New records of the annulate Pluteus in European and Asian Russia

EkatErina MalyshEva1, Olga MOrOzOva1 and ElEna zvyagina2

1komarov Botanical institute, 2 Popov street, rUs-197376, st. Petersburg, ekama3@yandex.ru 
2yugansky nature reserve, vil. Ugut, rUs-628458  

surgut district, tumen region, helen.zvyagina@mail.ru

M a l y s h e v a  E. F., M o r o z o v a  O. v., z v y a g i n a  E. a.: New records of the annulate Pluteus 
in European and Asian Russia. acta Mycol. 42 (2):153-160, 2007.

new records of the annulate Pluteus were made by the authors in Central russia 
(zhigulevsky nature reserve) and Western siberia (yugansky nature reserve). the 
description of the species based on these records is presented. the taxonomic value of such 
features as the presence of velum and the color of lamellae edge as well as the similarity 
between Chamaeota and Pluteus are discussed and the new combination Pluteus fenzlii is 
proposed.

Key words: Chamaeota, Pluteaceae, Pluteus fenzlii, Central russia, Western siberia, nature 
reserves 

intrODUCtiOn

For more than 100 years the generic name Chamaeota (W.g. sm.) Earle has been 
in use for designation the Pluteus-like species with annulus.

the genus Chamaeota is one of the poorly investigated taxa of agaricoid fungi. 
at present the volume of the genus is uncertain. it totals 9 species according the 
index Fungorum (http://www.indexfungorum.org), as soon as only two species on 
the data of the last issue of the Dictionary of Fungi (k i r k  et al. 2001). the species 
distribution, ecology and morphology remain unknown because this genus was not 
studied on a global scale. there are some information about records of the spe-
cies of Chamaeota in Europe, asia, northern and Central america (s i n g e r  1978; 
y i n g  1995; M i n n i s  et al. 2006). Probably, the genus as a whole is cosmopolitan 
(s i n g e r  1978) and its species grow on all continents, except for antarctica, though 
the records are very rare. till now the representatives of Chamaeota has been re-
corded on the territory of russia (the Caucasus) only once by s i n g e r  (1978). Un-
fortunately, those specimens were not kept. the species of this genus inhabit usually 
large fallen trunks and rotten wood of deciduous trees.

 aCta MyCOlOgiCa
 vol. 42 (2): 153-160
 2007

Dedicated to Professor Alina Skirgiełło 
on the occasion of her ninety-fifth birthday



154 E. Malysheva et al. 

For the first time Chamaeota was separated as a subgenus from the large genus 
Agaricus l.: Fr. by W.g. smith in1870. F. Earle has risen the taxon to the generic 
rank in 1909.

the taxonomic position of Chamaeota was changed repeatedly because of the 
reformation of the system of Agaricales. it was initially considered (together with 
Pluteus Fr. and Volvariella speg.) within Agaricaceae Chevall., then within Amani-
taceae r. heim ex Pouzar, and after the segregation of Pluteaceae kotl. et Pouzar 
in 1972 up to the present - within Pluteaceae. the basic criteria used to distinguish 
the genus remain constant. the character of velum is recognized as the main of 
them. however the problem of relevance of the genus and its similarity to Pluteus 
was repeatedly raised. so s i n g e r  (1975) noted strong resemblance of Chamaeota 
species known to him (Ch. mammillata (longyear) Murrill, Ch. sphaerospora (Peck) 
kauffm. and Ch. fenzlii (schulzer) singer) to the representatives of Pluteus (sec-
tion Hispidoderma Fayod) by the micromorphological characteristics. in his ear-
lier papers (s i n g e r  1958) he emphasized that character of velum, as well as its 
presence or absence, are not the sufficient criterion for delimitation of genera in 
many groups of agaricoid fungi. he gave as an instance the genus Russula Pers. 
that was remained stable despite of inclusion of several tropical species with the ve-
lum. Besides, annulate P. atroavellaneus Murrill was described from south america. 
singer has also described two south-american species of Pluteus with rudimental 
volva (P. stephanobasis singer, P. circumscissus Singer) in cited paper. It confirms his 
position in this problem. however, he refrained from any nomenclatural changes 
concerning the genus Chamaeota because of scarcity of the available descriptions, 
absence of the type material, rarity of records.

