Lichens of red oak Quercus rubra in the forest environment 
in the Olsztyn Lake District (NE Poland)

DARIUSZ KUBIAK

Department of Mycology, University of Warmia and Mazury in Olsztyn
Oczapowskiego 1A, PL 10 957 Olsztyn, darkub@uwm.edu.pl

K u b i a k  D.: Lichens of red oak Quercus rubra in the forest environment in the Olsztyn Lake 
District (NE Poland). Acta Mycol. 41 (2): 319 328, 2006.

A list of 63 species of lichens and 4 species of lichenicolous fungi recorded on the bark of 
red oak (Quercus rubra L.) in Poland is given. Literature data and the results of field studies 
conducted in the forest in the Olsztyn Lake District between 1999 and 2005 are used in the 
report. Fifty five taxa, including lichens rare in Poland, for instance Lecanora albella, Lecidella 
subviridis, Ochrolechia turneri, were recorded.

Key words: lichens (lichenized fungi), lichenicolous fungi, red oak (Quercus rubra), Poland

INTRODUCTION

Rich lichen biotas, usually comprising numerous specific species, are associat-
ed with the genus Quercus L. both in Poland (C i e ś l i ń s k i ,  To b o l e w s k i  1988; 
R u t k o w s k i  1995) and in other parts of Europe (A l v a r e z ,  C a r b a l l a l  2000; 
Z e d d a  2002; E n g e l  et al. 2003). Many rare or very rare lichen species in Poland 
and taxa considered to be extinct have been found to colonise oak bark in Poland 
(C i e ś l i ń s k i ,  To b o l e w s k i  1988; R u t k o w s k i  1995; R u t k o w s k i ,  K u k w a 
2000; Fa ł t y n o w i c z  1991). Its diversified texture provides niches suitable for dif-
ferent lichen species while the phorophyte’s longevity influences the richness and 
diversity of its lichen biota. The occurrence of native oak species (Quercus robur, 
Q. petraea) in various forest communities is also significant (M a t u s z k i e w i c z  2001; 
M o d r z y ń s k i  et al. 2006; D a n i e l e w i c z ,  P a w l a c z y k  2006). However, despite 
abundant data on the occurrence of lichens on oak bark, the lichen biota of this 
phorophyte has not been studied thoroughly and extensively.

In Poland, the genus Quercus is represented by three native species (Q. robur, Q. 
petraea, Q. pubescens) and several alien, mostly North American, species. Quercus 
rubra L. is the only taxon of many introduced species to have acclimatised in natural 
forest habitats in Poland (K r ó l  1967; H e r e ź n i a k  1992). At the same time, the 
number of introduction sites and its total cultivation area exceed those of all other 

 ACTA MYCOLOGICA
 Vol. 41 (2): 319-328
 2006

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



320 D. Kubiak 

deciduous species introduced in Polish forests (D a n i e l e w i c z ,  P a w l a c z y k  2006). 
Quercus rubra is native to eastern parts of North America. It usually grows in low-
land and submontane areas, and reaches 1600 m above sea level in the mountains 
(B r o w i c z  1953). Its native range covers the area from Nova Scotia in the north to 
Alabama and Texas in the south, reaching the belt of Central American prairies in 
the west, and it generally corresponds to the eastern (Appalachian) forest region 
where deciduous forests that lose their leaves for winter are the basic type of vegeta-
tion (Appalachian oak forest region) (P o d b i e l k o w s k i  1995). In the native range, 
Quercus rubra grows on a variety of soils and in topographically diversified areas, 
often forming pure stands.

Species of the genus Quercus, both native and acclimatised, have usually been 
treated inclusively in lichenological research in Poland. Although some authors draw 
attention to the interesting lichen biota of red oak (Z a l e w s k a  et al. 2004), only 
few provide extensive relevant information (Ty s z k i e w i c z  1935; D z i a b a s z e w s k i 
1962; G l a n c  1969; G l a n c ,  K a p u ś c i ń s k i ,  K r ó l  1971; K u k w a  2002; K u b i a k 
2005). The lack of detailed studies on species diversity, particularly important in 
the case of Q. rubra, the most widespread of alien species, encouraged the present 
author to examine the lichen biota of this phorophyte in depth.

STUDY AREA

Quercus rubra sites located in the Olsztyn Lake District in the municipal forests 
of the city of Olsztyn, in the Las Warmiński reserve and the Kamienna Góra reserve 
as well as in forest sections 51, 104 and 523 of the Nowe Ramuki forest district were 
examined. The sites are usually mid-forest cultivations covering a total surface area 
of 0.10-0.05 ha. The tree forms avenues, and occurs along section lines or forest 
roads less frequently. Single trees, probably self-sown, are also noted. The oldest 
sites of Quercus rubra in the area date back to the 1880s and are mostly the remains 
of Experimental Forest Areas established by German foresters (cf. Tu m i ł o w i c z 
1965,  1967). The majority of the study sites come from this period.

