共查询到20条相似文献,搜索用时 78 毫秒
1.
H. Sanou N. Picard P. N. Lovett M. Dembélé A. Korbo D. Diarisso J. -M. Bouvet 《Genetic Resources and Crop Evolution》2006,53(1):145-161
Forty-one shea tree populations were sampled, spanning the main climatic zones of Vitellaria paradoxa Gaertn. in Mali and 10–35 adult trees were chosen randomly in the agroforestry parklands of each area. A total of 12 morphological
traits, related to tree morphology, fruit size and leaf form were measured. The variance components showed that variation
among populations represented the smaller percentage of the total variation with most of the values varying between 15 and
30%. The repeatability coefficient was generally high for tree within populations with values ranging between 0.23 and 0.78.
Although genetic correlations cannot be accurately estimated, due to difficulties in separation from environmental effects,
the results indicate that there is a very low genetic relation between the three kinds of traits, i.e., between those related
to tree, those related to leaf and those related to fruit. Leaf and fruit size traits were positively and significantly correlated
with rainfall, although tree circumference was negatively correlated with rainfall and the significantly larger shea trees
were noted in the drier areas – an observation thought linked to human management of the parklands. Soil drainage and parkland
density, however, did not explain differences between populations for fruit traits. This study offers preliminary information
for the development of a breeding population for a shea tree improvement programme. The value of repeatability, the low correlation
between sets of traits and the distribution of variation, suggest that selection of many individual trees within a few populations,
would allow capture of large genetic gain especially for fruit traits. 相似文献
2.
G. Ram M. K. Bhan Ashok Ahuja S. R. Meena M. K. Kaul K. K. Gupta R. L. Jolly R. K. Khajuria 《Genetic Resources and Crop Evolution》2007,54(3):649-654
Variability studies were carried out among different accessions of Argyrolobium roseum for 12 metric traits under natural and cultivated conditions. Almost all characters showed higher values in cultivated than
natural population. Leaf breadth recorded highest CV (30.59%). Highest percentage of vitexin and D-pinitol (0.208 and 0.773%
dwb) was observed in RAR-7 and RAR-6, respectively, under cultivated conditions. Phenotypic coefficient was higher than genotypic
coefficient of variation. The association analysis revealed that root yield had positive significant correlation with 100
seed weight (r=0.839) biomass yield (r=0.601), where biomass yield had a positive significant correlation with leaf length, single pod weight. High heritability
(97.4–99.8%) coupled with moderate genetic advance ranged between (49–67%) as a percent of mean was observed for leaf breadth,
pod length, total foliage biomass yield and total root yield/plant. This suggests that direct selection for these traits is
suitable for the improvement of this crop. 相似文献
3.
Below-ground transfer of nitrogen (N) fixed by legume trees to associated non-N2-fixing crops has received little attention in agroforestry, although the importance of below-ground interactions is shown in other ecosystems. We used 15N natural abundance to estimate N transfer from the legume tree Gliricidia sepium (Jacq.) Kunth ex Walp. to C4 grass Dichanthium aristatum (Poir.) C.E. Hubb. in a silvopastoral system, where N was recycled exclusively by below-ground processes and N2 fixation by G. sepium was the sole N input to the system. Finding a suitable reference plant, a grass without contact with tree roots or litter, was problematic because tree roots invaded adjacent grass monocrop plots and soil isotopic signature in soil below distant grass monocrops differed significantly from the agroforestry plots. Thus, we used grass cultivated under greenhouse conditions in pots filled with agroforestry soil as the reference. A model of soil 15N fractionation during N mineralization was developed for testing the reliability of that estimate. Experimental and theoretical results indicated that 9 months after greenhouse transplanting, the percentage of fixed N in the grass decreased from 35% to <1%, due to N export in cut grass and dilution of fixed N with N taken up from the soil. The effect of soil 15N fractionation on the estimate of the reference value was negligible. This indicates that potted grass is a suitable reference N transfer studies using 15N natural abundance. About one third of N in field-grown grass was of atmospheric origin in agroforestry plots and in adjacent D. aristatum grassland invaded by G. sepium roots. The concentration of fixed N was correlated with fine root density of G. sepium but not with soil isotopic signature. This suggests a direct N transfer from trees to grass, e.g. via root exudates or common mycorrhizal networks. 相似文献
4.
