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1.
Hideo Hamaguchi Naoki Yamamoto Akinori Takeda Takehiro Masumura Tetsushi Azuma 《Soil Science and Plant Nutrition》2020,66(2):299-307
ABSTRACT We compared the protein and oil contents, seed yields, and natural abundance of 15N (σ15N) of seeds from the plants of the cultivar Enrei, which has moderate nodulating ability (Enrei) with those of its two near-isogenic lines (NILs), a super-nodulating genotype of Enrei, i.e., En-b0-1, and a non-nodulating genotype of Enrei, i.e., En1282. Plants of these three genotypes were grown on four types of field plots with different types of urea coated slow-release nitrogen (N) fertilizers (CUSLNFs) which delivered N in different manners during plant growth . The seed yield of the En1282 plants was similar to that of the Enrei plants but much greater than that of the En-b0-1 plants when the plants were grown on the field to which a CUSLNF with a long lifespan was applied. The amounts of protein per seed were positively correlated with those of oil per seed in the case of En1282 plants irrespective of the field N conditions. The seed protein contents were proportional to the seed weight in both En1282 and Enrei plants. Such a relationship was not observed in the En-b0-1 plants, and the protein and oil contents in the seeds of En-b0-1 plants were negatively correlated with each other. These observations suggested that the N supply to maturing seeds was a key to the protein contents in the En1282 and Enrei plants and that the C supply to maturing seeds was a key to the protein contents in the En-b0-1 plants. The comparison of the σ15N values, protein contents, and seed yields of seeds from En1282 plants suggested that the Enrei plants assimilated considerable amounts of N from the soil during the late plant growth. We concluded that high N2 fixation activity depressed the amounts of oil per seed and changed the protein and oil contents in soybean seeds. 相似文献
2.
Organic geochemical parameters for estimation of petrogenic inputs in the coastal area of Kavala City,Greece 总被引:1,自引:0,他引:1
Anna Grigoriadou Jan Schwarzbauer Andreas Georgakopoulos 《Journal of Soils and Sediments》2008,8(4):253-262
Background, aims, and scope Sediments and soils in coastal areas are frequently polluted by anthropogenic contaminants as the result of both riverine
or terrestrial discharge and autochthonic marine emissions. In order to determine petrogenic contamination in the coastal
industrial area of Kavala City in northern Greece, a combination of polycyclic aromatic hydrocarbon (PAH) and organic geochemical
petroleum biomarker analyses has been performed on marine and freshwater sediments as well as soils.
Materials and methods Soils, freshwater, and marine sediments have been treated by standard extraction methods. The dried and desulphurized sample
extracts have been fractionated by column chromatography, followed by addition of surrogate standards. Qualitative and quantitative
data were obtained by gas chromatograph connected with a flame ionization and electron capture detector (GC-FID/ECD) and by
GC linked to a mass spectrometer (GC/MS), whereas identification of compounds was based on EI+-mass spectra and gas chromatographic retention times. Quantitative data were obtained by integration of specific ion chromatograms.
Results The total PAH concentrations measured in the area varied highly, showing different levels from 18 up to 318,000 ng g−1 dry weight (dw). Several PAH ratios, as well as the ratio of pristane (Pr) to phytane (Phyt), have been considered. Out of
39 samples, 22 revealed a specific distribution of hopane fingerprints indicating petrogenic input. Finally, in numerous samples,
the ratio of 17α(H)-22,29,30-trisnorhopane (Tm) and 18α(H)-22,29,30-trisnorhopane (Ts) was calculated, as well as the ratio
of 22S-17α(H),21β(H)-30 homohopane (αβC31-hopane 22S) and 22R-17α(H),21β(H)-30 homohopane (αβC31-hopane 22R).
Discussion Based on the specific PAH ratios, a group of samples was clearly characterized to be contaminated dominantly by combustion-derived
emissions, whereas a second group of samples exhibited mixed influence from petrogenic and pyrogenic PAHs. On the other hand,
the exhibition of specific hopane fingerprints in many samples indicates a direct petrogenic input. Finally, the values of
the ratio of Tm/(Ts + Tm) and of αβC31-hopanes 22S/(22S+22R)-isomer demonstrated an input of highly mature organic matter that has to be clearly attributed to petroleum-derived
contamination, while the ratio of Pr/Phyt showed that most samples exhibited an input of organic matter.
