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1.
Karyotypic Studies on Some Cultivated and Wild Species of Chenopodium (Chenopodiaceae) 总被引:2,自引:0,他引:2
Detailed karyotypic studies have been done in 20 wild and cultivated taxa of Chenopodium, which belong to three ploidy levels 2x, 4x and 6x. C. quinoa (4x) shows minor but consistent differences in the arm ratio of various chromosomes within the complements of different accessions.
The chromosomes can be arranged in 18 pairs that suggest allotetraploid nature. The karyotype of C. berlandieri subsp. nuttalliae (4x) is basically similar to that of C. quinoa. C. bushianum (6x) is distinctly different from the above two species in showing highest ratio between longest and shortest chromosomes.
C. album complex is characterized by consisting of 2x, 4x and 6x cytotypes. Marked karyotypic differentiation is seen even among various
2x accessions. The 4x cytotype has a more asymmetrical karyotype as compared with 2x and 6x cytotypes. The karyotypic differences
are also apparent between two 6x cytotypes studied. C. strictum (6x) and C. giganteum (6x) show close similarity to 6x types of C. album. 相似文献
2.
Shoji Ohta Misuzu Koto Tomoko Osada Akiko Matsuyama Yoshihiko Furuta 《Genetic Resources and Crop Evolution》2002,49(3):305-312
The chromosome numbers of a total of 273 Dasypyrumbreviaristatum plants sampled from 20 Moroccan and one Greek naturalpopulations were examined. 270 plants from all of the populations weretetraploids. Among them, 223 were eu-tetraploids with 28 chromosomes and 47 wereaneuploids with 25, 27 and 29 chromosomes. Besides, three plants were found tobe diploids among 16 plants from a population in the Moyen Atlas Mountains ofMorocco. This is the second report of a diploid cytotype ofD. breviaristatum since the firstcommunication in 1957. Morphologically, the diploids were similar to but smallerthan the tetraploids in plant height, spike length, spikelet number and leafepidermis cell size. However, it was not possible to distinguish between the twocytotypes based on those morphological characteristics alone. A distinctdifference was found between the two cytotypes only in the number of trichomeson the leaf surfaces. The karyotype of the diploid cytotype consisted of a pairof SAT-chromosomes, five pairs of metacentric and a pair of submetacentricchromosomes. Based on the similarity in karyotype and in plant morphologybetween the two cytotypes of D.breviaristatum, we suggest that the diploid cytotype is themost probable candidate for the ancestral form of the tetraploid cytotype. 相似文献
3.
Artemisia dracunculus (wild or Russian tarragon), is a polymorphic, herbaceous perennial with a widespread distribution that spans western North
America, Eastern Europe and most temperate of Asia. This wild relative of the culinary herb French tarragon has recently been
the focus of a number of studies which have investigated its medicinal activity in type 2 diabetes bioassays. The species
is documented as having from diploid to decaploid cytotypes and chemical variation has previously been shown to occur between
cytotypes. To help focus germplasm collecting efforts for ongoing studies on variation of medicinal compounds within the species,
a literature review of the geographical occurrences of cytotypes was conducted. This review revealed a lack of records from
North America. In order to fill in this gap in the cytogeographic distribution, meiotic chromosome counts and flow cytometry
were used to determine the ploidy level of 27 individuals from 16 different populations throughout the western United States.
The results revealed distinct patterns of cytotype distribution. Both diploids and polyploid cytotypes were found in Eurasia,
and the distributional range of each cytotype was found to be increasingly restricted as ploidy increased. For North America,
even with the inclusion of many new records, only diploid populations were documented, with the exception of one hexaploid
record from Arizona which was found in the literature. 相似文献
4.
