about
Asiagomphus reinhardti sp. nov. (Odonata, Gomphidae) from eastern Cambodia and southern LaosMicrogomphus alani (Odonata, Gomphidae) sp. nov. from CambodiaErratum: OLEG E. KOSTERIN (2016) Reconsideration of the genera Merogomphus Martin, 1904, and Anisogomphus Selys, 1857, including erection of a new genus, with a new species and discussion of additional specimens from Cambodia. Zootaxa, 4171: 51–76.Reconsideration of the genera Merogomphus Martin, 1904, and Anisogomphus Selys, 1857, including erection of a new genus, with a new species and discussion of additional specimens from CambodiaA stonefly species extinct in Europe (Taeniopteryx araneoides Klapalek, 1902, Taeniopterygidae, Plecoptera) is thriving in the Irtysh River in West Siberia and North KazakhstanIschnura foylei sp. nov. (Odonata, Coenagrionidae) from the highlands of SumatraProdasineura hoffmanni sp. nov. (Odonata, Platycnemididae, Disparoneurinae) from eastern CambodiaNew species and records of Burmagomphus Williamson, 1907 (Odonata, Gomphidae) from ChinaRisiophlebia guentheri sp. nov. (Odonata, Libellulidae) from southeastern IndochinaNuclear-cytoplasmic conflict in pea (Pisum sativum L.) is associated with nuclear and plastidic candidate genes encoding acetyl-CoA carboxylase subunits.Genetic integrity of four species of Leptidea (Pieridae, Lepidoptera) as sampled in sympatry in West Siberia.Molecular diversity of Wolbachia in Lepidoptera: Prevalent allelic content and high recombination of MLST genes.Tertiary trisomics in the garden pea as a model of B chromosome evolution in plants.Polymorphism in a histone H1 subtype with a short N-terminal domain in three legume species (Fabaceae, Fabaeae).Divergence and population traits in evolution of the genus Pisum L. as reconstructed using genes of two histone H1 subtypes showing different phylogenetic resolution.<i>Coeliccia</i> <i>rolandorum</i> sp. nov. from eastern Cambodia and southern Vietnam, the eastern relative of <i>C. kazukoae</i> Asahina, 1984 (Odonata: Platycnemididae).Genetic analysis of nuclear-cytoplasmic incompatibility in pea associated with cytoplasm of an accession of wild subspecies Pisum sativum subsp. elatius (Bieb.) Schmahl.Phenotypic effect of substitution of allelic variants for a histone H1 subtype specific for growing tissues in the garden pea (Pisum sativum L.).Phylogenetic reconstruction at the species and intraspecies levels in the genus Pisum (L.) (peas) using a histone H1 gene.Phylogeny, phylogeography and genetic diversity of the Pisum genusTaxonomic notes on Indolestes Fraser, 1922 (Lestidae, Zygoptera). 