SciELO - Scientific Electronic Library Online

 
vol.6 número1-2Macrófitas poco frecuentes o desconocidas de la laguna Alalay, Cochabamba, BoliviaAmscottia mira (Grönblad) Grönblad (Desmidiaceae, Zygnematophyceae) collected 55 years after its original description índice de autoresíndice de materiabúsqueda de artículos
Home Pagelista alfabética de revistas  

Servicios Personalizados

Revista

Articulo

Indicadores

Links relacionados

  • No hay articulos similaresSimilares en SciELO

Compartir


Acta Nova

versión On-line ISSN 1683-0789

RevActaNova. v.6 n.1-2 Cochabamba mar. 2013

 

ARTÍCULO CIENTÍFICO

 

Pseudostaurosira cataractarum comb. nov. (Bacillariophyta): type analysis, ecology and world distribution of a former “centric” diatom

 

Pseudostaurosira cataractarum comb. nov. (Bacillariophyta): análisis del material tipo, ecología y distribución mundial de una diatomea inicialmente descrita como “céntrica”

 

 

Carlos E. Wetzel1, Eduardo A. Morales2, Saúl Blanco3 & Luc Ector1

1Department of Environment and Agro-biotechnologies (EVA), Public Research Centre - Gabriel Lippmann. Rue du Brill41, L-4422 Belvaux, Luxembourg
2Herbario Criptogámico Universidad Católica Boliviana “San Pablo”, Carrera de Ingeniería Ambiental. Casilla de Correos 5381, Cochabamba, Bolivia
3Department of Biodiversity and Environmental Management, University of León. E-24071 León, Spain. Current address: The Institute of the Environment. La Serna, 58, E-24007 León, Spain

e-mail: wetzel@lippmann.lu

Recibido: 16 de septiembre 2013; Aceptado: 20 de octubre 2013

 

 


Abstract: The transfer of Melosira cataractarum Hust. to the genus Pseudostaurosira D.M. Williams & Round is presented based on a detailed analysis of the type material from Java (Malay Archipelago) using light and scanning electron microscopy. The species was initially described as a “centric” diatom within the genus Melosira C. Agardh and was later transferred to the genus Aulacoseira Thwaites. Pseudostaurosira cataractarum (Hust.) C.E. Wetzel, E. Morales & Ector comb. nov. differs from other species of the genus by its smaller size, typical radiate striae arrangement and absence of apical pore fields. We additionally propose the transfer of Fragilaria sopotensis Witkowski & Lange-Bert. to the genus Pseudostaurosira, a species that is morphologically similar to P. cataractarum.

Keywords: Aulacoseira, Bacillariophyta, diatom, Melosira, new combination, Pseudostaurosira


Resumen: Se transfiere Melosira cataractarum Hust. al género Pseudostaurosira D.M. Williams & Round a partir de un análisis detallado del material tipo proveniente de Java (Archipiélago Malayo), mediante microscopía óptica y electrónica de barrido. Inicialmente, la especie se describió como una diatomea “céntrica” dentro del género Melosira C. Agardh y fue transferida luego al género Aulacoseira Thwaites. Pseudostaurosira cataractarum (Hust.) C.E. Wetzel, E. Morales & Ector comb. nov. se diferencia de las otras especies dentro del género por su tamaño más pequeño, la disposición radial de las estrías y por la ausencia de campos de poros apicales. Adicionalmente, se propone la transferencia al género Pseudostaurosira de Fragilaria sopotensis Witkowski & Lange-Bert., una especie morfológicamente similar a P. cataractarum.

Palabras clave: Aulacoseira, Bacillariophyta, diatomea, Melosira, nueva combinación, Pseudostaurosira


 

 

1. Introduction

While investigating type materials of species from the Malay Archipelago (Java, Bali and Sumatra) originally described by Hustedt [11], we observed that one species, Melosira cataractarum Hust., formerly ascribed to the centric diatoms (Family Coscinodiscaceae, Subfamily Melosiroideae), might actually be an araphid pennate taxon given the lack of radial symmetry in valve view under light microscopy (LM). Hustedt placed the species among the “Aeröphile Formen” found in the region at the side of Melosira roeseana Rabenh., M. ruttneri Hust. and M. dickiei (Thwaites) Kütz. Simonsen [18] transferred the species Melosira cataractarum to the genus Aulacoseira Thwaites (misspelled there as “Aulacosira cataractorum”), but provided no further taxonomic argumentation or illustrations. Since its original description Aulacoseira cataractarum (Hust.) Simonsen has been analyzed in differing details in a number of papers, most of them based only on LM observations [1][20]. To date, only Genkal & Lupikina [5] had presented scanning electron microscopy (SEM) illustrations as basis for an emended diagnosis, but still ascribing the species to Aulacoseira. Excepting the report from the type locality (Java), A. cataractarum has been reported in several studies from the Holarctic ecozone during the last century [4][6][9][12][17].

