~ЮЛОПЧНИИВIСНИК Articles PRELIМINARY SURVEY OF ТНЕ GROUND-DWELLING ARTНROPODS OF ТНЕ FLOOD- PLAIN MEADOWS IN ТНЕ SOUTНEAST OF POLTAVA REGION (UКRAINE) 5 N. Zhuravel, N. Polchaninova, 1. Lezhenina, О. Drovgalenko, А Putchkov ОЦПIКА АДАПТИВНО! ЗДАТНОСТI ТА ЕКОЛОГIЧНОI СТАБIЛЬНОСТI СКОРОСТИГЛИХ ГIБРИДIВ КУКУРУДЗИ (ZEA MAYS L.) В КОНТРАСТНИХ УМОВАХ 18 ВИПРОБУВАННЯ V. Yu. Cherchel, О. L. Gaidash MATERIALS ТО ТНЕ SPIDERFAUNA (ARANEI) OF ТНЕ ВУКОVА SНЕУА SIТE OF ТНЕ "GALICH'YA GORA" NATURE RESERVE (LIPETSK REGION, RUSSIA) 26 N. Yu. Polchaninova

УРОВНИ ПЛОИДНОСТИ И ОТНОСИТЕЛЬНОГО СОДЕРЖАНИЯ ДНК В КУЛЬТУРЕ КЛЕТОК И ТКАНЕЙ РАСТЕНИЙ IN VIТRO 33 М. V. Skaptsov, М. А Krasnoborodkina, М. G. Kutsev, S. V. Smirnov, А 1. Shmakov, А V. Matsyura КОНСПЕКТ РОДА ACTINIOPTERIS LINК (PTERIDACEAE) А V. Vaganov, А 1. Shmakov 39 REDESCRIPТION OF GENUS PSYCHONOCTUA GROTE, 1865 (INSECTA: LEPIDOPTERA, COSSIDAE, ZEUZERINAE) 46 R. V. Yakovlev, F. С. Penco, Т. J. Witt

АГРОЕКОЛОГIЧНЕ ВИПРОБУВАННЯ СОРТIВ ЯРИХ ЗЕРНОВИХ КУЛЬТУР У ПIВНIЧНОМУ СТЕПУ УКРАlни 54 А D. Gyrka, 1. О. Kulyk, О. О. Pedash, О. О. Viniukov, V. А Ischenko ТНЕ CRYPTOCEPHALINAE (COLEOPTERA: CНRYSOМELIDAE) OF ТНЕ MONGOLIAN ALTAI 61 Е. V. Guskova ТНЕ PTEROPHORIDAE F AUNA (LEPIDOPTERA) OF Р А VLODAR REGION Р. Ustjuzhanin, S. Titov, V. Kovtunovich, К. Akhmetov 73

ВПЛИВ РЕГУЛЯТОРУ РОСТУ НА ФЕРМЕНТИ АНТИОКСИДАНТНОГО ЗАХИСТУ ЗА УМОВ ДП АНТРОПОГЕННИХ EMICIЙ 80 О. М. Vasilyuk ФИТОИНДИКАЦИОННОЕ ОЦЕНИВАНИЕ КАТЕНЫ СООБЩЕСТВ ПОЧВЕННОЙ МЕЗОФАУНЫ И ИХ ЭКОМОРФИЧЕСКАЯ ОРГАНИЗАЦИЯ 91 А V. Zhukov, О. N. Kunah, V. А Novikova, D. S. Ganzha ГЕНЕТИЧЕСКИЙ КОНТРОЛЬ УСТОЙЧИВОСТИ К СТЕБЛЕВОЙ РЖАВЧИНЕ У ИНТРОГРЕССИВНЫХ ЛИНИЙ ТВЕРДОЙ ПШЕНИЦЫ, ПРОИЗВОДНЫХ TRIТICUМ 121 ТIМОРНЕЕVП ZНUК. L. Р. Khlebova, N. V. Barysheva

ЕМКОСТЬ СРЕДЫ КАК ПРЕДПОСЫЛКА ДЛЯ УПРАВЛЕНИЯ СОСТОЯНИЕМ ПОПУЛЯЦИЙ 132 А Р. Korzh, 1. А Akimov, Т. V. Zahovalko ВПЛИВ ПРОБIОТИКА НА ПРОДУКТИВНIСТЬ КУРЧАТ-БРОЙЛЕРIВ Yu. М. Podolian 141