Aegilops neglecta Req. ex Bertol. is a forage goatgrass that has tetraploid and hexaploid forms. No morphological trait is known to distinguish between the two forms. Accessions of Ae. neglecta representing diverse germplasm were characterized for stomatal frequency and size on the adaxial surface of leaves. Stomatal frequency among tillers within a plant and among leaves on a tiller was measured. Significant variation was found in stomatal frequency between the ploidy levels for basal leaves 2 and 3 and the penultimate and flag leaves. Mean stomatal frequency for basal leaves ranged from 50.24 to 54.80 per mm2 for tetraploid and from 39.24 to 40.50 per mm2 for hexaploid accessions. For upper leaves, it varied from 52.88 to 53.50 per mm2 for tetraploid and from 46.12 to 46.40 per mm2 for hexaploid accessions. The two ploidy forms also exhibited clear differences for stomatal size on the basal and upper leaves of the main tiller. Mean stomatal size for the basal leaves ranged from 41.42 to 46.09 m for tetraploid and from 53.59 to 54.97 m for hexaploid accessions. For upper leaves, stomatal size varied from 47.29 to 53.29 m in tetraploid and from 64.76 to 66.84 m for hexaploid accessions. None of the individual accession ranges overlapped between the ploidy levels. Stomatal frequency and size were highly negatively correlated. Increased ploidy in Ae. neglecta has resulted in fewer but larger stomata per unit leaf area. Stomatal size and/or frequency on the adaxial surface of leaves could be used to distinguish tetraploid from hexaploid cytotypes in Ae. neglecta in fresh material from Turkey collected in the field. 相似文献
5.
Li-Li Xu Wei Li Yu-Ming Wei You-Liang Zheng 《Genetic Resources and Crop Evolution》2009,56(3):377-391
The genetic variations of high-molecular-weight (HMW) glutenin subunits in 1051 accessions of 13 Triticum subspecies were investigated using sodium dodecyl sulfate polyacrylamide-gel electrophoresis. A total of 37 alleles were
detected, resulting in 117 different allele combinations, among which 20, 68 and 29 combinations were observed in diploid,
tetraploid and hexaploid wheats, respectively. Abundance and frequency of allele and combinations in tetraploid wheats were
higher than these in hexaploid wheats. Allele Glu-A1c was the most frequent subunit at Glu-A1 locus in tetraploid and hexaploid wheats. Consequently, the results also suggested that the higher variations occurred at
Glu-B1 locus compared to Glu-A1 and Glu-D1. Therefore, carthlicum wheat possessing the allele 1Ay could be presumed a special evolutional approach distinguished from other tetraploid species.
Furthermore, this provides a convenient approach of induction of the 1Ay to common wheat through direct cross with carthlicum wheat. Alleles Glu-B1c and Glu-B1i generally absent in tetraploid wheats were also found in tetraploid wheats. Our results implied that tetraploid and hexaploid
wheats were distinguished in dendrogram, whereas carthlicum and spelta wheats and however displayed the unique performance. In addition, founder effect, no-randomness of diploidization, mutation
and artificial selection could cause allele distribution of HMW-GS in Triticum. All alleles of HMW-GS in Triticum could be further utilized through hybrid in the quality improvement of common wheat. 相似文献
6.
G. Ladizinsky 《Genetic Resources and Crop Evolution》1995,42(1):49-55
Summary The genomic formula ACD of the hexaploid oat,Avena saliva, AC for the tetraploid speciesA. magna andA. murphyi, and the hypothesis that the A genome was contributed byA. strigosa group and C genome byA. ventricosa—A. eriantha group, have derived from karyotype studies. Cytogenetic evidence, however, does not support any of the known diploid oats
as possible progenitors of the hexaploid oats.A. magna, and to a lesser extent,A. murphyi, are closer to the hexaploids than other tetraploids. Morphologically, these tetraploids resemble thesterilis type, which is apparently the genuine form of the hexaploid oats, with a few important differences. Spikelet morphology of
these three wild oats indicates some features that must also occur in one or more of their diploid progenitors: 1. Ventricose
diaspore containing the entire spikelet, 2. Long and broad callus with blunt tip, 3. Awn insertion at the lower one quarter
of the lemma, 4. Close proximity of lemma tips of the two lower florets.A. magna andA. murphyi have narrow ecological ranges and are restricted to heavy alluvial soils which are now mostly under cultivation. It is likely
that on similar soil type the diploid progenitors would grow as well and a search for them should be attempted there. Morocco
is the most promising area for finding the missing diploids. Not onlyA. magna andA. murphyi grow there, but except one, all other annual oat species as well. 相似文献
7.
