Estimation of genetic diversity in some Iranian wild Prunus subgenus Cerasus accessions using inter-simple sequence repeat (ISSR) markers

As Iran is one of the main origins of Prunus germplasm. In this study, ISSR markers were used for genetic diversity evaluation of 39 accessions of subgenus Cerasus belonging to six species i.e. Prunus avium L., Prunus cerasus L., Prunus mahaleb L., Prunus incana Pall., Prunus microcarpa Boiss., and Prunus brachypetala Boiss.. With 12 ISSR primers, 151 polymorphic bands were detected with polymorphism ratio range of 81.8%–100%. The lowest similarity (0.04) was found between P. avium and P. microcarpa genotypes and the mean of similarity between all genotypes was 0.28. Cluster analysis separated improved cultivars from wild accessions. Improved cherry cultivars and rootstocks were placed closer to the P. avium than the other species. The principal coordinate analysis (PCoA) supported the cluster analysis results. The wild accessions were separated according to their species and collection sites. ISSR markers are useful techniques for genetic diversity evaluation in Prunus subgenus Cerasus.     

Phylogenetic analysis of morphology in Prunus reveals extensive homoplasy

Prunus is a large and economically important genus with considerable morphological variation. The evolution of vegetative and reproductive characters are examined here by parsimony reconstruction on trees obtained from data of ITS, trnL-trnF, trnS-trnG, and 25 morphological characters of 37 species of Prunus and representatives of eight other genera of Rosaceae. Prunus grayana is supported as the sister species to the rest of Prunus and the common ancestor of Prunus is reconstructed as having deciduous and serrated leaves, leafy racemes and fruit with well-developed pericarp. All diagnostic characters used in classification of the raceme-bearing species show some degree of convergent evolution and do not reflect phylogenetic relatedness. Some character states, such as evergreen foliage and entire leaf margin, are likely adaptations to environments with higher humidity and mean temperature. However, these hypotheses need to be tested by including species formerly classified in genus Pygeum, which were not available for this study. A clade consisting of subgenera Prunus, Amygdalus, Emplectocladus and section Microcerasus (formerly in subgenus Cerasus) is characterized by having axillary buds organized in groups of three, two of which give rise to flowers or inflorescences and one to a vegetative shoot. Fruits with thin pericarps are common in Prunus but they arose more than once independently. Dry fruits also evolved more than once, and only in species of Prunus living in arid environments, suggesting that this feature is another example of adaptation. Maddenia hypoleuca is nested within Prunus and the morphological characters used to segregate it from Prunus have been misinterpreted or are also found in species of Prunus previously classified in genus Pygeum.     

Phylogenetics of Eurasian plums, <Emphasis Type="Italic">Prunus</Emphasis> L. section <Emphasis Type="Italic">Prunus</Emphasis> (Rosaceae), according to coding and non-coding chloroplast DNA sequences

The genus Prunus contains the subgenus Prunus incorporating the European plums (section Prunus), the North American plums (section Prunocerasus) and the apricots (section Armeniaca). In section Prunus, there are approximately 20 species, which occur in three levels of ploidy, diploid ( 2n = 2x = 16 ) \left( {2n = 2x = 16} \right) , tetraploid ( 2n = 4x = 32 ) \left( {2n = 4x = 32} \right) and hexaploid ( 2n = 6x = 48 ) \left( {2n = 6x = 48} \right) . Despite a clear distinction between section Prunus and the other sections, phylogenetic relationships between species within the section are unclear. We performed a phylogenetic analysis on members of the section Prunus and three outgroup species using sequence data from four single-copy phylogenetically informative chloroplast DNA regions (atpB-rbcL, matK, rpl16, and trnL-trnF). After alignment, the analysed regions totalled 4,696 bp of sequence, containing 68 parsimony-informative sites and 14 parsimony-informative indels. Data were analysed using both maximum parsimony and Bayesian likelihood and phylogenetic trees were reconstructed. The analyses recovered trees with congruent topologies and similar levels of statistical support for relationships between taxa. They confirmed that species belonging to section Prunus form a monophyletic clade within Prunus. The section is resolved into four well-supported clades, which correspond to the geographical distribution of the species. The hexaploid species could not be resolved into distinct species clades but formed a well-supported group separate from the tetraploid species, highlighting the distinct evolutionary origins of the different polyploid groups. The close relationship between the hexaploids and Prunus divaricata, Prunus cerasifera and Prunus ursina indicates the former may have derived from an ancestor of P. cerasifera and its allies.     

