Population Structure of and Conservation Strategies for Wild Pyrus ussuriensis Maxim. in China

Pyrus ussriensis Maxim. is native to the northern part of China, but whose habitats are currently being destroyed by environmental changes and human deforestation. An investigation of population structure and genetic diversity of wild Ussurian pear is a priority in order to acquire fundamental knowledge for conservation. A total of 153 individuals of wild Ussurian pear from the main habitats, Heilongjiang, Jilin, and Inner Mongolia in China, possessed low genetic diversity as a result of habitat fragmentation. The genetic diversity of the populations in Inner Mongolia and north east of Heilongjiang was especially low and there was the possibility of inbreeding. Wild Ussurian pears were divided into 5 groups based on the Bayesian clustering method using 20 nuclear SSRs (nSSRs) and 5 groups by haplotype distributions using 16 chloroplast SSRs (cpSSRs), and the populations in Inner Mongolia and north east of Heilongjiang represented unique genotypes. AMOVA indicated there was a 20.05% variation in nSSRs and a 44.40% variation in cpSSRs among populations. These values are relatively high when compared to those of other tree species. Haplotype E, positioned in the center of the cpSSR analysis network and showed the largest number of connections with other haplotypes, represented the most important haplotype. Inner Mongolia and the north east of Heilongjiang are two areas that need urgent conservation because of their genetic vulnerability and peculiarity. We determined 4 conservation units based on the clustering by nSSRs and cpSSRs, and geographic factor. This information is helpful in deciding the conservation strategies for wild Ussurian pear in China.     

Study on chloroplast DNA diversity of cultivated and wild pears (<Emphasis Type="Italic">Pyrus</Emphasis> L.) in Northern China

Eight pairs of chloroplast DNA (cpDNA) universal primers selected from 34 pairs were used to assess the genetic diversity of 132 pear accessions in Northern China. Among them, six amplified cpDNA fragments showed genetic diversity. A total of 24 variable sites, including 1 singleton variable site and 23 parsimony informative sites, as well as 21 insertion-deletion fragments, were obtained from the combined cpDNA sequences (5309–5535 bp). Two trnL-trnF-487 haplotypes, five trnL-trnF-413 haplotypes, five rbcL haplotypes, six trnS-psbC haplotypes, eight accD-psaI haplotypes and 12 rps16-trnQ haplotypes were identified among the individuals. Twenty-one haplotypes were identified based on the combined fragments. The values of nucleotide diversity (P_i), average number of nucleotide differences (k) and haplotype diversity (H_d) were 0.00070, 3.56408 and 0.7960, respectively. No statistical significance was detected in Tajima’s D test. Remarkably, the important cpDNA haplotypes and their representing accessions were identified clearly in this study. H_19 was considered as one of the ancient haplotypes and was a divergent centre. H_16 was the most common haplotype of the wild accessions. H_2 was the haplotype representing the most pear germplasm resources (46 cultivars and two wild Ussurian Pear accessions), followed by haplotype H_5 (30 cultivars, two wild Ussurian Pear accessions and four sand pears in outgroups) representing the cultivars ‘Dangshan Suli’ and ‘Yali’, which harbour the largest and the second largest cultivation areas in China. More importantly, this study demonstrated, for the first time, the supposed evolution routes of Pyrus based on cpDNA divergence in the background of pear phylogeny in Northern China.     

Genetic Diversity of Some Pear Cultivars and Genotypes Using Simple Sequence Repeat (SSR) Markers

The genetic diversity and relationships among 47 pear cultivars and genotypes (Pyrus spp.), including 4 Japanese pears (Pyrus pyrifolia), 40 European pears (Pyrus communis), 1 Chinese pear (Pyrus bretschneideri) as well as 2 wild relatives (Pyrus salicifolia and Pyrus mazandaranica) were studied using 28 microsatellite primer pairs. A total of 174 alleles were produced at the 28 SSR loci with their sizes ranging from 81 to 290?bp. The number of observed alleles for each locus ranged from 3 (TsuENH014 and TsuENH046) to 12 (NB103a), with an average of 6.21 alleles per locus. In some SSR loci, more than two alleles were amplified in some cultivars and genotypes, suggesting that duplication has occurred in those accessions. This information suggests that at least two genomic regions exist for these loci in the pear genome. The observed heterozygosity (H _o) values of amplified loci ranged from 0.17 (TsuENH006) to 0.97 (NB103a). Shannon's information index (I) value was observed to be highest (2.14) in the NB103a locus, while the TsuENH006 locus had the lowest value with an average of 1.37 among SSR loci. The Dice genetic similarity coefficient ranged from 0.29 (??Nijisseiki?? and P. mazandaranica) to 0.91 (??Chojuro?? and ??Nijisseiki??) among samples. UPGMA cluster analysis showed two major groups corresponding to the Japanese and European pears.     