Conclusions The coastal area of Kavala is strongly affected by anthropogenic contaminants. Petrogenic emissions were pointed out firstly
by PAH analyses that separated dominantly pyrogenic contaminated sites from areas affected by both pyrogenic and petrogenic
emissions. However, analyses of organic geochemical biomarkers revealed a much higher sensitivity in identifying petroleum-derived
contaminations and were successfully used to differentiate several petrogenic contaminations in the marine and terrestrial
samples.
Recommendations and perspectives Based on this study, it was recommended to use a complementary approach of source-specific substances to successfully characterize
petrogenic emissions. Generally, a PAH-based source identification of petrogenic versus pyrogenic contaminations should be
combined with petroleum biomarker analysis. PAH and biomarker ratios as well as individual biomarker fingerprints revealed
a more comprehensive view on the quality and quantity of petrogenic emissions in sediments and soils. 相似文献
3.
Hoy-Taek Kim Yutaka Hirata Hyun-Jung Kim Ill-Sup Nou 《Genetic Resources and Crop Evolution》2006,53(7):1375-1383
A PCR (polymerase chain reaction) amplification method using newly designed S-RNase primers was carried out in five Korean-bred
pear cultivars and ten Japanese-bred pear cultivars. A new S-RNase allele, designated as S10, was discovered from ‘Chengsilri’, containing a 1513 bp and two exons (213 bp in total) that coded for a peptide of 71 amino
acids. The S10-RNase allele contained the three conserved cysteine residues peculiar to S-RNase in Japanese pear and one histidine residue
essential for RNase activity. We compared nucleotide sequence similarity of the exon regions of ten pear S-RNase alleles.
The nucleotide sequence of S1 showed a high similarity to S4 (97.4%) and the new S10 shows 77.8% (S5) to 84.4% (S4) similarity with the other pear S-RNase alleles. S10 had a unique restriction endonuclease site for ‘HhaI’, with digests yielding fragments of 1235 and 491 bp. The S-genotype of pear cultivar (‘Chengsilri’) was determined to be
S5S10 by PCR–RFLP (restriction fragment length polymorphism). Cluster analysis of 49 known S-RNase alleles of the Rosaceae separated
into two divergent groups are as follows: group I: pear and apple, group II: almond, sweet cherry and mume. 相似文献
4.
Bangladesh rice genetic resources collected from six distinct regions of the country were examined to obtain the diversity
in glutelin acidic subunit polypeptides. Seed glutelins from 576 Bangladesh rice cultivars representing seven ecotypes were
analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), isoelectric focusing (IEF) electrophoresis
and two-dimensional electrophoresis (2-DE: SDS-PAGE/IEF) analyses. Glutelin acidic subunit was separated into four bands,
α-1, α-2, α-3 and α-4, and the variation in each of bands was detected by SDS-PAGE analysis. A higher molecular size component of α-1(α-1′) was identified in the cultivars tested. In case of α-2, α-2H with high molecular mass, α-2L with low molecular mass and α-2H/L were detected. α-3 band variation showed α-3H, α-3L, and α-3H/L, while for α-4, α-4H, α-4L bands were identified. In IEF analysis, a total of 16 bands with independent pI ranging from pI 6.30 to 7.52 were identified for the glutelin acidic subunit among the cultivars. The maximum and minimum numbers of IEF
bands found were 13 and 9, respectively. The α-2L less cultivars were also lacking in pI 6.80 polypeptide in IEF. Result of 2-DE showed that pI 6.80 polypeptide was the main component of α-2L band. Transplanted Aman ecotype was the most diverse with respect to glutelin variation. Geographical distribution of
glutelin variation in the Transplanted Aman ecotype differed according to the regions. The above results indicate that Bangladesh
rice cultivars possess great genetic diversity in glutelin acidic subunit polypeptides. This study of indigenous rice cultivars
from Bangladesh provides useful information regarding their breeding potential. 相似文献
5.