the taxonomic value of such feature as velum is considered in detail by g o r o v o j 
(1990). he has studied ontogenesis of many agaricoid taxa and has made a conclu-
sion about low taxonomic weight of the features of the basidiocarp development and 
covering structures. these features are subject substantially to parallel variability in 
many related and phylogenetic remote groups. Moreover detailed study of ontogen-
esis of Pluteus species (r e i j n d e r s  1963; g o r o v o j  1990) has shown that pilangi-
ocarpous and stipitangiocarpous types of basidiocarp development are attributes of 
several species (P. admirabilis Peck, P. chrysophlebius (Berk. et ravenel) sacc). the 
new data basing on the molecular research are the most serious reason for the insta-
bility of the genus Chamaeota concept. according to the recent paper devoted to the 
study of the american species with application of the molecular methods (M i n n i s 
et al. 2006), Chamaeota does not form an independent clad, as against Volvariella, 
but is nested inside Pluteus clade. species Ch. mammilata studied occupies a very 
close position to P. ephebeus (Fr.: Fr.) gillet on cladogram. Moreover both species 
are very similar to each other in their micromorphological characteristics. therefore 
new combination P. mammilatus (longyear) Minnis, sundb. et Methven seems rea-
sonable to us. the further morphological studies of Chamaeota species (especially 
of those with cellular pileipellis) supported by the molecular data, could clear their 
taxonomic position as well as volume of the genus.

the given morphological study of the European species Ch. fenzlii very closed to 
P. mammilatus also has permitted to find out the features of its similarity with the 
representatives of the genus Pluteus and to classify it as the Pluteus.



 new records of the annulate Pluteus 155

MatErials anD MEthODs

the study was based on the material collected by the authors in 2000-2006 in the 
territory of two nature reserves: the zhigulevsky (3 collections) and the yugansky 
(4 collections).

the zhigulevsky nature reserve occupies the central part of the zhiguli - a bro-
ken highland in East of Privolzhskaya plateau, on the right bank of volga river 
(samara region). the zhiguli consists of exposed carbonate rocks covered by loam 
layer in lower part. the climate is continental with annual precipitation 500 mm. 
the natural vegetation over the hills is represented by open pine forests (Pinus syl-
vestris l.) in combination with steppes, in ravines - by broad-leaved forests of Tilieto-
Nemoreta type (k l e o p o v  1990). in stands Tilia cordata Mill., Acer platanoides l., 
Quercus robur l., Ulmus glabra huds., Corylus avellana l. are predominate. 

the yugansky nature reserve is located in the basin of Bolshoy yugan river (tu-
men region). the geological structure is formed by the Quaternary deposits, mainly 
by the Pleistocene ones covered with loamy and clay soils. the climate of this area 
is moderately continental. the annual precipitation totals 650 mm. the main types 
of vegetation are coniferous forests (Pinus sibirica Du tour, Abies sibirica ledeb., 
Picea obovata ledeb.) and secondary deciduous-coniferous forests (with Populus 
tremula l. and Betula pendula roth) with mossy or grassy cover. the different types 
of swamps occupy 20-30% of the territory.

the collections were made, documented and preserved with standard methods 
(B o n d a r t s e v ,  s i n g e r  1955). Macroscopic description is based on the study of the 
material in fresh and dried condition as well as the analysis of the photos. the dried 
material was examined using standard microscopic techniques. spores, basidia and 
cystidia were observed in squash preparations of small parts of the lamellae in 5% 
kOh. the pileipellis was examined in the preparation of the radial section of the 
pileus. Microscopic measurements and drawings were made at 600x with Micmed 
2-2 microscope. Basidiospore dimensions are based on observation of 30 spores per 
each of 8 collections, cystidia dimensions - on observation of at least 10 structures 
per collection. spore length to width ratios are reported as Q. Mean values for Q 
are designated as Q∗. 

the collected material is deposited in Mycological herbarium of the komarov 
Botanical institute (lE).

rEsUlts anD DisCUssiOn

Below we propose a new combination. the description of the species is based 
on the study of specimens collected by the authors in the territory of Central russia 
and Western siberia.