Genetic dissection of resistance to root-knot nematodes Meloidogyne spp. in plum, peach, almond, and apricot from various segregating interspecific Prunus progenies

Sources of resistance in Prunus spp. exhibit different spectra to the root-knot nematodes (RKN) Meloidogyne incognita, Meloidogyne javanica and Meloidogyne floridensis. In this Prunus genus, two dominant genes, Ma with a complete spectrum from the heterozygous Myrobalan plums P.2175 and P.2980 (section Euprunus; subgenus Prunophora) and RMia with a more restricted spectrum from the peaches Nemared and Shalil (subgenus Amygdalus), have been identified. This study characterizes the resistance spectra of interspecific crosses involving (1) previous Myrobalan and peach sources, (2) two Alnem almonds (subgenus Amygdalus) resistant to M. javanica, and (3) the apricot A.3923, representing a species considered RKN-resistant (section Armeniaca; Prunophora). For both latter species, genetic data could be obtained through F1 crosses with genetically characterized Myrobalans that conferred their rooting ability for clonal multiplication of the hybrids and permitted their simultaneous evaluation to the three RKN. Crosses involving either Ma or RMia or both generated the expected resistance spectra. Nemared confirmed the species-specific resistance to M. incognita conferred by RMia. This rootstock, also previously considered resistant to M. javanica, was susceptible to the M. javanica isolate used, what illustrates an isolate-specific resistance to this species. Alnem accessions were shown homozygous resistant to M. javanica. In the progeny P.2980 × A.3923, Ma markers allowed to distinguish resistant individuals carrying that gene from resistant individuals lacking it. Distribution of non-Ma individuals in this cross suggested, in the apricot parent, (1) the absence of a major gene allelic to Ma and (2) the presence of a non RKN specific polygenic resistance.     

Phylogenetic relationships of cultivated Prunus species from an analysis of chloroplast DNA variation

Chloroplast DNA (cpDNA) restriction-site mutations in seven cultivated Prunus species were compared to establish the phylogenetic relationships among them. Mutations were detected in 3.2-kb and 2.1-kb amplified regions of variable cpDNA, cut with 21 and 10 restriction endonucleases, respectively, to reveal polymorphisms. Parsimony and cluster analyses were performed. The species pairs P. persica-P. dulcis, P. domestica-P. salicina, and P.cerasus-P. fruticosa were completely monophyletic. All of the species were grouped with conventional subgenus classifications. The subgenus Cerasus was the most diverged. Cerasus ancestors separated from the remainder of Prunus relatively early in the development of the genus. P. persica-P. dulcis, P. domestica-P. salicina and P. armeniaca formed a second monophyletic group. Prunophora species were less diverged than Amygdalus species. The results also suggest that the rate of mutation in Cerasus spp. chloroplast genomes is significantly greater than for the other subgenera sampled.     

Merging Maddenia with the morphologically diverse Prunus (Rosaceae)