SSRs isolated from apple can identify polymorphism and genetic diversity in pear

Apple simple sequence repeats (SSRs) were intergenerically applied to the characterization of 36 pear accessions, including 19 Japanese pears (Pyrus pyrifolia), 7 Chinese pears (P. bretschneideri, P. ussuriensis), 5 European pears (P. communis), 3 wild relatives (P. calleryana), and 2 hybrids between P. pyrifolia and P. communis. All of the tested SSR primers derived from apple produced discrete amplified fragments in all pear accessions. Nucleotide repeats were detected in the amplified bands by both Southern blot and sequencing analysis, and nucleotide sequences of pear were compared with those of apple. The differences in fragment size among pear or between pear and apple were, in many cases, due to the differences in repeat number. Interestingly, the DNA sequence of flanking regions in apple was highly conserved in pear. Hybrids from P. pyrifolia×P. communis showed one fragment inherited from each parent in all scorable cases, which suggested that each primer pair amplified fragments originating from the same locus. A total of 79 alleles were detected from seven SSR loci in pear, and all pear varieties except for the mutants could be differentiated. In conclusion, SSRs isolated from apple are highly conserved in pear and could be utilized as DNA markers in the latter genus. Received: 17 July 2000 / Accepted: 22 September 2000     

SSR polymorphism of modern cultivars and autochthonous forms of the pear tree from North Caucasus

Genetic similarity and relatedness within the set of pear genotypes including autochthonous Circassian cultivars from North Caucasus, European cultivars, accessions of Pyrus caucasica Fed., and modern Russian cultivars were estimated on the basis of analysis of SSR loci. The level of polymorphism for the studied loci varied from 11 to 15 alleles per locus in the set of 29 samples of pears. A higher level of allelic polymorphism of SSR loci was revealed for a set of P. caucasica samples in comparison with modern cultivated cultivars: from 9 to 12 alleles for P. caucasica and from 6 to 8 alleles for modern cultivars. Specific alleles for the mentioned groups of pears were identified. UPGMA clustering revealed two distinct groups: one includes P. caucasica accessions and autochthonous Caucasian cultivars and the other group includes all cultivated European and Russian pear cultivar. The results support the hypothesis of an isolated gene pool formation of autochthonous pear cultivars of the North Caucasus and their probable origin from the wild P. caucasica.     

Genetic relationships between wild progenitor pear (Pyrus L.) species and local cultivars native to Georgia,South Caucasus

The genetic diversity of 108 individuals of wild pear species (Pyrus communis subsp. caucasica, P. balansae, P. salicifolia, P. syriaca, P. demetrii, P. bulgarica, P. ketzkhovelii, P. sachokiana) and 35 samples of local and introduced cultivated pears from the country of Georgia were compared to 73 individuals of wild P. communis subsp. caucasica and P. communis subsp. pyraster in the collection of USDA-ARS National Plant Germplasm System (NPGS). Pyrus communis subsp. caucasica from both Georgia and the NPGS, P. communis subsp. pyraster from the NPGS, and P. salicifolia from Georgia were differentiated, based on analysis of eleven microsatellite markers. In addition, accessions of P. communis subsp. caucasica from Georgia were genetically distinct from accessions of the same subspecies in the NPGS collection that originated from other European and Middle Eastern Asian countries. Local pear cultivars in Georgia were genetically similar to P. communis subsp. caucasica and P. balansae growing wild in Georgia suggesting that they may have originated from native pear trees that could serve as unique genetic resources for pear breeding programmes.     

梨种质资源对黑星病抗性评价

采用人工接种黑星病菌的方法,对国家果树种质兴城梨资源圃保存的197份梨种质资源进行了抗病性鉴定,结果表明:不同梨种类发病率差异很大,其中白梨和砂梨最易感病,秋子梨和种间杂交选育品种较易感病,新疆梨较抗病,西洋梨最抗病;对病情指数在各梨种类分布进行了分析;在白梨、砂梨、秋子等各系统分别筛选出黄鸡腿、甩梨、酸梨、锦香等一批抗病资源;对田间自然感病与人工接种感病结果进行了比较。     

Genetic structure of East Asian cultivated pears (Pyrus spp.) and their reclassification in accordance with the nomenclature of cultivated plants

