Nephrococcus serbicus S. Popović, G. Subakov Simić & Komárek, 2016
publication ID |
https://doi.org/ 10.11646/phytotaxa.289.2.3 |
persistent identifier |
https://treatment.plazi.org/id/630487BC-FFE9-FF8A-FF2F-643AFD31FF57 |
treatment provided by |
Felipe |
scientific name |
Nephrococcus serbicus S. Popović, G. Subakov Simić & Komárek |
status |
sp. nov. |
Nephrococcus serbicus S. Popović, G. Subakov Simić & Komárek , sp. nov. ( Figs 2–5 View FIGURE 2 View FIGURE 3 View FIGURE 4 View FIGURE 5 )
The thallus (comprising macroscopic flat layers) is composed from more or less spherical colonies, usually containing (2) 4–16 (64) cells, and with ± firm outer envelopes. The colonies are mucilaginous, unstratified or slightly stratified, with colonial slime that is colourless. The cells are organized ± in a wreath-like formation or agglomerated in the centre. Spherical colonies up to 29 μm in diameter, with cells (usually packed together relatively densely) 1.5–6.5 μm in diameter. The cell colour varies from blue-green to olive-green or yellowish.
Type locality:— SERBIA. Visočka Banja: Božana Cave, biofilm from the stone (limestone) substrate of the cave wall, left side, 5–6 m from the cave entrance, 43˚38΄12.50΄΄N, 19˚55΄25.21΄΄E, 723 m elev. Collected by S. Popović, summer 2014.
Type: Holotype T0008 , preserved in formalin, here illustrated as Fig. 5 View FIGURE 5 , LM: Figs 2–4 View FIGURE 2 View FIGURE 3 View FIGURE 4 , at the Department of Algology , Mycology and Lichenology , the Institute of Botany and Botanical Garden “Jevremovac”, ( BEOU), the Faculty of Biology, University of Belgrade, Serbia .— Iconotype: Fig. 5 View FIGURE 5 , photo Fig. 2 View FIGURE 2 .
Description (LM and CLM):— Colonies that were spherical, multicellular—initially 2-to 4-celled ( Fig. 2a View FIGURE 2 and Fig. 3a, c View FIGURE 3 , respectively) and later on many-celled, probably up to 64 ( Fig. 2b View FIGURE 2 , Fig. 3d View FIGURE 3 )—were enveloped by a wide, mucilaginous and mostly unstratified or slightly stratified ( Fig. 4n View FIGURE 4 ) colourless envelope with a firm surface. The presence of 1-celled stadiums has not been recorded, but they can evidently occur (at least in the form of possible resting cells ( Figs 2g, h View FIGURE 2 , 5a View FIGURE 5 )). The envelope is more stratified in younger colonies (e.g., a 2-celled stadium). A firm surface is evident in natural and coloured materials ( Figs 2 View FIGURE 2 , 3 View FIGURE 3 ). The most frequently occurring colonies contained 4, 8 and 16 cells. The colony size of the many-celled stadiums varies from 25–29 μm, and the envelope width from 4–9 μm. The cells are aggregated in the centre of the colony, sometimes just densely packed ( Fig. 2b View FIGURE 2 , Fig. 3d View FIGURE 3 ), but are often arranged in the form of a wreath ( Figs 2e, f View FIGURE 2 , 4m View FIGURE 4 ). Usually one wreath can be seen in the first plan, but at least two wreaths are probably formed and they are usually placed opposite one another ( Fig. 2f View FIGURE 2 ). It is possible for more wreaths to be present. The shape of the cells varies from round, oval ( Fig. 2b View FIGURE 2 ) or an irregular round shape ( Fig. 2c, d View FIGURE 2 ) to a kidney shape ( Fig. 2e, f View FIGURE 2 ), which is most common. The cell colour varies from blue-green ( Fig. 2e, f View FIGURE 2 ), olive-green ( Fig. 2d View FIGURE 2 ) to yellowish ( Fig. 2c View FIGURE 2 ) and yellow-brown ( Fig. 2b View FIGURE 2 ). The cell content is homogeneous or slightly granular. The cell envelopes are visible only in 2-celled stadiums ( Fig. 2a View FIGURE 2 ), and later are not visible or not present. The cell length is 3–6.5 μm, with the cell width in the middle part being 1.5–4 μm.