Maddenia (Rosaceae) has been distinguished from Prunus on the basis of its tepaloid perianth and one‐ to two‐carpellate gynoecium. These distinctive morphological traits nonetheless overlap with several Prunus spp. Maddenia has previously been shown to be nested within Prunus, more specifically within a clade containing members of subgenera Laurocerasus and Padus, but its phylogenetic position within that clade has not been defined precisely. This study clarifies the position of Maddenia within Prunus through phylogenetic analyses of nuclear ribosomal internal transcribed spacer (ITS) and plastid ndhF sequences, with an expanded sampling of tropical species of subgenus Laurocerasus and the inclusion of three Maddenia spp. The monophyly of Maddenia is supported by both the ITS and ndhF analyses, but both datasets support the inclusion of Maddenia in Prunus. All trees from the ITS analysis and some trees from the ndhF analysis also support a close alliance of Maddenia with a clade comprising temperate species of subgenera Laurocerasus and Padus. On the basis of these results, all recognized species of Maddenia are herein formally transferred to Prunus, which requires four new combinations and one new name: Prunus fujianensis (Y.T.Chang) J.Wen, comb. nov. ; Prunus himalayana J.Wen, nom. nov. ; Prunus hypoleuca (Koehne) J.Wen, comb. nov. ; Prunus hypoxantha (Koehne) J.Wen, comb. nov. ; and Prunus incisoserrata (T.T.Yü & T.C.Ku) J.Wen, comb. nov. © 2010 The Linnean Society of London, Botanical Journal of the Linnean Society, 2010, 164 , 236–245.     

Characterization of the <Emphasis Type="Italic">RMja</Emphasis> gene for resistance to root-knot nematodes in almond: spectrum,location, and interest for <Emphasis Type="Italic">Prunus</Emphasis> breeding

In Prunus spp., resistance genes to root-knot nematodes (RKN), Meloidogyne arenaria, Meloidogyne incognita, Meloidogyne javanica, and Meloidogyne floridensis, confer either a complete spectrum, e.g., the Ma and Rjap genes in Myrobalan and Japanese plums (subgenus Prunophora), respectively, or a more restricted spectrum, e.g., the RMia gene (M. arenaria + M. incognita) in peach (subgenus Amygdalus). We report here characterization data of the RMja gene from the almond Alnem1, another Amygdalus source. The study of its spectrum is hampered by the inability of almond to be propagated by cuttings; we overcame this problem by using F1 and BC1 crosses with previously genotyped Myrobalan plums that conferred their rooting ability to hybrids for simultaneous evaluation to different RKN. As expected from a homozygous dominant resistance, BC1 progenies of Alnem1 segregated for resistance to M. javanica but were uniformly susceptible to M. incognita and M. floridensis, demonstrating that RMja controlled M. javanica but not M. incognita nor M. floridensis. SSR markers covering the Prunus reference map placed RMja on LG7 in the same region as Ma and Rjap and thus showed its independence from the RMia gene (LG2) of the botanically closer peach. The spectrum of this gene allows the theoretical construction of interspecific rootstocks, Myrobalan plum × (almond × peach), which cumulate RMja with Ma and RMia and are protected from each of the predominant RKN affecting Prunus, i.e., M. arenaria, M. incognita, and M. javanica, by at least two genes. This pyramiding strategy should offer to rootstock material an unprecedented guarantee of durable RKN resistance.     

Differential Response to Root-Knot Nematodes in Prunus Species and Correlative Genetic Implications

Responses of 17 Prunus rootstocks or accessions (11 from the subgenus Amygdalus and 6 from the subgenus Prunophora) were evaluated against 11 isolates of Meloidogyne spp. including one M. arenaria, four M. incognita, four M. javanica, one M. hispanica, and an unclassified population from Florida. Characterization of plant response to root-knot nematodes was based on a gall index rating. Numbers of females and juveniles plus eggs in the roots were determined for 10 of the rootstocks evaluated against one M. arenaria, one M. incognita, one M. javanica, and the Florida isolate. These 10 rootstocks plus Nemaguard and Nemared were retested by growing three different rootstock genotypes together in containers of soil infested individually with each of the above four isolates. Garfi and Garrigues almonds, GF.305 and Rutgers Red Leaf peaches, and the peach-almond GF.677 were susceptible to all isolates. Differences in resistance were detected among the other rootstocks of the subgenus Amygdalus. The peach-almond GF.557 and Summergrand peach were resistant to M. arenaria and M. incognita but susceptible to M. javanica and the Florida isolate. Nemaguard, Nemared, and its two hybrids G x N no. 15 and G x N no. 22 were resistant to all but the Florida isolate. In the subgenus Prunophora, Myrobalan plums P.1079, P.2175, P.2980, and P.2984; Marianna plum 29C; and P. insititia plum AD.101 were resistant to all isolates. Thus, two different genetic systems of RKN resistance were found in the subgenus Amygdalus: one system acting against M. arenaria and M. incognita, and another system also acting against M. javanica. Prunophora rootstocks bear a complete genetic system for resistance also acting against the Florida isolate. The hypotheses on the relationships between these systems and the corresponding putative genes of resistance are presented.     