ВИВЧЕННЯ ГОСТРОI ТОКСИЧНОСТI ТА АНАЛГЕТИЧНОI АКТИВНОСТI НОВИХ СПIРОЦИКЛIЧНИХ ПОХIДНИХ ПIРАЗОЛIДИН-3,5-ДIОНУ 149 V. М. Holovatiuk, О. А Brazhko, V. 1. Kashkovsky А NEW WEEVIL TRIВE, МEKORНAМPHINI TRIВ. NOV. (COLEOPTERA, IТHYCERIDAE) WIТH TWO NEW GENERA IN BURМESE АМВЕR 157 G. О. Poinar, А Е. Brown, А А Legalov CARPENТER-MOTHS OF TURКМENISTAN (LEPIDOPTERA: COSSIDAE) R. V. Yakovlev, Т. J. Witt 165 ОЦПIКА IСНУЮЧИХ ЗАГРОЗ ВIТРОПАРКIВ ПIВДНЯ УКРАlни ДЛЯ МIГРАЦIЙНОI ОРНИIТОФАУНИ 175 Р. 1. Gorlov, V. D. Siokhin, А V. Matsyura ДОПОЛНЕНИЕ К ФЛОРЕ АЛТАЯ. 11. А А Kechajkin, S. V. Smirnov, А 1. Shmakov, АР. Shalimov, А V. Vaganov, А А Batkin, М. 187 V. Skaptsov, М. G. Kutsev, D. N. Shaulo, А V. Matsyura РАЗРАБОТКА ВЫСОКОАКТИВНОГО ШТАММА-ПРОДУЦЕНТА ВИРДЖИНИАМИЦИНА И ПОВЫШЕНИЕ ЕГО ПРОДУКТИВНОСТИ С ПОМОЩЬЮ 195 СИНТЕТИЧЕСКИХ АБСОРБИРУЮЩИХ СМОЛ V. А Savushkin, V. V. Dzhavakhiya, Е. V. Glagoleva, V. V. Savel'eva, Е. D. Popova, А 1. Ovchinnikov, V. 1. Glagolev, N. V. Novak, D. А Durnikin МОРФОГЕНЕЗ ЯРОВОЙ ТВЕРДОЙ ПШЕНИЦЫ В КУЛЬТУРЕ ЗРЕЛЫХ ЗАРОДЫШЕЙ О. V. Bychkova, L. Р. Khlebova, D. V. Ereschenko 209

РАЗРАБОТКА СУХОГО БАКТЕРИАЛЬНОГО ПРЕПАРАТА ДЛЯ СИЛОСОВАНИЯ С ОПТИМАЛЬНЫМ СООТНОШЕНИЕМ МОЛОЧНОКИСЛЫХ И ПРОПИОНОВОКИСЛЫХ 219 КУЛЬТУР М. А Kartashov, Т. М. Voinova, А V. Sergeeva, N. V. Statsyuk, S. V. Rogovsky, Уа. О. Grebeneva, D. А Durnikin ИССЛЕДОВАНИЕ РАЗМЕРА ГЕНОМА ПРЕДСТАВИТЕЛЕЙ РОДА POTENТILLA L. (ROSACEAE JUSS.) 229 А А Kechaykin, М. V. Skaptsov, S. V. Smirnov, М. G. Kutsev, А 1. Shmakov МАСШТАБНО-ЗАВИСИМЫЕ ЭФФЕКТЫ В СТРУКТУРЕ ЭКОЛОГИЧЕСКОЙ НИШИ ЛЕБЕДЯ-ШИПУНА CYGNUSOLOR (GMELIN, 1803) В ПЕРИОД ЗИМОВКИ В 234 ПРЕДЕЛАХ ЗАЛИВА СИВАШ А Yu. Andrushenko, А V. Zhukov ВОДОПРОНИКНIСТЬ ТЕХНОЗЕМIВ У МОДЕЛЯХ KOHCTPYKЦII З РIЗНОЮ СТРАТИГРАФ1€Ю 250 К. Р. Maslikova, 1. V. Ladska, О. V. Zhukov ПРОДУКТИВНIСТЬ ТА ЗАБIЙНI ЯКОСТI ПЕРЕПЕЛIВ ПРИ РIЗНИХ РIВНЯХ ГУ АНIДИНОЦТОВОI КИСЛОТИ В Р АЦIОНАХ 266 М. Yu. Sychov, Н. 1. Pryumak WHAT IS L YCLENE DASARA (MOORE, 1859) (LEPIDOPTERA, EREBIDAE, ARCТIINAE)? Anton V. Volynkin, Karol Bucsek 275

