共查询到20条相似文献,搜索用时 31 毫秒
1.
2.
J. Martínez-Castillo P. Colunga-GarcíaMarín D. Zizumbo-Villarreal 《Genetic Resources and Crop Evolution》2008,55(7):1065-1077
Lima bean (Phaseolus lunatus L.) is an important crop in traditional Mayan agriculture of the Yucatan Peninsula, Mexico, its Mesoamerican center of diversity.
Genetic erosion in this species is currently a threat in this region out of 3 of 21 landraces dominate 71.24% of the cultivated
area, and 12 are rare landraces grown only in 6.29%. Using 90 ISSR loci, we estimated the diversity and genetic relationships
for 21 landraces to analyzing their risk of genetic erosion, and generate data for their in situ conservation. Total genetic diversity was high (h = 0.29), however it was lower than wild gene pool reported (h = 0.69). The abundant landraces had genetic diversity values lower (h = 0.13, I = 0.17) than the common (h = 0.26, I = 0.33) and rare landraces (h = 0.24, I = 0.27). However, the rare landraces are in a higher risk of genetic erosion due to local extinction. The cluster analysis
showed no groups corresponding to morpho-phenological characteristics, geographic origin or traditional classification, which
resulted from high inter-landraces gene flow levels. The molecular data confirmed that the domesticated Lima bean pool of
the Yucatan Peninsula has a high risk of genetic erosion. If current tendencies in landrace cultivation continue, many will
no longer be planted within two to three generations, with a consequent loss of their alleles. Programs urgently need to be
established for in situ conservation of Lima bean landraces in this region. 相似文献
3.
M. W. Farnham E. H. Davis J. T. Morgan J. P. Smith 《Genetic Resources and Crop Evolution》2008,55(6):797-801
A common garden crop grown in the coastal plain region of North and South Carolina (United States) is the non-heading, leafy
green type of Brassica oleracea L. known as collard (B. oleracea L. subsp. oleracea convar. acephala (DC.) Alef. var. viridis L.). Predominantly a fall and winter vegetable in this region, collard is often the only green planting to be found in the
yard or garden of a rural home during these cool seasons. Historically, the traditional collard patch and even commercial
fields were planted with unique varieties perpetuated by individual seed savers, and collectively, the regional diversity
for this crop was probably very significant for well over a century. Genetic erosion of this collard germplasm pool has been
severe in recent decades as commercial hybrids have been adopted by both large-scale producers and home gardeners. Although
a significant number of collard landraces are being perpetuated to this day, existing diversity among landraces still grown
in the region is now in the hands of an aging population of seed savers who maintain germplasm through on-farm preservation.
From 2003 to 2006, we explored the coastal plain region of North and South Carolina in search of collard gardens containing
traditional landraces. Exploration trips were conducted mid-winter to early spring. About 90 samples of collard were obtained
from seed savers during the course of this exploration. Observations of morphological differences of these landraces indicate
that significant diversity exists in this group. Obtained landraces are being deposited into the U.S. plant introduction collection
and will be available for future use. This preserved collection could prove to be an important new source of genes for B. oleracea improvement. 相似文献
4.
Genetic Diversity and Relationships of Wheat Landraces from Oman Investigated with SSR Markers 总被引:4,自引:3,他引:4
P. Zhang S. Dreisigacker A. Buerkert S. Alkhanjari A. E. Melchinger M. L. Warburton 《Genetic Resources and Crop Evolution》2006,53(7):1351-1360
Little is known about genetic diversity and geographic origin of wheat landraces from Oman, an ancient area of wheat cultivation.