Polyphyly of the Padus group of Prunus (Rosaceae) and the evolution of biogeographic disjunctions between eastern Asia and eastern North America

Prunus subgenus Padus is a group with a wide distribution in temperate eastern Asia and eastern North America with one species extending to Europe and one to Central America. Phylogenetic relationships of subgenus Padus were reconstructed using sequences of nuclear ribosomal ITS, and plastid ndhF gene, and rps16 intron and rpl16 intron. Prunus subgenus Padus is shown to be polyphyletic. Taxa of subgenus Padus and subgenus Laurocerasus are highly intermixed in both the ITS and the plastid trees. The results support two disjunctions between eastern North America and Eurasia within the Padus group. One disjunction is between Prunus virginiana of eastern North America and P. padus of Eurasia, estimated to have diverged at 2.99 (95 % HPD 0.59–6.15)–4.1 (95 % HPD 0.63–8.59) mya. The other disjunction is between P. serotina and its Asian relatives. The second disjunction may have occurred earlier than the former one, but the age estimate is difficult due to the unresolved phylogenetic position of the P. serotina complex.     

Influence of native and alien Prunus species and light conditions on performance of the leaf beetle Gonioctena quinquepunctata

The polyphagous beetle Gonioctena quinquepunctata Fabricius (Coleoptera: Chrysomelidae) is a serious leaf pest of the native European bird cherry, Prunus padus L., and the invasive alien black cherry, Prunus serotina Ehrh. (Rosaceae). In the shade, leaf damage is extensive in both species, whereas in full light, it is extensive in P. padus, but very low in P. serotina. We determined the influence of Prunus species and light conditions on differences in performance of both sexes of this folivore. In a laboratory experiment in which larvae were fed with leaves of a single species grown under particular light conditions, we measured larval, pupal, and adult mass, efficiency of conversion of ingested food (ECI), duration of development, total food eaten, and relative growth rate. In the field, we observed differences in beetle mass on shrubs of the two species growing under various light conditions. From the field observations, we hypothesised that leaves of the invasive P. serotina are not an equally good food source as leaves of P. padus for G. quinquepunctata, and the preference of these beetles for shaded shrubs is most favourable for their growth and development. Under laboratory conditions, we found that the beetle growth rate was not affected significantly by Prunus species or light conditions, despite the significant effect of light condition on the structure and chemical composition of Prunus seedlings. The lower ECI value for larvae feeding on sunlit leaves was compensated for by their higher level of consumption. In the field, adult insect mass was higher on P. padus than on P. serotina, and higher on sunlit shrubs of both species than on shaded ones. Under natural conditions, the mass of adult insects is probably also affected by other factors, such as predators and competition among folivores.     

Some fossil woods from the palaeogene of northern Kyushu,III

Petrified woods obtained from the Oligocene of Tsuyazaki, Fukuoka Prefecture have been studied, and four new species ofPrunus (Rosaceae) are described:Prunus palaeozippeliana, P. ascendentiporulosa, P. uviporulosa andP. polyporulosa. These four species are very similar to each other in gross anatomical features and are characterized by the diffuse porosity, exclusively simple perforation plates, spiral thickenings on vessel walls, heterogeneous rays and the presence of traumatic gum canals. The petrified woods ofPrunus are new records from the Tetiary of Japan.     