CONТRIВUТION ТО ТНЕ KNOWLEDGE OF ТНЕ LEPIDOPTERA IN ТНЕ NORTНERN CISOKHOТIA, RUSSIA 283 Matj az Cernila RESTORA ТION OF ТНЕ GENUS GURNA SWINНOE, 1892 (LEPIDOPTERA, EREBIDAE, ARCТIINAE) 290 Anton V. Volynkin ТНЕ DEVELOPMENТ OF ТНЕ CONCEPT OF PLANТ FUNCТIONAL TYPES WIТH REGARD ТО RARE SPECIES 295 А А Klimenko А REVIEW OF ТНЕ BARSINE FLAММEALIS SPECIES-COMPLEX WIТH DESCRIPТION OF А NEW SPECIES FROM HIМALA У А (LEPIDOPTERA, EREBIDAE, ARCТIINAE) 303 Anton V. Volynkin, Karel Cerny ПШЕНИЦА МЯГКАЯ ОЗИМАЯ: ЭКОЛОГИЧЕСКАЯ ПЛАСТИЧНОСТЬ БИОЛОГИЧЕСКИХ И ТЕХНОЛОГИЧЕСКИХ МАРКЕРОВ 311 V. V. Moskalets, Т. Z. Moskalets, S. Р. Vasylkivskyi, 1. V. Grynyk, А G. Vovkohon, О. V. Lobova, О. А Shevchuk, О. V. Knyazyuk POSSIВILIТIES OF DE NOVO TRANSCRIPTOМE SEQUENCING IN PYLOGENEТIC RESEARCH ON AN ЕХАМРLЕ OF TARAXACUМ OFFICINALE (ASTERACEAE) 319 М. G. Kutsev, М. V. Skaptsov, S. V. Smirnov, Т. А Sinitsyna, А А Kechaykin, М. S. Ivanova, А 1. Shmakov NEW DATA ON SОМЕ OF ТНЕ RECENТLY DESCRIВED LIТHOSIINI SPECIES (LEPIDOPTERA, EREBIDAE, ARCТIINAE) 324 Anton V. Volynkin, Vladimir V. Dubatolov, Karol Bucsek СРАВНИТЕЛЬНОЕ ИССЛЕДОВАНИЕ МОРФОЛОГИИ СПОР РОДОВ ПОДСЕМЕЙСТВА CRYPTOGRAМMOIDEAE 333 А V. Vaganov ГЕНОТОКСИЧЕСКИЕ ЭФФЕКТЫ ДОННЫХ ОТЛОЖЕНИЙ РЕКИ ЧУМЫШ В КЛЕТКАХ КОРНЕВОЙ МЕРИСТЕМЫ ALLIUМ СЕРА L. 347 L. Р. Khlebova, N. N. Chernysheva, О. V. Bychkova, АР. Kraynov REDESCRIPТION AND NEW DATA ON ТНЕ DISTRIВUТION OF А POORLY KNOWN PIRATE SPIDER ERМETUS INOPINABILIS (ARANEI: MIМETIDAE) 359 Yuri М. Marusik, Alexander А Fomichev, Seppo Koponen

ОЦЕНКА ЭФФЕКТИВНОСТИ ПРИМЕНЕНИЯ БИОАКУСТИЧЕСКОГО ОТПУГИВАТЕЛЯ ПТИЦ ДЛЯ УПРАВЛЕНИЯ ЧИСЛЕННОСТЬЮ ПТИЦ НА ТЕРРИТОРИИ ПОЛИГОНА 365 ТВЕРДЫХ БЫТОВЫХ ОТХОДОВ ГОРОДА БАРНАУЛА V. V. Shcherbinin, Е. V. Ponkina, Р. N. Ulanov, А V. Matsyura АКТИВНIСТЬ ФЕРМЕНТIВ У ГЕПАТОПАНКРЕАСI КОРОПА (CYPRINUS CARPIO L.) ЗА ДII СУЛЬФАНIЛАМIДУ 377 У. N. Kurbatova, V. М. Mykhalskaia, L. V. Malyuga, L. V. Gayova БIОХIМIЧНI ТА МОРФОЛОГIЧНI ПОКАЗНИКИ KPOBI ЯПОНСЬКИХ ПЕРЕПЕЛIВ ЗА РIЗНИХ РIВНIВ КАЛЬЦIЮ ТА ФОСФОРУ У КОМБIКОРМАХ 383 L. М. Zlamanyuk

