Dispersal constraints and fine-scale spatial genetic structure in two earthworm species

Dupont, Lise; Grésille, Ysoline; Richard, Benoît; Decaëns, Thibaud; Mathieu, Jérôme

doi:10.1111/bij.12436

Cited by 32 publications

(24 citation statements)

References 54 publications

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“…Of the 35 pairs of recognized populations from the same species, 6 with D a > 0.02 were inferred to be isolated cryptic species. Genetic isolation has been previously suspected between northern and southern populations of Pectinaria koreni (trumpet worms) [38], between the blue and purple morphs of Cystodytes dellechiajei (colonial ascidians) [39], and between the L1 and L2 lineages of Allolobophora chlorotica (earthworms) [40], but genetic isolation is here newly revealed between Morrocan and European populations of Melitaea cinxia (Glanville fritillary), between Spanish and French populations of A . chlorotica L2, and between Mediterranean and tropical populations of Culex pipiens .…”

Section: Resultsmentioning

confidence: 99%

Shedding Light on the Grey Zone of Speciation along a Continuum of Genomic Divergence

et al. 2016

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Speciation results from the progressive accumulation of mutations that decrease the probability of mating between parental populations or reduce the fitness of hybrids—the so-called species barriers. The speciation genomic literature, however, is mainly a collection of case studies, each with its own approach and specificities, such that a global view of the gradual process of evolution from one to two species is currently lacking. Of primary importance is the prevalence of gene flow between diverging entities, which is central in most species concepts and has been widely discussed in recent years. Here, we explore the continuum of speciation thanks to a comparative analysis of genomic data from 61 pairs of populations/species of animals with variable levels of divergence. Gene flow between diverging gene pools is assessed under an approximate Bayesian computation (ABC) framework. We show that the intermediate "grey zone" of speciation, in which taxonomy is often controversial, spans from 0.5% to 2% of net synonymous divergence, irrespective of species life history traits or ecology. Thanks to appropriate modeling of among-locus variation in genetic drift and introgression rate, we clarify the status of the majority of ambiguous cases and uncover a number of cryptic species. Our analysis also reveals the high incidence in animals of semi-isolated species (when some but not all loci are affected by barriers to gene flow) and highlights the intrinsic difficulty, both statistical and conceptual, of delineating species in the grey zone of speciation.

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Section: Resultsmentioning

confidence: 99%

Shedding Light on the Grey Zone of Speciation along a Continuum of Genomic Divergence

et al. 2016

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“…The first trend highlighted the impact of human activities on earthworm, like agricultural activities (Crittenden et al 2015;Lopez-Hernandez et al 2015), soil reclamation and restoration (Hlava et al 2015;Grumiaux et al 2015), organic waste mixtures (Zibetti et al 2015), pesticide (Pelosi et al 2014;Wang et al 2015), veterinary drug (Gao et al 2015), as well as engineered nanoparticles, like CuO and ZnO nanoparticles (Alandadi and Behboudi 2015), Ag, Co, Ni and TiO2 nanoparticles (Antisari et al 2015). The impacts mostly focused on growth, reproduction, population and community of earthworms, even genetic structure change of earthworm species (Dupont et al 2015). The second trend was the research focus on the effect of climate issues on earthworm, like climate type (Hackenberger and Hackenberger 2014), acid rain (Zhang et al 2015),floods and floodplain rehabilitation (Thorion and Klok 2007).…”

Section: Resultsmentioning

confidence: 99%

Worldwide earthworm research: a scientometric analysis, 2000–2015

2015

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To understand the history and research status of earthworm, earthworm research citation data was collected from the Science Citation Index Expanded during the period from 2000 to 2015. Next, HistCite was used to analyse the yearly output, country, institution, journal, citation impact and citation relationships in the field. Results indicated that the research of earthworm has increased during the studied 16-year period. The country with the highest research output was the USA, while the institution with the highest research output was the Chinese Academy of Sciences. The majority of articles and Total Location Citation Score (TLCS) values came from developed countries. Developed countries have more research advantages in this field than that of developing countries. The top three outputs journals were Soil Biology and Biochemistry, Pedobiologia and Applied Soil Ecology. The top 3 TLCS journals were the same as top outputs journals. Articles published with higher TLCS scores had a greater impact on the following research and played an important role in research development.