Mkabwa L. K. Manoko Ronald G. van den Berg Richard M. C. Feron Gerard M. van der Weerden Celestina Mariani 《Genetic Resources and Crop Evolution》2008,55(3):409-418
Two hexaploid species of Solanum sect. Solanum are present in Africa: Solanum scabrum and S. nigrum. Solanum scabrum is a widely cultivated species and is used as a leafy vegetable, as a source of medicine and as a source of ink dye. In previous
studies a wide range of morphological diversity has been reported in this species and in some studies subspecies have been
proposed. Subspecies are also recognized in S. nigrum. However, it has not been established whether or not the morphological differences are reflected at the genomic level. The
present study applies AFLPs to study the genetic diversity in S. scabrum and its relationship to geographical provenance, morphological differences and the possible existence of subspecies within
S. scabrum and S. nigrum. The data obtained were analyzed with cluster analysis (using UPGMA and NJ). The results indicate that the genetic variation
within S. scabrum was higher within accessions than between accessions. Accessions did not cluster according to their geographical provenance,
indicating that accessions from different geographical areas were not significantly different genetically. The clustering
reflected neither morphological differences nor domestication status (cultivated or wild). The morphological differences exhibited
by S. scabrum could be due to selection by farmers for different plant types. The AFLP derived clustering pattern did not segregate the
subspecies recognized in S. scabrum and S. nigrum into separate subclusters. 相似文献
8.
Dactylis glomerata subsp. izcoi, endemic to Galicia (NW Spain), includes diploid and tetraploid cytotypes. The present paper results from ongoing research on the distribution of Dactylis in Galicia. Tetraploids dominate all kind of habitats, but diploids do occur in restricted areas. After intensive exploration carried out by the Misión Biológica de Galicia, dealing with diploid populations of subspecies izcoi, 13 new diploid localities were recently detected along the ridge called Macizo Galaico Duriense three on the west side of the ridge and the remainder on the east, persisting in ancient habitats in the following communities: Quercetea robori-petrea, Erico-Ulicetalia, Ericion australis and Ulicion nanae. Two diploid populations have been detected for the first time in Coruña Province. However, no diploids were found on the west side (near the coast) of Coruña and Pontevedra Provinces, probably due to Atlantic influence. 相似文献
9.
Resistance to wheat leaf rust in Aegilops tauschii Coss. and inheritance of resistance in hexaploid wheat 总被引:1,自引:0,他引:1
A collection of 164 Aegilops tauschii accessions, obtained from Gatersleben, Germany, was screened for reaction to leaf rust under controlled greenhouse conditions. We have also evaluated a selection of synthetic hexaploid wheats, produced by hybridizing Ae. tauschii with tetraploid durum wheats, as well as the first and second generation of hybrids between some of these resistant synthetic hexaploid wheats and susceptible Triticum aestivum cultivars. Eighteen (11%) accessions of Ae. tauschii were resistant to leaf rust among which 1 was immune, 13 were highly resistant and 4 were moderately resistant. Six of the synthetic hexaploid wheats expressed a high level of leaf rust resistance while four exhibited either a reduced or complete susceptibility compared to their corresponding diploid parent. This suppression of resistance at the hexaploid level suggests the presence of suppressor genes in the A and/or B genomes of the T. turgidum parent. Inheritance of leaf rust resistance from the intercrosses with susceptible bread wheats revealed that resistance was dominant over susceptibility. Leaf rust resistance from the three synthetics (syn 101, syn 701 and syn 901) was effectively transmitted as a single dominant gene and one synthetic (syn 301) possessed two different dominant genes for resistance. 相似文献
10.