ОСОБЛИВОСТI ФОРМУВАННЯ ФIТОКЛIМАТУ ПIДКРОНОВОГО ПРОСТОРУ КУЩОВИХ ВИДIВ 1 ФОРМ ЯЛIВЦIВ В МЕЖАХ КОМПЛЕКСНО! ЗЕЛЕНО! ЗОНИ 390 MICTA ЛЬВОВА Т. 1. Shuplat, V. V. Popovich МОРФОЛОГIЧНI ОСОБЛИВОСТI СЕЛЕЗIНКИ ТЕПЛОКРОВНИХ ТВАРИН О. F. Dunaievska 399 ДИНАМIКА ПОПУЛЯЦII ALLIUМ OBLIQUUМ L. В УМОВАХ ЗАХIДНОГО ПОДIЛЛЯ N. V. Rubanovska, А N. Solonenko, V. А Solomakha 407 ЦИАНОПРОКАРИОТЫ УРОЧИЩА ТУБАЛЬСКИЙ ЛИМАН L. 1. Arabadzhi, А М. Solonenko, О. G. Bren, М. 1. Holubev 414

ANAL YSIS OF ТНЕ ALIEN FLORA OF DNIPROPETROVSK PROVINCE В. Baranoski, N. Khromykh, L. Karmyzova, 1. Ivanko, У. Lykholat 419 АДВЕНТИВНЫЕ ВИДЫ ДРЕВЕСНЫХ РАСТЕНИЙ УРБАНОФЛОРЫ РОСТОВА-НА- ДОНУ 430 В. L. Kozlovsky, М. V. Kuropyatnikov, О. 1. Fedorinova, М. М. Sereda, О. А Kapralova, Р. А Dmitriev, Т. V. Varduni NEW DATA ON ТНЕ CENТIPEDE (CHILOPODA) FAUNA OF EAST KAZAКHSTAN REGION Yu. V. Dyachkov, G. Sh. Farzalieva, А А Fomichev 438 СУДЕБНАЯ ЭНТОМОЛОГИЯ ОБЛАСТЬ ЗНАНИЙ, НЕЗАСЛУЖЕННО ИГНОРИРУЮЩАЯСЯ В РОССИИ 443 R. V. Yakovlev, А V. Matsyura, Е. V. Guskova EGG SHAPE IN ТНЕ TAXONOMY AND PHYLOGENY OF BIRDS OF PREY 1. S. Mytiai, V. 1. Strigunov, А V. Matsyura 447 BIRD SPECIES DATAВASE OF EGG VOLUМES AND SURFACE AREAS 1. S. Mytiai, А V. Matsyura 455 МАТНЕМАТIСАL MODEL OF BIRD SPECIES IDENТIFYING: IМPLICAТION OF RADAR DATA PROCESSING 463 V. V. Osadchyi, V. S. Eremeev, А V. Matsyura ВИКОРИСТАННЯ ОБЛШИХИ КРУIIIИНОВИДНОI ДЛЯ ФIТОРЕМЕДIАЦII НАФТОЗАБРУДНЕНИХ ГРУНТIВ 472 L. Z. Shevchyk, О. 1. Romaniuk Research N otes SPECIES DIVERSIТY AND DISTRIВUTION OF ENТOMOF AUNA IN ТНЕ SOUTНERN MIDDLE TAIGA OF ТНЕ MIDDLE ОВ 51 Z. 1. Tyumaseva, Е. V. Guskova SPECIES LIST OF PLUМE MOTHS (LEPIDOPTERA, PTEROPHORIDAE) OF Р ARAGUAУ WIТH NEW RECORDS 88 Р. Ustjuzhanin, V. Kovtunovich, А Ustjuzhanina ТО ТНЕ SYSTEMAТICS AND NOMENCLATURE OF SОМЕ PALAEARCТIC NYМPHALIDAE (LEPIDOPTERA) 118 S. К. Korb POLIТZARIELLA FONТ AINEI - NEW COSSIDAE (LEPIDOPTERA) SPECIES FROM CONGO 154 R. V. Yakovlev, Т. J. Witt NEW RECORDS OF DONACIA FAВRICIUS, 1775 (COLEOPTERA: CНRYSOMELIDAE: DONACIINAE) FROM KRASNOYARSKII KRAI (RUSSIA) Е. V. Guskova, Е. N. Akulov Бiологiчний вiсник МДПУ iменi Богgзна Хмельнсщького 6 (3), стар. 414-418, 2016 Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 6 (3), рр. 414-418, 2016