By use of Bayesian statistical inference and allelic data for 18 microsatellite loci, we analyzed the genetic structure of Chinese, Korean, and Japanese pear cultivars and of native populations of Pyrus ussuriensis. Although Japanese pear cultivars had a simple genetic structure, Chinese and Korean pear cultivars were admixures of Japanese pear and native P. ussuriensis from the Asian continent. Genetic differentiation between groups of native populations and those of cultivars was high, but cultivars were not well differentiated from each other. Chinese and Korean cultivars, which have traditionally been classified as either P. ussuriensis, P. bretschneideri, or P. pyrifolia, were much closer to Japanese cultivars, which have traditionally been classified as P. pyrifolia, than to native P. ussuriensis. We propose a new classification of cultivars by using the Group concept in accordance with the International Nomenclature for Cultivated Plants, namely, the Pyrus Ussurian pear group, the Pyrus Chinese white pear group, the Pyrus Chinese sand pear group, and the Pyrus Japanese pear group.     

Genetic analysis of Anatolian pear germplasm by simple sequence repeats

The pear (Pyrus communis L.) is a fruit species grown in many temperate regions of the world. Turkey harbours a rich and ancient pear germplasm adapted to diverse ecological regions of the country. The aim of this study was to genetically characterise locally grown Anatolian pear germplasm. We have analysed large numbers (228) of pear accessions originated from six eco‐geographically diverse regions using 18 simple sequence repeat (SSR) markers and identified 308 SSR alleles. Genetic similarities among the accessions examined were generally below 80%. The highest heterozygosity rate was obtained for the SSR locus ‘CH02D11’ derived from apples and ‘KA16’ and ‘NH0021a’ derived from pears. No identical or synonymous genotypes were found, while five homonymous genotypes were identified. Factorial correspondence analysis could not clearly separate different pear accession groups studied, suggesting that Anatolian pear accessions were intermixed possibly due to gene flow and/or germplasm movements between different eco‐geographical regions. However, most pear accessions were grouped according to their collection sites in structure analyses. The SSR data reported here for Anatolian pear accessions will be valuable for future germplasm management efforts as well as for comparative studies that investigate genetic relationships of pears from Anatolia and the surrounding regions.     

The southwestern origin and eastward dispersal of pear (<Emphasis Type="Italic">Pyrus pyrifolia</Emphasis>) in East Asia revealed by comprehensive genetic structure analysis with SSR markers

Pyrus pyrifolia is considered one of the most important cultivated Pyrus species. Hundreds of landraces and bred cultivars have been developed through the natural and artificial hybridizations necessary due to self-incompatibility. In this study, the genetic diversity of 478 Pyrus accessions, including Chinese landraces, bred cultivars, and wild samples, as well as introduced pear cultivars from Japan and Korea, was investigated with a set of 17 simple sequence repeat (SSR) markers distributed across all 17 linkage groups of the pear genome. A total of 121 alleles were detected, including 4 rare alleles with a frequency lower than 5%. Diversity statistics indicated a high level of genetic variation as quantified by the average values of the observed heterozygosity, the expected heterozygosity, and Wright’s fixation index, at 0.76, 0.78, and 0.02, respectively. Population structure and discriminant analysis of principal component analysis implied extensive genetic communication between sand pears in China and revealed four contiguous geographical clusters with overlapping geographical regions. The diversity of the four clusters and approximate Bayesian computation (ABC) indicated that sand pear spread from west to east along the Pearl River and Yangtze River valleys. High diversity and polyphyletic genetic components of cultivars in southwestern China further support southwestern China as the probable center of divergence for Pyrus species. A core collection of 80 out of 470 cultivars was selected, accounting for about 17% of accessions, and capturing 91% of all alleles, including all rare alleles. Our research provides a comprehensive understanding of sand pear germplasm in East Asia and constructs a preliminary core collection, which will be useful for association genetics studies, germplasm conservation, and breeding programs.     

Phylogenetic utility of structural alterations found in the chloroplast genome of pear: hypervariable regions in a highly conserved genome

The genome structure of pear chloroplast DNA (cpDNA) is extremely highly conserved in comparison with that of other angiosperms, and therefore, relatively few phylogenetic analyses for pear (Pyrus spp.) have been carried out using cpDNA as a marker. In this study, we identified two hypervariable regions in intergenic spacers of cpDNA from 21 species in Pyrus. One of these regions is 857 bp in length and lies between the accD-psaI genes, and the other is a 904-bp region between the rps16-trnQ genes. The mutation rate of gaps for the two regions was 10 and 26 times higher, respectively, than the base change rate. Twenty-five haplotypes were revealed among 21 species in Pyrus by 36 mutations found in the two regions. These included 27 gaps and 9 base changes but excluded cpSSRs. Phylogenetic relationships between the 25 haplotypes were generated by haplotype network analysis. The 25 haplotypes represented three groups (types A–C) with two large deletions, one 228 bp in length between the accD-psaI genes and the other 141 bp between the rps16-trnQ genes. Types A and B consisted mostly of pears native to East and South Asia. Type C contained mainly Pyrus communis and wild relatives native to Europe, West and Central Asia, Russia, and Africa. Type B might have diverged from primitives such as pea pears in type A. Phylogenetic utility of structural alterations (gaps) occurring in the hypervariable regions of Pyrus cpDNA is discussed.     