Wei-Tao Li Yuan-Ying Peng Yu-Ming Wei Bernard R. Baum You-Liang Zheng 《Genetic Resources and Crop Evolution》2009,56(4):465-480
Consensus chloroplast simple sequence repeat (ccSSR) makers were used to assess the genetic variation and genetic relationships
of 80 accessions from 25 taxa of the genus Avena. Fifteen out of 16 ccSSR markers (93.75%) were polymorphic. A total of 51 alleles were detected at the 16 ccSSR loci. The
number of alleles per locus ranged from 1 to 6, with an average of 3.2 alleles. Among these ccSSR loci, the highest polymorphism
information content (PIC) value was 0.754, while the lowest PIC value was 0. The mean genetic similarity index among the 80 Avena accessions was 0.545, ranging from 0.188 to 1.000. To assess the usefulness of ccSSRs in separating and distinguishing between
haplome (genome) groups, we used ordination by canonical discriminant analysis and classificatory discriminant analysis. Although
discriminant analysis separated the haplome groups unequivocally, it was up to 69% predictive of correctly classifying an
individual plant whose haplome(s) is unknown in the case where it belonged to the A haplome group, 75% where it belonged in
the AC group, and almost 80% where it belonged in the ACD group. The analysis of genetic similarity showed that diploid species
with the A haplome were more diverse than other species, and that the species with the As haplome were more divergent than
other diploid species with the A haplome. Among the species with the C haplome, A. clauda was more diverse than A. eriantha and A. ventricosa. In the cluster analysis, we found that the Avena accessions with the same genomes and/or belonging to the same species had the tendency to cluster together. As for the maternal
donors of polyploid species based on this maternally inherited marker, A. strigosa served as the maternal donor of some Avena polyploidy species such as A. sativa, A. sterilis and A. occidentalis from Morocco. A. fatua is genetically distinct from other hexaploid Avena species, and A. damascena might be the A genome donor of A. fatua. Avena lusitanica served as the maternal parents during the polyploid formation of the AACC tetraploids and some AACCDD hexaploids. These results
suggested that different diploid species were the putative A haplome donors of the tetraploid and hexaploid species. The C
genome species A. eriantha and A. ventricosa are largely differentiated from the Avena species containing the A, or B, or D haplomes, whereas A. clauda from different accessions were found to be scattered within different groups.
Wei-Tao Li and Yuan-Ying Peng have contributed equally to this paper. 相似文献
11.
Paula Macedo Nóbile Marcos Apareado Gimenes José Francisco Montenegro Valls Catalina Romero Lopes 《Genetic Resources and Crop Evolution》2004,51(3):299-307
The genus Arachis is endemic to South America and comprises 80 species, 69 of which have already been described and eleven not yet published. The genus includes the cultivated peanut (A. hypogaea) and several forage species, the most important ones being A. glabrata and A. pintoi. Accessions of section Rhizomatosae, including three tetraploid species 2n = 4x = 40 (A. glabrata, A. pseudovillosa and A. nitida nom. nud.) and one diploid species 2n = 2x = 20 (A. burkartii), were evaluated using RAPD markers to assay genetic variability within and among species. The ten random primers used yielded a total of 113 polymorphic bands. The data were scored as the presence or absence of each band in each sample. A distance matrix and dendrogram were obtained using Link's coefficient and the neighbor-joining method. Most accessions analyzed grouped into two major clusters: the first comprised most accessions of A. glabrata and accessions of A. nitida, and the second cluster comprised accessions of A. burkartii. Arachis pseudovillosa and a few accessions of A. glabrata and A. nitida were placed between these major clusters. The diploid and tetraploid species were grouped quite separately, suggesting that the tetraploids did not originate from the diploid species analyzed. 相似文献
12.