ARTICLE ипс 582.232(477.64)

L.I. Arabadzhi1, А.М. Solonenko1, O.G. Bren1•2, M.I. Holubev3 CYANOPROCARYOTA OF TUBALSКYI ESTUARY (AZOV SEA BASIN) 1 Bogdaп Chтelпitskfy Melitopol State Pedagogical Uпiversi!J. Melitopol, Ukraiпe 2Pryazov Natioпal Natural Park. Melitopol, Ukraiпe 3Natioпal Uпiversi!J of Iift апd Епvirоптепtа! Scieпces of Ukraiпe. Kiev, Ukraiпe E-тaiL· aпatol8@ukr.пet

Infoпnation about species composition of Cyanoprocaryota representatives in the natural boundary of Tubalskyi Estuary within Pryazov National Natural Park is supplemented. Taxonomic stmcture of identified algae species is given, the data about occurrence of species in different habitats within national park is provided. We present а systematic stmcture and geographical affinity of discovered algae species. We registered 38 species of cyanoprocaryotic algae of orders: Chroococcales, Oscillatoriales and Nostocales with predominance of Oscillatoriales representatives in different habitats of Tubalskyi Estuary within the areas of Pryazov National Natural Park. The greatest number of algae species had genera LупgЬуа, Phormidiиm, Micmcoleиs Lepto!JпgЬya - 4 species per each genera. The majority of algae species were the cosmopolitans. Micmcoleиs teпerrimиs was registered in all the studied plots of soil sampling and in the water reservoir ofTubalskyi Estuary. The most abundant and distributed species was LупgЬуа aestиarii, which foпned the macroscopic growths (cyanobacterial mats). Ki!J words: (yaпoprocaryota, algae, Tиbalskyi Estиary, Northern Pryazo1!Jie, пatioпal park.

Л.I. Арабаджи1, А.М. Солоненко1, О.Г. Брен 1 • 2 , M.I. Голу6Е:в 3 ЦIАНОПРОКАРIОТИ УРОЧИЩА ТУБАЛЬСЬКИЙ ЛИМАН 1Мелiтопольський державний педагогiчнийунiверситет i.менi Богдана Хмельницького 2Приазовський нацiональний природний парк 3Нацiональнийунiверситет бiоре~рсiв i природокористування Украiни E-тaiL· aпatol8@ukr.пet

Доповненi вiдомостi видового складу представникiв вiддiлу (yaпoprokaryota урочища Тубальський лиман в межах Приазовського нацiонального природного парку. Наводиться систематична структура виявлених видiв водоростей, надано данi щодо трапляння видiв в рiзних бiотопах урочища. Ключовi слова: (yaпoprocaryota, водоростi, Тубальский лиман, Пiвнiчне Приазов'я, нацiональний парк.

ЛИ. Арабаджи1, А.Н. Солоненко1, А.Г. Брен 1 • 2 , М.И. Голубев 3 ЦИАНОПРОКАРИОТЫ УРОЧИЩА ТУБАЛЬСКИЙ ЛИМАН 1Мелитопольский го~дарственный педагогическийуниверситет имени Богдана Хмельницкого 2Приазовский национальный природный парк 3Национальныйуниверситет биоре~рсов и природопользования Украины E-тaiL· aпatol8@ukr.пet

Дополнены сведения видового состава представителей отдела Cyanoprokaryota урочища Тубальський лиман в пределах Приазовского национального природного парка. Приводится систематическая структура выявленных видов водорослей, предоставлены данные по встречаемости видов в различных биотопах урочища. Ключевые слова: (yaпoprocaryota, водоросли, Тубельский лиман, Северное Приазовье, национальный парк.