Kazunori Sakamoto Natsuko Ogiwara Tomomitsu Kaji 《Biology and Fertility of Soils》2013,49(8):1141-1152
Soybean plants autoregulate to suppress excessive nodulation. It has been revealed recently that the autoregulation of various legumes controls both nodulation and arbuscular mycorrhizal (AM) fungal colonization. We investigated the involvement of autoregulation in the interaction between rhizobial nodulation and AM fungal colonization. We used a wild-type soybean cv. Enrei and its hypernodulating mutant Kanto100, defective in the autoregulation. We included four different treatments: an uninoculated control, inoculation with rhizobium Bradyrhizobium japonicum alone, inoculation with AM fungus Gigaspora rosea alone, and dual inoculation with rhizobium and AM fungus. In both Enrei and Kanto100, AM fungal colonization enhanced the weight and N2 fixation of nodules, suggesting that autoregulation of host plant is not involved in the stimulatory effect of AM fungal colonization on rhizobial nodulation. In plants with the AM fungus alone, the AM fungal colonization of Enrei was comparable to that of Kanto100. In plants with dual inoculation, however, this was significantly (P?<?0.05) lower than in Kanto100. To confirm the control of AM fungal colonization by the autoregulation of host plant, a reciprocal grafting experiment was performed between Enrei and Kanto100. In plants with the AM fungus alone, AM fungal colonization was comparable among Enrei (shoot)/Enrei (root), Enrei/Kanto100, Kanto100/Enrei, and Kanto100/Kanto100 grafts. In plants with dual inoculation, however, AM fungal colonization of Enrei/Enrei and Enrei/Kanto100 grafts was significantly (P?<?0.05) lower than that of Kanto100/Enrei and Kanto100/Kanto100. These results indicate that rhizobial nodulation suppresses AM fungal colonization, and the autoregulation of host plant, initiated by nodulation, is involved in this phenomenon. 相似文献
6.
Cengiz Toker 《Genetic Resources and Crop Evolution》2009,56(1):7-12
Two distinct chickpeas of the domestic chickpea, C. arietinum L., exist and are referred to as ‘desi’ or microsperma and ‘kabuli’ or macrosperma. Cicer reticulatum Ladiz. is considered to be the wild progenitor of the domestic chickpea. However, the morphological variation in 18 original
accessions of C. reticulatum is narrower than those of the domestic chickpeas. The aim of the study is to increase the variability in C. reticulatum. In M2 generation, a mutant with white flower color was isolated despite of the fact that the parent has the pink flower. Although
seed coat color of the parent was dark brown, the mutant was cream like ‘kabuli’ chickpea. It is commonly accepted that the
large seeded domestic ‘kabuli’ chickpeas originated from the small seeded ‘desi’ chickpeas, but the induced mutants (white
flower and cream seed coat color) of C. reticulatum may suggest an additional path for the evolution of ‘kabuli’ chickpea. ‘Kabuli’ chickpeas could have originated from spontaneous
mutants of C. reticulatum. In M3 generation, multipinnate leaf, erect growth habit, green seed and double-podded chickpeas were isolated. Among these progenies,
morphologic variability increased and approached domesticated chickpea. Based on historical records and the induced mutants
obtained from this study, the domestic ‘kabuli’ chickpea could have directly emerged from C. reticulatum in ancient Eastern Turkey. 相似文献
7.
Genetic variability, based on prolamines, was studied among 40 populations of Agropyron mongolicum Keng that were collected from the extensive geographic areas of northern China. A high level of genetic diversity was detected
in these A. mongolicum populations. In total, 81 electrophoretic bands were observed following acid polyacrylamide gel electrophoresis (A-PAGE),
among which 20, 16,␣10, and 35 allelic variants were separated into α-, β-, γ-, and ω-fractions of prolamine. Each A. mongolicum population had unique electrophoretic pattern, which exhibited enough genetic diversity for identification and classification
of populations in A. mongolicum. The proportion of diversity among and within geographic regions from which the populations of A. mongolicum originated indicated that 52.1% of the total variation was found within regions, and 47.9% among regions. According to the
dentrogram based on the Nei’ genetic distance matrix, the A. mongolicum populations from different regions were distinctly clarified. At Nei’s distance of 0.75, the populations of A. mongolicum were divided into two groups. The UPGMA phenogram and the principal coordinate analysis (PCA) indicated that the populations
from similar eco-geographical situations were clustered together. 相似文献
8.