Yunlong Wang Weixiang Wu Ying Ding Wei Liu Anton Perera Yingxu Chen Medha Devare 《Soil biology & biochemistry》2008,40(9):2452
Oxygen availability in landfill cover soil is a major limitation to the growth and activity of methanotrophs as methane oxidation is an aerobic microbial process. Plants tolerant to high concentrations of landfill gas (LFG) may play an important role in improving methane oxidation within landfill cover soil and reducing emission of methane, a greenhouse gas, from it. In this study, the effect of an LFG tolerant plant Chenopodium album L. on methane oxidation activity (MOA) and bacterial community composition in landfill cover soil was investigated. Soil samples from four simulated lysimeters with and without LFG and plant vegetation were taken at 4 stages during the plant's development cycle. Results showed that the total number of culturable bacteria in soil could be significantly increased (P < 0.05) by the growth of C. album. The total number of methanotrophs and MOA in soils with LFG was significantly higher (P < 0.05) than in soils without LFG on sampling days 90, 150 and 210. The total number of methanotrophs and MOA in lysimeters with LFG added increased in the presence of C. album when the plant entered the seed setting stage. Polymerase chain reaction and denaturing gradient gel electrophoresis (PCR-DGGE) gel patterns of 16S rDNA gene fragment and band sequencing analyses showed apparent differences in soil bacterial communities in the presence of LFG and plant vegetation. Members of the genus Methylosarcina were found to be the active and dominant methanotrophs in rhizosphere soil of C. album with LFG, while Methylococcus, Methylocystis, and Methylosinus were the primary methanotroph genera in LFG soil without C. album. Thus, C. album appears to select for specific methanotrophic bacteria in the presence of LFG. Soil MOA and microbial diversity can also be significantly affected by the presence of this plant. 相似文献
13.
Z. A. Pretorius F. J. Kloppers J. E. Snyman G. F. Marais 《Genetic Resources and Crop Evolution》2004,51(6):591-597
Three hundred and fifty three Triticum accessions, several also classified as Aegilops and comprising 13 diploid, tetraploid or hexaploid species, were screened for seedling and adult-plant resistance to Puccinia triticina Eriks. using a mixture of pathotypes UVPrt2, 3, 9 and 13. Seedlings were spray-inoculated with a suspension of freshly collected urediospores in distilled water containing Tween 20® seven days after planting. Infection types (ITs) were scored 10 days post-inoculation (d.p.i.). Fully expanded flag leaves were inoculated and ITs and leaf rust severity were scored 16 d.p.i. One hundred and eighty two of the accessions were resistant to moderately resistant in the adult stage, whereas 126 were resistant or moderately resistant as seedlings to the pathotype mixture. Hypersensitive adult-plant resistance was particularly apparent in lines of T. timopheevii, T. sharonense, T. longissimum, T. searsii and T. turgidum. In T. turgidum, which comprised 272 accessions, approximately 44% of the adult plants were resistant to moderately resistant compared to 28% of the seedlings. The expression of these adult-plant resistances varied between hypersensitive flecking of flag leaves, and small pustules commonly associated with chlorosis and/or necrosis of leaf tissue. Partial resistance, expressed by small pustules without any apparent chlorosis, was observed in species such as T. tauschii, T. turgidum ssp. durum and T. turgidum ssp. pyramidale. 相似文献
14.
Nonnatus S. Bautista Duncan Vaughan A. H. M. Jayasuriya A. S. U. Liyanage Akito Kaga Norihiko Tomooka 《Genetic Resources and Crop Evolution》2006,53(3):631-640
The CC genome of Oryza is found in nine species of Oryza that are distributed on all continents having a tropical climate. Three diploid Oryza species with CC genome are found in Africa and Asia to Papua New Guinea. In southern South Asia these three CC genome diploid
species can be found, O. eichingeri and O. rhizomatis in Sri Lanka and O. officinalis in India. AA genome wild relatives of rice are also found in the same geographic region. Germplasm of both diploid CC and
AA genome Oryza germplasm has recently been collected from Sri Lanka. AFLP analysis was used to compare the genetic diversity of the two
Oryza genomes from a similar geographic region in southern South Asia. In addition, the diploid CC Oryza germplasm was also analyzed by RAPD and SSR methodologies and the combined results were analyzed. The results show that in
southern South Asia the diploid CC genome species have a high level of genetic diversity compared to the diploid AA genome
species. Molecular marker analysis revealed that populations of O. rhizomatis from northern and southeastern Sri Lanka are genetically differentiated. One accession of O. rhizomatis was aligned with O. eichingeri. This accession was collected from the site of O. rhizomatis that is the closest to a population of O. eichingeri. O. eichingeri showed lower genetic diversity than the other two diploid Oryza CC genome species. O. officinalis accessions from Assam, India, and China were genetically less diverged from O. eichingeri and O. rhizomatis than two accessions of O. officinalis from Kerala state, India.