The Olsztyn Lake District belongs to the western part of the Masurian Lake 
District (K o n d r a c k i  1998). The region is characterised by significant terrain di-
versification. Rolling uplands of the clayey ground moraine constitute the northern 
part of the Olsztyn Lake District, while hilly uplands and kettles in outwash plains, 
built from sands and gravels covered by expansive forests called the Nidzica Forest 
(Z a r ę b a  1978), abundant in lakes, form the southern part. The altitudes of mo-
raine hills along the peripheries of the mesoregion slightly exceed 200 m above sea 
level and are significantly lower in the central part.

A greatly diversified plant cover is a feature of the Olsztyn Lake District, locat-
ed in the transitional zone where elements of the oceanic and continental climates 
clash. Occurrence ranges of numerous plants, including forest-forming trees, char-
acteristic both of central and western Europe (Atlantic flora) and of northern Eu-
rope (subboreal and boreal species), run and cross in the area. Durmast oak Quercus 
petraea (B o r a t y ń s k a  1979), sycamore Acer pseudoplatanus (B o r a t y ń s k i  1979) 
and beech Fagus sylvatica (To k a r z  1971) reach their north-eastern limits of occur-
rence ranges in the Olsztyn Lake District. Norway spruce Picea abies (J u t r z e n -
k a -Tr z e b i a t o w s k i ,  F e n y k  2001) reaches the south-western limit of the boreal 



 Lichens of red oak 321

range. The ranges of main forest-forming species determine the shape and character 
of entire forest communities. Associations characterised by the continental type of 
range: Peucedano-Pinetum, Seratulo-Pinetum and Tilio-Carpinetum (subboreal va-
riety), reach their western limits in the area while associations characterised by the 
subatlantic range or similar to it: Fago-Quercetum, Luzulo pilosae-Fagetum, Stellario-
Carpinetum, Galio odorati-Fagetum or Leucobryo-Pinetum, reach their eastern limits 
(M a t u s z k i e w i c z  2001).

MATERIAL AND METHODS

Detailed field studies were conducted in 2005. Data collected by the author in 
the period between 1999 and 2005 were additionally used. In total, 16 Querqus ru-
bra sites located within forest complexes previously studied lichenologically were 
analysed. Critical taxa (sterile sorediate lichens, species of the genus Usnea) were 
determined using chromatography methods (TLC), performed according to the pro-
cedures specified by O r a n g e ,  J a m e s  and W h i t e  (2001), in the Department of 
Mycology, University of Warmia and Mazury in Olsztyn, and the Department of 
Plant Taxonomy and Nature Protection, University of Gdańsk. Names of lichens 
and lichnicolous fungi are given after Fa ł t y n o w i c z  (2003) and K u k w a  and D i e -
d e r i c h  (2005), red list categories of lichens after C i e ś l i ń s k i ,  C z y ż e w s k a  and 
Fa b i s z e w s k i  (2003) and C i e ś l i ń s k i  (2003b).

The collected herbarium material is deposited in the Herbarium of the Depart-
ment of Mycology, University of Warmia and Mazury in Olsztyn (OLTC-L). The taxa 
are listed alphabetically. Source studies are specified in the case of taxa reported in 
earlier publications. The number of sites and their general location is given for the 
taxa recorded in the present study (Tab. 1).

RESULTS

A total of 55 species of lichens and 4 species of lichenicolous fungi were re-
corded in the study sites (Tab. 1). Between 11 and 25 species were recorded in in-
dividual sites, and 19 species on average. Taxa with crustose thalli dominate (39 
species); lichens with foliose thalli (8 species) or with fruticose thalii (5 species) 
and dimorphic species (Cladonia spp.; 4 species) are less numerous. The following 
species were recorded most frequently: Hypogymnia physodes, Cladonia coniocraea, 
Platismatia glauca, Lepraria incana, Mycoblastus fucatus, Pertusaria amara, Parmelia 
sulcata, Phlyctis argena, Buellia griseovirens, Lecanora pulicaris, Melanelia fuliginosa, 
Parmeliopsis ambiqua and Ochrolechia androgyna. Except Ochrolechia androgyna, 
these thalli are frequent or common, moderately or significantly ubiquitous. This 
group is responsible for the formation of crustose or crusote-foliose epiphytic com-
munities, typical of this phorophyte, where taxa with fruticose thalli are recorded 
only sporadically. Twelve taxa (23.2% of the biota) were recorded in single sites, 
mostly on single trees. These are: Amandinea punctata, Anisomerydium polyporii, 
Arthonia spadicea, Bacidina arnoldiana, Chaenotheca ferruginea, Chaenothecopsis 
pusilla, Lecanora albella, L. carpinea, Lecidella subvirdis, Ochrolechia turneri, Placyn-
thiella icmalea, Scoliciosporum chlorococcum and Xanthoria polycarpa. Both com-
mon species, characterised by a broad ecological scale, and rare or very rare species 



322 D. Kubiak 

Ta b l e  1
Lichens and lichenicolous fungi recorded on Quercus rubra in Poland

Species Literature data Olsztyn Lake District
Number 
of sites

Site location

Lichenized fungi (lichens)
Amandinea punctata (Hoffm.) 
Coppins et Scheid.