作物生长中光照和氮肥施用量的相互关系研究 总被引:15,自引:1,他引:14
应用盆栽试验,在人工气候箱内进行的研究结果表明:光照强度(X1,mol/m2·s)和氮肥施用量(X2,g/pot)均对莴笋生长及生物量产生影响,且二者的变化与莴笋生物量的关系可表示为y=-0.375+0.0230X1+9.421X2+0.0251X1X2-0.131×10-4X21-17.794X22形式; 不同光照强度下氮肥施用量与莴笋生物量的关系均可表示为y=b0+b1X+b2X2形式;不同氮肥施用量下,光照强度与莴笋生物量的关系亦可用二次或三次多项式来表示.根据研究结果,还求得了氮肥施用量(X2)与光照强度(X1)的关系为:X2=0.446-0.477×10-2X1+0.269×10-4X21-0.394×10-7X31.此外,本研究还探讨了光照强度、氮肥施用量与莴笋的氮素营养状况的关系. 相似文献
9.
Wild soybean (Glycine soja), the progenitor of soybeans, has become an important germplasm source for soybean breeding. The Chinese G. soja germplasm collection includes two subcollections, one typical wild soybean (G. soja) and the other ‘big seed type’ (semi-wild soybean, G. gracilis). In order to understand the nature of this big seed type subcollection, a considerable number of 1,185 accessions were investigated
focusing on phenotypes, compositional structure and genetic diversity of this subcollection. The results showed that there
were 617 combined morphotypes formed by six major morphological traits. The morphotype number and diversity gradually decreased
among four sections from small to large 100-seed weight sizes. The big seed subcollection accumulated distinctly high frequencies
for white flower, grey pubescence, seed non-bloom and four seed coat colours (green, yellow, brown and black), differing from
the typical G. soja. Between the two subcollections, only the compositional structures of leaf shapes were almost in agreement. A rare strip-shaped
leaf only appeared in typical G. soja and small-seeded grade (100-seed wt) of the big seed type. Seed non-bloom trait showed that the increased frequencies were
concomitant with the augmenting of 100-seed weight. The data suggested that white flower accumulated rapidly in the big seed
type, followed by seed non-bloom, while the slowest rate of accumulation was grey pubecence, and that the ‘large-seeded type
(2.51–3 g 100-seed wt)’ of typical G. soja and the ‘smallest-seeded type (3.01–3.5 g 100-seed wt)’ of the big seed type could have a closer genetic relationship. The
morphotype number and genetic diversity showed reduced values with increased 100-seed weights. The geographical distribution
of genetic diversity indicated two tendencies: decreased from north to south and also from east to west. Our results suggested
that Northeast China was the first centre of morphological diversity for the big seed type, and the North was the secondary
centre in China. 相似文献
10.
Enzyme activities in a limed agricultural soil 总被引:11,自引:2,他引:9
This study assessed the effect of eight lime application rates, with four field replications, on the activities of 14 enzymes
involved in C, N, P, and S cycling in soils. The enzymes were assayed at their optimal pH values. The soil used was a Kenyon
loam located at the Northeast Research Center in Nashua, Iowa. Lime was applied in 1984 at rates ranging from 0 to 17,920 kg
effective calcium carbonate equivalent (ha–1), and surface samples (0–15 cm) were taken after 7 years. Results showed that organic C and N were not significantly affected
by lime application, whereas the soil pH was increased from 4.9 to 6.9. The activities of the following enzymes were assayed:
α- and β-glucosidases, α- and β-galactosidases, amidase, arylamidase, urease, l-glutaminase, l-asparaginase, l-aspartase, acid and alkaline phosphatases, phosphodiesterase, and arylsulfatase. With the exception of acid phosphatase,
which was significantly (P<0.001) but negatively correlated with soil pH (r=–0.69), the activities of all the other enzymes were significantly (P<0.001)and positively correlated with soil pH, with r values ranging from 0.53 for the activity of α-galactosidase to 0.89 for alkaline phosphatase and phosphodiesterase. The
Δ activity/Δ pH values ranged from 4.4 to 38.5 for the activities of the glycosidases, from 1.0 to 107 for amidohydrolases
and arylamidase, 97 for alkaline phosphatase, 39.4 for phosphodiesterase, and 11.2 for arylsulfatase. This value for acid
phosphatase was –35.0. The results support the view that soil pH is an important indicator of soil health and quality.
Received: 3 May 1999 相似文献
11.
