51 research outputs found
Chloroplast capture by a new variety, Juniperus sabina var. balkanensis R. P. Adams and A. N. Tashev, from the Balkan peninsula: A putative stabilized relictual hybrid between J. sabina and ancestral J. thurifera
An example of chloroplast capture has been found in Juniperus sabina from Bulgaria and Greece in the Balkan peninsula. The cpDNA from these populations is very uniform and is nearly identical to that of J. thurifera (currently growing in France, Spain and Morocco). The new taxon is recognized as Juniperus sabina var. balkanensis R. P. Adams and A. Tashev. At present, the variety, with the thurifera cpDNA, is known only from Bulgaria and Greece
Chloroplast capture in Juniperus sabina var. balkanensis R. P. Adams and A. N. Tashev, from the Balkan peninsula: A new variety with a history of hybridization with J. thurifera
example of chloroplast capture has been identified in Juniperus sabina from Bulgaria and Greece in the Balkan peninsula. Nuclear DNA and overall morphology clearly indicate a close relationship to Juniperus sabina, whereas the cpDNA from these populations is very uniform and is nearly identical to that of J. thurifera, an unrelated species currently growing in France, Spain and Morocco. The new taxon is recognized as Juniperus sabina var. balkanensis R. P. Adams and A. Tashev. At present, this new variety is known only from locations in Bulgaria and Greece
Chloroplast capture by a new variety, Juniperus sabina var. balkanensis R. P. Adams and A. N. Tashev, from the Balkan peninsula: A putative stabilized relictual hybrid between J. sabina and ancestral J. thurifera
An example of chloroplast capture has been found in Juniperus sabina from Bulgaria and Greece in the Balkan peninsula. The cpDNA from these populations is very uniform and is nearly identical to that of J. thurifera (currently growing in France, Spain and Morocco). The new taxon is recognized as Juniperus sabina var. balkanensis R. P. Adams and A. Tashev. At present, the variety, with the thurifera cpDNA, is known only from Bulgaria and Greece
Juniperus communis in Azerbaijan: analyses of nrDNA and cpDNA regions
Juniperus \u27pygmaea\u27 from Azerbaijan was analyzed by DNA sequence data from nrDNA plus four cp DNA regions (4315 bp) and found in a clade with J. communis \u27oblonga\u27 (= J. communis) Armenia, not with J. c. forma pygmaea of Bulgaria. It seems prudent to not recognize this variant taxonomically but treat it as J. communis
Discovery of Juniperus sabina var. balkanensis R. P. Adams and A. N. Tashev in western Turkey (Anatolia)
Additional analyses of trnS-trnG and nrDNA from herbarium specimens from Europe revealed the presence of J. sabina var. balkanensis in western Turkey near Izmir and expands the range previously known only from Bulgaria and adjacent mountains in Greece. A more detailed map of the taxon\u27s distribution is presented
Gentle Acoustic Crosstalk Cancelation using the Spectral Division Method and Ambiophonics
ABSTRACT We propose the concept of gentle acoustic crosstalk cancelation, which aims at reducing the crosstalk between a loudspeaker and the listener's contralateral ear instead of eliminating it completely as aggressive methods intend to do. The expected benefit is higher robustness and a tendency to collapse less unpleasantly. The proposed method employs a linear loudspeaker array and exhibits two stages: 1) Use the Spectral Division Method to illuminate the ipsilateral ear using constructive interference of the loudspeaker signals. This approach provides only little channel separation between the listener's ears at frequencies below approximately 2000 Hz. 2) There we additionally use destructive interference by Recursive Ambiophonics Crosstalk Elimination (RACE). RACE was chosen because of its tendency to collapse gently. In a sample scenario with realistic parameters, the proposed method achieves around 20 dB of channel separation between 700 Hz and 9000 Hz, which appears to be sufficient to achieve full perceived lateralization when only one ear is illuminated
Geographic variation in nrDNA and four cpDNA regions of Juniperus excelsa: Analysis of new records from Bulgaria, Cyprus and southwestern Turkey
Sequencing of nrDNA, plus four cp DNA regions: petN-psbM, trnS-trnG, trnD-trnT and trnL-trnF of newly acquired samples of J. excelsa from Bulgaria, Cyprus and Turkey showed little variation in J. excelsa (sensu stricto), except for the unusual situation in Lebanon, where J. excelsa and J. polycarpos (and likely J. p. var. turcomanica) grow near each other and may be hybridizing. The genetic composition of the eastern-most populations of J. excelsa in Turkey is unknown and deserves further study
Geographic variation in nrDNA and four cpDNA regions of Juniperus excelsa: Analysis of new records from Bulgaria, Cyprus and southwestern Turkey
Sequencing of nrDNA, plus four cp DNA regions: petN-psbM, trnS-trnG, trnD-trnT and trnL-trnF of newly acquired samples of J. excelsa from Bulgaria, Cyprus and Turkey showed little variation in J. excelsa (sensu stricto), except for the unusual situation in Lebanon, where J. excelsa and J. polycarpos (and likely J. p. var. turcomanica) grow near each other and may be hybridizing. The genetic composition of the eastern-most populations of J. excelsa in Turkey is unknown and deserves further study
Evidence of relictual introgression or incomplete lineage sorting in nrDNA of Juniperus excelsa and J. polycarpos in Asia Minor
DNA analysis of Juniperus excelsa from throughout its range revealed that J. polycarpos, instead of J. excelsa occupies central and eastern Turkey. Based on nrDNA (ITS) data, it appears that relictual hybridization has occurred in southeastern Turkey between J. polycarpos and J. turcomanica. Surprisingly, evidence of incomplete lineage sorting or relictual hybridization between J. polycarpos and J. seravschanica was found in central Turkey and northwest Iran
HRTF Magnitude Synthesis via Sparse Representation of Anthropometric Features
International audienceWe propose a method for the synthesis of the magnitudes of Head-related Transfer Functions (HRTFs) using a sparse representation of anthropometric features.Our approach treats the HRTF synthesis problem as finding a sparse representation of the subject's anthropometric features w.r.t. the anthropometric features in the training set.The fundamental assumption is that the magnitudes of a given HRTF set can be described by the same sparse combination as the anthropometric data.Thus, we learn a sparse vector that represents the subject's anthropometric features as a linear superposition of the anthropometric features of a small subset of subjects from the training data.Then, we apply the same sparse vector directly on the HRTF tensor data.For evaluation purpose we use a new dataset, containing both anthropometric features and HRTFs.We compare the proposed sparse representation based approach with ridge regression and with the data of a manikin (which was designed based on average anthropometric data), and we simulate the best and the worst possible classifiers to select one of the HRTFs from the dataset.For instrumental evaluation we use log-spectral distortion.Experiments show that our sparse representation outperforms all other evaluated techniques, and that the synthesized HRTFs are almost as good as the best possible HRTF classifier
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