studies to date have concentrated on the influence of basin-wide or regional marine environments (e.g. habitat discontinuities, oceanic currents and fronts, and geographic barriers) on spatiotemporal distribution and composition of intertidal invertebrates having planktonic stages or long-distance dispersal capability. Little is known about sessile marine organisms (e.g. seaweeds) in the context of topographic tidal gradients and reproductive traits at the microgeographic scale. In this issue of Molecular Ecology, Krueger-Hadfield etal. () implemented an elaborate sampling strategy with red seaweed (Chondrus crispus) from a 90-m transect stand near Roscoff and comprehensively detected genome-scale genetic differentiation and biases in ploidy level. This study not only revealed that tidal height resulted in genetic differentiation between high- and low-shore stands and restricted the genetic exchange within the high-shore habitat, but also demonstrated that intergametophytic nonrandom fertilization in C.crispus can cause significant deviation from Hardy-Weinberg equilibrium. Such new genetic insights highlight the importance of microgeographic genetic dynamics and life history characteristics for better understanding the evolutionary processes of speciation and diversification of intertidal marine organisms. The intertidal community is among the most physically harsh niches on earth, with highly heterogeneous environmental and biological factors that impose strong habitat selection on population abundance, genetic connectivity and ecological adaptation of organisms in nature. However, most genetic studies to date have concentrated on the influence of basin-wide or regional marine environments (e.g. habitat ...

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