The objectives of this study were to investigate the genetic relationships and levels of diversity of six wheat landraces
collected in Oman with a set of 30 evenly distributed SSR markers. The total gene diversity, (HT), conserved in the three durum wheat (Triticum durum desf.) landraces (HT = 0.46) was higher than in the three bread wheat (Triticum aestivum L.) landraces (HT = 0.37), which were similar to Turkish and Mexican bread wheat landraces calculated in previous studies. Genetic variation
partitioning (GST) showed that variation was mainly distributed within rather than among the durum (GST = 0.30) and bread wheat (GST = 0.19) landraces. Based on modified Rogers’ distance (MRD), the durum and bread wheat landraces were distinct from each
other except for a few individuals according to principal coordinate analysis (PCoA). One bread wheat landrace (Greda) was
separated into two distinct sub-populations. A joint cluster analysis with other landraces of worldwide origin revealed that
Omani bread wheat landraces were different from other landraces. However, two landraces from Pakistan were grouped somewhat
closer to Omani landraces indicating a possible, previously unknown relationship. Implications of these results for future
wheat landrace collection, evaluation and conservation are discussed. 相似文献
5.
6.
Rice is the principal crop of northeastern region of India, where a considerable range of diversity exists. The germplasm
collection has also unfold the occurrence of large number of rice landraces in the region. Between 1985 and 2002, a total
2639 accessions of rice germplasms including their wild relatives have been collected. Most of these germplasm material have
been conserved in the National Gene Bank, New Delhi following their necessary characterization and evaluation. With the establishment
of the Regional Gene Bank Module with medium-term storage facilities (6–7°C with 40–45% relative humidity) at Barapani, Meghalaya,
the rice germplasm conservation (ex situ) have been initiated in the region. 相似文献
7.
Bambara groundnut an indigenous crop of African origin is drought tolerant and the third most important leguminous crop in Ghana and Sub-Saharan Africa. In order to assess the level of genetic diversity within a small collection of Ghanaian landraces, molecular analysis was performed using microsatellite markers alongside characterization of morphological features. Genetic distance based on Jaccard’s similarity coefficient from the SSR marker analysis ranged from 0.48 to 0.9 among the landraces. 80 individual genotypes were clustered into 17 units with substantial levels of inter- and intra-landrace polymorphism. The analyses of variance from the morphological characterization for all quantitative traits were statistically significant (p < 0.05) except for terminal leaflet width. The first 4 principal components accounted for 41.97, 20.15, 13.39 and 9.81 % respectively of the morphological variations among the landraces. Qualitative traits however accounted for less of these variations. The results of the present study support the availability of high level of polymorphism within the collection of bambara groundnut analysed. This report is useful to crop improvement and germplasm conservation of bambara groundnut in Ghana. 相似文献
8.
J. Martínez-Castillo L. Camacho-Pérez J. Coello-Coello R. Andueza-Noh 《Genetic Resources and Crop Evolution》2012,59(2):191-204
Genetic erosion has been evaluated at the landrace level in the past, principally because the loss of landraces is believed
to generate erosion at the allelic level; however, few studies had tested this hypothesis in the crop’s centers of diversity
and domestication. Using microsatellite markers, we analyzed for genetic erosion in lima bean (Phaseolus lunatus) landraces over time in samples collected in 1979 and in 2007 in northeast Campeche, in the Yucatan peninsula, Mexico, an
important diversity center and part of the putative domestication area for this crop. We found that the lima bean genetic
pool from 1979 had a higher genetic diversity than the one for the 2007 pool (Nei’s diversity, H = 0.18 and 0.05, respectively). Although this result could not to be explained using a bottleneck analysis, a cluster analysis
showed that the alleles present in 1979 were not the same as those found in 2007, indicating an allelic displacement in the
genetic pool of the lima bean landraces in the last 30 years. This displacement could be due to the introduction of improved
varieties or landraces, resulting in a displacement of local varieties or to changes in the Mayan criteria for selection of
germplasm or both. This study showed that the loss of landraces can generate both quantitative and qualitative changes in
the genetic pool of the domesticated species. Such changes are very important to consider when planning ex situ and in situ programs to conserve crop diversity in their domestication areas. 相似文献
9.