1 NR

Anisomerydium polypori (M.B. 
Ellis et Everh.) M.E. Barr

1 OL

Arthonia radiata (Pers.) Ach. Ty s z k i e w i c z  (1935), as 
A. vulgaris Schaer f. astroidea Ach.

Arthonia spadicea Leight. 1 OL
Bacidina arnoldiana (Körb.) V. 
Wirth et Vězda

1 OL

Bacidina phacodes (Körb.) Vězda K u b i a k  (2005) 4 NR, OL
Biatora efflorescens (Hedl.) 
Erichsen

2 OL

Buellia griseovirens (Turner et 
Borrer ex Sm.) Almb.

11 LW, NR, OL

Chaenotheca chrysocephala 
(Ach.) Th. Fr.

4 OL

Chaenotheca ferruginea (Turner 
ex Sm.) Mig.

1 OL

Cladonia coniocraea auct. 16 KG, LW, NR, 
OL

Cladonia digitata (L.) Hoffm. 1 OL
Cladonia fimbriata (L.) Fr. 6 KG, LW, OL
Dimerella pineti (Ach.) Vězda 9 LW, OL
Evernia prunastri (L.) Ach. Ty s z k i e w i c z  (1935), G l a n c 

(1969)
9 LW, NR, OL

Fuscidea arboricola Coppins et 
Tønsberg

8 NR  c.ap., 
OL

Fuscidea pusilla Tønsberg 2 OL
Graphis scripta (L.) Ach. Ty s z k i e w i c z  (1935) 4 LW, OL
Hypocenomyce scalaris (Ach.) 
Choisy

9 KG, LW, NR, 
OL

Hypogymnia physodes (L.) Nyl. Ty s z k i e w i c z  (1935), as Parmelia 
physodes f. labrosa (L.) Ach.; Kukwa 
(2003)

16 KG, LW, NR, 
OL

Lecanora albella (Pers.) Ach. Ty s z k i e w i c z  (1935), as 
L. albella (Pers.) Ach. var. subalbella 
Nyl., K u b i a k  (2005)

1 OL

Lecanora argentata (Ach.) Malme 1 LW
Lecanora carpinea (L.) Vain. 1 LW
Lecanora conizaeoides Nyl. ex 
Crombie

G l a n c  et al. (1971), as 
L. conizea (Ach.) Nyl.

3 KG, OL

Lecanora expallens Ach. K u k w a  (2002) 3 NR, OL
Lecanora pulcaris (Pers.) Ach G l a n c  et al. (1971), as 

L. chlarona
10 KG, LW, OL

Lecidella subviridis Tønsberg 1 OL
Lecidella eleaochroma (Ach.) 
Choisy

Ty s z k i e w i c z  (1935), as Lecidea 
parasema Ach.

Lepraria elobata Tønsberg 5 LW, OL
Lepraria incana (L.) Ach. 13 LW, NR, OL
Lepraria jackii Tønsberg 3 KG, OL
Lepraria lobificans Nyl. 4 OL
Lepraria rigidula (B. de Lesd.) 
Tønsberg

4 KG, LW, NR, 
OL

Melanelia fuliginosa (Fr. ex Duby) 
Essl.

Ty s z k i e w i c z  (1935), as 
Parmelia fuliginosa (E.Fr.) Nl.; 
D z i a b a s z e w s k i  (1962), as 
Parmelia fuliginosa (Fr.) Nyl.

11 LW, KG, OL



 Lichens of red oak 323

Melanelia olivacea (L.) Essl. Ty s z k i e w i c z  (1935), as Parmelia 
olivacea (L.) Nyl.

Melanelia subarifera (Nyl.) Essl. G l a n c  (1969), as Parmelia subarifera 
Nyl.

Micarea prasina Fr. G l a n c  (1969), as Catillaria prasina 
(Fr.) Th.Fr.; K u k w a  (2002)

9 LW, NR, OL

Mycoblastus fucatus (Stirt.) 
Zahlbr.

