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Shorenko K. I., Podunai Yu. A., Davidovich O. I., Kulikovskyi M. S. Morphological variation of two marine diatom species, Nitzschia ventricosa and Ardissonea crystallina (Bacillariophyta). Marine Biological Journal, 2016, vol. 1, no. 4, pp. 53-62. https://doi.org/10.21072/mbj.2016.01.4.07

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Abstract

The relevance of the article is caused by insufficient knowledge of the problem of understanding of the diatoms species scope, particularly in vitro. The aim of the research is to study the morphological variability in cultures of two species of marine pennate diatoms, Nitzschia ventricosa and Ardissonea crystallina using methods of light and scanning electron microscopy.  In addition we assessed the impact of salinity on morphological parameters of A. crystallina valves in the experiment, which is used in the diagnosis of the type. The material for investigation were isolates (algological pure cultures and clones) obtained in vitro. N. ventricosa isolates were received from natural populations collected at coasts of Canary Islands, Islands of Martinique and Texas (Gulf of Mexico). The clones of A. crystallina were allocated from benthic samples in Kazachya Bay (Sevastopol, the Black Sea). The culture was established with the micropipette way and grown in Petri dishes on ESAW media with natural light at a temperature of 20 °C. We refer to a clone (strain) as vegetative offspring derived from a single cell, while the algological pure culture is a group of clones of the same species. The algological pure culture of A. crystallina (consisting of several strains) was physically separated and grown in parallel with six levels of salinity (8, 12, 17, 30, 38 and 48 ‰) for two months. To obtain the required initial salinity the medium salinity (36 ‰) was diluted with the necessary amount of distilled water, or NaCl was added. The terms of keeping of cultures in artificial conditions until the preparation of drugs were no more than 2 months longer, in order to avoid teratological changes. The species Nitzschia ventricosa was originally discovered on the coast of Hong Kong and described in 1873 by the British naturalist F. Kitton. In the Black and Azov seas' benthos and plankton the species N. ventricosa was not observed. While studying the collected materials of the British Natural History Museum (London), the holotype of N. ventricosa was not marked by F. Kitton. The slide № 10365 from the collections of the British Museum (Collection Deby), with this type of material from Hong Kong, was studied. The material in the slide was decided to be authentic (specimina authentica). The material showed the proximity of morphometric characteristics of the valves. Data was compared to the ones given from other Pacific populations. The species Ardissonea crystallina (C. Agardh) Grunow was described by Swedish botanist C. Agardh in 1824 as Diatoma crystallinum C. Agardh. The type locality (locus typicus) are the waters of Sinus Codani, which corresponds to Kattegat Strait, located between the East coast of the Jutland peninsula and the south-western part of the Scandinavian Peninsula. Both species are widely distributed in the oceans and are found regularly in the benthos and plankton, however, they have not been studied in cultures. The following conclusions were obtained: 1. Morphological variability in cultures of N. ventricosa and A. crystallina was comparable with those obtained on the material from natural populations. 2. We managed to get both types of auxospore in the cultures that allowed us to estimate the upper limit of the size range of both types of cells. For N. ventricosa it was 616.0 µm, for A. crystallina the maximum length was 678.0 µm. 3. The variation of number of striae and fibulae in one clone of N. ventricosa was higher than in pure cultures. 4. It has been shown that A. crystallina was able to live while salinity was from 8 to 48 ‰. 5. The A. crystallina culture derived from natural population of the Black Sea, was close to the number of striae to the population from the coast of Canada (Shalёr Bay). 6. The content of the cultures at different rates of salinity for two months has not led to significant morphological changes of A. crystallina cells. There was no effect of salinity on qualitative morphological features of A. crystallina. With an increase of salinity in the experiment arrangement density of striae and areolae of A. crystallina tend to increase, and the width of the cell — to decrease. With the increase of salinity, an increase of the breadth ranges of the striae number variation was observed.

Authors

K. I. Shorenko

https://orcid.org/0000-0002-5171-9467

https://elibrary.ru/author_items.asp?id=806596

Yu. A. Podunai

https://orcid.org/0000-0002-0519-2908

https://elibrary.ru/author_items.asp?id=818206

O. I. Davidovich

https://orcid.org/0000-0003-3024-0104

https://elibrary.ru/author_items.asp?id=906768

M. S. Kulikovskyi

https://orcid.org/0000-0003-0999-9669

https://elibrary.ru/author_items.asp?id=164031

References

Гайсина Л. А., Фазлутдинова А. И., Кабиров Р. Р. Современные методы выделения и культивирования водорослей: учебное пособие. Уфа: БГПУ, 2008. 152 с. [Gajsina L. A., Fazlutdinova A. I., Kabirov R. R. Sovremennye metody vydeleniya i kul'tivirovaniya vodoroslej: uchebnoe posobie. Ufa: BGPU, 2008. 152 p. (in Russ.)].

