Reexamination of series relationships of South American wild potatoes (Solanaceae: Solanum sect. Petota): evidence from chloroplast DNA restriction site variation

Chloroplast DNA (cpDNA) restriction enzyme site analysis was used to test hypotheses of series and superseries affiliations of 76 taxa, representing 11 of the 13 South American series (material unavailable for two series) of wild potatoes (Solanum sect. Petota) recognized in the latest classification by Hawkes. The cladistic results, combined with those from earlier cpDNA studies of 30 taxa of the Mexican and Central American species (representing eight series; ser. Conicibaccata and ser. Tuberosa have representatives in Mexico and in South America), support four main clades for 17 of the 19 series examined in sect. Petota: (1) the Mexican and Central American diploid species, exclusive of S. bulbocastanum, S. cardiophyllum, and S. verrucosum, (2) S. bulbocastanum and S. cardiophyllum (ser. Bulbocastana, ser. Pinnatisecta), (3) South American diploid species constituting all of ser. Piurana, but also members of ser. Conicibaccata, ser. Megistacroloba, ser. Tuberosa, and ser. Yungasensia, (4) all Mexican and Central American polyploid species (ser. Longipedicellata, ser. Demissa), S. verrucosum (diploid Mexican species in ser. Tuberosa), and South American diploid and polyploid members of ser. Acaulia, ser. Circaeifolia, ser. Commersoniana, ser. Conicibaccata, ser. Cuneoalata, ser. Lignicaulia, ser. Maglia, ser. Megistacroloba, ser. Tuberosa, and ser. Yungasensia. Each of these clades contains morphologically and reproductively very diverse species, and there are no evident morphological features that unite members within a clade to therefore distinguish them. These results strongly suggest a need for a reevaluation of the series and superseries classifications of sect. Petota.     

Collapse of species boundaries in the wild potatoSolanum brevicaule complex (Solanaceae, S. sect.Petota): Molecular data

TheSolanum brevicaule complex is a group of morphologically very similar wild and cultivated potato taxa (Solanum sect.Petota). This study uses single to low-copy nuclear RFLPs and RAPDs to investigate their species boundaries and relationships. Cladistic analyses of both data sets are largely concordant with each other and with a recently published phenetic analyses of the same accessions using morphology. All three data sets separate members of the complex into populations from Peru and immediately adjacent northwestern Bolivia, including most cultivated species accessions, and populations from northwestern Bolivia to Argentina. The molecular results suggest that the complex is paraphyletic as currently circumscribed. Many species of theS. brevicaule complex should be relegated to synonymy.     

Geographical and environmental range expansion through polyploidy in wild potatoes (Solanum section Petota)

Aim  To assess evidence for geographical and environmental range expansion through polyploidy in wild potatoes ( Solanum sect. Petota ). There are diploids, triploids, tetraploids, pentaploids and hexaploids in this group.
Location  Wild potatoes occur from the south-western USA (Utah and Colorado), throughout the tropical highlands of Mexico, Central America and the Andes, to Argentina, Chile and Uruguay.
Methods  We compiled 5447 reports of ploidy determination, covering 185 of the 187 species, of which 702 determinations are presented here for the first time. We assessed the frequency of cytotypes within species, and analysed the geographical and climatic distribution of ploidy levels.
Results  Thirty-six per cent of the species are entirely or partly polyploid. Multiple cytotypes exist in 21 species, mostly as diploid and triploid, but many more may await discovery. We report the first chromosome count (2 n = 24) for Solanum hintonii . Diploids occupy a larger area than polyploids, but diploid and tetraploid species have similar range sizes, and the two species with by far the largest range sizes are tetraploids. The fraction of the plants that are polyploids is much higher from Mexico to Ecuador than farther south. Compared with diploids, triploids tend to occur in warmer and drier areas, whereas higher-level polyploids tend to occur in relatively cold areas. Diploids are absent from Costa Rica to southern Colombia, the wettest part of the group's range.
Main conclusions  These results suggest that polyploidy played an important role in this group's environmental differentiation and range expansion.     

