Abstract
European grapevine populations quickly disappeared from most of their range, massively killed by the spread of North American grapevine pests and diseases. Nowadays taxonomic pollution represents a new threat. A large Vitis complex involves escaped cultivars, rootstocks, and wild grapevines. The study aimed to provide insight into the Vitis complex in the Danube region through field and genetic analyses. Among the five other major rivers in Europe which still host wild grapevine populations, the Danube floodplain is the only one benefiting from an extensive protected forest area (93 km²) and an relatively active dynamic flood pulse. The Donau‐Auen National Park also regroups the largest wild grapevine population in Europe. Ninety‐two percent of the individuals collected in the park were true wild grapevines, and 8% were hybrids and introgressed individuals of rootstocks, wild grapevines, and cultivars. These three groups are interfertile acting either as pollen donor or receiver. Hybrids were established within and outside the dykes, mostly in anthropized forest edges. The best‐developed individuals imply rootstock genes. They establish in the most erosive parts of the floodplain. 42% of the true wild grapevines lived at the edges of forest/meadow, 33.3% at the edges forest/channels, and 23.9% in forest gaps. DBH (Diameter Breast Height) varied significantly with the occurrence of flooding. Clones were found in both true wild and hybrids/introgressed grapevines. The process of cloning seemed to be prevented in places where flooding dynamics is reduced. The current global distribution of true wild grapevines shows a strong tendency toward clustering, in sites where forestry practices were the most extensive. However, the reduced flooding activity is a danger for long‐term sustainability of the natural wild grapevine population.
Highlights
The Eurasian wild grapevine (Vitis vinifera ssp. sylvestris (Gmelin) Hegi) is currently distributed in a few alluvial (Figure 1) and colluvial forests around the Mediterranean basin between the 38th and 49th northern parallel, from sea level up to an altitude of 1,600 m (Arnold, 2002; Vassilczenko, 1970)
The number of true wild grapevines can be interpreted as the consequence of relatively suitable ecological conditions compared with other populations of Europe (Spain, Portugal, Italy, France), which are reduced to a few individuals with a significant reduction in the observed heterozygosity (Andrés et al, 2012; Di Vecchi-Staraz et al, 2008; Grassi et al, 2003; Lopes, Mendonça, Rodrigues dos Santos, Eiras-Dias, & da Cămara Machado, 2009)
The relatively high genetic diversity of true wild grapevines seems to be a legacy from the beginning of the Holocene when Danubian populations received genes from two migrating populations, one originating in southern Italy and moving northward via the Alps into central Europe, the second originating in the Balkan area and migrating westward (Grassi, De Mattia, Zecca, Sala, & Labra, 2008; Taberlet, Fumagalli, Wust-Saucy, & Cosson, 1998)
Summary
The Eurasian wild grapevine (Vitis vinifera ssp. sylvestris (Gmelin) Hegi) is currently distributed in a few alluvial (Figure 1) and colluvial forests around the Mediterranean basin between the 38th and 49th northern parallel, from sea level up to an altitude of 1,600 m (Arnold, 2002; Vassilczenko, 1970). Sylvestris (Gmelin) Hegi) is currently distributed in a few alluvial (Figure 1) and colluvial forests around the Mediterranean basin between the 38th and 49th northern parallel, from sea level up to an altitude of 1,600 m (Arnold, 2002; Vassilczenko, 1970) These areas are refugia where grapevine pest (the homoptera Daktulosphaira vitifoliae Ficht traditionally called phylloxera) and fungi diseases (oïdium; mildew) have a restricted spread. Personal field observations in Spain, France, Austria, Croatia, and Iran suggest that hybrids/introgressed individuals are absent from well-preserved floodplain forests (i.e., natural architecture and dynamic flooding) For this purpose, we chose the Donau-Auen National Park (DANP) as a model site. Our study aimed to provide insight into the ecology of the Vitis complex in this Danube region through molecular analyses of cpDNA and nSSR regions, pedigree of grapevines, morphology, and distribution of Vitis individuals
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