CLM ( Fig. 4 View FIGURE 4 ) turned out to be a good technique for visualizing the 3D spatial organization of cells in the Nephrococcus colony, using propidium iodide that binds with nucleic acids. Without disturbing the structure, a series of thin optical sections of the sample-Optic 2D images obtained at different intervals: a–l-was made. Cells are arranged irregularly at the centre of the colony (a–l) or in the form of a wreath (m–n). Slight lamellation of the colony envelope is clearly evident in Fig. 4n View FIGURE 4 .
Drawings of Nephrococcus serbicus are shown in Fig. 5 View FIGURE 5 .
Etymology:—The epithet indicates that this species is found in Serbia.
Ecology:—This aerophytic cyanobacterium was found in the subaerophytic, wet, stony (limestone) substrates of Božana Cave (near the entrance), at an elevation of 723 m, in western Serbia during the summer period of 2014. Measured environmental parameters from the sampling site and parameters from the biofilm containing Nephrococcus are shown in Table 1. The sampling site was relatively close to the entrance and T, RH and LI were, in general, influenced by the external climatic conditions. The biofilm was moderately wet, with a lot more inorganic than organic matter ( Table 1).
Associated taxa and additional information:—Other cyanobacterial taxa found in the biofilm containing Nephrococcus were Asterocapsa sp. H .-J. Chu (1952: 97–100; pl. 1, figs 1–3, pl. 2, figs 8, 9, 14), Aphanocapsa muscicola ( Meneghini 1843) Wille (1919: 39 ; pl. I, II) Aphanothece caldariorum P. G. Richter (1880: 192) , Chroococcus ercegovicii Komárek & Anagnostidis (1995: 17 ; figs 1, 3), Gloeocapsa alpina Nägeli in Rabenhorst (1865: 40), Gloeocapsa violacea Kützing (1847: 25 ; pl. 36, fig. IX), Gloeocapsa spp. Kützing (1843: 173–175), Gloeothece rupestris ( Lyngbye 1819: 207; pl. 69) Bornet in Wittrock & Nordstedt (1880: 339), Gloeothece sp. Nägeli (1849: 57–60), Leptolyngbya foveolarum (Gomont 1892: 164, pl. IV/4, fig. 16; Anagnostidis & Komárek 1988: 391) and Scytonema sp. C .Agardh ex É.Bornet & C.Flahault (1886: 85–115). Besides mosses, one unidentified green alga was also present.
The first axis of the performed CCA ( Fig. 6 View FIGURE 6 ) showed positive correlation with LI (r=0.6682) and negative correlation with T (r=−0.6151). The second CCA axis also showed a positive correlation with LI (r=0.5640) and a slightly negative correlation with RH (r=−0.3347). The eigenvalue of the first CCA axis was 0.7173 indicating that most of the ecological information was reflected on this axis, but a significant part of the variability was also explained by the second axis (eigenvalue 0.5514). According to CCA, the sampling site containing Nephrococcus had the highest LI and the lowest T recorded. The included supplementary variables, water content and content of organic/inorganic matter (expressed as mg/cm 2), also had the highest values at this sampling site. The content of Chl-a was also high. CCA showed that the sampling site that contained Nephrococcus was distinct from all the other sampling sites explored in Božana Cave, and many taxa that were not recorded at other sampling sites were documented at S8.
The main difference points between all Nephrococcus species are shown in Table 2.
the illustrations *** In developed colonies —Missing
BEOU |
University of Belgrade |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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