RFLP analysis of the wild potato species,Solanum acaule Bitter (Solanum sect. Petota)

Summary Intraspecific variation of a wild potato species, Solanum acaule Bitt., was analyzed by RFLPs of genomic DNA. One hundred and five accessions were selected throughout the distribution area, including all subspecies, i.e., ssp. albicans (hexaploid), ssp. punae (tetraploid), ssp. acaule (tetraploid) and ssp. aemulans (tetraploid). Twenty-seven low-copy DNA clones (probes) were Southern hybridized with EcoRI, EcoRV, HindIII, and XbaI digests of total DNA of all accessions. In total, 238 RFLPs were detected from 94 enzyme x probe combinations. Among them, 49 RFLPs were specific to ssp. albicans, suggesting that the additional third genome is distinct from its two other genomes. RFLPs between and within subspecies were analyzed by principal component analysis. DNA similarities between subspecies coincided with a former taxonomic treatment in the sense that ssp. albicans is the most distantly related to ssp. acaule and ssp. aemulans is distantly related. Subspecies acaule and ssp. punae were indistinguishable. In addition, RFLPs could be used to distinguish groups within subspecies. Subspecies aemulans, confined to Argentina, was divided into two populations, one from the province of La Rioja and the other from the province of Jujuy. In ssp. acaule, some accessions from the southernmost distribution area were clearly distinguishable, while the others varied continuously, showing a geographical cline from Peru to Argentina.Reference to a specific brand or firm name does not constitute endorsement by the US Department of Agriculture over others of similar nature not mentioned     

Karyotype studies in South American species of Solanum subgen. Leptostemonum (Solanaceae)

Mitotic chromosome numbers and karyotypes of 13 South American species (12 native and one naturalized) from four sections of SOLANUM subgen. LEPTOSTEMONUM were studied. Chromosome numbers of S. ACERIFOLIUM, S. AENICTUM, S. CONDITUM, S. CONSIMILE, S. INCARCERATUM, and S. PLATENSE are reported for the first time. The number 2n = 24 was found in most species, while 2n = 22 was found in S. MAMMOSUM and S. PLATENSE. The latter is the second SOLANUM with this unusual number. Satellites are always present and were visible in more than 50 % of the cells studied. Karyotypes are symmetrical: M and SM chromosomes are common, whereas ST chromosomes are rare. The karyotypes of S. AENICTUM, S. MAMMOSUM, and S. PANICULATUM are comparatively asymmetrical. Species can be distinguished by a combination of chromosome number, karyotype formulae, karyotype length, the position of satellites in a particular chromosome pair, and asymmetry indices. The phenogram obtained does not reflect the sectional arrangements or the systematic affinities of the species studied. In sect. ACANTHOPHORA, increased asymmetry is associated with derived characters (strong andromonoecy, winged seeds, mammiform fruits). Diversification in the subgenus is suggested to be related to visible chromosome rearrangements and cumulative, cryptic structural changes may have also played a relevant evolutionary role.     

A reexamination of infraspecific taxa of a wild potato,Solanum microdontum (Solanum sect.Petota:Solanaceae)

Current taxonomic interpretations ofSolanum microdontum Bitter partition the species into two or three infraspecific taxa, variously recognized as subspecies or varieties. The present study reexamines these taxa using morphological data from four individuals each of 69 accessions from most of the range of the species, planted in a common field plot. Our results show that the character states used to recognize infraspecific taxa inS. microdontum often vary within accessions and have no correlation with geography. We conclude that past hypotheses have used typological concepts and that infraspecific taxa are not warranted. This study questions other hypotheses of infraspecific taxa in sect.Petota.     

Taxonomy of North and Central American diploid wild potato (Solanum sect. Petota) species: AFLP data

Solanum section Petota, the potato and its wild relatives, includes about 200 wild species distributed from the southwestern United States to central Argentina and adjacent Chile, with about 30 species in North and Central America. The North/Central American region and the South American region all include diploids, tetraploids, and hexaploids. Chloroplast DNA restriction enzyme data from a prior study showed that 13 of the North/Central American species formed a clade containing only diploids, but there was low resolution within the clade. This Amplified Fragment Length Polymorphism (AFLP) study is conducted to provide additional resolution within the North/Central American diploids and complements the chloroplast results, and prior morphological results. Wagner parsimony and phenetic analyses mostly agreed with the morphological data in supporting currently recognized species except that they suggest that S. brachistotrichium and S. stenophyllidium are conspecific. Our new AFLP data, in combination with the cpDNA and morphological data, also support sister taxon relationships for the following diploid species from North and Central America: 1) S. cardiophyllum subsp. ehrenbergii and S. stenophyllidium, 2) S. tarnii and S. trifidum, 3) S. jamesii and S. pinnatisectum, 4) S. lesteri and S. polyadenium, and 5) S. clarum and S. morelliforme.This work represents partial fulfillment for the requirements of a Ph.D. degree in Plant Breeding and Genetics at the University of Wisconsin-Madison. We thank committee members Paul Berry, Michael Havey, Thomas Osborn, and Kenneth Sytsma. We also thank John Bamberg and Staff of the Unites States Potato Genebank for germplasm and locality data; Charles Nicolet and staff of the University of Wisconsin Biotechnology Center for technical help; Lynn Hummel and staff at Walnut Street Greenhouse for help in growing plants; and lab partners Brian Karas, Iris Peralta, Celeste Raker, and Sarah Stephenson for technical advice. This study was supported by CONACYT (Mexico) scholarship number 116742 granted to Sabina I. Lara-Cabrera, and the United States Department of Agriculture. Names are necessary to report data. However, the USDA neither guarantees nor warrants the standard of the product, and the use of the name by the USDA implies no approval of the product to the exclusion of others that may also be suitable.     