Citation: Arabadzhi, L.I., Solonenko, А.М., Bren O.G., Holubev, M.I. (2016). Cyanoprocaryota ofTubalskyi Estuary (Azov Sea basin). Biol.ogical Bиlletiп of Bogdaп Chmelпitskiy Melitopol S tate Pedagogical Uпiversity, 6 (3), 414-418. Посrупило в редакцию/ Submitted: 18.11.2016 Принято к публикации/ Accepted: 19.12.2016 Cr'Os.stef http: //dx.doi.org/10.1542112016112 © Arabadzhi, Solonenko, Bren, Holubev, 2016 Users are peпnitted to сору, use, distribute, transmit, and display the work pubhcly and to make and distribute derivative works, in any digital medium for any responsiЫe purpose, subject to proper attribution of authorship.

lll00J +; 1 This work is hcensed under а Creative Commons Attribution 3.0. License 415 CYANOPROCARYOTA OF ТUBALSКYI ESТUARY

North-Western territories of the Azov Sea shore have unique landscapes and high Ыodiversity is extremely valuaЫe in the economical aspect and have great recreational potential. In 2010 Ьу decree of President of Ukraine the environmental institution - Pryazov National Natural Park (hereinafter - PNNP) was estaЫished for the rational use and conservation of natural resources in this area (Chronicles ... , 2012). One of the main objectives of environmental institutions (including PNPP) is to carry out the monitoring researches of natural ecosystems. The cyanoprocaryotic algae could Ье used as the convenient and reliaЫe Ыoindicators of processes in ecosystems. The results of researches of algae from the North-Western territories of the Azov Sea shore were presented in several articles (Solonenko et al., 2006, 2008), but cyanoprocaryotic algae within the natural boundary ofTubalskyi Estuary are studied unevenly and should Ье updated Ьу additional data. Natural boundary of Tubalskyi Estuary is situated near the Village Prymorskyi Posad. Its' territories have а flat landscape and formed Ьу the mouth of River Domuzla (Fig. 1). The maximum length of the tract - 4.15 km, maximum width - 2 km, altitude of slopes of the right bank - 9 m. The coordinates of extreme points: North - 46°37'5.93"N 35°42'11.27"Е; South - 46°34'51.04"N 35°43'4.87"Е; West - 46°36'18.83"N 35°40'49.32"Е; East - 46°35'46.97"N 35°43'58.63"Е. Water regime depends mainly on precipitation as well as river water, sea water infiltration, periodic flooding through the sand bar. The maximum length of water - 300 m, maximum width - 100 m, maximum depth - 25 cm. The water surface area greatly varies and depends on the season. The salinity of the water is 55-112 %о; рН 6.1-6.4. Tubalskyi Estuary is included in the list of protected areas with а status of the wetland of regional importance. The higher vegetation is presented here Ьу plant communities with dominance of Phragmites australis (Cav.) Trin. ех Steud. and halophilic communities with dominance of Salicornia europea L., На!оспетит strobilaceum М. Bieb., Salsola soda L., Suaeda altissima (L.) Pall. There is а pond in the southern part of the natural boundary, and in the warmer months the Potamogeton pectinatus (L.) Borner develops powerful growths over there.

Figure 1. Мар of sampling points

Biological Bulletin of Bogdan Chmelnitskjy Melitopol S tate Pedagogical University, 6 (3 ), 2016 Arabadzhi et al. 416

MATERIALS AND METHODS The soil samples were carried out in the 2014-2015 on the four fixed samplingpoints in the natural boundary ofTubalskyi Estuary within the territory of PNNP (Pryazov district, Zaporizhzhya region), namely: steppe slopes, sandy soils, saline soils and in the reservoir. Samples were collected in spring, summer and autunш Ьу the conventional phycology methods (Нollerbach, 1969; Topachevskyi, 1984). Totally, we sampled and processed 18 terrestrial samples and 9 water samples. The subsequent identification of algae was performed at the Department of Botany and Landscape Architecture in the laboratory of algal and ecological studies of the terrestrial and aquatic ecosystems in the Bogdan Chmelnitskiy Melitopol State Pedagogical University. Collected material was processed usingcultural methods: 1) soil culture with glasses of growth; 2) agaric Bold's nutrient media with normal and tripled quantity of nitrogen (lN ВВМ and 3N ВВМ, respectively) (Arce, 1958). Researches were held on Ьу the light Ьinocular microscope "MICROmed XS-5520" using 4Ох and lOOx lenses. Identification was carried out Ьу the identification guide of algae (Komarek, Anagnostidis, 1998; 2005). Analysis of the revealed algae species in relation to some geographical confinement was carried out according to Barinova (2006). Systematic list of the identified algae species was structured Ьу system adopted in the monograph of I. Kostikov (2001) with additions and clarifications according to а check-list Ьу Wasser (2000) and Tsarenko (2006).