Tileye Feyissa Hilde Nybom Igor V. Bartish Margareta Welander 《Genetic Resources and Crop Evolution》2007,54(5):947-958
Genetic diversity within and among 12 populations of the dioecious tropical tree species Hagenia abyssinica (Bruce) J.F. Gmel. in Ethiopia was examined with eight inter simple sequence repeat (ISSR) primers. A total of 104 clearly
scorable bands were generated, among which 84 (81%) were polymorphic. Jaccard similarity coefficient was calculated for pairwise
comparisons among all 120 individuals and ranged from 0.30 to 0.88 while average within-population similarity ranged from
0.53 to 0.66. Within-population variability was estimated as percentage polymorphic loci (ranging from 52% to 87%), Shannon’s
information index (0.30–0.50) and Nei’s genetic diversity (0.21–0.35). The highest variability values were obtained for one
recently planted population and for one wild population growing in an undisturbed primary forest area. Significant overall
differentiation among populations was detected by both Shannon’s information index (0.26) and G
ST (0.25). Relatedness among samples was estimated with a principal coordinate analysis, and relatedness among populations was
estimated with a cluster analysis (UPGMA). A Mantel test indicated a significant association between genetic and geographic
distances, and an autocorrelation analysis showed significant evidence of gene flow over distances up to 30 km. This study
is the first of its kind for H. abyssinica, which has decreased recently in Ethiopia and now must be regarded as an endangered species. Both within-population and between-population
diversity estimates are typical of outcrossing, longlived and late successional species, suggesting that recent anthropogenic
disturbances have not yet had much impact on population genetic parameters. DNA marker data can, however, be used to identify
the most suitable sites for in situ conservation and for collection of material for establishment of genebanks and plant improvement programs. 相似文献
5.
Appropriate 15N-labeling methods are crucial for estimating N2-fixation in trees used in agroforestry systems. A 4-year field experiment was conducted on an Alfisol in Southwestern Nigeria to compare the estimates of N2 fixed in Leucaena leucocephala, using two non-N2-fixing leguminous trees, Senna siamea and S. spectabilis, as reference plants and three different methods of introducing 15N into soil. The atom % 15N uptake pattern (as reflected in the leaves) was identical in both N2- and non-N2-fixing tree species irrespective of the 15N-application method. There was a significant decline in atom % 15N excess in the leaves of L. leucocephala (from 0.266 to 0.039), S. siamea (0.625 to 0.121), and S. spectabilis (from 0.683 to 0.118) from the first sampling 12 months after planting and the second sampling 18 months after sampling. From the second harvest in 1991 until the end of the experiment (fifth) harvest in 1993, however, the atom 15N % excess decline in leaves of the three species was less pronounced and depended on the method of 15N application. In those plants to which the tracer was applied once at planting, the 15N decline was steady between the second and the last prunings. In the split-application treatment, the atom 15N % excess increased slightly at the third pruning and decreased during the subsequent two prunings. The reference tree and the method of 15N application influenced the estimated proportion of N derived from atmospheric N2 by L. leucocephala, calculated as 73 and 64%, corresponding to 119 and 98 kg N ha-1 of N2 fixed per 6 months, when S. spectabilis and S. siamea were used as reference trees, respectively. The approach by which 15N-labeled fertilizer was applied to the soil in three splits gave slightly higher estimates of N derived from the atmosphere but this was of little agronomic significance because total N2 fixed was similar for all methods. 相似文献
6.