3. Male and clarified type locality of Indolestes anomalus Fraser, 1946Euphaea cyanopogon sp. nov. from the Cardamom ecoregion in Cambodia and Vietnam (Odonata: Euphaeidae).Amendments and updates to F.C. Fraser’s key to Indian Lestes spp. (Odonata: Lestidae) to resolve confusion of L. patricia Fraser, 1924 and L. nigriceps Fraser, 1924, with notes on L. nodalis Selys 1891 and L. garoensis Lahiri, 1987Mortality of pollen grains may result from errors of meiosis: study of pollen tetrads in Typha latifolia LLarge changes in the structure of the major histone H1 subtype result in small effects on quantitative traits in legumesA case of anomalous chloroplast inheritance in crosses of garden pea involving an accession of wild subspeciesTrisomics of garden pea (Pisum sativum L.) readily respond to selection for increased fertilityInheritance and genetic mapping of two nuclear genes involved in nuclear-cytoplasmic incompatibility in peas (Pisum sativum L.).New synonyms and a new subspecies of Macrogomphus Selys, 1858 (Odonata: Gomphidae) from continental south-east AsiaWild peas vary in their cross-compatibility with cultivated pea (Pisum sativum subsp. sativum L.) depending on alleles of a nuclear-cytoplasmic incompatibility locusRediscovery of Lestes nigriceps Fraser, 1924 (Odonata: Lestidae) in eastern CambodiaCryptic divergences in the genus Pisum L. (peas), as revealed by phylogenetic analysis of plastid genomes
P50
Q24231988-FA2C83ED-0CD8-4016-8309-735FA8E39B4EQ24238450-C96346B1-2653-489C-B589-42763D95EEE8Q28939965-70282A19-020E-4ECF-AFEB-A7530DA7BBD6Q28940412-1973DC2A-D12F-49F3-9739-F5FD8DAC340AQ29390946-FB97AFD3-0C88-4DDB-8155-8180F4FA9FD2Q29453478-723F9B50-983C-4F8C-BB88-1947ED1608C1Q29453612-799CB550-9813-49A4-918A-9746974369D6Q29455371-69EE56C5-FAFE-4247-B351-313BCFA9A860Q29458504-CF9269FB-29D8-4F69-A0DD-DEB5A49D70C8Q35581104-709BCE6A-FF04-4999-B2A3-9765196F41B1Q35989177-638A3E80-87CE-455D-8B8F-7A064FD44A4CQ39023958-65D36420-28A2-4381-81AE-57B12C983E3EQ44586680-C63D4BD5-F9C5-4130-B5C8-43F04A862466Q45958787-4EC0A83B-57FB-43D1-A331-71827A6130F0Q46802733-FBAD08EE-942A-4335-B476-71A05BDBF7D8Q47302210-BAC8D904-98E5-4411-8655-BDD83A83202EQ51667062-5E5F58C0-7BD5-490C-B981-AA91B8DECEADQ53606055-777399CD-C810-4E40-8D56-B47942B9D38BQ54308978-5EA2696F-808F-46B0-BC0F-9DD9D9FD2FF5Q56610821-B805BFA5-1E48-4BA3-A20F-FCD6C7D2B4D3Q64024450-3F18FAF8-B1F3-4BF2-9EE4-AFE916328AF7Q64024455-7652685D-E59A-4F7C-967E-02D725496C3CQ69493091-424FCAD2-27BF-40FF-88AC-4D6E44692E33Q78427297-615A5378-EE64-4523-BFD0-442F4585C831Q79298737-4E331014-3B2B-465E-9A21-FDFE8AB1FAB1Q83009939-0199B08F-FC64-45C5-A9BE-437B73A854F3Q83337277-6D9FAFB5-0FC3-4833-BB0B-2F79F0411B2DQ83409039-7135F0D3-75CE-467B-9FD8-60515F3F527CQ86987416-CFF4FFA2-6ECA-47CE-A78B-89612A35DF2BQ87424120-77F0BE4F-40A1-4B06-842D-B22FAFCE6FE2Q91080992-068EBBDB-3BFA-436A-9FE4-CE9B6AD9576BQ91340202-CCC07885-CB83-4DD9-8165-2B2BE248A9F0
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Oleg E. Kosterin
@ast
Oleg E. Kosterin
@en
Oleg E. Kosterin
@es
Oleg E. Kosterin
@nl
Oleg E. Kosterin
@sl
type
label
Oleg E. Kosterin
@ast
Oleg E. Kosterin
@en
Oleg E. Kosterin
@es
Oleg E. Kosterin
@nl
Oleg E. Kosterin
@sl
prefLabel
Oleg E. Kosterin
@ast
Oleg E. Kosterin
@en
Oleg E. Kosterin
@es
Oleg E. Kosterin
@nl
Oleg E. Kosterin
@sl
P106
P1153
6603142281
P21
P31
P496
0000-0001-5955-4057