Calcium oxalate crystal types and trends in their distribution patterns in leaves ofPrunus (Rosaceae: Prunoideae)

Calcium oxalate crystal types and distribution within leaves ofPrunus sensu lato (Rosaceae; Prunoideae) were surveyed from mostly herbarium specimens (196 specimens of 131 species of all five subgenera usually recognized). Rehydrated samples were bleached, mounted unstained, and viewed microscopically between crossed polarizers. Six patterns were recognized based on crystal type and relative distribution around veins and in mesophyll. Druses predominate in four subgenera, but prismatics are most common in subgenus Padus. Prunophora and Amygdalus, considered to be the most advanced subgenera, have virtually only druses, which are almost always associated with veins. Cerasus and Laurocerasus, intermediate subgenera, have the greatest diversity of patterns, but few species with prismatics. A trend is evident from mostly mesophyll prismatics in Padus to fewer prismatics and more druses of mixed distribution in Laurocerasus and Cerasus, to mostly druses restricted to veins in Amygdalus and Prunophora.     

Identifying endocarp remains and exploring their use at Epipalaeolithic Öküzini in southwest Anatolia,Turkey

Excavation of the Epipalaeolithic levels of the cave site Öküzini in southwest Anatolia produced many nutshell remains, mainly endocarp fragments belonging either to Prunus or Amygdalus. Morphological comparison with the range of potential species and present geographical distribution made it possible to refine the determination to either of two species of wild almond, Amygdalus orientalis or A. graeca . These plants could grow in the surroundings of the site on rocky slopes or sandy hills and had to be collected during late summer. All wild Amygdalus seeds are toxic, so that their use as food is disputed. This paper explores the detoxification possibilities, nutritional properties and ethnographic analogies for the use of wild almonds. It comes to the conclusion that the seeds probably played a notable role in the diet of the Epipalaeolithic population of southwest Anatolia, complementing meat and other plant food. An examination of further prehistoric nutshell finds from Anatolia supports a long and widely distributed tradition of almond use.     

Genetic relatedness among some wild cherry (<Emphasis Type="Italic">Prunus</Emphasis> subgenus <Emphasis Type="Italic">Cerasus</Emphasis>) genotypes native to Iran assayed by morphological traits and random amplified polymorphic DNA analysis

Subgenus Cerasus species are useful genetic resources for cherry breeding programs. A total of 17 morphological traits together with 19 random amplified polymorphic DNA (RAPD) primers were used to study 39 accessions including 34 wild Cerasus subgenus genotypes belonging to Prunus avium L., P. cerasus L., P. mahaleb L., P. microcarpa Boiss., P. incana Pall., and P. brachypetala Boiss. species, along with an unknown wild Cerasus sample, two advanced cherry cultivars (‘Lambert’ and ‘Bulgar’), and two rootstocks (‘Colt’ and ‘Gisela 6’). Genotypes were separated into different groups according to their species and collection sites using cluster analysis performed by Ward’s clustering method based on morphological data. Nineteen RAPD primers from 60 screened produced 304 polymorphic reproducible bands (98.15% polymorphism). According to the similarity matrix, the lowest similarity was obtained between P. avium and P. microcarpa samples. A dendrogram was prepared by the unweighted pair-group method with arithmetic average (UPGMA), and the accessions were separated according to their species and geographic origin. In both morphological and molecular results, the advanced cultivars and rootstocks were separated from wild genotypes, and the unknown genotype was grouped with P. mahaleb accessions. Grouping by morphological characteristics was compared with the results of RAPD analysis, with no significant correlations between morphological and molecular data being found. This is the first report of molecular (RAPD) genetic diversity study in wild Cerasus subgenus genotypes from Iran, and the results demonstrate the high potential of RAPD analysis for discrimination of Cerasus subgenus genotypes.     