Molecular evolution of 5S rDNA of Solanum species (sect. Petota): application for molecular phylogeny and breeding

Nucleotide sequences of 5S rRNA genes (5S rDNA) of 26 wild species of the genus Solanum (sect. Petota) originating from Middle or South America, four Solanum tuberosum breeding lines and one European species, Solanum dulcamara (sect. Dulcamara) were compared with each other and with the 5S rDNA of Lycopersicon esculentum. The length of the repeat ranges from 285 bp to 349 bp. The complete 5S repeat unit consists of the 120-bp long conserved coding region and of a intergenic spacer with a high variability in the central portion as result of deletions/duplications of short motifs demonstrating sequence similarity to box C in the 5S rRNA coding region. Numerous structural rearrangements found in the spacer region can be applied to design species-specific molecular markers for Solanum species involved in breeding programs. Characteristic insertions/deletions (indels) were used to reconstruct phylogenetic relationships among the species studied. S. dulcamara forms a separate clade; L. esculentum is more related to Solanum species of sect. Petota. Conservation of ancestral 5S spacer organization was demonstrated for the representatives of several series of sect. Petota, both Stellata and Rotata. Further rearrangements of the spacer organization occurred in at least four independent lineages: (1) L. esculentum, (2) ser. Polyadenia, (3) other Stellata species from Middle America (ser. Pinnatisecta and Bulbocastana), (4) superser. Rotata. In this last group, series Megistacroloba and Conocibaccata show a common origin, and separation from ser. Tuberosa. Solanum chacoense and Solanum maglia demonstrate a close relatedness to species of ser. Tuberosa and should be included into this group, whereas Solanum bukasovii should be excluded due to conservation of ancestral spacer organization. Three major subgroups may be distinguished for species from ser. Tuberosa, although a high sequence similarity was found here. Several wild species (diploids Solanum phureja and Solanum spegazzinii) probably participated in the natural origin of tetraploid S. tuberosum;others were later used for crossing in breeding programs (e.g. Solanum demissum). Clear separation of Middle-American Stellata species from South-American Stellata and from Middle-American Rotata polyploids is shown. Received: 11 January 2001 / Accepted: 18 April 2001     

A morphological study of the Petunia integrifolia complex (Solanaceae)

BACKGROUND AND AIMS: Petunia inflata has been treated taxonomically in various ways: it has been described as an independent species, treated as a synonym of P. integrifolia, and also regarded as a subspecies of P. integrifolia. The present study was designed to resolve the ambiguity involving the P. integrifolia complex (P. integrifolia plus P. inflata). METHODS: Tentative identification (either integrifolia group or inflata group) was carried out in the field based on the observation of live specimens at the restricted type localities. The accuracy of the tentative identification was later tested with principal component and cluster analyses of data obtained by measuring 21 morphological characters on cultivated live specimens sourced from 113 natural populations of the P. integrifolia complex in Argentina, Brazil, Paraguay and Uruguay. KEY RESULTS: There was a clear, statistically significant gap between the morphological measurements of the two groups, ensuring the accuracy of identification carried out in the field except for a probable hybrid swarm. Previously, the condition of the pedicel in the fruiting state was considered an important character distinguishing between these two groups; however, the condition of the pedicel was rather variable in the integrifolia group. The two groups were found to have geographically distinct distributions: the integrifolia group occurred in southern regions, whereas the inflata group occurred in northern regions. CONCLUSIONS: Based on the available evidence, it is suggested that the two groups are allopatric species, P. integrifolia and P. inflata, in agreement with the opinion of Fries (1911).     