C. Grenier P.J. Bramel J.A. Dahlberg A. El-Ahmadi M. Mahmoud G.C. Peterson D.T. Rosenow G. Ejeta 《Genetic Resources and Crop Evolution》2004,51(5):489-500
Sorghum [Sorghum
bicolor (L.) Moench] is a very important crop in the Sudan serving as a primary source of food, beverage, and total livelihood for millions of people in the country. The crop originated in the Northeast quadrant of Africa, and the Sudan is widely recognized as a major center of diversity. Although Sudanese sorghum germplasm has been assembled and stored over the last 50 years, careful analysis of this valuable germplasm has not been made. The objectives of this study were to assess phenotypic diversity and compare pattern of distribution among Sudanese sorghum landraces collected from different geographical regions. Phenotypic diversity among landraces was high, as expressed by the large range of variation for mean quantitative traits and the high (0.81) Shannon-Weaver diversity index. Landraces from Gezira-Gedarif tended to be shorter in stature, earlier in maturity and less sensitive to changes in photoperiod. They also had long, narrow and compact panicles that may result from adaptation to low rainfall and early adoption of mechanized farming practices. In contrast, taller and later maturing plant types characterized sorghums from Equatoria, most of which delayed their flowering in response to increased day-length. These sorghums included many genotypes with small and light kernels. Collections from Kassala showed a higher frequency of landraces with kernels that were more difficult to thresh. Landraces from Blue Nile tended to have greater agronomic eliteness with higher proportion of landraces with white kernels, poorly covered and that were easy to thresh. Sorghums from the Upper Nile tended to have loose panicles with poorly covered kernels that may result from adaptation to high rainfall of the Southern region. Although distinct distributions of types were represented by geographical origin, a high level of within-region diversity was present among all Sudanese sorghums. 相似文献
10.
Maria Montero-Rojas Morthemer Ortiz James S. Beaver Dimuth Siritunga 《Genetic Resources and Crop Evolution》2013,60(8):2241-2252
Lima bean is a species cultivated broadly in the Americas and has been cultivated in the Caribbean for at least 500 years. In order to determine the genetic structure and diversity of Lima bean from the Caribbean, 50 landraces from Haiti, the Dominican Republic and Puerto Rico were collected and analyzed using 24 SSR markers. All landraces in this Caribbean collection were found to be of Middle-American descent. The genetic diversity (HE) was highest in the landraces from Puerto Rico and lowest in Haitian landraces. The observed proportion of heterozygotes (HO) was higher in the Haitian landraces and lowest in Puerto Rican landraces. Unweighted pair-group method with arithmetic averaging analysis showed that the landraces clustered into 3 clusters with all Haitian landraces grouping in one cluster. We also assessed the agro-morphological characteristics of the collection as well as the content of cyanogenic glucoside, linamarin, in leaves and dry seeds. Lima bean, which is a model crop for indirect plant defenses against herbivory, also possess linamarin as a source of direct plant defense. Upon tissue damage, linamarin is converted to toxic hydrogen cyanide. In our collection 44.6 % of the landraces had average seed HCN content ≤200 ppm which is the permitted level for Lima bean seed in the US. Our results also identified the landraces in this collection which have high linamarin levels in the leaves while having low levels in the seeds. Such landraces have the desirable combination of traits and will be the focus of our future plans for agronomic trait improvement though breeding. 相似文献
11.
12.
A.P. Rodiño M. Santalla I. Montero P.A. Casquero A.M. De Ron 《Genetic Resources and Crop Evolution》2001,48(4):409-417
Common bean (Phaseolus vulgarisL.) is a traditional crop in Portugal, where farmers growvarieties selected and maintained by themselves. A collection of 88landraces of common bean was evaluated for 17 quantitative andqualitative traits and the biochemical marker phaseolin to displaythe degree of variation of this germplasm. Agronomic data weresubjected to cluster analysis and several groups were identified,with three groups clustering most of the landraces. Regardingphaseolin variation the C and T banding patterns are the mostfrequent ones, so the origin of the Portuguese beans is thus probablythe Andean region of South America. These results give informationabout the origin, diversity and breeding value of the Portuguesegermplasm, that could be useful to widen the genetic base ofcurrently cultivated bean varieties in Europe. 相似文献
13.
