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The genetic structure of amoebae morphospecies – pattern in space and time. / Smirnov, Alexey; Nassonova, Elena; Glotova, Anna; Zlatogursky, Vasily; Kudryavtsev, Alexander; Mezentsev, Elisey; Kamyshatskaya, Oksana; Bondarenko, Natalya; Mijanovich, Olja.

Название сборника. 2015. стр. 202.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике материалов конференциинаучная

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Smirnov, A, Nassonova, E, Glotova, A, Zlatogursky, V, Kudryavtsev, A, Mezentsev, E, Kamyshatskaya, O, Bondarenko, N & Mijanovich, O 2015, The genetic structure of amoebae morphospecies – pattern in space and time. в Название сборника. стр. 202, VII European Congress of Protistology, Sevilla, Испания, 4/09/15. <http://viiecop.com/>

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@inproceedings{920f4c61134a4e2c81327ae3ae789adc,
title = "The genetic structure of amoebae morphospecies – pattern in space and time",
abstract = "The morphospecies concept, routinely applied for amoebae, was almost satisfactory when most of studies were limited to ecological, faunistic and taxonomic purposes. Molecular biological tools, applied in order to increase the resolution of species distinction, show that genetic structure of amoebae morphospecies is rather complex. To challenge the problem we performed wide-scale studies of several widely distributed amoebae species belonging to the genera Vannella, Korotnevella, Flamella and Cochliopodium. Cox I gene and portions of 18S r DNA genes were used as a DNA barcode; amoebae were sampled in many regions around the world and sampling sites were located at the distances from several meters to several thousand kilometers from each other. Results were congruent for all studied species and genes and indicated that: (1) properly defined amoebae morphospecies represents genetically distinct unit (2) an amoeba morphospecies consists of limited set of genetic lineages (phylotypes) forming monophyletic clade i",
keywords = "протистология зоология экология",
author = "Alexey Smirnov and Elena Nassonova and Anna Glotova and Vasily Zlatogursky and Alexander Kudryavtsev and Elisey Mezentsev and Oksana Kamyshatskaya and Natalya Bondarenko and Olja Mijanovich",
year = "2015",
language = "English",
pages = "202",
booktitle = "Название сборника",
note = "VII European Congress of Protistology ; Conference date: 04-09-2015 Through 09-09-2015",
url = "http://eukref.org/event/vii-european-congress-of-protistology/",

}

RIS

TY - GEN

T1 - The genetic structure of amoebae morphospecies – pattern in space and time

AU - Smirnov, Alexey

AU - Nassonova, Elena

AU - Glotova, Anna

AU - Zlatogursky, Vasily

AU - Kudryavtsev, Alexander

AU - Mezentsev, Elisey

AU - Kamyshatskaya, Oksana

AU - Bondarenko, Natalya

AU - Mijanovich, Olja

PY - 2015

Y1 - 2015

N2 - The morphospecies concept, routinely applied for amoebae, was almost satisfactory when most of studies were limited to ecological, faunistic and taxonomic purposes. Molecular biological tools, applied in order to increase the resolution of species distinction, show that genetic structure of amoebae morphospecies is rather complex. To challenge the problem we performed wide-scale studies of several widely distributed amoebae species belonging to the genera Vannella, Korotnevella, Flamella and Cochliopodium. Cox I gene and portions of 18S r DNA genes were used as a DNA barcode; amoebae were sampled in many regions around the world and sampling sites were located at the distances from several meters to several thousand kilometers from each other. Results were congruent for all studied species and genes and indicated that: (1) properly defined amoebae morphospecies represents genetically distinct unit (2) an amoeba morphospecies consists of limited set of genetic lineages (phylotypes) forming monophyletic clade i

AB - The morphospecies concept, routinely applied for amoebae, was almost satisfactory when most of studies were limited to ecological, faunistic and taxonomic purposes. Molecular biological tools, applied in order to increase the resolution of species distinction, show that genetic structure of amoebae morphospecies is rather complex. To challenge the problem we performed wide-scale studies of several widely distributed amoebae species belonging to the genera Vannella, Korotnevella, Flamella and Cochliopodium. Cox I gene and portions of 18S r DNA genes were used as a DNA barcode; amoebae were sampled in many regions around the world and sampling sites were located at the distances from several meters to several thousand kilometers from each other. Results were congruent for all studied species and genes and indicated that: (1) properly defined amoebae morphospecies represents genetically distinct unit (2) an amoeba morphospecies consists of limited set of genetic lineages (phylotypes) forming monophyletic clade i

KW - протистология зоология экология

M3 - Conference contribution

SP - 202

BT - Название сборника

T2 - VII European Congress of Protistology

Y2 - 4 September 2015 through 9 September 2015

ER -

ID: 9282846