In the present paper, we review the current knowledge on this poorly known diatom, summarize the existing world distributional data, and evidence its relationship with other araphid forms, proposing two new combinations within the genus Pseudostaurosira D.M. Williams & Round based on detailed LM and SEM observations, as well as on the available literature.

 

2. Methodology

We used a small subsample of material AS1524 from the Hustedt Collection (Alfred-Wegener-Institut für Polar- und Meeresforshung, Bremerhaven, Germany), material that corresponds to the holotype slide no. A2/27, Tjibeureum Wasserfall, Java TJ2.III.c.

The material was digested using concentrated H2O2 and heating for 24 h using a sand bath. The preparation was then allowed to cool and settle (ca. 1 cm h-1), and 80 to 90% of the supernatant was eliminated by vacuum aspiration. A volume of 1 mL of HCl (37%) was then added and the mixture and allowed to rest for 2 h followed by three repetitions of rinsing and decanting using deionized water.

For SEM, portions of the oxidized suspension were filtered and rinsed with additional deionized water through a 3 µm Isopore™ polycarbonate membrane filter (Merck Millipore). Filters were mounted on aluminum stubs and coated with platinum using a BAL–TEC MED 020 Modular High Vacuum Coating System for 30 s at 100 mÅ. An ultra-high-resolution analytical field emission (FE) scanning electron microscope (Hitachi SU–70, Hitachi High-Technologies Corporation, Tokyo, Japan) operated at 5 kV and 10 mm distance was used for the analysis. SEM images were taken using the lower (SE-L) detector signal. Images were digitally manipulated and plates containing LM and SEM images were created using CorelDraw X5®.

 

3. Results

Morphology

Frustules are rectangular in girdle view, joined by interlocking linking spines. Valves are round to slightly elliptical, 5.8-8.2 µm long and 5.4-7.2 µm wide. Valve apices can only be identified by differences in striation pattern, but many individuals do not expose such a difference. The valve face is flat with a sharp transition between valve face and mantle. The abvalvar edge of the mantle is parallel to the valve face/mantle junction. The axial area is irregularly broad, sometimes somewhat elliptical (Figs 1A-AB).

Striae are distinct, composed of round to oval areolae decreasing in size from the valve face/mantle edge to both the central sternum and the valve mantle; 15-18 in 10 µm. Striae radiate throughout the entire valve and extend onto the valve mantle, in many cases stopping shortly before the valve mantle abvalvar edge. Costae are broad, wider than striae. Spines are spatulate, solid and located along the valve face edge, including at the apices (Figs 2A-G). These spines interrupt the striae, but also they are sometimes displaced towards costae, presumably due to size reduction. Spicules and flaps are absent. Apical pore fields are also absent as is the rimoportula. Girdle bands are open and lack perforations.

 

Occurrence, distribution and ecology

Melosira cataractarum (or Aulacoseira cataractarum) has been infrequently recorded from several countries around the world, namely: Canada, Iceland, Indonesia (Java), Japan, Norway (Svalbard), Portugal (Azores Archipelago) and Russia (several regions) (Fig. 3). Following below are the details of these records.

Canada

Melosira cataractarum was one of the four dominant species (with a relative abundance reaching 9%) in a natural hot spring (water temperature: 42-44° C) from the Hotspring Island, Queen Charlotte Islands (Haida Gwaii), North Coast of British Columbia, Canada [20].

Iceland

Very rare in the natural hot spring Geyser Strokkur (as Melosira cataractarum) [20].

Indonesia (Java)

Type locality: abundantly present in bryophytes in deep shaded, spray water zone of Tjurug Tjibeureum waterfalls (pH: 8.1), southwest of Tjibodas, West Java, Indonesia (as Melosira cataractarum) [11].

Japan

Found on wet rocks at Minamiizu, Izu Peninsula, Kamo District, Shizuoka, Honshu Island, Japan (as Melosira cataractarum) [1].

