Hybridization of Cultivated Vitis Vinifera with Wild V.&#X00a0

Hybridization of Cultivated Vitis Vinifera with Wild V.&#X00a0

Hybridization of cultivated Vitis vinifera with wild V. californica and V. girdiana in California Gerald S. Dangl1, Mary Lou Mendum2, Judy Yang1, M. Andrew Walker3 & John E. Preece4 1Foundation Plant Services, University of California Davis, One Shields Ave., Davis, California 95616 2Department of Plant Sciences, University of California Davis, One Shields Ave., Davis, California 95616 3Department of Viticulture and Enology, University of California Davis, One Shields Ave., Davis, California 95616 4National Clonal Germplasm Repository, USDA-ARS, University of California Davis, One Shields Ave, Davis, California 95616 Keywords Abstract California wild grape, domesticated plan introduction, genetic diversity, mixed-species Hybridization of introduced domesticates and closely related natives is well ancestry, natural hybrids, plant conservation documented in annual crops. The widespread introduction of the domesticated genetics. grapevine, Vitis vinifera, into California where it overlaps with two native con- generics, with which it is interfertile, provides opportunity to investigate Correspondence hybridization between woody perennials. Although geographically widespread, Gerald S. Dangl, Foundation Plant Services, the introduction over the past two centuries has been limited to a few elite clo- University of California Davis, One Shields nal cultivars, providing a unique opportunity to study the effects of hybridiza- Ave., Davis, CA 95616. Tel: (530) 752-7540; tion on the native species. The amount of hybridization with V. vinifera and Fax: (530) 752-2132; the genetic diversity of wild-growing Vitis californica and Vitis girdiana were E-mail: [email protected] examined using nineteen microsatellite markers. STRUCTURE analysis was used to define hybrid and introgressed individuals and to analyze genetic struc- Funding Information ture of the native species. FAMOZ software was used to identify which This work was supported by the United V. vinifera cultivars served as parents of F1 hybrids. The three species were States Department of Agriculture/Agricultural clearly distinguished by STRUCTURE analysis. Thirty percent of 119 V. califor- Research Service [research project 5306- 21000-020-00D]. nica vines were hybrids. The domesticated parent was identified for 16 F1 hybrid vines; the original California cultivar, ‘Mission’, was the parent of eight. Received: 4 September 2015; Accepted: 2 Backcrosses were also found, showing introgression into subsequent genera- October 2015 tions. Similar results were obtained for a small sample of V. girdiana. Removing hybrids greatly reduced the genetic variation of the presumed pure species, Ecology and Evolution 2015; 5(23): among which there was essentially no genetic structure. Limited genetic vari- 5671–5684 ability indicates the California natives may be threatened by genetic erosion. doi: 10.1002/ece3.1797 The discovery of F1 hybrids of ‘Mission’, a cultivar not grown in the areas for ~100 years, suggests long generation times for wild vines that, often, grow into expansive liana and propagate by layering, all factors that limit recruitment in populations already disjunct by habitat lose. Hermaphroditic flowers and fruit that is more attractive to birds may favor the production of backcross seed and establishment of introgressed individuals. Introduction Hybridization between introduced domesticated species and native congeners may be particularly problematic Anthropomorphic introduction of species beyond their (Ellstrand et al. 1999; Ayres et al. 2004). The introduction native range is an increasingly frequent occurrence, as the of a crop species may involve the sudden establishment of movement of people and commercial goods becomes many individuals often over large areas with the intro- more global and transportation more rapid. The intro- duced domestic benefiting from human assistance over duction of non-native species can damage ecosystems and many years of cultivation. The world’s most important endanger native species (Allendorf et al. 2001). Allopatric crops are annuals. Hybridization and introgression of congenerics often lack genetic reproductive barriers and important annual crops, such as bean, maize, rice, and will produce hybrids when they become sympatric. wheat with their wild relatives and the consequences for ª 2015 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd. 5671 This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. Hybridization of California Native Grapes G. S. Dangl et al. the natives are well documented (Andersson and de Vice- ~100 years, the introduction was limited to a single culti- nte 2010; Ellstrand et al. 2013). The effects