Genomic insights into the origin of trans‐Mediterranean disjunct distributions

Noguerales, Víctor; Knowles, L. Lacey; Ortego, Joaquín

doi:10.1111/jbi.14011

Cited by 7 publications

(12 citation statements)

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“…Accordingly, our palaeodistribution reconstructions at fine temporal resolution supported the presence of corridors of suitable habitats across the Mediterranean coast of Africa that connected the central Maghreb region and the Middle East during the warmer stages of the Pleistocene (i.e., the Holocene Climate Optimum; Figure 5d). This distribution gap in northeastern Africa is analogous to that reported for two other arid‐dwelling taxa with trans‐Mediterranean disjunct distributions of Pleistocene origin: the saltmarsh grasshopper ( Mioscirtus wagneri ; Noguerales et al, 2021) and the spur‐thighed tortoise ( Testudo graeca ; Fritz et al, 2009). Collectively, these results suggest that the contraction of suitable habitats in northeastern Africa is the most parsimonious explanation for the contemporary disjunct distributions observed in some thermophilous organisms that probably presented wider distributions across the Mediterranean region during the warmest stages of the Pleistocene (Noguerales et al, 2021; Ribera & Blasco‐Zumeta, 1998).…”

Section: Discussionsupporting

confidence: 75%

“…Our results support the Pleistocene connectivity between northern African and southern European arid habitats and the strong genetic cohesiveness of thermophilous terrestrial faunas shared between the two continents (Husemann et al, 2014;e.g., Graciá, Giménez, et al, 2013;Habel et al, 2010;Noguerales et al, 2021). Divergence ing with sea-level lowering during glacial maxima Noguerales et al, 2021). Although these grasshoppers are good flyers and have a high intrinsic dispersal capacity, the…”

Section: Discussionmentioning

confidence: 99%

“…In some instances, these taxa show remarkable genetic distinctiveness (i.e., vicariant lineages, subspecies or even species) with respect to core distributions in Central Asia or North Africa, representing a unique evolutionary legacy of high conservation value (Husemann et al, 2014;Kajtoch et al, 2016;Kirschner et al, 2020). Despite recent advances, the temporal and geographic origin of thermophilous and arid-dwelling European species is not yet well understood, which in part might be due to the extraordinarily dynamic geological history of the region and the difficulty to distinguish among alternative biogeographical scenarios (Noguerales et al, 2021;Ribera & Blasco-Zumeta, 1998).…”

Section: Introductionmentioning

confidence: 99%

“…Miocene‐Pliocene movements of African and Asian continental plates led to the permanent closing of the eastern end of the current Mediterranean Sea (c. 23–14 Ma) and the temporal closure of the Mediterranean‐Atlantic seaways during the Messinian Salinity Crisis (c. 5.96–5.33 Ma; Bialik et al, 2019; Meulenkamp & Sissingh, 2003), which contributed to faunal and floral exchanges between Africa, Europe and Asia (e.g., Faille et al, 2014; Manafzadeh et al, 2014; Sanmartín, 2003). However, several studies have also found post‐Messinian colonization and considerable genetic cohesiveness between thermophilous and arid‐adapted biotas of Europe and those from North Africa (Husemann et al, 2014) and Central Asia steppes (Kirschner et al, 2020), indicating that their current disjunct distributions are most likely a consequence of range expansion‐fragmentation dynamics linked to Pleistocene climatic oscillations (e.g., Habel et al, 2010; Noguerales et al, 2021). In some other cases, the role of human‐mediated dispersal or historical introductions in the distribution of some thermophilous organisms in southern Europe cannot be discarded (Husemann et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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Genomic inferences in a thermophilous grasshopper provide insights into the biogeographic connections between northern African and southern European arid‐dwelling faunas

Ortego

González‐Serna

Noguerales

2021

Journal of Biogeography

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Aim Although thermophilous and arid‐dwelling relict biotas constitute a singular component of European biodiversity of high conservation value, we still largely ignore their biogeographic history. In this study, we investigate the geographical diversification of the Maghrebian‐Levantine crested grasshopper and its colonization of semiarid habitats of southeastern Iberia to gain insights into the historical processes underlying the biogeographic connections between northern African and southern European arid‐dwelling faunas. Location Mediterranean region. Taxon Crested grasshoppers Dericorys millierei and Dericorys carthagonovae (Orthoptera: Dericorythidae). Methods We used genomic data (ddRAD‐seq) to quantify the genetic structure of populations, infer the phylogenetic relationships among them, estimate divergence times, and elucidate the demographic processes accompanying the colonization of southeastern Iberia. Genomic‐based inferences were interpreted in the light of eustatic sea‐level reconstructions and species’ range dynamics derived from palaeodistribution modelling at fine temporal resolution. Results Clustering analyses showed a strong genetic structure and phylogenomic inference revealed that Iberian populations are nested within a Maghrebian clade. Molecular dating analyses indicated that all lineages diverged during the Pleistocene (<1.6 Ma), with point estimates coinciding with glacial periods and the accompanying sea level drops. According to palaeodistribution modelling, the species experienced severe range contractions during the coldest stages of the Pleistocene. Main conclusions Our results indicate that the colonization of the Iberian Peninsula likely took place during the marked sea level drops characterizing the high‐amplitude climatic oscillations of the late Quaternary (<0.5 Ma), which considerably reduced overseas distances between northern African and southern European landmasses and might have eased transmarine exchanges of terrestrial faunas. These findings emphasize the high relevance of the Maghreb region as a source of European thermophilous biotas and corroborate post‐Messinian biogeographic connections between the two continents despite the barrier effect of the Mediterranean Sea.