A revision of the Solatium sessile species group (section Geminata pro parte: Solanaceae)

KNAPP, S., 1991. A revision of the Solatium sessile species (sectio Geminata pro parte : Solanaceae ). The taxonomy of the Solanum sessile species group (a part of the large and unwieldy section Geminata) is reviewed, based on detailed field and herbarium studies. Members of the group are found from Mexico to Bolivia in a variety of habitats. Ten species are recognized: S. obovalifolium, S. sessile, S. monadelphum, S. turgidum, S. triste, S. chlamydogynum, S. rovirosanum, S. palmillae, S. oppositifolium and conferliseriatum.     

A morphological study of species boundaries of the wild potato Solanum brevicaule complex: replicated field trials in Peru

The Solanum brevicaule complex contains about 20 species of diploids (2n = 2x = 24), tetraploids (2n = 4x = 48) and hexaploids (2n = 6x = 72), distributed from central Peru south to northwestern Argentina. The complex is defined entirely by morphological similarity of its constituent members, which are very similar to each other and to some landraces of the cultivated potato, Solanum tuberosum. Conflicting taxonomic treatments are common among authors. Species boundaries within the complex have been studied with morphological phenetics from germplasm accessions planted in a field plot in the north central US, and with molecular marker data from RAPDs, low-copy nuclear RFLPs, and AFLPs. The present study compares these results with an additional replicated morphological study of the same germplasm accessions in a greenhouse environment in the high Andes of central Peru. The results support extensive reduction of species in the complex.     

Ecogeography of ploidy variation in cultivated potato (Solanum sect. Petota)

? Premise of the study: The taxonomy of cultivated potatoes has been highly controversial, with estimates of species numbers ranging from 3 to 17. Ploidy level has been one of the most important taxonomic characters to recognize cultivated potato species, containing diploid (2n = 2x = 24), triploid (2n = 3x = 36), tetraploid (2n = 4x = 48), and pentaploid (2n = 5x = 60) cultivars. We tested the environmental associations of different ploidy levels in cultivated potato species that traditionally have been recognized as Linnaean taxa to see whether, in combination with prior morphological, molecular, and crossing data, some of the ploidy variants can be recognized as distinct taxa. ? Methods: We summarize 2780 chromosome counts of landrace cultivated potatoes, provide georeferences to 2048 of them, and analyze these data for 20 environmental variables at 10-min resolution using the randomForest algorithm to explore associations with taxa and ploidy variants. ? Key results: Except for the S. tuberosum Chilotanum Group and extreme northern and southern range extensions of the Andigenum Group, it is impossible to find distinct habitats for the ploidy variants of the S. tuberosum Andigenum Group. ? Conclusions: Our distributional and ecological data, in combination with prior results from morphology, microsatellites, and crossing data, provide yet additional data to support a major reclassification of cultivated potato species. A rational, stable, and universally accepted taxonomy of this major crop plant will greatly aid all users of wild and cultivated potatoes from breeders to gene bank managers to ecologists and evolutionary biologists.     

Greatly reduced phylogenetic structure in the cultivated potato clade (Solanum section Petota pro parte)

Premise of the Study

The species boundaries of wild and cultivated potatoes are controversial, with most of the taxonomic problems in the cultivated potato clade. We here provide the first in‐depth phylogenetic study of the cultivated potato clade to explore possible causes of these problems.

Methods

We examined 131 diploid accessions, using 12 nuclear orthologs, producing an aligned data set of 14,072 DNA characters, 2171 of which are parsimony‐informative. We analyzed the data to produce phylogenies and perform concordance analysis and goodness‐of‐fit tests.

Key Results

There is good phylogenetic structure in clades traditionally referred to as clade 1+2 (North and Central American diploid potatoes exclusive of Solanum verrucosum), clade 3, and a newly discovered basal clade, but drastically reduced phylogenetic structure in clade 4, the cultivated potato clade. The results highlight a clade of species in South America not shown before, ‘neocardenasii’, sister to clade 1+2, that possesses key morphological traits typical of diploids in Mexico and Central America. Goodness‐of‐fit tests suggest potential hybridization between some species of the cultivated potato clade. However, we do not have enough phylogenetic signal with the data at hand to explicitly estimate such hybridization events with species networks methods.

Conclusions

We document the close relationships of many of the species in the cultivated potato clade, provide insight into the cause of their taxonomic problems, and support the recent reduction of species in this clade. The discovery of the neocardenasii clade forces a reevaluation of a hypothesis that section Petota originated in Mexico and Central America.     