Генкал С. И., Куликовский М. С., Стенина А. С. Изменчивость основных структурных элементов некоторых видов рода Navicula (Bacillariophyta) // Биология внутренних вод. 2007. № 2. С. 20–25. [Genkal S. I., Kulikovskij M. S., Stenina A. S. Izmenchivost' osnovnyh strukturnyh jelementov nekotoryh vidov roda Navicula (Bacillariophyta) // Biologija vnutrennih vod. 2007. № 2. P. 20–25. (in Russ.)]

Гусляков Н. Е., Закордонец О. А., Герасимюк В. П. Атлас диатомовых водорослей бентоса северо-западной части Чёрного моря и прилегающих водоемов. Киев: Наукова думка, 1992. 112 с. [Guslyakov N. E., Zakordonec O. A., Gerasimyuk V. P. Atlas diatomovyh vodoroslej bentosa severo-zapadnoj chasti Chernogo morya i prilegayushchih vodoemov. Kiev: Naukova dumka, 1992. 112 p. (in Russ.)].

Караева Н. И., Джафарова С. К. Экспериментальные исследования полигалобных Bacillariophyta в связи с солёностью среды // Альгология. 1993. Т. 3, № 2. С. 97–105. [Karaeva N. I., Dzhafarova S. K. Ehksperimental'nye issledovaniya poligalobnyh Bacillariophyta v svyazi s solyonost'yu sredy // Al'gologiya. 1993. T. 3, № 2. P. 97–105. (in Russ.)].

Макарова И. В. О принципах видовой и внутривидовой систематики у диатомовых водорослей // Ботанический журнал. 1974. Т. 59, № 2. С. 283–295. [Makarova I. V. O principah vidovoj i vnutrividovoj sistematiki u diatomovyh vodoroslej. Botanicheskij zhurnal. 1974. T. 59, № 2. P. 283–295. (in Russ.)].

Маркина Ж. В., Айздайчер Н. А. Влияние снижения солёности на рост и некоторые биохимические показатели Chaetoceros socialis f. radians (F. Schutt) Proschk.-Lavr. (Bacillariophyta) // Альгология. 2010. Т. 20, № 4. С. 402–412. [Markina Zh. V., Ajzdajcher N. A. Vlijanie snizhenija soljonosti na rost i nekotorye biohimicheskie pokazateli Chaetoceros socialis f. radians (F. Schutt) Proschk.-Lavr. (Bacillariophyta) // Al'gologija. 2010. Vol. 20, № 4. P. 402–412. (in Russ.)]

Михайлов В. И. Оценка значимости таксономических признаков видов рода Nitzschia (Bacillariophyta) // Ботанический журнал. 1982. Т. 67, № 8. С. 1090–1094. [Mihajlov V. I. Otsenka znachimosti taksonomicheskikh priznakov vidov roda Nitzschia (Bacillariophyta) // Botanicheskij zhurnal. 1982. Т. 67, № 8. P. 1090–1094. (in Russ.)].

Прошкина-Лавренко А. И. Диатомовые водоросли бентоса Чёрного моря. М.-Л: АН СССР, 1963. 244 c. [Proshkina-Lavrenko A. I. Diatomovye vodorosli bentosa Chernogo morya. M.-L: AN SSSR, 1963. 244 c. (in Russ.)].

Рябушкина Н. А. Клональная и микроклональная изменчивость растений // Биотехнология. Теория и практика. 2014. № 2. С. 17–27. [Rjabushkina N. A. Klonal'naja i mikroklonal'naja izmenchivost' rastenij // Biotehnologija. Teorija i praktika. 2014. No. 2. P. 17–27. (in Russ.)].

Рябушко Л. И. Микроводоросли бентоса Чёрного моря (Чек-лист, синонимика, комментарий). Севастополь: ЭКОСИ-Гидрофизика, 2006. 143 с. [Ryabushko L. I. Mikrovodorosli bentosa Chernogo morya (Chek-list, sinonimika, kommentarij). Sevastopol': EKOSI-Gidrofizika, 2006. 143 p. (in Russ.)].

Рябушко Л. И., Бондаренко А. В. Микроводоросли планктона и бентоса Азовского моря (Чек-лист, синонимика, комментарий). Севастополь: ЭКОСИ-Гидрофизика, 2011. 211 с. [Ryabushko L. I., Bondarenko A. V. Mikrovodorosli planktona i bentosa Azovskogo morya (Chek-list, sinonimika, kommentarij). Sevastopol': EKOSI-Gidrofizika, 2011. 211 p. (in Russ.)].

Чепурнов В. А., Манн Д. Д. Изучение жизненных циклов и репродуктивного поведения диатомовых водорослей в Карадагском природном заповеднике // Карадаг. История, биология, археология (Сборник научных трудов, посвященный 85-летию Карадагской биологической станции им. Т. И. Вяземского) / ред. А. Л. Морозова, В. Ф. Гнюбкин. Симферополь: «Сонат», 2001. С. 159–175. [Chepurnov V. A., Mann D. D. Izuchenie zhiznennyh ciklov i reproduktivnogo povedenija diatomovyh vodoroslej v Karadagskom prirodnom zapovdenike // Karadag. Istorija, bilogija, arheologija (Sbornik nauchnyh trudov, posvjashhennyj 85-letiju Karadagskoj biologicheskoj stancii im. T. I. Vjazemskogo). A. L. Morozova, V. F. Gnyubkin (Ed.). Simferopol': «Sonat», 2001. P. 159–175. (in Russ.)].