Reproductive biology and characterization of <Emphasis Type="Italic">Allanblackia parviflora</Emphasis> A. Chev. in Ghana 总被引:1,自引:0,他引:1
T. Peprah D. A. Ofori D. E. K. A. Siaw S. D. Addo-Danso J. R. Cobbinah A. J. Simons R. Jamnadass 《Genetic Resources and Crop Evolution》2009,56(7):1037-1044
Allanblackia parviflora A. Chev. (Clusiaceae Lindley) is an indigenous tree species which is found in the rain forest regions of Ghana. It is a potential
candidate fruit tree species being introduced in agroforestry systems. Information on genetic diversity, reproductive biology
and fruit yield are not known. Field expeditions to seven populations of Allanblackia parviflora in Ghana were undertaken in 2003–2006 during which fruits were collected from 109 trees for characterization. The species
was found to be dioecious. The colour of flowers varied from whitish to reddish. No ecological differences in number of fruits
per tree, fruit shape and seed health were observed. However, large variations in fruit size and shape were observed among
individual trees sampled. A high heritability (h
2 = 0.822) in fruit size and genetic gain (G = 20.1%) in fruit size for selection of trees with above average fruit size were observed. A positive significant correlation
was observed between fruit size and seed weight (R = 0.54, P < 0.05; Fig. 6). The results suggest that selection and cloning of trees with large fruits could lead to higher yield of seeds for oil production. 相似文献
7.
8.
Naresh Kaushik Sushil Kumar Krishan Kumar R. S. Beniwal N. Kaushik S. Roy 《Genetic Resources and Crop Evolution》2007,54(8):1827-1832
Forty Candidate Plus Trees (CPTs) of Pongamia pinnata were selected based on the morphometric traits to identify suitable seed sources with high oil content and for production
of quality seedlings for mass afforestation in different forestry and agroforestry programmes. Significant genetic variability
and association were recorded among 40 CPTs for pod and seed traits. Maximum 100-seed weight (186.80 g) and pod-weight (403.94 g)
was recorded in CPT-33, while CPT-18 showed maximum oil content (44.07%). In general, phenotypic coefficient of variation
was higher than genotypic coefficient of variation indicating the predominant role of environment. High heritability (broad
sense) and genetic gain observed for pod–seed ratio (99.00%, 87.78%), 100-seed weight (100.00%, 66.99%) and 100-pod weight
(98.00%, 57.38%), respectively indicate additive gene action. Seed weight and pod weight showed positive and significant correlation
with oil content. CPTs 18, 20, 33, 13 and 29 were found to be the best on the basis of oil content and pod–seed characters. 相似文献
9.
Luis V. García Cristina Ramo Cristina Aponte Adela Moreno María T. Domínguez Lorena Gómez-Aparicio Ramón Redondo Teodoro Marañón 《Biological conservation》2011,(2):764-771
Conservation management conflicts frequently arise when an overpopulation of a protected organism has negative effects on other valuable elements in the same ecosystem. We studied the interactions between a colony of protected tree-nesting wading birds and a remnant population of centenarian cork oaks that was part of the formerly dominant forests in the Doñana Biological Reserve (SW Spain). A significant increase in the tree mortality rates has been recorded in areas that are yearly influenced by the bird colony.We analysed a cohort of surviving trees using a gradient of nesting bird influence. Tree-nesting history, bird isotopic signature (δ15N), tree health-related parameters (defoliation, δ13C and leaf surface coverage by faeces) and several soil variables were evaluated. Bird influence was related to increased soil salinity. This increase correlated to increased water-use efficiency for the leaves and to crown defoliation, suggesting that the heavily occupied trees are under higher stress and in poorer health condition than the unoccupied ones. We tested structural equations models (SEM) that were based on hypothesised bird effects on the health of the trees. Soil-mediated effects of the nesting birds best explained the symptoms of the declining health of the trees, whereas the percent of leaves’ surface that was covered by faeces did not improve the fitted SEM model.For the reserve’s managers, a challenging trade-off exists between preserving the relict trees, which have a high genetic diversity and a key ecological role in these savannah-like ecosystems, and maintaining the current nesting area for these protected, but expanding, wading birds. 相似文献
10.