The first two authors contributed equally to this research 相似文献
15.
Jürgen Lutz Sai L. K. Hsam E. Limpert Friedrich J. Zeller 《Genetic Resources and Crop Evolution》1994,41(3):151-158
Summary A collection of 400 Ae. tauschii (syn. Ae. squarrosa) Coss. accessions were screened for powdery mildew resistance based on the response patterns of 13 wheat cultivars/lines possessing major resistance genes to nine differential mildew isolates. 106 accessions showed complete resistance to all isolates, and 174 accessions revealed isolate-specific resistance, among which were 40 accessions exhibiting an identical response pattern as wheat cultivar Ulka/*8Cc which is known to possess resistance gene Pm2. Expression of both complete and isolate-specific resistance from Ae. tauschii was observed in some synthetic hexaploid wheats derived from four mildew susceptible T. durum Desf. parents, each crossed with five to 38 resistant diploid Ae. tauschii accessions. Synthetic amphiploids involving different combinations of T. durum and Ae. tauschii generally showed a decrease in resistance compared with that expressed by the Ae. tauschii parental lines. 相似文献
16.
In a prior study on the haplomes of wheat using the 5S rRNA gene we assigned the long A1 and short A1 unit classes to the A haplome in the diploid T. monococcum. The short A1 unit class is absent in the tetraploids T. turgidum and T. timopheevii and in the hexaploid T. aestivum, although present in the hexaploid T. zhukovskyi. Both T. turgidum and T. aestivum contained a different 5S DNA unit class labeled the short A2.The purpose of this paper was to study the short A2 units in the two diploid species to shed light on the theory that the A haplome donor of T. turgidum and T. aestivum was T. urartu. Fifty eight clones were obtained from 12 accessions, sequenced and analyzed. As expected T. baeoticum, which is often classified as a subspecies of T. monococcum, contained the long A1 and the short A1 5S DNA units. Unexpectedly, T. urartu had the long A1 and the short G1 unit classes instead and other units not found so far in Triticum. These findings support the hypothesis that the donor of the A genome in T. zhukovskyi was T. monococcum, as identified by the short A1 units. However, the short A1 units are absent in T. timopheevii, also a carrier of the A genome. The short G1 units found in T. urartu also identify it as a possible donor of the G genome to T. timopheevii. The short G1 units were also found in T. aestivum in our prior study. The long G1 unit class was not found in T. urartu but reported from T. timopheevii and T. zhukovskyi. The implications of these and related findings on the evolution of wheats are discussed. 相似文献
17.
J. Lage B. Skovmand R. J. Peña S. B. Andersen 《Genetic Resources and Crop Evolution》2006,53(5):955-962
The wild diploid goat grass (Aegilops tauschii Cosson), and the cultivated tetraploid emmer wheat (Triticum turgidum L. subsp. dicoccon (Schrank) Thell.) may be important sources of genetic diversity for improving hexaploid bread wheat (Triticum aestivum L.). Through interspecific hybridization of emmer wheat and Ae. tauschii, followed by chromosome doubling, it is possible to produce homozygous synthetic hexaploid wheat. Fifty-eight such synthetic
hexaploids were evaluated for grain quality parameters: grain weight, length, and plumpness, grain hardness, total protein
content, and protein quality (SDS-Sedimentation volume, SDS-S). Most synthetics showed semi-hard to hard grain texture. Results
showed significant genetic variation among the synthetic hexaploids for protein content, SDS-S values, and grain weight and
plumpness. Quality measurement values of synthetic hexaploids were regressed on corresponding values of the emmer wheat parents.
With this offspring-parent regression, protein content and SDS-S values explained 8.7 and 28.8%, respectively, of the variation
among synthetics, indicating a significant contribution from the emmer wheat parents for these traits. The synthetic hexaploids,
in general, had significantly higher protein content (15.5%, on average) and longer grains than ‘Seri M82’, the bread wheat
control (13.1% protein content). Synthetics with SDS-S values and grain weights higher than those of ‘Seri M82’ were also
identified. Protein content among synthetics showed significantly negative correlations with grain weight and plumpness, but
no correlation with SDS-S values. Despite these negative correlations, 10 superior synthetic hexaploid wheats, derived from
nine different emmer wheat parents and with above average levels of protein content, SDS-S values, and either grain weight
or plumpness, were identified. This study shows that genetic variation for quality in tetraploid emmer wheat can be transferred
to synthetic hexaploid wheats and combined with plump grains and high grain weight, to be used for bread wheat breeding. 相似文献
18.