Pluteus fenzlii (schulzer) E. Malysheva, Morozova et zvyagina comb. nov.
Basionym: Agaricus fenzlii schulzer, verh. zool.-Bot. ges. Wien 16: 49. 1866.
synonyms: Annularia fenzlii (schulzer) gillet, 1876; Chamaeota fenzlii (schulzer) 

singer, 1978.
Pileus 17-70 mm in diam., initially obtuse-conical to become campanulate-con-

vex, convex and flattened, usually with broad umbo, with entire, involute at first 
margin, sometimes cracked when old, not hygrophanous, translucently striate at the 



156 E. Malysheva et al. 

margin only, dry, vividly yellow or with orange tinge, slightly darker at centre, radial-
ly fibrillose sometimes becoming rimose at margin (with visible white background), 
covered by distinct yellow to brownish appressed squamules or hairs, erected over 
the center. appearance of pileus looks like ones of Volvariella species (Figs 1, 2). 
lamellae free, crowded to subdistant (approximately 12 on centimeter near mar-
gin), with lamellulae, thin, ventricose, ap to 5 mm broad, pale pink to grayish pink, 
with entire edge which can be concolorous, white or distinctly yellow (yellow hue 
can disappear with age) (Fig. 3). stipe 25-50 × 4-10 mm, central to slightly excentric, 
cylindric, slightly broadened towards base but without basal bulb, smooth, whitish 
to pale yellow above a ring zone, with longitudinal yellow to brown-yellow fibrils in 
the lower part, with white basal tomentum. Annulus entire, sheathing, fluffy or flake 
like, but often fragmentary and evanescent, remains as a ring zone, white to yellow-
ish white, disposed on central or lower part of stipe. Flesh of pileus and stipe solid, 
white, slightly yellow under pileus cuticle. Odor and taste not distinctive.

spores 4.2-7.6 × 4.0-6.5 μm, Q = 1.00-1.33 (Q∗ = 1.17), broad-ellipsoid to sub-
globose to slightly ovate in profile and face views, with a small hilar appendix and 
single large central oil drop, sometimes with granular contents (when oil drops are 
numerous), smooth, thin-walled to slightly thick-walled, hyaline to pale yellow in 
kOh, non-amyloid. Basidia 4-spored, 16-25 × 6.5-10 μm, clavate, often with taper-μm, clavate, often with taper-m, clavate, often with taper-
ing apex, hyaline, thin-walled. Cheilocystidia 22-73 × 8-31 μm, very abundant, often 
aggregated to continuous layer, variable in appearance, clavate, narrow-fusoid to 
clavate-ventricose, fusoid-ventricose and broad-lageniform, with short or slightly 
lengthened necks, narrow at base, hyaline in kOh, thin-walled or thick-walled, usu-
ally with granular yellow contents and drops on apex. Pleurocystidia 32-81 × 10-32 
μm, abundant, mainly lageniform, rarely fusoid-ventricose, strongly inflated, with 
short or long (to 20 μm length and 8 μm wide) necks, narrow at base, hyaline in 
kOh, thin-walled, with oil drops on apex. lamellae trama inverse. Pileipellis is pla-
giotrichoderm consisting of periclinal basal cylindrical hyphae (5.5-8 μm wide) with 
obliquely to fully erect hyphal ends. Basal hyphae thin-walled, containing yellow-
brown intracellular or slightly incrusting pigment. Superficial hyphal ends consist of 
chains of short or lengthened inflated (up to 12 μm) cells, thin-walled, with brown 
intracellular pigment. these hyphae dispose in bundles forming squamules (Fig. 4). 
stipitipellis a cutis consisting of cylindrical hyphae, parallel to a surface, thin-walled, 
5.5-8 μm wide, with or without brown intracellular pigment. �lamp connections ab-μm wide, with or without brown intracellular pigment. �lamp connections ab-m wide, with or without brown intracellular pigment. Clamp connections ab-
sent. 

habitat on wood of deciduous trees, particularly on Tilia, Acer and Betula, soli-
tary or in small groups.