Three slow-growing legume trees used for desert reforestation and urban gardening in the Sonoran Desert of Northwestern Mexico
and the Southwestern USA were evaluated whether their growth can be promoted by inoculation with plant growth-promoting bacteria
(Azospirillum brasilense and Bacillus pumilus), unidentified arbuscular mycorrhizal (AM) fungi (mainly Glomus sp.), and supplementation with common compost under regular screenhouse cultivation common to these trees in nurseries. Mesquite
amargo (Prosopis articulata) and yellow palo verde (Parkinsonia microphylla) had different positive responses to several of the parameters tested while blue palo verde (Parkinsonia florida) did not respond. Survival of all tree species was over 80% and survival of mesquite was almost 100% after 10 months of cultivation.
Inoculation with growth-promoting microorganisms induced significant effects on the leaf gas exchange of these trees, measured
as transpiration and diffusive resistance, when these trees were cultivated without water restrictions. 相似文献
11.
Surface (0–15 cm) and subsurface (30–45 cm) soil samples from under canopy, edge of canopy and away from canopy of isolated Cordia africana Lam. and Croton macrostachyus Del. trees and their leaves were examined to investigate leaf nutrient content, root biomass and the contribution of trees on farms to soil fertility parameters in Badessa area, eastern Ethiopia. Leaves of C. macrostachyus had 20% higher P and 25% lower K contents than those of C. africana. The studied species had comparable leaf N content. Both species produced shallow lateral roots that extended beyond the canopy zone. Typically, higher fine root biomass was observed in the surface soils than the subsurface soils. Both species did not affect soil organic C, pH and cation exchange capacity. Surface and subsurface soils under tree canopies had 22–26 and 12–17% higher N, respectively, than the corresponding soils away from tree canopies. Surface soil available P under tree canopies was 34–50% higher than the corresponding soil away from canopies. Available P content of subsurface soil was improved only under C. africana canopy. The available P of surface soil under C. macrostachyus canopy was more than double that for C. africana. Trees of both species increased underneath surface and subsurface exchangeable K by 18–46% compared with the corresponding controls. In conclusion, C. macrostachyus and C. africana trees on farms keep soil nutrient high via protection against leaching, translocation of nutrients from deeper to the surface layer and accumulation of litter, which create a temporary nutrient pool in the surface soils under their canopies. 相似文献
12.
Rainfall interception losses from an agroforestry system in semi-arid Kenya comprising Grevillea robusta and maize were measured over a period of 33 months. These measurements showed that interception was slightly higher (10.2%) under trees with no maize understorey, than in the intercropped treatment (9.8%), and was directly related to the degree of tree canopy cover. Interception estimates using the reformulated version of the Gash analytical model were 4% lower than measured totals, and were strongly dependent on both canopy cover and on monthly variations in the mean rainfall rate (
, mm h−1). 相似文献
13.
14.
Dominik Seidel Friderike BeyerDietrich Hertel Stefan FleckChristoph Leuschner 《Agricultural and Forest Meteorology》2011,151(10):1305-1311
Many experiments with juvenile trees require the non-destructive monitoring of plant biomass and growth which is most often conducted with allometric relationships between easy to measure morphological traits and plant biomass. In a growth experiment with potted juvenile Fagus sylvatica L. trees, we tested the practicability and accuracy of the portable 3D-laser scanner ZF Imager 5006 using the phase difference method for measuring total above-ground biomass (stems, twigs, leaves), the biomass of axes (stems and twigs), of leaves biomass and the leaf area of 63 experimental trees. The trees were scanned from 20 (or 21) different positions with an angular step width of 0.036° in horizontal and vertical direction and the 3D-point cloud of every tree was translated into a point cloud grid with defined distances between the data points to standardise the spatial resolution of the data. The validation of the laser scan data against traditional biomass harvest data gave good correlations for total above-ground biomass (green and woody plant material combined), leaf biomass and leaf area (obtained by measurements before and after leaf harvest), and the mass of stems and twigs (only woody compartments of the plants) with R2-values between 0.61 and 0.88, all significant with p < 0.001. Biomass estimates using allometric regressions between total plant height or total leaf number and above-ground biomass as alternative non-destructive methods were found to be weaker than laser scanning (R2 0.54-0.67) and required a similar calibration effort. Repeated scanning of the same plant can be used to monitor biomass increase over time. We conclude that 3D-laser scanning is a promising technique for the non-destructive monitoring of biomass and growth in experiments with juvenile trees. 相似文献
15.