Genetic variation and population structure of “Zangli” pear landraces in Tibet revealed by SSR markers

Pear (Pyrus L.) is one of the most important fruits in temperate regions. Even in the mountainous border region of Tibet, Sichuan, and Yunnan Provinces (China), a variety of highly adapted pear landraces were discovered in Tibetan Autonomous Prefecture and were named “Zangli pears.” Here, we analyzed genetic diversity of 29 genotypes of Zangli distributed in Tibetan Region, together with 30 genotypes of sand pear (P. pyrifolia) in border regions, and 8 genotypes of P. ussuriensis as out groups, using simple sequence repeats (SSR) markers. Twenty-eight SSR markers displayed high polymorphism with a total of 202 alleles. Cluster analysis revealed a close genetic relationship between Zangli and sand pears, while population structure analysis revealed that gene flow between the western and eastern side of the Jin-sha River was restricted by geographic isolation. Diversity statistics for five geographic groups implied a migration event from Sichuan and Yunnan Provinces to the border region of western Sichuan, eastern Tibet, and northwestern Yunnan Provinces. Six specific genetic alleles in Zangli pear landraces might be related to their adaption to severe environmental conditions.     

Effect of fruit maturity on UV-B-induced post-harvest anthocyanin accumulation in red Chinese sand pear

The effect of fruit maturity on UV-B-induced post-harvest anthocyanin accumulation in red Chinese sand pear (Pyrus pyrifolia Nakai) cultivar ‘Mantianhong’ was evaluated. During the irradiation, compared with the fruit harvested at 20 days before harvest (DBH) and 10 DBH, the mature fruit (harvested at commercial harvest date) had higher soluble solids content, soluble sugars concentration but lower firmness and starch content. In addition, higher content of anthocyanin has been detected in mature fruits than in immature fruits due to the significant increase in the expression of genes related to anthocyanin biosynthesis, especially PpCHS, PpF3H, PpANS, PpUFGT, PyMYB10 and PpbHLH in red Chinese sand pears. Hierarchical clustering analysis suggested that most genes related to anthocyanin biosynthesis showed a coordinate expression pattern. These findings are helpful in understanding the molecular mechanism of anthocyanin biosynthesis and regulation, which could lead to the development of new technologies for improving fruit color in Chinese sand pears and other fruits.     

Genomic characterization of self-incompatibility ribonucleases in the Central Asian pear germplasm and introgression of new alleles from other species of the genus Pyrus

The Pyrus species exhibit the so-called S-RNase-based gametophytic self-incompatibility system, which is considered to be the most widespread self-incompatibility system among flowering plants. In this study, 57 Iranian pear (Pyrus communis L.) domestic cultivars and wild genotypes, plus 21 European pear cultivars used as references, were genotyped adopting a PCR-based genotyping assay using consensus and allele-specific primers. The results revealed traces of significant genetic contribution in the Iranian traditional varieties and genotypes from other Pyrus species; the genetic contribution of Japanese pear clearly emerged with the detection of some Pyrus pyrifolia S-RNase alleles. Moreover, our results highlighted the presence of three new S-RNase alleles (named S₁₂₆, S₁₂₇, and S₁₂₈) that were not previously identified in P. communis, possibly introduced in the germplasm of cultivated pear through gene transfer from other cultivated or wild species.     

基于叶绿体DNA变异的湖北梨属种质系统进化及遗传多样性分析

利用trnL intron、trnL-trnF、trnS-psbC和accD-psa I等4个叶绿体DNA片段对来自湖北省的88份梨属种质资源进行系统进化和遗传多样性分析。结果表明,4个cpDNA片段共检测到变异位点11个,其中单一突变位点6个,插入/缺失(Indel)位点5个。acc D-psa I多态性最高,其变异位点数、核苷酸多态性和单倍型多样性均为最高。供试梨种质的核苷酸多样性和单倍型多样性分别为0.00112和0.769;Tajima's D检验值在P0.10水平上均不显著,表明所检测的4个区域以及合并后的片段均遵循中性进化模型;4个序列合并共检测到叶绿体单倍型10个,其中兴山梨种质中检测到的单倍型最多,荆门其次;Hap2和Hap5是2个主要单倍型,分别占总样本数的31.82%和30.68%;中介邻接网络图显示东方梨和西洋梨独立进化,而较为原始的稀有单倍型Hap8和Hap9均位于荆门,暗示该地区可能为砂梨的起源中心或多样性中心之一。     