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Section: Discussionsupporting

confidence: 75%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Genomic inferences in a thermophilous grasshopper provide insights into the biogeographic connections between northern African and southern European arid‐dwelling faunas

Ortego

González‐Serna

Noguerales

2021

Journal of Biogeography

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“…Growing evidence suggests that sea‐level change has dramatically affected the evolution of marginal marine species (Keyse et al, 2018; Noguerales et al, 2020; Stiller et al, 2017, 2020; Thomaz & Knowles, 2020). One of the most important lessons from this study is that to understand present patterns of coastal species requires looking beyond the present‐day landscape to consider the “hidden” coastline and how it changed during ice age cycles.…”

Section: A Hidden Landscape and New Questionsmentioning

confidence: 99%

The hidden landscape: Evidence that sea‐level change shaped the present population genomic patterns of marginal marine species

Dolby

2021

Molecular Ecology

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Oftentimes, to understand the genetic relatedness and diversity of today's populations requires considering the ancient landscape on which those populations evolved. Nowhere is this clearer than along Earth's coastline, which has been in its present‐day configuration for only about 6.5% of the past 800,000 years (Dolby et al., 2020; Miller et al., 2005). During ice ages when glaciers expanded in the Northern Hemisphere, they stored enough of the planet's water to drop global sea level by ~120 m below present levels (“lowstand”, Figure 1a), and there have been at least eight of these 100,000‐year cycles preceding today. When glaciers melted, ocean water reflooded shorelines, shifting and re‐forming marginal marine habitats globally and shaping the relatedness of populations (Dolby et al., 2016). In a From the Cover article in this issue of Molecular Ecology, Stiller et al. (2020) integrate population genomic analysis of leafy seadragons in southern Australia with estimates of available seabed area to reveal that the expansion of habitat that accompanied this reflooding led to strong demographic expansions. With statistical models, they also show that western populations were eliminated and then recolonized because the continental shelf there is narrow, leaving little available habitat when sea level was low (Figure 1b). Their results document the dynamic and interrelated nature of a hidden, changing landscape and the evolution of species inhabiting it.

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Broadly Distributed but Genetically Fragmented: Demographic Consequences of Pleistocene Climatic Oscillations in a Common Iberian Grasshopper

Ortego

Noguerales

Tonzo

et al. 2021

Insect Systematics and Diversity

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Although the genetic consequences of contemporary landscape composition and range shifts driven Pleistocene climatic oscillations have been studied fairly well in alpine organisms, we know much less about how these factors have shaped the demography of taxa with broader climatic niches and distributions. Here, we use high-throughput sequencing data to study the processes underlying spatial patterns of genomic variation in Omocestus panteli (Bolívar, 1887) (Orthoptera: Acrididae), a common Iberian grasshopper distributed across numerous habitat types and a wide elevational range (from sea level to >2,000 m). Although the species is broadly distributed, our analyses support that its contemporary populations show significant genetic fragmentation that dates back to the last glacial period. Accordingly, spatially explicit testing of alternative gene flow scenarios and demographic inference analyses revealed that genetic differentiation between populations and their long-term effective population sizes are best explained by the spatial configuration of environmentally suitable habitats during the last glacial maximum (ca. 21 ka). At that time, the species experienced net demographic expansions but interspersed unsuitable areas might have disrupted gene flow and created opportunity for geographical diversification. Collectively, our analyses indicate that the genetic makeup of contemporary populations is not well explained by current environmental factors or geographical barriers to dispersal but mostly reflects genetic fragmentation during the last glacial period followed by postglacial admixture among previously isolated gene pools. Taken together, these results support that the Pleistocene ‘species pump’ model might be also useful in explaining demographic dynamics and geographical diversification in taxa characterized by broad climatic niches.

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Genomic insights into the origin of trans‐Mediterranean disjunct distributions

Cited by 7 publications

References 63 publications

Genomic inferences in a thermophilous grasshopper provide insights into the biogeographic connections between northern African and southern European arid‐dwelling faunas

Genomic inferences in a thermophilous grasshopper provide insights into the biogeographic connections between northern African and southern European arid‐dwelling faunas

The hidden landscape: Evidence that sea‐level change shaped the present population genomic patterns of marginal marine species

Broadly Distributed but Genetically Fragmented: Demographic Consequences of Pleistocene Climatic Oscillations in a Common Iberian Grasshopper

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