Шоренко К. И., Давидович Н. А., Куликовский М. С. Изменчивость морфологических и структурных элементов панциря в генетически однородных и разнородных группах диатомовой водоросли Nitzschia rectilonga Takano, 1983 (Bacillariophyta) // Биология моря. 2014. Т. 40, № 5. С. 364–378. [Shorenko K. I., Davidovich N. A., Kulikovskiy M. S. The variability of the morphological and structural elements of the frustule in genetically homogeneous and heterogeneous groups of the diatom Nitzschia rectilonga Takano, 1983 (Bacillariophyta). Russian Journal of Marine Biology. 2014. Vol. 40, №. 5. P. 354–363.] doi: 10.1134/S1063074014050083.

Шоренко К. И., Давидович Н. А., Давидович О. И. Влияние солёности на морфологические характеристики панцирей двух близких видов диатомовых водорослей Nitzschia longissima (Bréb.) Grunow, 1862 и N. rectilonga Takano, 1983 // Морской экологический журнал. 2014. Т. 13, № 3. С. 75–80. [Shorenko K. I., Davidovich N. A., Davidovich O. I. Vlijanie soljonosti na morfologicheskie harakteristiki pancirej dvuh blizkih vidov diatomovyh vodoroslej Nitzschia longissima (Bréb.) Grunow, 1862 i N. rectilonga Takano, 1983 // Morskoj ekologicheskij zhurnal. 2014. Vol. 13, № 3. P. 75–80 (in Russ.)]

Шоренко К. И., Давидович Н. А., Куликовский М. С., Давидович О. И. Видовые границы и особенности биогеографии двух близких видов диатомовых водорослей Nitzschia longissima (Brèb.) Grunow и N. rectilonga Takano // Биология внутренних вод. 2016. № 1. С. 21–29. [Shorenko K. I., Davidovich N. A., Kulikovskiy M. S., Davidovich O. I. The species boundaries and biogeography of two closely related diatom species: Nitzschia longissima (Breb.) Grunow, 1862 and N. rectilonga Takano, 1983 // Inland Water Biology. 2016. Vol. 9, № 1. P. 18–26.] doi: 10.1134/S1995082916010156

Agardh C. A. Systema algarum. Berlingianis, 1824. 312 p. (in Latin).

Balzano S., Sarno D., Ekooistra W. H. C. Effect of salinity on the grown rate and morphology of ten Sceletonema strains // Journal of Plant Research. 2011. № 33. P. 937–945. doi: 10.1093/plankt/fbq150

Falasco E., Bona F., Badino G., Hoffmann L., Ector L. Diatom teratological forms and environmental alterations: a review // Hydrobiologia. 2009. Vol. 623, iss. 1. P. 1–35. doi: 10.1007/s10750-008-9687-3

Fernandes L. F., Brandini F. P., Gutseit K. S., Fonseca A. L., Pellizari F. M. Benthic diatoms growing on glass slides in the Paranaguá Bay, Southern Brazil: taxonomic structure and seasonal variation. Florianópolis, 1999, vol. 28, pp. 53–100.

Kawamura T., Hirano R. Notes on attached diatoms in Aburatsubo bay, Kanagawa prefecture, Japan. Bulletin Tohuku Regional Fisheries Research Laboratory, 1989, no. 51, pp. 41–73.

Kitton F. A description of some new species of Diatomaceae. Monthly Microscopical Journal, 1873, vol. 10, no. 5, pp. 205–207.

Lobban C. S., Schefter M., Jordan R. W., Arai Y., Sasaki A., Theriot E. C., Ashworth M., Ruck E. C., Pennesi Ch. Coral-reef diatoms (Bacillariophyta) from Guam: new records and preliminary checklist, with emphasis on epiphytic species from farmer-fish territories. Micronesica. 2012, vol. 43, no. 2, pp. 237–479.

Poulin M., Cardinal A., Bérard-Therriault L. Ardissonia сrystallina (Bacillariophyceae): une сryst en microscopie électronique à balayage des сrystall structuraux des valves. Canadian Journal of Botany, 1987, no. 65, pp. 2686–2689. (in French).

Trobajo R., Rovira L., Mann D. G., Cox E. J. Effect of salinity on growth and on valve morphology of five estuarine diatoms. Phycologia Research. 2011, vol. 59, iss. 2, pp. 83–90. doi: 10.1111/j.1440- 1835.2010.00603.x.

Witkowski A., Lange-Bertalot H., Metzeltin D. Diatom Flora of Marine Coast. Vol. 7. I. Iconographia Diatomologica. Ruggell: A. R. G. Gantner Verlag K. G., 2000, 925 p.

Funding

This work was supported by RFBR grant No. 15-04-00237-а and RSF grant No. 14-14-00555 (data on light and scanning electron microscopy).

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