Self-incompatibility alleles in Polish wild pear (Pyrus pyraster (L.) Burgsd.): a preliminary analysis

Wild pear (Pyrus pyraster, syn.P. communis var.pyraster) is thought to be one of the species that gave rise to all other members of the genusPyrus, although intraspecific hybridizations with cultivated varieties could cause the disappearance of original species characteristics. S-RNase alleles from 7 different wild pear individuals, collected from various regions of Poland, were cloned on the basis of the PCR method and nucleotide sequence analyses. The hypervariable (HV) region is responsible for allele-specific S-RNase activity in the self-incompatibility mechanism. The high level of polymorphism of its sequences may constitute a source of valuable phylogenetic information. From all individuals, 14 sequences were obtained successfully, and 9 of them were novel alleles. Phylogenetic analysis of these alleles was based on the amino acid sequence interpretation of coding regions and intron nucleotide sequences. The research conducted on a limited pool of availableP. pyraster alleles gives only an initial insight into possible S-RNase allele polymorphisms in wild populations. At this stage, the results do not confirm a strong influence of cultivated pear species on the wild pear.     

Ultrastructural changes in the cell walls of ripening apple and pear fruit

Ultrastructural changes in the cell walls of “Calville de San Sauveur” apples (Malus sylvestris Mill) and “Spadona” pear (Pyrus communis L.) fruit were followed during ripening. In apple, structural alterations in cell walls became apparent at advanced stages of softening and showed predominantly dissolution of the middle lamella. In pears softening was also associated with the dissolution of the middle lamella, and in addition a gradual disintegration of fibrillar material throughout the cell wall. In fully ripe fruit almost all of the fibrillar arrangement in the cell wall was lost. Application of enzyme solutions containing polygalacturonase and cellulase to tissue discs from firm pear fruit led to ultrastructural changes observed in naturally ripening pears. In apple polygalacturonase alone was sufficient to dissolve the middle lamella region of the cell walls, as was also found to occur in naturally ripening fruit. In both apple and pear the cell wall areas containing plasmodesmata maintained their structural integrity throughout the ripening process. At advanced stages of ripening vesicles appeared in the vicinity of plasmodesmata.     

麦双尾蚜在中国的适生区预测

根据麦双尾蚜Diuraphis noxia (Mordvilko) 在中国新疆的分布地点,对CLIMEX软件中适宜温度上限、限制性高温、有效积温、冷逆境开始积累点、热逆境开始积累点、冷逆境积累速率、热逆境积累速率和湿逆境积累速率等参数值进行修改调试,调整后的CLIMEX生态气候模型,对新疆麦双尾蚜分布的模拟准确率达到90%。由此模型进行预测,云南、新疆、黑龙江、青海、西藏、吉林、辽宁、甘肃、宁夏、内蒙古、山西和山东等12个省(区)存在麦双尾蚜的适生区。以麦双尾蚜在新疆发生程度和小麦分布区的关系,对CLIMEX的预测结果进行修正,据此推测山东不适合麦双尾蚜生存,东北、西北和西南春麦区麦双尾蚜生存适宜程度比CLIMEX模型预测值降低1/2～3/4。     

苹果蠹蛾不育昆虫释放技术研究进展

不育昆虫释放技术(sterile insect technique,SIT)是一种环境友好、可作为大面积害虫综合治理(AW-IPM)的防治技术,是以压倒性比例释放不育昆虫来减少田间同种害虫繁殖量的害虫治理方法。苹果蠹蛾Cydia pomonella(L.)是世界重要的梨果类害虫,现已入侵世界5洲71国。本文综述了苹果蠹蛾大规模饲养技术、辐射不育技术、释放技术3个关键环节的研究与技术进展,主要包括:苹果蠹蛾人工饲料、实验种群建立、饲养设备与条件、收集和质量评估、长距离运输、辐射源与设备、辐射剂量与敏感性、释放方法、释放标记和释放量等,并介绍了各国采用SIT技术的应用效果。苹果蠹蛾在我国新疆、甘肃、宁夏、内蒙、黑龙江、吉林6个省区发现,对我国苹果产业安全生产构成严重威胁,我国很有必要引进并建立苹果蠹蛾SIT防治技术体系。