《Soil Science and Plant Nutrition》2013,59(2):252-257
Abstract The roots of soybean (Glycine max [L.] Merr.) establish symbiosis with nodule-inducing rhizobia and arbuscular mycorrhizal (AM) fungi. The existing nodules systemically suppress subsequent nodule formation, a phenomenon known as autoregulation. Grafting experiments revealed that some forms of autoregulation are controlled by the shoot. In the present study, we examined shoot-controlled regulation of AM fungal colonization using a reciprocal grafting technique. Ten-day-old seedlings of wild-type soybean cv. Enrei and its hypernodulating mutant En6500 were cut below the cotyledons and the shoots were grafted to self or reciprocal roots. Grafted seedlings were inoculated with Bradyrhizobium japonicum and Gigaspora rosea and grown in a glasshouse for 60 days. The arbuscule abundance of the En6500 (shoot)/En6500(root) graft was 1.5-fold higher than that of the Enrei/Enrei graft. In grafts between Enrei and En6500, an increased arbuscule abundance was detected only when En6500 was used as the shoot. The arbuscule abundance of Enrei/En6500 when Enrei was used as the shoot was comparable to that of Enrei/Enrei. The intensity of AM fungal colonization was lower in Enrei/En6500 than in the other grafting treatments. From the results obtained, we suggest that soybean shoots systemically control arbuscule formation in both AM symbiosis and nodule formation. 相似文献
12.
Hordeum chilense Roem. et Schult. is wild diploid barley that has been used for the synthesis of the new cereal, tritordeum (× Tritordeum Ascherson et Graebner). This species is distributed in Chile and Argentina where it is possible to find in natural populations.
In this work, the gliadin fraction of the seed storage protein have been used for evaluating the genetic diversity in nine
natural populations of H. chilense. The total diversity (Ht) in the nine populations was 0.879 (ranging from 0.926 for the ω-gliadins to 0.795 for the β-gliadins). Data showed that
the 71.3% of this genetic diversity was between populations, whereas the 28.7% was within populations. This species is considered
as self-pollinating, where gene flow within populations was mainly attributed to seed dispersal because of these materials
appear distributed in cattle zones where the pasturing could be an efficient mechanism of dispersion. 相似文献
13.
SDS PAGE of endosperm proteins and␣RAPD profiles from different accessions of Himalayan buckwheat were studied to determine
their genetic variation and phylogenetic relationships. Comparisons based on Jaccard’s coefficient and UPGMA clustering revealed
interrelationships broadly in conformity with conventional treatments. Cluster analysis of the endosperm protein profiles
of the selected accessions revealed three broad clusters. A moderate level of intraspecific variability was detected in the
endosperm protein profile of different accessions of Fagopyrum esculentum, Moench. Three subgroups were detected in cluster 1. Subgroup 1 included varieties designated as Local, Kamroo local, OC-2
and␣VL-7 which were collected from VPKAS, Almora. Local, Kamroo local and OC-2 showed a similarity coefficient of 1.0 inspite
of their being identified as different accessions. VL-7 emerged out separately from the rest of the three accessions. Accessions
having winged grains and those having striations on the seed coat formed a 2nd and 3rd subgroup, respectively. IC-13145 which
been identified as “F. himalianum”, showed 100%␣similarity in endosperm protein profile with IC-13376 (F. esculentum) and 85–90% similarity which other accessions of F. esculentum. Our results indicate that “F. himalianum” belongs to the esculentum group and should not be regarded as a different species. Cluster 2 included all the accessions of F. tataricum (L.) Gaertn. with Sangla 1, 2, 3, 5, 6, 7 and IC-412863 showing 100% similarity. F. cymosum emerged as a separate group distinct from both esculentum and tataricum. Accessions of F. tataricum and F. cymosum did not show significant intraspecific variation in the SDS PAGE profile of endosperm proteins. Out of the 20 primers used,
3 generated robust, easily interpretable amplified products. While a 1490 bp and a 300 bp RAPD was detected only in F. tataricum, a 1154 bp RAPD was detected in all accessions of F. tataricum except in Shimla B-1. This variety is early maturing and has high seed yields. 相似文献
14.
