Fine-scale spatial patterns of the Tertiary relict Zelkova abelicea (Ulmaceae) indicate possible processes contributing to its persistence to climate changes

Bosque, M.A.; Adamogianni, Maria Irene; Bariotakis, Michael; Fazan, Laurence; Stoffel, Markus; Garfì, Giuseppe; Gratzfeld, Joachim; Kozlowski, Gregor; Pirintsos, Stergios

doi:10.1007/s10113-013-0544-1

Cited by 9 publications

(6 citation statements)

References 77 publications

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“…These settings, coupled to the topographic patterns discussed above, provide speculative issues about a relative ecological amplitude characterizing the Sicilian Zelkova relict. Similar findings, indeed, had already been reported for its closest Mediterranean relative, the Cretan Z. abelicea (Bosque et al., 2014; Goedecke & Bergmeier, 2018). Nevertheless, in spite of such plastic traits, extreme drought events can trigger a more or less severe decline, from leaves withering to shoot and even stem desiccation (Garfì et al., 2002), supporting the assumption that the current microrefugia probably lie at the extreme boundary of (if not beyond) the potential range of Z. sicula .…”

Section: Discussionsupporting

confidence: 88%

“…On the other side, such variability confined relict taxa to very peculiar and spatially delimited locations. Accordingly, the two Mediterranean highly relictual trees Z. abelicea and Z. sicula remained “trapped” within their refugial niches on Crete and Sicily, respectively, at high elevation (Bosque et al., 2014; Fazan et al., 2017), or in topography‐driven mesic environments (Garfì et al., 2011; Goedecke & Bergmeier, 2018; Kozlowski et al., 2014) such as hydrological microrefugia, relatively decoupled from the regional climate.…”

Section: Discussionmentioning

confidence: 99%

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From glacial refugia to hydrological microrefugia: Factors and processes driving the persistence of the climate relict tree Zelkova sicula

Garfì

Carimi

Fazan

et al. 2021

Ecology and Evolution

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Section: Discussionsupporting

confidence: 88%

Section: Discussionmentioning

confidence: 99%

From glacial refugia to hydrological microrefugia: Factors and processes driving the persistence of the climate relict tree Zelkova sicula

Garfì

Carimi

Fazan

et al. 2021

Ecology and Evolution

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“…Evergreen and laurel forests including few pre-Mediterranean plants (Chamaerops, Myrtus, Laurus, Pinus, Platanus, Rhamnus, Smilax); existence of a Madro-Tethyan sclerophyllous flora (Arbutus, Quercus, Rhus) shared between North America and Eurasia due to the North Atlantic Land Bridge (~50 to 25 Ma). presence of palaeoendemics restricted to one or few of these islands, notably several monotypic genera such as Morisia, Naufraga or Petagnaea (Table suppl.), and (2) by the existence of some relicts originating from the subtropical environments of the Tertiary, such as the Tethysian-Palaeotropical fern Woodwardia radicans in Corsica, Sicily and Crete or Zelkova abelicea, a relict tree endemic of the Cretan mountains (Bosque et al 2014).…”

Section: Middle Eocene (Cenozoic Palaeogene)mentioning

confidence: 99%

The specific vulnerability of plant biodiversity and vegetation on Mediterranean islands in the face of global change

2017

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To cite this version:Frederic Medail. The specific vulnerability of plant biodiversity and vegetation on Mediterranean islands in the face of global change.Abstract The numerous Mediterranean islands ([10,000) are very important from a biodiversity point of view, both in term of plant species (numerous endemics, presence of 'climate relicts') and of ecosystems' assemblage. These patterns can be explained by complex interactions between a highly heterogeneous historical biogeography and ecological processes related to diverse island conditions. Furthermore, most of the ups and downs of this biodiversity were closely linked with human pressures which have changed many times through the long socio-ecological history of these island landscapes since the Neolithic period. At present, insular plant biodiversity and rural landscapes are threatened by diverse global environmental changes related to urbanization, habitat fragmentation, unsustainable tourism and other practices (e.g. overgrazing, forest fires), and by other more recent drivers such as climate warming and aridification, sea-level rise and biological invasions. Some of these impacts will be exacerbated on islands because of no (or highly limited) adjacent areas of expansion, notably on the smallest ones (i.e. size \ ca. 1000 ha). With regards to the biome crisis facing the Mediterranean basin and induced by human activities, islands constitute key ecological systems and 'current refugia' to ensure the long-term preservation of coastal plant biodiversity. They also represent fascinating ecological systems to disentangle the role of environmental versus human pressures on spatially simplified communities of the Mediterranean coastal areas. Future detailed studies of these 'natural island microcosms' could greatly improve our knowledge of the functional and evolutionary processes induced by rapid environmental changes in this region.

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“…Its distribution extends up to the supra-Mediterranean climate belt (Rivas-Martínez et al, 2004). The lowermost known localities are on north-facing rocky slopes, while the uppermost stands on south-facing slopes (Bosque et al, 2014;Kozlowski et al, 2014;Goedecke & Bergmeier, 2018). The long-lasting isolation of the populations living in the different mountain massifs appears the main cause of their current genetic differentiation (Christe et al, 2014;Naciri et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Taxonomic relationships and population differentiation of the south-western Eurasian Zelkova species inferred in leaf morphology

Jasiñska¹,

Rucińska²,

Kozlowski³

et al. 2021

Dendrobiology

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The relict tree species Zelkova abelicea and Z. sicula (Ulmaceae) occur in Crete and Sicily, respectively. Zelkova abelicea grows in approximately 40 localities in the mountains of Crete, while Z. sicula has been found in only two stands in Sicily. We compared 25 morphological characters of the leaves of both species and used statistical methods (Tukey’stest, discrimination analysis, principal component analysis, agglomeration) to reveal the differences between these two species, their relation to Z. carpinifolia (the third Zelkova south-west Eurasian species), and between the leaves from different shoot types. Our study represents the first comparative biometric analysis of the three Zelkova species localized in the western edge of the current geographic range of the genus. We found that the species differed from each other both, in terms of leaf form characters and level of leaf variation. Zelkova carpinifolia was clearly different from Z. abelicea, while the two populations of Z. sicula, SIB and SIA, were more similar to Z. carpinifolia and Z. abelicea, respectively. The latter finding supports the results of recent molecular studies suggestingt he hybrid origin of Z. sicula. Zelkova abelicea, Z. sicula and Z. carpinifolia differ each other in the leaf characteristics and level of phenotypic variation.

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Fine-scale spatial patterns of the Tertiary relict Zelkova abelicea (Ulmaceae) indicate possible processes contributing to its persistence to climate changes

Cited by 9 publications

References 77 publications

From glacial refugia to hydrological microrefugia: Factors and processes driving the persistence of the climate relict tree Zelkova sicula

From glacial refugia to hydrological microrefugia: Factors and processes driving the persistence of the climate relict tree Zelkova sicula

The specific vulnerability of plant biodiversity and vegetation on Mediterranean islands in the face of global change

Taxonomic relationships and population differentiation of the south-western Eurasian Zelkova species inferred in leaf morphology

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