Norway (Svalbard)

Fairly common in the warm springs (pH: 6.3-6.6; water temperature: 9.0-23.0° C) at Bockfjord, West Svalbard, Norway (as Melosira cataractarum and also Melosira cataractarum f. ovate Foged) [4].

Portugal (Azores Archipelago)

Abundant on dripping embankment at Ribeira Quente, Povoação, São Miguel Island, Azores Archipelago, Portugal [13] as Melosira cataractarum f. laevis Manguin, and as Melosira cataractarum and Melosira cataractarum f. laevis [2].

Very rare in plankton, probably accidental, Lagoa das Furnas (pH: above 8), São Miguel Island, Azores Archipelago, Portugal [13], as Melosira cataractarum f. laevis. Also identified as Melosira cataractarum f. laevis [2][3].

Identified as Melosira cataractarum in São Miguel Island, Azores Archipelago, Portugal [8].

Russia

Species reported as Melosira cataractarum, frequent in the springs from Kamchatka (Russia). However, frustules with cell contents were not found [16]. Mentioned as a rare freshwater species from Far East, Russia [17] and from the Khasan district in Primorsky Krai, Russia [22]. Reported as Melosira cataractarum as rare in plankton and among fouling organisms of higher plants, unnamed lake in Khakassia region and Pionerskaya River, Russia [12]. Reported as freshwater rare species dwelling in the wet mosses of the hot springs district of Kamchatka, Russia (as Аulacoseira cataractarum) [7]. Gontcharov [9] also reports its presence in the Primorsky Krai Region, Russian Far East, Russia (as Melosira cataractarum Hust.).

The taxon was also found and illustrated from a swamp peat in the Uzon Caldera, Veselayy Creek, 2.4 m deep, volcanogenic sediments (Holocene) in caldera lakes of Kamchatka, Russia, as Aulacosira (sic) cataractarum (Hust.) Simonsen emend. Genkal & Lupikina [5].

Recently, it was registered in the Kuibyshev Reservoir, Russia [6] and from the Primorsky Krai region (lakes and rivers), Russia, as Aulacoseira cataractarum [14].

Illustrations available in the literature

- Hustedt [11] (LM drawing): Melosira cataractarum.

- Manguin [13] (LM drawing): M. cataractarum f. laevis.

- Petersen [16] (LM drawing): Melosira cataractarum.

- Proshkina-Lavrenko [17] (LM drawing): Melosira cataractarum.

- Foged [4] (LM drawing): Melosira cataractarum, Foged [4] (LM drawing): Melosira cataractarum f. ovata.

- Ando [1] (LM): Melosira cataractarum.

- Simonsen [19] (LM): Melosira cataractarum.

- Genkal & Lupikina [5] (SEM): Aulacosira (sic) cataractarum (Hust.) Simonsen emend. Genkal & Lupik.

- Villeneuve & Pienitz [20] (LM): Melosira cataractarum Hust.

 

4. Discussion and conclusion

The morphological evidence gathered from the type material of Melosira cataractarum shows that this diatom is not related to Melosira or Aulacoseira sensu Houk [10]. Melosira cataractarum lacks the radial symmetry characteristic of a centric diatom and its axial area and striation pattern delineate a transapical axis (sternum) typical of an araphid pennate. Also, the complex vela occluding the areolae present in species of Aulacoseira, as well as the rimoportulae are absent in M. cataractarum.

Melosira cataractarum has all the features of species currently allocated to the genus Pseudostaurosira. The characteristics of striae (round to oval areolae bearing branched volae), spines (spatulate, solid and interrupting the striae) and overall construction of the valves are similar to small-sized species of this genus (see detailed comparison below). Therefore, its transfer to Pseudostaurosira is proposed as follows:

Pseudostaurosira cataractarum (Hustedt) C.E. Wetzel, E. Morales & Ector comb. nov.

Basionym: Melosira cataractarum Hustedt 1938, Archivfür Hydrobiologie, Supplement 15, p. 142, pl. 9, figs 6-7 [11].

Aulacoseira Aulacosira”) cataractarum (cataractorum) (Hust.) Simonsen 1979, Bacillaria 2, p. 57 [18].

= Melosira cataractarum f. laevis Manguin 1942, Revue Algologique 13, p. 119; pl. 1, fig. 1, syn. nov. [13].