Toan Duc Pham Tri Minh Bui Gun Werlemark Tuyen Cach Bui Arnulf Merker Anders S. Carlsson 《Genetic Resources and Crop Evolution》2009,56(5):679-690
Sesame (Sesamum indicum L.) is a traditional oil crop cultivated throughout South East Asia. To estimate the genetic diversity of this crop in parts
at the region, 22 sesame accessions collected in Vietnam and Cambodia were analyzed using 10 RAPD markers. The 10 primers
generated 107 amplification products of which 88 were polymorphic fragments (83%). Genetic diversity of all populations was
Ht = 0.34 when estimated by Nei’s genetic diversity and species diversity was H′sp = 0.513 when estimated by Shannon diversity index. Genetic distance ranged from 0.03 to 0.43, with a mean genetic distance
of 0.23. The unweighted pair group method with arithmetic averages (UPGMA) cluster analysis for the 22 accessions divided
the material in four groups. The dendrogram revealed a clear division among the sesame accessions based on their geographical
region. Interestingly, some geographically distant accessions clustered in the same group, which might indicate the human
factor involved in the spreading of sesame varieties. The high level of polymorphism shown suggests that RAPD techniques can
also be useful for the selection of parents in sesame (Sesamum indicum L.) breeding program and for cultivar differentiation. 相似文献
15.
模拟干旱和盐碱胁迫对碱蓬、盐地碱蓬种子萌发的影响 总被引:5,自引:3,他引:2
为研究干旱和盐碱胁迫对碱蓬(Suaeda glauca)、盐地碱蓬(Suaeda salsa)种子萌发的影响,比较碱蓬和盐地碱蓬逆境生理特性的异同,本研究利用PEG6000、NaCl和Na_2CO_3分别模拟干旱、盐和碱胁迫,配制相同渗透势的PEG6000、NaCl、Na_2CO_3处理液,以蒸馏水处理为对照,对碱蓬、盐地碱蓬种子的萌发与胚的生长进行比较研究。结果表明:1)低渗处理(-0.46 MPa)对碱蓬、盐地碱蓬种子的萌发无显著影响;高渗处理(-1.38MPa、-1.84 MPa)抑制碱蓬、盐地碱蓬种子的萌发。2)当溶液渗透势相等时,NaCl处理下碱蓬种子的萌发率显著大于PEG、Na_2CO_3处理;而等渗PEG、NaCl、Na_2CO_3处理对盐地碱蓬种子萌发率的影响无显著差异。3)PEG、NaCl、Na_2CO_3处理组碱蓬、盐地碱蓬种子的最终萌发率与对照无显著差异。4)在幼苗形成阶段,PEG、Na_2CO_3处理对碱蓬、盐地碱蓬胚的抑制作用显著大于等渗NaCl处理。5)碱蓬、盐地碱蓬胚的生长对NaCl、Na_2CO_3胁迫的响应存在差异。-0.92 MPa NaCl处理抑制碱蓬胚的生长,却对盐地碱蓬产生促进作用;-0.46 MPa Na_2CO_3处理对碱蓬胚的抑制作用小于盐地碱蓬。综合分析表明:碱蓬、盐地碱蓬均具有很强的抗盐性。在种子萌发阶段,碱蓬种子的抗旱、抗碱能力低于盐地碱蓬;在幼苗形成阶段,碱蓬胚的抗盐性小于盐地碱蓬,但对轻度碱胁迫的抗性高于盐地碱蓬。 相似文献
16.
Kamal K. Panda Anath B. Das Brahma B. Panda 《Genetic Resources and Crop Evolution》2009,56(5):629-637
Pandanus tectorius Parkinson (
P. fascicularis Lam.) of the family Pandanaceae constitutes one of the major bioresources of Ganjam coast, Orissa; used mainly in small scale
perfume industry for aromatic compound extracted from the male inflorescences. In order to establish genetic diversity, if
any related to perfume yield, samples of P. tectorius representing male populations from seven locations representing populations I–VII along the coastline of Orissa, India, were
analysed for somatic chromosome number, 4C genomic DNA content, randomly amplified polymorphic DNA (RAPD) as well as phytochemicals.