A comparative analysis of characteristic floral scent compounds in Prunus mume and related species

In order to investigate the difference in their characteristic floral scents between Prunus mume Siebold & Zucc. and the related Prunus species, their headspace volatiles and endogenous extraction were analyzed by gas chromatography–mass spectrometry. The efficiency of substrate utilization of the flowers was studied by incubating them with different alcohol substrates. Our results indicated that benzyl acetate is a dominant compound influencing the characteristic floral scent of P. mume. An alcohol substrate concentration of 4?mmol?L^?1 and a reaction time of 2?h were constituted the reaction condition for catalysis of exogenous alcohol substrates by the flowers. Under these conditions, Prunus sibirica exhibited the highest utilization efficiency for benzyl alcohol substrate while the utilization efficiency of Prunus persica was the lowest. Comparative analysis of several alcohol substrates indicated that the flowers of the tested species had selective specificity for benzyl alcohol substrates.     

Development and characterization of microsatellite markers for <Emphasis Type="Italic">Prunus verecunda</Emphasis> and <Emphasis Type="Italic">Prunus grayana</Emphasis> (Rosaceae)

Simple sequence repeat (SSR) markers were developed for Prunus verecunda and Prunus grayana to help understand the seed dispersal pattern of each species. We isolated and characterized nine microsatellite loci (four from P. verecunda and five from P. grayana). In P. verecunda, the number of alleles detected and the expected heterozygosity of five loci ranged from 11 to 24 and 0.59 to 0.92, respectively. In P. grayana, the number of alleles detected and the expected heterozygosity of five loci ranged from 4 to 14 and 0.62 to 0.86, respectively. These results show that the markers described here will be useful in studying the seed dispersal pattern of Prunus species.     

北方城市12种常见树木落花分解及其养分释放特征

城市绿化产生的树木落花量日益增加,由于落花富含养分,所以研究落花的分解及其养分释放特性,可以为落花作为施肥材料和制备生物质有机肥等农业再利用提供科学依据。以樱花(Cerasus sp.)、海棠(Malus spectabilis)、白玉兰(Magnolia denudata)、紫玉兰(Magnolia liliflora)、桃(Amygdalus persica)、红叶李(Prunus cerasiferaⅠ)、紫叶李(Prunus cerasiferaⅡ)、含笑(Michelia figo)、紫荆(Cercis chinensis)、杏梅(Prunus mume)、银杏(Ginkgo biloba)和栾树(Koelreuteria paniculate)等12种树木落花为研究对象,通过室内落花分解模拟试验,结果表明:(1)粗蛋白含量以桃花和白玉兰落花中较高(251.44—274.94 mg/g)(P<0.05),木质素含量以紫荆和银杏落花中较高(47.35—49.95μg/g)(P<0.5),N含量以桃花和白玉兰落花中较高(40.23—43.99 mg/g)(P<0.5),P含量以桃花和白玉兰落花中较高(1.37—1.58 mg/g)(P<0.5),K含量以红叶李、紫叶李和白玉兰落花中较高(4.53—4.72 mg/g)(P<0.5),Cu含量以白玉兰落花中较高(22.74μg/g),Zn含量以紫叶李落花中较高(249.06μg/g)(P<0.5),Fe含量以紫荆、樱花、紫叶李、杏梅、海棠和桃花中较高(85.81—118.34μg/g)(P<0.5),Mn含量以杏梅、樱花、桃花和海棠落花中较高(24.09—25.71μg/g)(P<0.5)。(2)12种落花中,除了银杏分解稍慢(周转期1.12 a)之外,其他落花分解均较快(周转期为1.00—1.05 a)。(3)落花养分释放速率较之分解速率表现为:N在樱花、海棠、紫玉兰、红叶李、含笑和紫荆落花中呈超速释出状态,而在其他落花中呈慢速释出状态,P在白玉兰、桃花、紫叶李、紫荆和银杏落花中呈超速释出状态,而在其他落花中呈慢速释出状态,K除了在紫荆落花中呈超速释出状态之外,在其他落花中均呈慢速释出状态。(4)相关性分析表明,落花中含有较高的粗蛋白、N、P和K含量可以加快落花分解,而落花中含有较高的木质素含量、木质素/N和N/P则导致落花分解速度减慢。研究结果将为落花的资源化利用奠定理论基础。     