S.N. Talhouk R.T. Lubani R. Baalbaki R. Zurayk A. AlKhatib L. Parmaksizian A.A. Jaradat 《Genetic Resources and Crop Evolution》2000,47(1):93-104
In this paper, we report on morphological diversity of Amygdalus L. species native to Lebanon, following a countrywide survey of almond germplasm whereby a total of 149 accessions were collected throughout the country and characterized by thirteen quantitative and four qualitative traits. The results indicated that the genetic diversity of Amygdalus communis L., Amygdalus korshinskyi Hand.-Mazz., and Amygdalus orientalis Duh. in Lebanon is high. Principal component analysis revealed that nut weight, nut volume, nut width, kernel volume and shell strength had highest loading in the first component that accounted for 38.7% and 46.7% of total variation in A. communis and A. orientalis, respectively. In contrast, leaf traits were present in the second component which accounted for 18% and 23.2% of total variation in each species, respectively. No significant correlations were detected between leaf parameters and fruit traits in both species. The results indicated that quantitative leaf characters for all three species were determined by rainfall and not altitude whereby adjacent accessions located in drier areas had smaller leaf sizes than those located in more humid regions. Quantitative fruit characters did not seem to vary accordingly. Qualitative leaf traits in all three species reflected a variability which was independent of rainfall. A. communis populations showed high variability, suggesting that they could be a valuable source in almond improvement programs. 相似文献
16.
R. Alonso Ferro I. Brichette G. Evgenidis Ch. Karamaligkas J. Moreno-González 《Genetic Resources and Crop Evolution》2007,54(2):295-308
An European maize (Zea mays L.) landrace core collection (EMLCC) was formed with samples from several countries. Evaluation of the EMLCC may contribute
to broad the genetic base of maize breeding programs. The objective of this study was to assess the variability of EMLCC under
low nitrogen (N) in relation to high N input. Eighty-five landraces of the EMLCC, grouped in four maturity groups, and three
check hybrids were evaluated for response to low (0 kg ha−1) and high (150 kg ha−1) N in Spain and Greece. Five plant size traits (plant height, ear height, leaf length, leaf width and leaf area index), two
grain traits (1000-kernel weight and grain yield), and two agronomic traits [growing degree units (GDU) and lodging] were
studied. Overall means of plant size and grain traits increased when genotypes were grown at 150-N relative to 0-N input.
The relative increase for grain traits was smaller in landraces than in hybrids. This suggests that landraces had lower grain
yield response to N supply compared to hybrids. Linear regressions of plant size traits on GDU indicated that vegetative development
was primarily associated with flowering lateness. The maturity group was the main source of variation for all traits. Landrace
variability within maturity groups was significant for all traits across environments, despite significant landrace × environment
interactions. Estimates of genetic and genotype × environment variances, and heritabilities at both high and low N inputs
were not significantly different from each other. However estimates were generally larger at high N. Genetic and phenotypic
correlation coefficients between the two N levels were very high for all traits. 相似文献
17.
Richard E. Harrison James J. Luby Glenn R. Furnier James F. Hancock 《Genetic Resources and Crop Evolution》2000,47(6):647-657
Variation for 24 morphological traits measured in a greenhouse environment and 36 randomly amplified polymorphic DNA (RAPD) markers was assessed among 318 wild octoploid strawberry (Fragariaspp.) genotypes from diverse habitats across the northern USA. RAPD marker frequencies and certain leaf and flower morphology traits (petiole color, leaf mass/area ratio, leaflet length and width, flower and receptacle diameter, petal width, flowers/inflorescence) were significantly different between the F. chiloensis-platypetala and F. virginiana-glauca species complexes. The proportion of variation accounted for by provenance effects was lower for the RAPD markers than for most morphological traits, especially in the F. virginiana-glauca species complex. Morphological traits of potential adaptive importance group the collection into provenances within each species-complex, and reflect the significant habitat and geographic differences across the region from which the germplasm was collected. Variation among populations within provenances was low for the molecular and most morphological traits, with a much larger amount of variability among plants within populations. Most of the variation for the presumably more selectively-neutral RAPD data was among plants within populations and populations within provenances rather than among the provenances that were recognized based on morphological traits, especially in the F. virginiana-glauca complex. Patterns of diversity for morphological traits must be considered, along with more selectively-neutral molecular characters such as RAPDs, to formulate effective sampling strategies and to properly estimate the quantity and apportionment of diversity within this germplasm. 相似文献
18.