The somatic chromosome number in all the populations I–VII was 2n = 60. The chromosomes were of minute size without showing any remarkable structural variation. Like wise the average 4C DNA
content was 5.09 pg (≅4,912 Mbp) that showed no intra- or inter-population differences. Out of 54 decamer primers tested,
a total of 1,260 amplicons were obtained from 34 primers accounting 43.49% polymorphism. Molecular phylogenetic analysis of
the seven populations revealed two distinct branches, with populations II and III in one and the rest populations in the other
branch of the phylogenetic tree. It was important to note that the unique populations II and III confined to the Ganjam coast
of Orissa having RAPD markers: OPA 09–940 bp, OPA 09–705 bp, OPC 14–1,500 bp, OPC 14–700 bp, OPC 20–1,475 bp, OPC 20–1,350 bp,
OPC 20–920 bp and OPC 20–700 bp, were distinguished form the rest of the populations. The aforesaid populations (II and III)
are well known to produce aroma of high quality and yield, composed of primarily phenyl ethyl methyl ether (66.8–83%) and
terpinen-4-ol (5–12%) along with a number of other phyto-chemical compounds that support the flourishing perfume industry
and livelihood of the local people in the region. The findings underscored the possible role of local eco-geography in contributing
to the micro-evolution of unique high perfume yielding genotypes of P. tectorius that represented populations II and III at Ganjam coast, which were genetically distinct from the rest of the populations
revealed by RAPD analysis. 相似文献
17.
Girisha K. Ganjegunte Leo M. Condron Peter W. Clinton Murray R. Davis Nathalie Mahieu 《Biology and Fertility of Soils》2006,43(2):199-207
Composition and effects of additions of fibric (Oi) and hemic/sapric (Oe + Oa) layer extracts collected from a 20-year-old stand of radiata pine (Pinus
radiata) on soil carbon dioxide (CO2) evolution were investigated in a 94-day aerobic incubation. The 13C nuclear magnetic resonance spectroscopy indicated that Oi layer extract contained greater concentrations of alkyl C while Oe + Oa layer extract was rich in carboxyl C. Extracts from Oi and Oe + Oa layers were added to a forest soil at two different polyphenol concentrations (43 and 85 μg g−1 soil) along with tannic acid (TA) and glucose solutions to evaluate effects on soil CO2 efflux. CO2 evolution was greater in amended soils than control (deionized water) indicating that water-soluble organic carbon (WSOC) was readily available to microbial degradation. However, addition of WSOC extracted from both Oi and Oe + Oa layers containing 85 μg polyphenols g−1 soil severely inhibited microbial activity. Soils amended with extracts containing lower concentrations of polyphenols (43 μg polyphenols g−1 soil), TA solutions, and glucose solutions released 2 to 22 times more CO2-C than added WSOC, indicating a strong positive priming effect. The differences in CO2 evolution rates were attributed to chemical composition of the forest floor extracts. 相似文献
18.
Long-term effects of mineral fertilization on microbial biomass C (MBC), basal respiration (R
B), substrate-induced respiration (R
S), β-glucosidase activity, and the r–K-growth strategy of soil microflora were investigated using a field trial on grassland established in 1969. The experimental
plots were fertilized at three rates of mineral N (0, 80, and 160 kg ha−1 year−1) with 32 kg P ha−1 year−1 and 100 kg K ha−1 year−1. No fertilizer was applied on the control plots (C). The application of a mineral fertilizer led to lower values of the MBC
and R
B, probably as a result of fast mineralization of available substrate after an input of the mineral fertilizer. The application
of mineral N decreased the content of C extracted by 0.5 M K2SO4 (C
ex). A positive correlation was found between pH and the proportion of active microflora (R
S/MBC). The specific growth rate (μ) of soil heterotrophs was higher in the fertilized than in unfertilized soils, suggesting the stimulation of r-strategists, probably as the result of the presence of available P and rhizodepositions. The cessation of fertilization with
320 kg N ha−1 year−1 (NF) in 1989 also stimulated r-strategists compared to C soil, probably as the result of the higher content of available P in the NF soil than in the C
soil. 相似文献
19.
The exchangeable portion of the selectively sorbed 137Cs extractable by a 1 M ammonium acetate solution (α
Ex
) for soils, illite, bentonite, and tripolite was found to increase with the increasing concentration of the competitive cation
M+ (K+ or NH4+) and can be approximated by a logarithmic relationship. For clinoptilolite, the values of α
Ex
did not depend on the concentration of M+. The expression 1 − α
Ex
(C
M=n
)/α
Ex
(C
M
= 16) as a function of the M+ concentration (where α
Ex
(C
M=n
) is the α
Ex
value at the competitive cation concentration equal to 16 mmol/dm3) was proposed to compare the dependence of α
Ex
on the concentration of K+ or NH4+in different sorbents. For soils and illite, these dependences almost coincided, which indicated that the selective sorption
of 137Cs in soils is determined by the presence of illite-group minerals. 相似文献