@ Ben Avigdor (pseud. de Abraham Lajb Szalkowicz). Auteur du texte
1891
Web Resource
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@ Ben Avigdor (pseud. de Abraham Lajb Szalkowicz). Auteur du texte
1891
Web Resource
Provider: - Institution: - Data provided by Europeana Collections- Avec mode texte- All metadata published by Europeana are available free of restriction under the Creative Commons CC0 1.0 Universal ...Public Domain Dedication. However, Europeana requests that you actively acknowledge and give attribution to all metadata sources including Europeana
This study was conducted to test the effects of internal (genetic) and external factors on allelic diversity at 27 dinucleotide microsatellite (simple sequence repeat SSR) loci in three Israeli ...natural populations of Triticum dicoccoides from Ammiad, Tabigha, and Yehudiyya, north of the Sea of Galilee. The results demonstrated that SSR diversity is correlated with the interaction of ecological and genetic factors. Genetic factors, including genome (A vs. B), chromosome, motif, and locus, affected average repeat number (ARN), variance in repeat number (sigma), and number of alleles (NA) of SSRs, but the significance of some factors varied among populations. Genome effect on SSR variation may result from different motif types, particularly compound (or imperfect) versus perfect motifs, which may be related to different evolutionary histories of genomes A and B. Ecological factors significantly affected SSR variation. Soil-unique and soil-specific alleles were found in two edaphic groups dwelling on terra rossa and basalt soils across macro- and microgeographical scales. The largest contributions of genetic and ecological effects were found for diversity of ARN and NA, respectively. Multiple regression indicated that replication slippage and unequal crossing over could be important mutational mechanisms, but their significance varied among motifs. Edaphic stresses may affect the probability of replication errors and recombination intermediates and thus control diversity level and divergence of SSRs. The results may indicate that SSR diversity is adaptive, channeled by natural selection and influenced by both internal and external factors and their interactions.
Genetic diversity was studied in six subpopulations (a total of 60 individuals) of wild barley, Hordeum spontaneum, the progenitor of cultivated barley, sampled from six stations located along a ...transect of 300 m across the two opposing slopes of ‘Evolution Canyon’, a Mediterranean microsite at Lower Nahal Oren, Mt Carmel. The two opposing slopes are separated by between 100 and 400 m and designated SFS (South‐Facing Slope) and NFS (North‐Facing Slope) with each having three equidistant test stations. The SFS, which receives up to 300% more solar radiation, is drier, ecologically more heterogeneous, fluctuating, and more stressful than the NFS. Analysis of 12 RAPD primers, representing a total of 51 putative loci, revealed a significant inter‐ and intraslope variation in RAPD band polymorphism. A significantly higher proportion of polymorphic RAPD loci was found amongst the subpopulations on the SFS (mean P= 0.909) than on the NFS (mean P= 0.682), on the basis of the presence and absence of 22 strong bands. Polymorphism generally increased upwards from the bottom to the top of the SFS (0.636, 0.773, 0.955) and NFS (0.409, 0.500, 0.545), respectively. Gametic phase disequilibria estimates, D, revealed SFS and NFS unique predominant combinations which sharply differentiated the two slopes and indicated that there is differential interslope selection favouring slope‐specific multilocus combinations of alleles, or blocks of genes over tens to hundreds of meters. This suggests that selection overrides migration. RAPD polymorphism appears to parallel allozyme diversity which is climatically adaptive and driven by natural selection in the same subpopulations at the microsite.
The use of polyaniline emeraldine base films as antireflection coating for near and middle IR optics elements was studied. The optical quality of ZnSe substrates spin-coated with thin PANI EB layers ...were studied using a Linnik interferometer. The spectral properties of PANI coated ZnSe plates were investigated with FTIR spectrometer. It was shown that PANI coating allows a significant decrease of Fresnel losses in the near and middle IR bands (1.0–6.25
μm). The coating allowed continuous transmission of high power density (up to 3
W/mm
2) of IR radiation produced by CO
2 laser. The laser irradiation damage threshold of the PANI EB coating was studied at a wavelength of 1.5
μm. Microhardness of the coated ZnSe is established as satisfactory.
.— Allozymic diversity at 21 loci was analyzed in 470 individuals of three species of mole cricket superspecies, Gryllotalpa gryllotalpa (two new chromosomal species, G. tali and G. marismortui) and ...G. africana in Israel, which are distributed along a southward transect of increasing aridity. Two outstanding findings emerged in G. tali and G. marismortui: (1) genetic polymorphism was high but heterozygosity very low, indicating significant deviations from Hardy‐Weinberg expectations; and (2) significant linkage disequilibria at an unprecedented level for outbreeders and remarkable intersite differences. The results may characterize subterranean gryllotalpids worldwide because a single sample of Neocurtilla hexadactyla from Tefé, Amazonia, shows the same features. Significant variation of heterozygote paucity among loci, combined with the biology of the species, rejects the simple explanation of inbreeding or any other single explanatory model. Likewise, direct selection against heterozygotes or specific multilocus associations can explain, but is not necessary nor likely to explain, the observed results in mole crickets. To explain these results, we developed a multiple‐factor mathematical model combining niche viability selection, niche choice, and positive assortative mating. This model involves a special case of Wahlund effect and inbreeding. Simulations based on this model showed that a combination of these three mechanisms may produce the observed distribution of alleles, via selection on a few loci, to affect the entire genome organization.
The evolutionary forces causing chromosomal speciation and adaptation are still enigmatic. Here we tested the Israel evolutionary model of positive association of diploid chromosome number (2n) and ...genetic diversity with aridity stress in subterranean mole rats, on a 30-times-larger scale in Asia Minor. We analyzed both karyotype and allozyme diversity across Turkey, based on 37 allozymic loci in 20 localities of the Spalax leucodon and 4 localities of the Spalax ehrenbergi superspecies. We found extensive chromosomal speciation in S. leucodon (2n = 38, 40, 50, 54, 60, and 62) and in S. ehrenbergi (2n = 52, 56, and 58), presumably representing from 14 to > 20 additional biological species. Genetic diversity indices were low, but, like the chromosome number (2n), positively correlated with aridity stress, increasing centripetally from the periphery toward geologically young, arid, and climatically unpredictable central Anatolia. Nei's genetic distance D across all populations averaged 0.174 (range 0.002-0.422), supporting, combined with 2n and ecogeography, the biological species status of most tested populations. Chromosome evolution is the basis of speciation and adaptation in Spalax; it provides both postmating reproductive isolation, as well as higher levels of recombination with increased 2n. A mathematical model shows that a Robertsonian fission of a single metacentric considerably increases haplotype diversity. This haplotype diversity may contribute to population adaptation to climatic stress and ecological unpredictability in space and time. The increase in diversity corroborates the nichewidth genetic-variation hypothesis.
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