Marker-assisted selection for the wide-spectrum resistance to root-knot nematodes conferred by the Ma gene from Myrobalan plum (Prunus cerasifera) in interspecific Prunus material

Prunus species express a more or less wide spectrum of resistance to root-knot nematodes (RKN) of the genus Meloidogyne. Among them, sources from Myrobalan plum (P. cerasifera) control all major and minor RKN species tested. In this outbreeding species, the clones P.2175 and P.2980 are heterozygous for the Ma single dominant gene and carry the alleles Ma1 and Ma3, respectively. Each allele confers a high-level resistance to the predominant RKN, M. arenaria, M. incognita and M. javanica and to the Florida isolate of an unknown Meloidogyne sp. which overcomes the resistance from peach and almond sources. The polymorphism of two coupling-phase SCAR markers tightly linked to Ma, SCAL19₆₉₀ and SCAFLP2₂₀₂, was evaluated within diverse diploid Prunus accessions. This material belongs to the subgenera Prunophora (Myrobalan and apricot) or Amygdalus (peach, almond and almond-peach) and includes the RKN resistance sources Nemared, Alnem 1 and GF.557. The alleles SCAL19₆₉₀ and SCAFLP2₂₀₂ were not present in three apricot cultivars (Moniqui, Luizet and Stark Early Orange) representative of the genetic diversity of this species and they segregated in an interspecific cross between P.2980 and apricot. These results suggest that apricot, reported as resistant to M. arenaria, M. incognita and M. javanica, and the Myrobalan plum might possess two different resistance systems. SCAL19₆₉₀ and SCAFLP2₂₀₂ were also absent from all tested Amygdalus material, whatever its resistance to RKN. Eight Myrobalan×Amygdalus segregating progenies including bispecific (P.2175 or P.2980×peach or almond) and trispecific (P.2175 or P.2980×almond-peach) hybrids were tested with the Florida isolate to identify individuals carrying the Ma resistance alleles. Both SCARs were then evaluated for segregation in these progenies to develop marker-assisted selection of Prunus interspecific rootstocks. SCAL19₆₉₀ and SCAFLP2₂₀₂ could be clearly detected and their tight linkage to Ma1 and Ma3 was confirmed. Consequently these SCARs appear to be powerful tools to screen for RKN resistance conferred by the Ma gene. They should also facilitate marker-assisted pyramiding of Ma with other resistance genes from the Amygdalus subgenus or from the botanically-related Armeniaca section.     

Assessing past agrobiodiversity of Prunus avium L. (Rosaceae): a morphometric approach focussed on the stones from the archaeological site H?tel-Dieu (16th century, Tours, France)

Abundant and diverse Prunus fruitstone remains from cherries, plums, sloes, peaches, etc. are frequently recovered from archaeological waterlogged contexts such as wells, latrines, lake dwellings etc. in Europe. The distinction between most of the Prunus species, based on traditional morphological characters of the fruit stones, is usually not problematic. However the discrimination between P. avium L., P. cerasus L. and related cherry species, based on classical criteria alone, often turns out to be ambiguous because of the increasing number of varieties which have been bred since Roman times. By combining geometric and traditional morphometrical approaches, the overall variation in shape and size of stones from French and Swiss excavations dating from the 1st century to the 16th century a.d. were assessed. Among these important archaeobotanical data, the detailed examination of 100 waterlogged stones from the 16th century H?tel-Dieu cesspit at Tours, France, revealed that the morphological diversity is structured into two distinct morphotypes which diverge mainly according to geometrical features. Finally, the comparison between morphological features of these well-preserved archaeological stones and modern reference material including P. avium, P. cerasus and P. × gondouinii, suggests that these two morphotypes, which have been initially attributed to P. avium (long stones) and P. avium/cerasus (rounded stones) according to traditional morphological parameters, would correspond to two different cultivated varieties, both belonging to Prunus avium. Results presented in this work constitute new and preliminary data obtained during the development of this project that throw light on morphological variability and biosystematic aspects.