Muluneh Tamiru Heiko C. Becker Brigitte L. Maass 《Genetic Resources and Crop Evolution》2008,55(1):115-131
Yam (Dioscorea spp.) is widely grown in many parts of Ethiopia and plays a vital role in local subsistence. Nevertheless, its diversity
has not been studied in detail. A survey covering 339 farm households and eight districts was conducted in the major yam growing
regions of Southern Ethiopia to investigate the diversity and distribution of yam landraces using structured and semi-structured
questionnaires. A total of 37 named landraces were recorded, with a range from one to six (mean 2.9) on individual farms.
Farmers’ decisions regarding the number and type of landraces maintained was influenced by tolerance of the landraces to drought,
their maturity time and market demand. Most landraces had limited abundance and distribution, and only a few dominant landraces
were widely grown. There was also variation amongst districts with respect to diversity, distribution and abundance of the
landraces found. In the majority of the localities surveyed, farmers reported a decreasing trend in the number of landraces
maintained on individual farms and in the overall yam production. Besides, in those limited areas where yam production is
expanding, farmers are increasingly relying on a few selected landraces that mature early. Findings of this study suggest
that local farmers in Wolayita and Gamo-Gofa zones maintain considerable yam diversity that remains to be further explored
for sustainable utilization and conservation of the available genetic resources. 相似文献
14.
Centres of Crop Diversity and/or Origin, Genetically Modified Crops and Implications for Plant Genetic Resources Conservation 总被引:1,自引:0,他引:1
J. M. M. Engels A. W. Ebert I. Thormann M. C. de Vicente 《Genetic Resources and Crop Evolution》2006,53(8):1675-1688
The concept of centres of crop diversity and/or origin of agriculture is briefly reviewed. The conservation status of crop
genetic resources, either ex situ or in situ, cultivated or wild, has been assessed for species of the Central American and Mexican centre, demonstrating that that region
is indeed one of the important centres of crop diversity for human kind. Furthermore, biotechnological developments with regard
to the creation and spread of genetically modified crops have been analyzed. The likelihood of unintentional introgression
of genetically modified traits into conventional seed lots, crops as well as into germplasm collections have been assessed.
Related biosafety measures as well as the possible implications of intellectual property rights on transgenic crops and/or
genes are being discussed vis-a-vis the possible implications they might have for germplasm management. The Central American
crop genetic resources situation has been used as a “case study” to illustrate the potential impact of the spreading of GM
varieties on the genetic diversity in genebanks and farmers’ fields and the need for effective and efficient conservation
efforts. Conservation management strategies and practices are being proposed of mitigate the potential negative impact of
GM crops on the conservation efforts. 相似文献
15.
Shuichi Fukuoka Tran Danh Suu Kaworu Ebana Luu Ngoc Trinh Tsukasa Nagamine Kazutoshi Okuno 《Genetic Resources and Crop Evolution》2006,53(4):753-761
Phenotypic variation of agronomic characters in aromatic rice (Oryza sativa L.) was analyzed in order to elucidate the genetic diversity of the populations of rice landraces. Thirteen populations in
Namdinh province, in the Red River Delta of Vietnam, were studied in both of farmers fields and an experimental field. Only
small differences were found in agronomic characters among the populations, including populations containing different varieties.
Variations among the populations in the frequency distributions of several characters suggested different degrees of diversity
among the populations even among populations with the same variety name. The phenotypic profiles of farmers fields were different
from those in an experimental field suggesting the environmental differences between them. One variety cultivated in the Myloc
district had different phenotypic characters from the other varieties in the Haihau district more clearly in the experimental
field. Since the small phenotypic variation in each of farm might be due to the genetic drift and selection by the farmers,
on farm conservation of the landraces of rice is considered to be under a force to decrease phenotypic diversity. The present
study suggests that the targeting several farms with different phenotypic profiles contribute to the conservation of regional
genetic diversity of the landraces of rice. 相似文献
16.
Christopher M. Richards Michael F. Antolin Ann Reilley Jackie Poole Christina Walters 《Genetic Resources and Crop Evolution》2007,54(4):837-848
Genebanks complement other conservation programs because they preserve genetic diversity needed for future breeding and restoration.