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“…For instance, Costa et al (2013) found only sixteen different species among the collembolans, earthworms and isopods groups of soil invertebrates for which a population genetics study was carried out. Some of these papers investigated the spatial genetic structure of soil organisms at a fine scale (Sullivan et al 2009;Novo et al 2010;Dupont et al 2015), but none addressed the effect of landscape features on genetic variation. However, terrestrial habitat heterogeneity is known to affect the diversity of soil species' assemblages by producing variation in the diversity of plant and litter (Vanbergen et al 2007).…”

Section: Introductionmentioning

confidence: 99%

“…Here, we were interested in landscape features impacting genetic variation and functional connectivity in earthworms. Dispersal by passive mechanisms, such as zoochory, wind, water and human activities, is believed to be implicated in their long-distance movement (Eijsackers 2011;Costa et al 2013;Dupont et al 2015), while their active dispersal is dependent on habitat quality, conspecific density and habitat modification by conspecifics in endogeic (i.e. species living in the upper organo-mineral soil layers and forming horizontal nonpermanent burrows, Bouch e 1977) and anecic (i.e.…”

Section: Introductionmentioning

confidence: 99%

“…A. chlorotica typically lives between soil surface and the upper 60 mm soil layer (Sims & Gerard 1999) and is theoretically able to travel over 167 m per year in constant suitable conditions (Caro et al 2013). However, in the field, dispersal distances ranging from 6.82 to 7.56 m per year were estimated in a recent population genetics study at fine spatial scales (Dupont et al 2015). A. icterica is found deeper in soils and is considered to be more mobile, being theoretically able to travel up to 500 m year À1 under constant artificial conditions (Mathieu et al 2010;Caro et al 2013).…”

Section: Introductionmentioning

confidence: 99%

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Landscape features impact connectivity between soil populations: a comparative study of gene flow in earthworms

et al. 2017

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Landscape features are known to alter the spatial genetic variation of aboveground organisms. Here, we tested the hypothesis that the genetic structure of belowground organisms also responds to landscape structure. Microsatellite markers were used to carry out a landscape genetic study of two endogeic earthworm species, Allolobophora chlorotica (N = 440, eight microsatellites) and Aporrectodea icterica (N = 519, seven microsatellites), in an agricultural landscape in the North of France, where landscape features were characterized with high accuracy. We found that habitat fragmentation impacted genetic variation of earthworm populations at the local scale. A significant relationship was observed between genetic diversity (H , A ) and several landscape features in A. icterica populations and A. chlorotica. Moreover, a strong genetic differentiation between sites was observed in both species, with a low degree of genetic admixture and high F values. The landscape connectivity analysis at the regional scale, including isolation by distance, least-cost path and cost-weighted distance approaches, showed that genetic distances were linked to landscape connectivity in A. chlorotica. This indicates that the fragmentation of natural habitats has shaped their dispersal patterns and local effective population sizes. Landscape connectivity analysis confirmed that a priori favourable habitats such as grasslands may constitute dispersal corridors for these species.

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Dispersal constraints and fine-scale spatial genetic structure in two earthworm species

Cited by 32 publications

References 54 publications

Shedding Light on the Grey Zone of Speciation along a Continuum of Genomic Divergence

Shedding Light on the Grey Zone of Speciation along a Continuum of Genomic Divergence

Worldwide earthworm research: a scientometric analysis, 2000–2015

Landscape features impact connectivity between soil populations: a comparative study of gene flow in earthworms

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