SpecimenS examined: CEntral rUssia, samara region, zhigulevsky state 
nature reserve: vicinities of Bakhilova Polyana village, in Tilia cordata-Acer plata-
noides forest, on fallen trunk of Tilia, 27 viii 2000, coll. and det. E. F. Malysheva 
(lE 246082). – vicinities of shiryaevo village, shiryaevskaya valley, in Tilia cordata-
Acer platanoides forest, on fallen trunk of deciduous tree, 17 viii 2004, coll. and 
det. E. F. Malysheva (lE 246085). – vicinities of Bakhilova Polyana village, in Tilia 
cordata-Acer platanoides forest, on fallen trunk of deciduous tree, 18 viii 2004, coll. 
O. v. Morozova, det. E. F. Malysheva (lE 246083) (Fig. 2). siBEria, tumen re-
gion, surgut district, yugansky nature reserve: Bank of lake, in swamp Betula pen-
dula forest, on fallen trunk, 18 vii 2006, coll. E. a. zvyagina, det. E. F. Malysheva 



 new records of the annulate Pluteus 157

Fig. 4. Pluteus fenzlii (lE 246083): a – pileipellis, B – basidiospores, C – basidium, D – cheilo-
cystidia, E – pleurocystidia; scale bars A-� = 10 μm, D-E = 15 μm.



158 E. Malysheva et al. 

(lE 246084) (Fig. 1). – Bank of Entl’turyah river, in Populus tremula forest, on fallen 
trunk of Betula, 16 viii 2006, coll. and det. E. a. zvyagina (lE 235471). – Basin of 
Entl’turyah river, in Populus tremula-Betula pendula forest (with Picea obovata and 
Abies sibirica), on fallen trunk of Betula, 17 viii 2006, coll. and det. E. a. zvyagina 
(lE 235470). – Bank of kolkochenyagun river, in swamp Betula pendula forest, on 
fallen trunk of Betula, 18 vii 2006, coll. and det. E. a. zvyagina (lE 235469).

Pluteus fenzlii is similar to the american annulate species P. mammilatus in its 
habitus, pileus color, type of pileipellis and form of cheilocystidia. it differs from the 
latter only by presence of yellow lamellae edge. the similarity of these species has 
been mentioned by s i n g e r  (1975).

One more species – Pluteus leoninus (schaeff.: Fr.) P. kumm. – has some mor-
phological resemblance to P. fenzlii. it differs by absence of annulus, by less squa-
mulouse pileus and by possessing of pleurocystidia with excrescences. in the case of 
P. fenzlii with the reduced annulus these species can be confused in the field.

all specimens of P. fenzlii examined in the present work showed considerable 
variation of most important diagnostic features, even within a single specimen (tab. 
1). So, the annulus can be fugacious, fibrillose, presenting in the mature basidiocarp 
only as a poor visible ring zone, or well differentiated, almost membranous, at first 
entire, later breaking into patches. the yellow color of the edge of lamellae can 
be differently distinct – from almost invisible (located only in the edge of pileus or 

Fig. 5. Pluteus fenzlii (lE 246083): a – cheilocystidiogram, B – pleurocystidiogram; 
scale bar = 10 μm.



 new records of the annulate Pluteus 159
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160 E. Malysheva et al. 

in a few lamellae) to entirely clear and vivid, especially in the young basidiocarps. 
the micromorphological characteristics are varying too. the size of spores, the form 
and the size of cheilo- and pleurocystidia strongly variate in the single basidiocarp 
(Fig. 5). a range of intermediate states is characteristic for analyzed features as well 
as there isn’t any correlation between these states.

Polymorphism of cystidia size and lamellae pigmentation shows that these fea-
tures have little value by themselves for delimitation of the species. so, the low 
taxonomic value of the lamellae color for Pluteus species has been demonstrated 
by vellinga (ve l l i n g a  1990), who considered P. luteomarginatus rolland with the 
yellow-marginate lamellae as a synonym of P. leoninus.

taking into account all of this, it can be supposed that P. fenzlii and P. mammilatus 
are the same species. however, the populations growing in the different continents 
can possess some genetic differences. the additional genetic studies could answer to 
the question about similarity of the american and the European species of annulate 
Pluteus.

Acknowlegments: the authors would like to thank Dr. Eugene Popov for critical review and valuable com-
ments and to Dr. alexander kovalenko for kind permission to use the photo and for helpful discussion. 
This study was supported in part by Russian Foundation for Basic Research (project № 07-04-01408-а).

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