RESULTS AND DISCUSSION We identified 38 species of algae in the natural boundary of Tubalskyi Estuary. These species belongs to 3 orders, 12 families and 19 genera (ТаЫе. 1). ТаЫе 1. Systematic structure of cyanoprocariotic algae, Tubalskyi Estuary

№ Taxon Phylum Cyanoprocaryota Class Cyanophyceae Sachs 1874 Order Chroococcales Cavalier-Smith, 2002 Family Merismopediaceae Elenkin 1933 Genus Synecho~stis Sauvageau 1892 1. Synecho~stis salina Wislouch 1924 2. Synecho~stis crassa Woronichin 1929 Genus Merismopedia Meyen 1839 3. Merismopedia elegans А. Braun in Kutzing 1849 4. Merismopedia glauca Kutzing 1845 5. Merismopedia punctata Meyen 1839 Family Micro~staceae Elenkin 1933 Genus Micro~stis Kutzing 1907 6. Micro~stis pulverea (Wood) Forti emend Elenkin 1933 Genus Chondro~stis Lemmermann 1899 7. Chondro~stis sarcinoides Komarek et Anagnostidis 1995 Family Chroococcaceae Nageli 1849 Genus Pseudocapsa Ercegovic 1925 8. Pseudocapsa sphaerica KovaCik 1988 Family Entophysalidaceae Geitler 1925 Genus Johannesbaptistia De Toni 1934 9. Johannesbaptistia pellucida Taylor et Drouet 1938 Family Hyellaceae Borzi 1914 Genus Нуе!!а Bornet et Flahault 1886 10. Нуе!!а caespitosa Bornet et Flahault 1888 Order Oscillatoriales Elenkin 1934 Family Oscillaton·aceae Engler 1898 Genus LyngryaAgardh 1892 11. Lyngrya aestuani Liebman ех Gomont 1892 12. Lyngrya semiplena]. Agardh ех Gomont 1892 13. Lyngrya salina Kutzing ех Starmach 1966

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№ Taxon 14. Lyngrya major Meneghini 1892 Genus Oscillaton·a Vaucher 1892 15. Oscillaton·a tenuis Agardh ех Gomont 1892 16. Oscillaton·a geminata Meneghini 1892 Family Phormidiaceae Anagnostidis et Komarek 1988 Genus Phormidium Kutzing 1892 17. Phormidium uncinatum (Agardh) Gomont 1890 18. Phormidium autumnale Gomont 1892 19. Phormidium paulsenianum Boye-Petersen 1930 20. Phormidium takyn·cum Novitschkova 1960 Genus Pseudophormidium Anagnostidis et Komarek 1988 21. Pseudophormidium edaphicum (Elenkin) Anagnostidis et Komarek 1988 Genus Microcoleus Desmazieres 1892 22. Microcoleus vaginatus Gomont 1892 23. Microcoleus paludosus (Kutzing) Gomont 1892 24. Microcoleus tenem·mus Gomont 1892 25. Microcoleus chthonoplastes Thuret ех Gomont 1892 Genus Spiruh"na Turpin ех Gomont 1892 26. Spirulina subsalsa Oersted ех Gomont 1892 Family Plectonemataceae Elenkin 1934 Genus Plectonema Thuret 1892 27. Plectonema notatum (Schmidle) Anagnostidis & Komarek 1988 Genus Symploca Kutzing 1892 28. Symploca elegans Kutzing 1892 Family S chizotn.chaceae Elenkin 1934 Genus Schizothnx Kutzing 1892 29. Schizothnx соп·асеа Kutzing ех Gomont 1892 30. Schizothnxfn.esii (Agardh) Gomont 1892 31. Schizothnx lardacea (Cesati) Gomont 1892 Family Pseudanabaenaceae Anagnostidis et Komarek 1988 Genus Leptofyngrya Anagnostidis et Komarek 1988 32. Leptofyngrya valden·ana (Gomont) Anagnostidis et Komarek 1988 33. Leptofyngrya halophila (Нansgirg ех Gomont) Anagnostidis et Komarek 1988 34. Leptofyngrya boryana (Gomont) Anagnostidis et Komarek 1988 35. Leptofyngrya notata (Schmidle) Anagnostidis et Komarek 1988 Order Nostocales Cavalier-Smith 2002 Family Nostocaceae Eichler 1886 Genus Nostoc Vaucher 1886 36. Nostoc punctiftrme (Kutzing) Hariot 1891 37. Tn.chromus ellipsosporus (Fritsch) Komarek et Anagnostidis 1989 Family Rivulan·aceae Kutzing 1843 Genus Calothnx Agardh 1886 38. Calothnx pan.etina Thuret 1886