of hybridiza- var, ‘Listan Prieto’. Of Spanish origin, this ancient culti- tion and introgression of introduced woody perennials var had a long history of cultivation in South America with their wild relatives are not as well studied (Nassar under the name ‘Criolla Chica’ (Tapia et al. 2007). It was 2002; Meirmans et al. 2010). so central to the missionary way of life that in California The genus Vitis comprises ~60–70 species of dioecious this cultivar became known simply as ‘Mission’. It is woody vines with wind and insect-borne pollen. Most extremely hardy, fast growing, high yielding, and well grape species grow in the understory of riparian ecosys- adapted to California’s Mediterranean climate (McKee tems in the northern hemisphere (Levadoux et al. 1962). 1947). The 1849 Gold Rush and resulting settlement Vitis displays the classic distribution of a Tertiary relic spread ‘Mission’ across much of V. californica and V. gir- genus, with V. sylvestris in Europe, clusters of species in diana’s native ranges, creating a prolonged introduction East Asia, eastern North America, and western North of a single genetic individual. The expansion of the Cali- America, and a few species in Central America (Milne fornia wine industry in the late 1800s and early 1900s and Abbott 2002; Peros et al. 2011). Species are main- brought a limited number of new European grape culti- tained primarily through physical isolation by distance or vars to California. geographic barriers (i.e., allopatry) and, to a lesser extent, Knowledge of the amount and distribution of genetic by phenology. When in proximity and with sufficient variation of V. californica and V. girdiana and the degree overlap in bloom time, Vitis species readily hybridize, a of admixture with domesticated V. vinifera is central to trait long exploited by breeders to produce hybrid root- conservation efforts aimed at preserving the native spe- stock and scion cultivars with resistance to pathogens, cies. Here, we use microsatellite markers to document environmental stresses, and diseases (Mullins et al. 1992). hybridization of V. californica, and V. girdiana, with each The best-known member of the genus is the cultivated other and with the domesticated V. vinifera. We address grapevine, V. vinifera ssp. vinifera (V. vinifera), which was these specific questions. Can first-generation hybrids (F1) domesticated from the wild European grape, V. vinifera be verified by identifying the domesticated parent from ssp. sylvestris (V. sylvestris), although the location and among the limited number of V. vinifera cultivars histori- number of domestication events are still under active cally and currently grown in California? Given that nearly debate (Aradhya et al. 2003; Arroyo-Garcıa et al. 2006; all V. vinifera cultivars are hermaphrodites, do a portion Riaz et al. 2013). The selection and subsequent vegetative of hybrids inherit this trait? Do later-generation back- propagation of mutant hermaphrodite vines was a pri- crosses survive in the wild and can they be distinguished mary factor in the domestication of V. vinifera (Aradhya from the F1 generation using microsatellite markers? Can et al. 2003). Wide-scale commercial production for wine, wild-growing vines with admixture be differentiated from juice, fresh fruit, and raisins has taken V. vinifera well those without admixture? What is the genetic variation beyond its original native range; it is now grown on all that exists among wild-growing, pure, native V. califor- continents except Antarctica. nica, and V. girdiana germplasm? Finally, we examined In California, there are two endemic Vitis species: the unique history and nature of the introduction of V. girdiana in the south and V. californica in the northern V. vinifera, which for a century consisted of a single Central Valley, with occasional natural hybridization genetic individual and since then has consisted of several between them where they are sympatric (Olmo and dozen cultivars. This unique introduction is traced, and Koyama 1980). The two species differ in leaf shape, berry its implications for conservation are discussed. size, seed morphology, and the degree of tomentum on their leaves and shoots (Wada and Walker 2012). Both Material and Methods species are found in riparian habitats. Vitis girdiana is found in or near springs and creeks from Baja California Plant materials to the Tehachapi Mountains and from coastal areas to the desert regions of California and southern Nevada. The study set included 119 unique genotypes from wild- Vitis californica is found from the Tehachapi Mountains collected vines presumed to be V. californica (CAL), 26 in the south to southern Oregon and is common in the genotypes from wild-collected

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