= Melosira cataractarum f. ovata Foged 1964, Tromsö Museums Skrifter 11, p. 50; pl. 1, figs 2-4, syn. nov. [4]

Pseudostaurosira cataractarum differs from other species in its genus by smaller size, typical radiate striae arrangement and absence of apical pore fields. In addition, the variable striae pattern on the valve mantle, sometimes short and composed of a few areolae and sometimes long, with areolae stopping near the abvalvar edge, is characteristic of this species.

The most similar species at the morphological level are Pseudostaurosira trainori E. Morales [15] and Fragilaria sopotensis Witkowski & Lange-Bert. [21]. Pseudostaurosira trainori has longer striae delimiting a much more reduced axial area. These striae vary from parallel towards the valve center to radiate at the apices. Its areolae are wider and contain well-developed volae. Spines are serrate and flaps can be present, especially covering the first areolae on the valve mantle towards its junction with the valve face. These spines always interrupt the striae. Apical pore fields may be present or absent in this taxon.

Fragilaria sopotensis has longer striae on the valve face and their pattern varies from somewhat parallel to slightly radiate in the valve center to strongly radiate toward the apices. Also, spines are always interrupting the striae and are not present at the valve apex. Small flaps are present covering the areolae on the valve mantle [21]. These flaps have been misinterpreted as occlusions of the rota type by Witkowski & Lange-Bertalot [21]. Volae are delicate and can be seen in the transmission electron microscopy image that these authors presented (their fig. n). Fragilaria sopotensis has all the features of the genus Pseudostaurosira, therefore, the proposal of its transfer to this genus is justified as follows:

Pseudostaurosira sopotensis (Witkowski & Lange-Bert.) E. Morales, C.E. Wetzel & Ector comb. nov.

Basionym: Fragilaria sopotensis Witkowski & Lange-Bert. 1993, Limnologica 23, p. 67, figs 6a-p. [21].

 

Acknowledgments

We are very grateful to Friedel Hinz (Friedrich Hustedt Diatom Study Centre, Alfred-Wegener-Institut für Polar-und Meeresforschung, Bremerhaven, Germany) for providing the Hustedt’s type material of Melosira cataractarum. Dr. Pierre Compère (National Botanic Garden of Belgium) is kindly acknowledged for discussions concerning Latin grammar. We also thank Dr. Sergei Genkal for his help in the search and translation of the Russian literature. This work is dedicated to the 5th anniversary of the Cryptogams Herbarium of the Bolivian Catholic University “Saint Paul”, Cochabamba.

 

References

[1] Ando, K. 1978. Moss diatoms in Japan (2). Japanese Journal of Phycology 26: 125-113.        [ Links ]

[2] Bourrelly, P. & Manguin, E. 1946a. Contribution à la flore algale d’eau douce des Açores. In: Contribution à l’étude du peuplement des Iles Atlantides. Mémoires de la Société de Biogéographie 8: 447-500.        [ Links ]

[3] Bourrelly, P. & Manguin, E. 1946b. Les caractères biogéographiques de la flore algale d’eau douce des Açores. Comptes rendus hebdomadaires des séances de l’Académie des Sciences 222: 682-683.        [ Links ]

[4] Foged, N. 1964. Freshwater diatoms from Spitsbergen. Tromsö Museums Skrifter 11: 204 pp.        [ Links ]

[5] Genkal, S.I. & Lupikina, E.G. 1998. Novye i redkie vidy Aulacosira (Bacillariophyta) iz Kaldernykh ozer Kamchatki. [New and rare species of Aulacosira (Bacillariophyta) from caldera lakes of Kamchatka]. Botanicheskii Zhurnal 83: 104-110.        [ Links ]

[6] Genkal, S.I.; Pautova, V.N.; Tarasova, N.G. & Nomokonova, V.I. 2006. Centric diatoms in the Kuibyshev Reservoir. Izvestiya Samarskogo Nauchnogo Tsentra Rossiiskoi Akademii Nauk 8: 147-162.        [ Links ]

[7] Glezer, S.I.; Makarova, I.V.; Moisseeva, A.I. & Nikolaev, V.A. 1992. The diatoms of the USSR fossil and recent. Vol. II. fasc. 2: Stephanodiscaceae, Ectodictyonaceae, Paraliaceae, Radialiplicataceae, Pseudopodosiraceae, Trochosiraceae, Melosiraceae, Aulacosiraceae. St. Petersburg NAUKA St.-Petersburg branch, Vol. 2, Fasc. 2, 126 pp.