Samson Gwali Grace Nakabonge John Bosco Lamoris Okullo Gerald Eilu Philip Nyeko Peter Vuzi 《Genetic Resources and Crop Evolution》2012,59(8):1883-1898
Vitellaria paradoxa C. Gaertn. (shea butter tree) is an indigenous African tree species that is widely distributed in the dry areas of northern and eastern Uganda. The species is widely known for its oil which is used in cooking, cosmetics and traditional medicine. Local folk classification recognises the presence of different ethno-varieties on the basis of fruit and nut characters. In the present study, 176 trees representing 44 ethno-varieties from three farming systems of Uganda were assessed to determine the patterns of morphological variation and establish the congruence between morphological variation and folk classification. The results show high variation in pulp weight (CV = 35.9 %), stem diameter (CV = 28.48 %), fruit weight (CV = 27.81 %) and canopy diameter (CV = 26.69 %). There was a strong positive correlation between pulp and fruit weight (r = 0.963, p < 0.001), leaf length and leaf width (r = 0.652, p < 0.001) and between petiole length and leaf length (r = 0.788, p < 0.001). There was no underlying quantitative morphological structuring among the 44 ethno-varieties. Hierarchical cluster analysis using quantitative morphometric data produced three groups without clear aggregation based on ethnographic or geographic separation. However, a combination with qualitative traits as perceived by farmers provided good congruence with folk classification. Quantitative morphological data alone does not resolve any discrete forms of V. paradoxa that are related to folk classification. There is need to utilise biochemical and molecular markers to unravel the underlying variation for use in selection and improvement of shea butter tree ethno-varieties. 相似文献
19.
农林复合系统植物竞争研究进展 总被引:9,自引:1,他引:9
植物竞争是农林复合系统成功和可持续性的主要决定因素.使资源竞争最小化,资源利用最大化,是农林复合系统提高产量和总生产力的核心.本文对农林复合系统中林木一作物间对光、水分和养分的竞争作用、化感作用及与竞争相关的植物特性进行了综述.一般认为,在湿润地区,农林复合系统地上部分对光的竞争可能是系统生产力的主要决定因素;而在温带地区和半干旱热带地区,地下部分对水分的竞争可能限制着系统的生产力.在农林复合系统中,植物对光的竞争能力由叶面积、冠层结构等决定,对土壤水分和养分的竞争能力则取决于植物根系所占据的土壤空间、根系的形态和生理塑性、植物根系在土壤中的时空分布格局等.今后应加强不同区域农林复合系统中不同组分间的竞争作用的比较、竞争过程及生理机理、化感作用、菌根影响植物竞争的作用和机理、地上部分竞争和地下部分竞争的相互作用、全球变化与植物竞争等方面的研究. 相似文献
20.
Yu Li Shuzhi Wu Yongsheng Cao Xianzhen Zhang 《Genetic Resources and Crop Evolution》1996,43(4):377-384
A total of 23 381 foxtail millet landraces of Chinese origin were analysed for seven qualitative traits and four quantitative traits. The Shannon-Weaver diversity index was used to estimate the phenotypic diversity of each characteristic on the basis of administrative provinces and ecogeographical regions. Hierarchical analysis of variance indicated that most of the variation was due to differences among characteristics. Only the diversity indices for leaf color of seedlings, starch composition and 1000-grain weight showed significant differences among regions. In relative terms, a greater genetic divergence was found in some provinces of southern China, where foxtail millet is not a major crop. 相似文献