Allozyme variation of oleaster populations (wild olive tree) (Olea europaea L.) in the Mediterranean Basin

Abstract Background Olive tree (Olea europaea L. subsp. europaea, Oleaceae) has been the most emblematic perennial crop for Mediterranean countries since its domestication around 6000 years ago in the Levant. Two taxonomic varieties are currently recognized: cultivated (var. europaea) and wild (var. sylvestris) trees. However, it remains unclear whether olive cultivars derive from a single initial domestication event followed by secondary diversification, or whether cultivated lineages are the result of more than a single, independent primary domestication event. To shed light into the recent evolution and domestication of the olive tree, here we analyze a group of newly sequenced and available genomes using a phylogenomics and population genomics framework. Results We improved the assembly and annotation of the reference genome, newly sequenced the genomes of twelve individuals: ten var. europaea, one var. sylvestris, and one outgroup taxon (subsp. cuspidata)—and assembled a dataset comprising whole genome data from 46 var. europaea and 10 var. sylvestris. Phylogenomic and population structure analyses support a continuous process of olive tree domestication, involving a major domestication event, followed by recurrent independent genetic admixture events with wild populations across the Mediterranean Basin. Cultivated olives exhibit only slightly lower levels of genetic diversity than wild forms, which can be partially explained by the occurrence of a mild population bottleneck 3000–14,000 years ago during the primary domestication period, followed by recurrent introgression from wild populations. Genes associated with stress response and developmental processes were positively selected in cultivars, but we did not find evidence that genes involved in fruit size or oil content were under positive selection. This suggests that complex selective processes other than directional selection of a few genes are in place. Conclusions Altogether, our results suggest that a primary domestication area in the eastern Mediterranean basin was followed by numerous secondary events across most countries of southern Europe and northern Africa, often involving genetic admixture with genetically rich wild populations, particularly from the western Mediterranean Basin.

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Leaf Allozyme Variation in Cultivated and Wild Olive Trees (Olea europaea L.)

Journal of Heredity ◽

10.1093/oxfordjournals.jhered.a111274 ◽

1993 ◽

Vol 84 (1) ◽

pp. 34-42 ◽

Cited By ~ 43

Author(s):

N. Ouazzani ◽

R. Lumaret ◽

P. Villemur ◽

F. Di Giusto

Keyword(s):

Olea Europaea ◽

Allozyme Variation ◽

Olea Europaea L ◽

Wild Olive ◽

Olive Trees ◽

Olea Europaéa

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Metagenomic dynamics in Olea europaea after root damage and Verticillium dahliae infection

10.1101/555185 ◽

2019 ◽

Cited By ~ 1

Author(s):

Jose Manuel Martí ◽

Luis F. Arias ◽

Wladimiro Díaz ◽

Vicente Arnau ◽

Antonio Rodriguez-Franco ◽

...

Keyword(s):

Verticillium Dahliae ◽

Olea Europaea ◽

Mediterranean Basin ◽

Single Species ◽

Olive Tree ◽

Economic Damage ◽

Root Damage ◽

High Complexity ◽

The Mediterranean Basin ◽

Olea Europaéa

AbstractThe olive tree is of particular economic interest in the Mediterranean basin. Researchers have conducted several studies on one of the most devastating disorders affecting this tree, the Verticillium wilt of olive, which causes significant economic damage in numerous areas of this crop. We have analyzed the temporal metagenomic samples of a transcriptomic study in Olea europaea roots and leaves after root-damage and after a root Verticillium dahliae infection (Jimenez-Ruiz et al. 2017). Our results indicate that this infection, although led by Verticillium, is driven not by a single species but by a polymicrobial community, including their natural endophytes, which acts as a consortium in the attack to the host plant. This community includes both biotrophic and necrotrophic organisms that alternate and live together during the infection. Our results not only describe how the microbial community progresses along these processes, but also explain the high complexity of these systems, that in turn, could justify at least in part the occasional changes and disparity found at the time of classifying the kind of parasitism of a determined organism.

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On the origins and spread of Olea europaea L. (olive) domestication: evidence for shape variation of olive stones at Ugarit, Late Bronze Age, Syria—a window on the Mediterranean Basin and on the westward diffusion of olive varieties

Vegetation History and Archaeobotany ◽

10.1007/s00334-013-0412-4 ◽

2013 ◽

Vol 23 (5) ◽

pp. 567-575 ◽

Cited By ~ 24

Author(s):

Claire Newton ◽

Christine Lorre ◽

Caroline Sauvage ◽

Sarah Ivorra ◽

Jean-Frédéric Terral

Keyword(s):

Bronze Age ◽

Olea Europaea ◽

Mediterranean Basin ◽

Late Bronze Age ◽

Shape Variation ◽

Olea Europaea L ◽

Olive Stones ◽

The Mediterranean ◽

Olive Varieties ◽

The Mediterranean Basin

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Intracanopy plasticity under strong wind conditions in the wild olive tree (Olea europaea L.): a conserved response between closely related taxa?

Trees ◽

10.1007/s00468-010-0526-6 ◽

2010 ◽

Vol 25 (3) ◽

pp. 509-518 ◽

Cited By ~ 4

Author(s):

Carlos García-Verdugo

Keyword(s):

Olea Europaea ◽

Olive Tree ◽

Strong Wind ◽

Olea Europaea L ◽

In The Wild ◽

Wild Olive ◽

Olea Europaéa

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Mediterranean Olive Orchards under Climate Change: A Review of Future Impacts and Adaptation Strategies

Agronomy ◽

10.3390/agronomy11010056 ◽

2020 ◽

Vol 11 (1) ◽

pp. 56

Author(s):

Helder Fraga ◽

Marco Moriondo ◽

Luisa Leolini ◽

João A. Santos

Keyword(s):

Climate Change ◽

Mediterranean Basin ◽

Olive Tree ◽

Climatic Conditions ◽

Adaptation Strategies ◽

Adaptation Measures ◽

The Mediterranean ◽

Projected Changes ◽

The Mediterranean Basin ◽

Impacts Of Climate Change

The olive tree (Olea europaea L.) is an ancient traditional crop in the Mediterranean Basin. In the Mediterranean region, traditional olive orchards are distinguishable by their prevailing climatic conditions. Olive trees are indeed considered one of the most suitable and best-adapted species to the Mediterranean-type climate. However, new challenges are predicted to arise from climate change, threatening this traditional crop. The Mediterranean Basin is considered a climate change “hotspot,” as future projections hint at considerable warming and drying trends. Changes in olive tree suitability have already been reported over the last few decades. In this context, climate change may become particularly challenging for olive growers. The growing evidence for significant climate change in the upcoming decades urges adaptation measures to be taken. To effectively cope with the projected changes, both short and long-term adaptation strategies must be timely planned by the sector stakeholders and decision-makers to adapt for a warmer and dryer future. The current manuscript is devoted to illustrating the main impacts of climate change on olive tree cultivation in the Mediterranean Basin, by reviewing the most recent studies on this subject. Additionally, an analysis of possible adaptation strategies against the potentially negative impacts of climate change was also performed.

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