[8] Gonçalves, V.; Marques, H. & Fonseca, A. 2010. Lista das diatomáceas (Bacillariophyta) - List of diatoms (Bacillariophyta). In: Borges, P.A.V.; Costa, A.; Cunha, R.; Gabriel, R.; Gonçalves, V.; Frias Martins, A.; Melo, I.; Parente, M.; Raposeiro, P.; Rodrigues, P.; Serrão Santos, R.; Silva, L.; Vieira, P. & Vieira, V. (Eds.) Listagem dos organismos terrestres e marinhos dos Açores (A list of the terrestrial and marine biota from the Azores). Princípia Editora, Cascais. pp. 81-97.        [ Links ]

[9] Gontcharov, A.A. 1996. The algal flora of the Primorsky Region, Russian Far East. Hydrobiologia 336: 93-97.        [ Links ]

[10] Houk, V. 2003. Atlas of freshwater centric diatoms with a brief key and descriptions. Part I. Melosiraceae, Orthosiraceae, Paraliaceae and Aulacosiraceae. Czech Phycology 1 (suppl.): 1-109.        [ Links ]

[11] Hustedt, F. 1938. Systematische und ökologische Untersuchungen über die Diatomeen-Flora von Java, Bali und Sumatra nach dem Material der Deutschen Limnologischen Sunda-Expedition. Teil I. Systematischer Teil. Archiv für Hydrobiologie, Supplement 15:131-177.

[12] Kukharenko, L.A., 1989. Algae of freshwater reservoirs of Primorye Region. Vladivostok, FEB RAS, 152 pp.

[13] Manguin, E. 1942. Contribution à la connaissance des diatomées d'eau douce des Açores. Revue Algologique 13: 115-160.        [ Links ]

[14] Medvedeva, L.A.; Nikulina, T.V. & Genkal, S.I. 2009. Centric diatoms (Coscinodiscophyceae) of fresh and brackish water bodies of the southern part of the Russian Far East. Oceanological and Hydrobiological Studies 38: 139-164.        [ Links ]

[15] Morales, E.A. 2001. Morphological studies in selected fragilarioid diatoms (Bacillariophyceae) from Connecticut waters (U.S.A.). Proceedings of the Academy of Natural Sciences of Philadelphia 151: 105-120.        [ Links ]

[16] Petersen, J.B. 1946. Algae collected by Eric Hulten on the Swedish Kamtchatka Expedition 1920-1922, especially from Hot Springs. Det Kongelige Danske Videnskabernes Selskab, Biologiske Meddelelser 20: 1-122.        [ Links ]

[17] Proschkina-Lavrenko, A.I. (Ed.) 1949. Diatomovyi Analis. Kniga 2. Opredelitel'Iskopaemykh i Sovremennykh Diatomovykh Vodorosle, Poryadok Centrales i Mediales. Botanicheskii Institut im V.L. Komarova Akademii Nauk S.S.S.R. Gosudarstvennoe Izdatelystvo Geologicheskoi Literatury, Moskva-Leningrad, Vol: 2, Issue: 1, 238 pp.

[18] Simonsen, R. 1979. The diatom system: ideas on phylogeny. Bacillaria 2: 9-71.        [ Links ]

[19] Simonsen, R. 1987. Atlas and Catalogue of the Diatom Types of Friedrich Hustedt. J. Cramer, Berlin & Stuttgart, Vol. 1, 525 pp., Vol. 2, 1-395 pls, Vol. 3, 396-772 pls.        [ Links ]

[20] Villeneuve, V. & Pienitz, R. 1998. Composition diatomifère de quatre sources thermales au Canada, en Islande et au Japon. Diatom Research 13: 149-175.        [ Links ]

[21] Witkowski, A. & Lange-Bertalot, H. 1993. Established and new diatom taxa related to Fragilaria schulzii Brockmann. Limnologica 23: 59-70.        [ Links ]

[22] Zhurkina, V.V. & Kukharenko, L.A. 1974. Freshwater diatoms of Khasan district in Primorye In: Vasil'eva L.N (Ed.) Cryptogamic plants of the Soviet Far East.pp. 17-28, FEB AS USSR, Vladivostok (in Russian).        [ Links ]

 

Creative Commons License Todo el contenido de esta revista, excepto dónde está identificado, está bajo una Licencia Creative Commons