We evaluated efficiency of capturing genetic diversity, using endangered Zizania texana (Texas wild rice) as a model for plants with recalcitrant seeds. This perennial aquatic grass is restricted to 4 km of the
San Marcos River in Texas. An early conservation collection included plants from stands throughout the river, based on the
assumption stands would be unique genotypes. Using microsatellite markers, we found that genetic diversity was concentrated
in five of 15 large, demographically stable stands; 96 stands smaller than 2 m2 contributed no unique alleles. High heterozygosity and few duplicate genotypes suggested that sexual reproduction occurs
more often than presumed. Simulations of stratified sampling of large stands captured all alleles in only 45 individuals,
while random sampling along the river captured much less diversity. The early conservation collection captured as much diversity
as expected from random sampling. Texas wild rice stands resemble a mainland-island metapopulation; our analyses suggest that
stratified sampling maximizes genetic diversity for this population dynamic. Demographic and genetic information is important
for validating the design of efficient ex situ collections and guiding in situ conservation. 相似文献
17.
Pigeonpea is an important pulse crop grown by smallholder farmers in the semi-arid tropics. Most of the pigeonpea cultivars
grown to date are selections from the landraces, with a narrow genetic base. With the expansion of the crop to newer areas,
problems of local importance are to be addressed. Hence, an economically feasible and faster germplasm evaluation mechanism,
such as a core collection, is required. This article describes the development of core collection from 12,153 pigeonpea accessions
collected from 56 countries and maintained at ICRISAT, Patancheru, India. The germplasm accessions from 56 countries were
placed under 14 clusters based primarily on geographic origin. Data on 14 qualitative morphological traits were used for cluster
formation by Ward’s method. From each cluster ≈10% accessions were randomly selected to constitute a core collection comprising
1290 accessions. Mean comparisons using Newman–Keuls test, variances’ comparisons by Levene’s test, and comparison of frequency
distribution by χ2-test indicated that the core collection was similar to that of the entire collection for various traits and the genetic variability
available in the entire collection is preserved in the core collection. The Shannon–Weaver diversity index for different traits
was also similar for both entire and core collection. All the important phenotypic associations between different traits available
in the entire collection were preserved in the core collection. The core collection constituted in the present study facilitates
identification of useful traits economically and expeditiously for use in pigeonpea improvement. 相似文献
18.
Séverine Bory Michel Grisoni Marie-France Duval Pascale Besse 《Genetic Resources and Crop Evolution》2008,55(4):551-571
The genus Vanilla belongs to the Orchidaceae family and Vanilla planifolia, probably endemic from tropical forests in Eastern Mexico, is the main source for commercial vanilla. There has recently
been an important number of publications covering Vanilla taxonomy, particularly using molecular genetics, but the taxonomy of the genus is still unclear and numerous synonyms remain.
Recent studies showed that inter-specific hybridization and perhaps even polyploidization played an important role in the
evolution of the genus. There has also been an important increase in the knowledge of the genetic diversity and reproductive
biology of V. planifolia in natural conditions, showing that mating system diversity exists in Vanilla and that this genus could be a good model to study the role of fragrance in orchid evolution. Recent studies on the genetic
consequences of V. planifolia domestication are also presented and raise major scientific questions regarding the origin of phenotypic diversity in a vegetatively
propagated crop. Finally, all these studies have demonstrated the urgent need for preservation of the genetic resources of
V. planifolia (primary and secondary gene pools, and cultivated resources) and current conservation efforts are presented. 相似文献
19.
Diversity and distribution of enset landraces (clones) were investigated in 300 randomly selected peasant households at ten different locations in the Sidama region of Ethiopia using presence-or-absence data. A total of 86 named landraces were recorded, making the region an area of remarkably high enset landrace diversity. A substantial fraction of the landraces had a restricted distribution range and low abundance while a number were moderately common with the remaining few being cosmopolitan. Regional distribution was positively correlated with local abundance, such that more widespread landraces were also typically more abundant (r = 0.78, p < .01). Landrace diversity was not evenly distributed throughout the region, the highest diversity being recorded in mountain areas (r = 0.71, p < .05). Farmers exchange planting materials extensively, resulting in a fairly high (up to 70%) coefficient of similarity among sites. Implications for the collection and conservation of enset genetic resources are discussed. 相似文献