The greatest species diversity had order Oscilllatoriales (21 species) followed Ьу Phormidiaceae - 10 species, Lyngrya, Phormidium, Microcoleus Leptofyngrya - 4 species. Such genera as Men.smopedia, Schizothnx and Synecho~stis. Oscillaton·a were represented Ьу 3 and 2 species respectively; other genera - Ьу 1 species. According to literature data 19 identified algae species could Ье related to cosmopolitan (16) and Holarctic species (3). Among all studied haЫtats the largest number of cyanoprocaryotic algae (15 species) were found on the steppe slopes: Leptofyngrya boryana, Lyngrya semiplena, Microcoleus paludosus, Microcoleus tenem·mus, Microcoleus vaginatus, Nostoc punctiftrme, Oscillaton·a

Biological Bulletin of Bogdan Chmelnitskjy Melitopol S tate Pedagogical University, 6 (3 ), 2016 Arabadzhi et al. 418 tenuis, Phormidium uncinatum, Pseudophormidium edaphicum, Schizothrix coriacea, Schizothnx fn.esii, Schizothnx lardacea, Symploca elegans, Plectonema notatum, Tn.chromus ellipsosporus. Algae of the steppe slopes formed local greening-like macroscopic growths on the ground surface, which were observed in the lower parts of the slopes in the places of moisture accumulation. Also the great species variety was registered in saline soils (solonchak) and in the reservoir - 11 species per each haЫtat. In the salt marshes we founded such species as: Leptofyngrya halophila, Leptofyngrya valden·ana, Lyngrya major, Lyngrya aestuani, Lyngrya salina, Lyngrya semiplena, Microcoleus chthonoplastes, Microcoleus tenem·mus, Phormidium paulsenianum, Phormidium takyn·cum, Schizothnx соп·асеа. Lyngrya aestuani was the only species which formed the dark-green solid slime of macroscopic growths. We identified Chondro~stis sarcinoides, Нуе!!а caespitosa, Johannesbaptistia pellucida, Men.smopedia punctata, Micro~stis pulverea, Microcoleus chtonoplastes, Microcoleus tenem·mus, Pseudocapsa sphaen·ca, Synecho~stis crassa, Synecho~stis salina, Spirulina subsalsa for the area ofTubalskyi Estuary whereas the characteristic algal water Ыooms were not observed in warm periods. The limited number of Ыue-green algae species were sampled in sandy soils: Calothnx pan.etina, Leptofyngrya notata, Lyngrya semiplena, Men.smopedia elegans, Men.smopedia glauca, Oscillaton·a tenuis, Oscillaton·a geminata, Phormidium autumnale where the algae did not form the massive growths during the research period. The most abundant and frequent species in all the haЫtats were Microcoleus tenem·mus, Microcoleus chthonoplastes, Lyngrya semiplena, Schizothnx соп·асеа, while Microcoleus tenemmus was registered in all studied haЫtats of terrestrial and water zone of Tubalskyi Estuary area. CONCLUSIONS We registered 38 species of cyanoprocaryotic algae of orders: Chroococcales, Oscillatoriales and Nostocales with predominance of Oscillatoriales representatives in different haЫtats of Tubalskyi Estuary within the areas of Pryazov National Natural Park. The greatest number of algae species had genera Lyngrya, Phormidium, Microcoleus Leptofyngrya - 4 species per each genera. The majority of algae species were the cosmopolitans. Microcoleus tenem·mus was registered in all the studied plots of soil sampling and in the water reservoir of Tubalskyi Estuary. The most abundant and distributed species was Lyngrya aestuani, which formed the macroscopic growths (cyanobacterial mats). 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Бiологiчний вiсник МАПУ iмetti Богдана Хмелшицьmго 6 (3 ), 2016