旋花茄新鲜果实中的三个甾体皂苷

从茄科食用植物旋花茄(Solanum spirde)的新鲜果实中分离得到3个化合物,其中一个为新成分,经现代波谱学方法鉴定为26-0-β-D-葡萄吡喃糖基-(25R)-呋甾-3β,22ξ,26-三醇-5-烯-3-0-α-L-鼠李吡喃糖基-(1-2)-[3-0-(3-O-乙酰基)-α-L-鼠李吡喃糖基-(1-4)]-β-D-葡萄吡喃糖苷(1).2个已知化合物分别为26-O-β-D-葡萄吡喃糖基-(25R)-呋甾-22ξ-甲氧基-3β,26-二醇-5-烯-3-O-α-L-鼠李吡哺糖基-(1-2)-β-D-葡萄吡喃糖苷(2)和26-O-β-D-葡萄吡喃糖基-(25R)-呋甾-3β,22ξ,26-三醇-5-烯-3-O-α-L-鼠李吡喃糖基-(1-2)-[α-L-鼠李吡喃糖基-(1-4)]-β-D-葡萄吡喃糖苷(protodioscin)(3),均为首次从该植物中分离得到.     

Seed coat structure and development in Solanum L. section Solanum (Solanaceae)

Seed coat structure in Solanum L. section Solanum (Solanaceae). Seed coat structure in Solanum L. section Solanum was examined using SEM. The seed coat patterns observed were fairly uniform throughout the section, and thus of little diagnostic use. Moreover, all species are characterized by their seeds being covered by hairlike structures, which are bands of lignified thickening in the lateral (and basal) walls of the outer epidermal cells of the testa, and which only become obvious when the seeds are wetted. The development of the seed coat and its characteristic thickening was followed from the unfertilized ovule to the mature seed in vouchered material of Solanum nigrum L. since this species is the generic type, using sections of freshly fixed material.     

Differentiation in the status of self-incompatibility among Calibrachoa species (Solanaceae)

 The overall status of self-incompatibility, as assessed by the rate of capsule-set after self-pollination, was investigated in the genus Calibrachoa (Solanaceae). Thirty-two species were surveyed using a total of 655 individuals collected in 102 different native populations in Argentina, Brazil, Mexico, and Uruguay. The rate of capsule-set in 278 voucher specimens collected from the same native habitats was also measured to obtain additional information to assess the degree of self-(in)compatibility. Only one species, Calibrachoa parviflora, was self-compatible (SC, autogamous) and the other 31 species were found to be self-incompatible (SI). A mixed population (SI and SC individuals in the same population) was not found. The differentiation of C. parviflora as an autogamous species is associated with a successful occupation of different (riparian) habitats within a larger range of geographic distribution compared to the rest of the species in the principally SI genus of Calibrachoa. Received: March 21, 2001 / Accepted: December 25, 2001     

New species of Solanum and Capsicum (Solanaceae) from Bolivia, with clarification of nomenclature in some Bolivian Solanum

Nine new species ofSolanum and two ofCapsicum are described from Bolivia. Notes are provided on some other species, including the complex typification ofSolanum aridum.Capsicum caballeroi, C. ceratocalyx, Solanum chalmersii, S. clandestinum, S. comarapanum, S. complectens, S. monanthemon, S. moxosense, S. pedemontanum, S. saturatum, andS. whalenii are described and illustrated, and a new name,S. scuticum, is proposed for the species previously known asS. tabacifolium.     

Correlated evolution of self-incompatibility and clonal reproduction in Solanum (Solanaceae)

It has been suggested that clonality provides reproductive assurance in cross-fertilizing species subject to pollen limitation, relieving one of the main selective pressures favoring the evolution of self-fertilization. According to this hypothesis, cross-fertilizing species subject to pollen limitation should often be clonal. Here, we investigated the association between clonality and a genetic mechanism enforcing outcrossing, self-incompatibility, in Solanum (Solanaceae). We collected self-incompatibility and clonality information on 87 species, and looked for an association between these two traits. To account for the contribution of shared evolutionary history to this association, we incorporated phylogenetic information from chloroplast (NADH dehydrogenase subunit F) sequence data. We found that self-incompatibility is strongly associated with clonal reproduction: all self-incompatible species reproduce clonally, while the absence of clonality is widespread among self-compatible taxa. The observed correlation persists after taking into account shared phylogenetic history, assumptions about the evolutionary history of self-incompatibility, uncertainty associated with phylogeny estimation, and associations with life history (annual/perennial). Our results are consistent with the hypothesis that clonality provides reproductive assurance, and suggest that the consequences of clonal growth in the evolution of plant reproductive strategies may be more significant than previously thought.