Hamid Khazaei Shahram-D. Mohammady Maria Zaharieva Philippe Monneveux 《Genetic Resources and Crop Evolution》2009,56(1):105-114
Carbon isotope discrimination (Δ) has been proposed as physiological criterion to select C3 crops for yield and water use efficiency. The relationships between carbon isotope discrimination (Δ), water use efficiency
for grain and biomass production (WUEG and WUEB, respectively) and plant and leaf traits were examined in 20 Iranian wheat genotypes including einkorn wheat (Triticum monococcum L. subsp. monococcum) accessions, durum wheat (T. turgidum L. subsp. durum (Desf.) Husn.) landraces and bread wheat (T. aestivum L. subsp. aestivum) landraces and improved cultivars, grown in pots under well-watered conditions. Carbon isotope discrimination was higher
in diploid than in hexaploid and tetraploid wheats and was negatively associated with grain yield across species as well as
within bread wheat. It was also positively correlated to stomatal frequency. The highest WUEG and grain yield were noted in bread wheat and the lowest in einkorn wheat. Einkorn and bread wheat had higher WUEB and biomass than durum wheat. WUEG and WUEB were significantly negatively associated to Δ across species as well as within bread and durum wheat. The variation for WUEG was mainly driven by the variation for harvest index across species and by the variation for Δ within species. The quantity
of water extracted by the crop, that was closely correlated to root mass, poorly influenced WUEG. Environmental conditions and genetic variation for water use efficiency related traits appear to highly determine the relationships
between WUEG and its different components (water consumed, transpiration efficiency and carbon partitioning). 相似文献
19.
Allozyme polymorphisms were used to assess genetic variation and relationships among ten Cicer species (annuals and perennials) growing in Turkey. Using seven enzyme systems, 12 putative scorable loci were detected and surveyed for polymorphism in an accession collection including wild and cultivated forms. Variation was generally low within accessions and species, but common between species. Cluster analysis based on the pairwise genetic distance coefficients among accessions and species using UPGMA revealed two species clusters; one includes three perennials (C. montbretii, C. isauricum and C. anatolicum) and the other contains six annuals (C. pinnatifidum, C. bijugum, C. judaicum, C. echinospermum, C. reticulatum and C. arietinum) and one perennial species (C.incisum). Grouping obtained in allozyme analysis appears to be consistent with the classification these species into three sections. However, contrary to relationships obtained in previous studies, three perennial species from section Polycicer were relatively distant to the group containing annuals. One perennial species, C. incisum from section Chamaecicer, clustered with annuals showing a close similarity. The grouping of six annual species was consistent with the previous reports of relationships. The relationships deduced between perennials and annuals appear to shed light on the evolution of annual habit from perennial habit. 相似文献
20.
Hedda Siedler A. Obst S. L. K. Hsam F. J. Zeller 《Genetic Resources and Crop Evolution》1994,41(1):27-34
Summary A total of 59 diploid Aegilops tauschii Coss. (syn. Aegilops sguarrosa auct. non L.) and 39 synthetic hexaploid wheat accessions were evaluated for reaction to Pyrenophora tritici-repentis (Died.) Drechs. in a controlled environment, and classified using a disease rating system based on lesion type. 27 Ae. tauschii and 20 synthetic wheats were found to be resistant to tan spot disease. The overall mean disease ratings of Ae. tauschii and the synthetic wheat lines scored on a scale of 1 (resistant) to 5 (susceptible) were 1.80 and 2.38, respectively. Synthetic wheats generally showed a decrease in resistance, although several lines of synthetic wheat expressed a higher resistance than the diploid parents. Five synthetic wheat lines exhibited higher resistance than the standard resistant common wheat cultivar Red Chief. 相似文献