Adaptive responses along a depth and a latitudinal gradient in the endemic seagrass Posidonia oceanica

Jahnke, Marlene; D’Esposito, Daniela; Orrù, Luigi; Lamontanara, Antonella; Dattolo, Emanuela; Badalamenti, Fabio; Mazzuca, Silvia; Procaccini, Gabriele; Orsini, Luisa

doi:10.1038/s41437-018-0103-0

Cited by 22 publications

(24 citation statements)

References 71 publications

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“…Our study suggests that resistance of a seagrass species, here C. nodosa , substantially varies across its distributional range and, therefore, that ecotypes, from a resistance functional perspective, may be a common characteristic for seagrasses at local and regional scales, as it was hypothesized long ago for other marine macrophytes (Gerard & Du Bois, ). This result expands the recent discovery of local seagrass ecotypes, according to physiological, genetic, and genomic criteria (Dattolo, Marín‐Guirao, Ruiz, & Procaccini, ; Jahnke et al, ; Procaccini et al, ), including C. nodosa (Marín‐Guirao et al, ). Functional differentiation particularly occurs for marginal populations of macrophytes (Wernberg et al, ), likely resulting from lack of connectivity and restricted gene flow, which has the potential to promote independent evolution of population units (Cánovas, Mota, Serra, & Pearson, ).…”

Section: Discussionsupporting

confidence: 65%

“…Understanding mechanisms behind this pattern requires integration of biogeography, in terms of varying ecological and evolutionary contexts, but also understanding that the sensitivity of seagrass performance responses may change according to the level of biological organization, for example. at molecular, shoot, plant, or meadow levels (Ceccherelli et al, ; Jahnke et al, ; Roca et al, ; York et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…The biogeographical context considerably affects the phenology of certain seagrass species (Blok, Olesen, & Krause‐Jensen, ). However, variation across biogeographical scales has been largely overlooked as an element driving resistance to local‐scale impacts of seagrass species (Barry et al, ; Fraser et al, ; Jahnke et al, ). Not surprisingly, experimental approaches to tackle resistance of “ecological engineers,” for example seagrasses, to varying perturbations have followed the traditional reductionist perspective of setting up experiments at local scales, that is, at the patch scale in the case of seagrass meadows (Leoni et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Biogeographical scenarios modulate seagrass resistance to small‐scale perturbations

et al. 2018

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1. Seagrasses constitute a key coastal habitat world-wide, but are exposed to multiple perturbations. Understanding elements affecting seagrass resistance to disturbances is critical for conservation. Distinct biogeographical scenarios are intrinsically linked with varying ecological and evolution backgrounds shaped across millennia.2. We addressed whether the resistance (change in shoot abundances) and performance (change in leaf morphology and growth) of the seagrass Cymodocea nodosa to a local stressor, light reduction, varied across three regions (Southeast Iberia, the Balearic Sea, and the Canaries) within the temperate northern Atlantic realm.We hypothesized that distinct biogeographical scenarios, in terms of distinct ecological/environmental conditions and genetic diversity of meadows, would affect seagrass resistance and performance, with flow-on effects on associated epifauna. The same experiments, in terms of shading intensities, timing and duration, were replicated at three seagrass meadows within each region.3. Results demonstrated inter-regional variation in the resistance and performance of C. nodosa. Under moderate and high shading, shoot abundance was abruptly decreased, relative to controls, in the Canaries with concurrent, but less accentuated, changes in leaf morphology and no changes in growth. In the other two regions, however, moderate and high shading had a negligible effect on shoot abundance, leaf morphology, and growth. Shading had no overall effect over the total abundance and assemblage structure of epifauna; these faunal attributes, however, varied between regions. Low seagrass resistance at the Canaries is linked with the peripheral distribution of the species there, favouring isolation and decreased genetic diversity.

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Section: Discussionsupporting

confidence: 65%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Biogeographical scenarios modulate seagrass resistance to small‐scale perturbations

et al. 2018

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“…In fact, the contrasting ability of C‐plants and W‐plants to resist warming in this mesocosm experiment, together with the marked genetic differentiation existing between the two populations, can be interpreted as an adaptive feature that reflects the local adaptation of these plants (Marín‐Guirao et al, ). Further evidence for local adaptation of P. oceanica populations along the latitudinal gradient in the western Mediterranean basin was recently provided by Jahnke et al (), and is supported by the reduced gene flow and by the divergence among genes that regulate central metabolism and cell functions, with potential connection to temperature.…”

