Blepharisma penardi, Yan & Fan & Chen & Li & Warren & Al-Farraj & Song, 2016
publication ID |
https://doi.org/ 10.1111/zoj.12369 |
persistent identifier |
https://treatment.plazi.org/id/DA7BBB25-1F22-A13E-FF66-0398487EF891 |
treatment provided by |
Marcus |
scientific name |
Blepharisma penardi |
status |
|
COMMENTS ON BLEPHARISMA PENARDI SP. NOV.
Blepharisma penardi sp. nov. was first recorded as a variety of B. lateritium by Penard (1922) ( Fig. 6A, C, D View Figure 6 ; Table 3). According to the original description, the organism is ‘80–120 μm, shape variable, reddish, sometimes almost colourless, the shape of macronucleus like date-palm seed, mostly 4–6 small micronuclei’ ( Penard, 1922). Kahl (1932) described it as a ‘form’ of the newly defined species, B. steini Kahl, 1932 , i.e. B. steini forma penardi . The Qingdao isolate matches the original description in body shape and general morphology, coloration, and habitat. The only significant difference is the cell size (150–180 vs. 80–120 μm in vivo). As cell size is thought to be largely food- or populationdependent, we believe that these forms are conspecific and that our identification is correct.
Blepharisma penardi sp. nov. can be clearly distinguished from its closely related congener, B. steini , by its higher number of somatic kineties (24–34 vs. 18– 22 in the Korean population, 18–23 in the Austrian population, and c. 25 in the Danish population of B. steini ), the size of the contractile vacuole (large and conspicuous vs. small and inconspicuous in B. steini ) and the body shape (slender and sigmoidal vs. widely oval in B. steini ) ( Kahl, 1932; Larsen & Nilsson, 1983; Foissner, 1989; Al-Rasheid, 2001; Lee & Shin, 2009; Fig. 6B View Figure 6 ; Table 3). Another possible difference is cell colour, that is, B. penardi is variable from colourless to dark-brownish whereas B. steini is invariably red in colour ( Kahl, 1932; Larsen & Nilsson, 1983; Foissner, 1989; Al-Rasheid, 2001; Lee & Shin, 2009). In addition, the separation of these two species is strongly supported by molecular data, their SSU rDNA sequences differing by 28 nucleotides (98.26% similarity) ( Schmidt et al., 2007).
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.