Section: Methodsmentioning

confidence: 77%

“…During the first three days of June 2016, fragments of rooted Posidonia oceanica rhizomes bearing apical growth meristems and a large number of connected shoots (>30 shoots per fragment) were collected by divers in shallow (5-7 m depth) and healthy meadows from two distant between the two populations, can be interpreted as an adaptive feature that reflects the local adaptation of these plants . Further evidence for local adaptation of P. oceanica populations along the latitudinal gradient in the western Mediterranean basin was recently provided by Jahnke et al (2018), and is supported by the reduced gene flow and by the divergence among genes that regulate central metabolism and cell functions, with potential connection to temperature.…”

Section: Sampling Sites and Experimental Designmentioning

confidence: 88%

Heat‐stress induced flowering can be a potential adaptive response to ocean warming for the iconic seagrass Posidonia oceanica

et al. 2019

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The Mediterranean Sea is particularly vulnerable to warming and the abrupt declines experienced by the endemic Posidonia oceanica populations after recent heatwaves have forecasted severe consequences for the ecological functions and socio‐economical services this habitat forming species provides. Nevertheless, this highly clonal and long‐lived species could be more resilient to warming than commonly thought since heat‐sensitive plants massively bloomed after a simulated heatwave, which provides the species with an opportunity to adapt to climate change. Taking advantage of this unexpected plant response, we investigated for the first time the molecular and physiological mechanisms involved in seagrass flowering through the transcriptomic analysis of bloomed plants. We also aimed to identify if flowering is a stress‐induced response as suggested from the fact that heat‐sensitive but not heat‐tolerant plants flowered. The transcriptomic profiles of flowered plants showed a strong metabolic activation of sugars and hormones and indications of an active transport of these solutes within the plant, most likely to induce flower initiation in the apical meristem. Preflowered plants also activated numerous epigenetic‐related genes commonly used by plants to regulate the expression of key floral genes and stress‐tolerance genes, which could be interpreted as a mechanism to survive and optimize reproductive success under stress conditions. Furthermore, these plants provided numerous molecular clues suggesting that the factor responsible for the massive flowering of plants from cold environments (heat‐sensitive) can be considered as a stress. Heat‐stress induced flowering may thus be regarded as an ultimate response to survive extreme warming events with potential adaptive consequences for the species. Fitness implications of this unexpected stress‐response and the potential consequences on the phenotypic plasticity (acclimation) and evolutionary (adaptation) opportunity of the species to ocean warming are finally discussed.

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Population genomics unveils the century-old invasion of the Seagrass Halophila stipulacea in the Mediterranean Sea

García-Escudero,

Tsigenopoulos,

Manousaki

et al. 2023

Mar Biol

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The tropical seagrass Halophila stipulacea invaded the Eastern Mediterranean Sea in the late nineteenth century and progressively spread throughout the basin ever since. Its spread is expected to continue north-westward as the Mediterranean Sea becomes warmer, potentially changing the seagrass biogeography of the basin. Given the power of genomics to assess invasion dynamics in non-model species, we report the first ddRAD-seq study of H. stipulacea and small-scale population genomic analysis addressing its century-old Mediterranean invasion. Based on 868 SNPs and 35 genotyped native (Red Sea) and exotic (from Cyprus, Greece, and Italy) samples, results suggest that genetic structure was high, especially between major geographic discontinuities, and that exotic populations maintain comparably lower genetic diversity than native populations, despite 130 years of invasion. The evidence of high heterozygosity excess, coupled with previously reported male-dominated and rare flowering records in the exotic range, suggests that clonal propagation likely played a pivotal role in the successful colonization and spread of H. stipulacea in the Mediterranean. This shift in reproductive strategy, particularly evident in the Italian populations located closest to the western boundary and representing more recent establishments, underscores the importance of this cost-effective mode of reproduction, especially during the initial stages of invasion, raising questions about the species future expansion trajectory. Our findings serve as a catalyst for future research into the species’ invasion dynamics, including deciphering the intricate roles of acclimatization and rapid adaptation, important for a comprehensive assessment of invasion risks and improving management strategies aimed at conserving seagrass ecosystems.

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Adaptive responses along a depth and a latitudinal gradient in the endemic seagrass Posidonia oceanica

Cited by 22 publications

References 71 publications

Biogeographical scenarios modulate seagrass resistance to small‐scale perturbations

Biogeographical scenarios modulate seagrass resistance to small‐scale perturbations

Heat‐stress induced flowering can be a potential adaptive response to ocean warming for the iconic seagrass Posidonia oceanica

Population genomics unveils the century-old invasion of the Seagrass Halophila stipulacea in the Mediterranean Sea

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