14 KG, LW, NR, 
OL

Ochrolechia androgyna (Hoffm.) 
Arnold

10 NR, LW, OL

Ochrolechia microstictoides Räs. 3 NR, OL
Ochrolechia turneri (Sm.) 
Hasselrot

1 LW

Parmelia saxatilis (L.) Ach. 3 LW, OL
Parmelia sulcata Taylor Ty s z k i e w i c z  (1935), K u k w a 

(2002)
12 LW  c.ap., 

OL
Parmeliopsis ambigua (Wulfen ex 
Jacq.) Nyl.

D z i a b a s z e w s k i  (1962), K u k w a 
(2002)

1 OL

Pertusaria amara (Ach.) Nyl. D z i a b a s z e w s k i  (1962), K u k w a 
(2002)

14 LW, NR, OL

Pertusaria coccodes (Ach.) Nyl. 7 KG, LW, NR, 
OL

Pertusaria pertusa (Weigel.) Tuck. 
var. pertusa

Ty s z k i e w i c z  (1935), as 
P. communis D.C.

Phlyctis argena (Ach.) Flot. K u k w a  (2002) 12 LW, NR, OL
Physcia adscendens (Fr.) H. 
Olivier

Ty s z k i e w i c z  (1935)

Physconia distorta (With.) J.R. 
Laundon

Ty s z k i e w i c z  (1935), as Physcia 
pulverulenta (Hoffm.) Nyl.

Placynthiella icmalea (Ach.) 
Coppins et P. James

1 KG

Platismatia glauca (L.) W.L. Culb. 
et C.F. Culb.

K u k w a  (2002) 15 LW, NR, OL

Pseudevernia furfuracea (L.) 
Zopf.

3 KG, LW, NR

Pseudosageda aenea (Wallr.) 
Hafellner et Kalb

2 OL

Ramalina farinacea (L.) Ach. Ty s z k i e w i c z  (1935) 2 OL
Ramalina fraxinea (L.) Ach. Ty s z k i e w i c z  (1935)
Ramalina pollinaria (Westr.) Ach. Ty s z k i e w i c z  (1935),

G l a n c  (1969)
Ropalospora viridis (Tønsberg) 
Tønsberg

7 LW, OL

Scoliciosporum chlorococcum 
(Graeve ex Stenh.) Vězda

G l a n c  (1969), as Bacidia 
chlorococca (Graeve) Lett.

1 KG

Usnea filipendula Stirt. 2 LW, OL
Usnea subfloridana Stirt. 3 LW, OL
Vulpicidia pinastri (Scop.) J. E. 
Mattson et M.J. Lai

2 LW, OL

Xanthoria polycarpa (Hoffm.) 
Rieber

1 KG

Lichenicolous fungi
Chaenothecopsis pusilla (Ach.) A. 
F.W. Schmidt (on wood)

1 OL

Clypeococcum hypocenomycis 
D. Hawksw. (on Hypocenomyce 
scalaris)

1 KG

Lichenoconium erodens M.S. 
Christ. et D. Hawksw. (on 
Lecanora conizaeoides and 
Hypogymnia physodes)

1 KG

Monodictys epilepraria Kukwa et 
Diederich (on Lepraria sp.)

K u k w a  (2004) 1 OL

Abbreviations: KG  Kamienna Góra reserve; LW  Las Warmiński reserve; OL  Olsztyn city forests; 
NR  Nowe Ramuki Forest District; c. ap.  cum apotheciae



324 D. Kubiak 

whose ecological preferences are poorly known belong to this group. One of the first 
records of Lecidella subviridis in Lowland Poland was also identified (cf. C z a r n o t a , 
K u k w a  2003; K u k w a  2006).

Lichens were observed not only on the bark of tree trunks but also on exposed 
dead trunk wood and branches fallen on the ground. The following taxa were re-
corded on dead wood: Anisomerydium polyporii, Chaenotheca chrysocephala, 
Chaenothecopsis pusilla, Hypocenomyce scalaris, Lepraria incana and Cladonia sp. 
It was the only occurrence substrate of two species: Anisomerydium polyporii and 
Chaenothecopsis pusilla. The following species occurred on fallen branches: Hypo-
gymnia physodes, Lecanora conizaeoides, L. pulicaris, Lichenoconium erodens (on a 
thallus of Lecanora conizaeoides), Pseudevernia furfuracea, Scoliciosporum chloro-
coccum and Xanthoria polycarpa. Two of them, Lichenoconium erodens and Xantho-
ria polycarpa, were recorded exclusively on this substrate.

The recorded biota includes 11 species threatened with extinction in Poland 
(19.6%), including two endangered species (EN): Lecanora albella and Usnea sub-
floridana, four vulnerable species (VU): Biatora efflorescens, Ochrolechia androgyna, 
Ramalina farinacea and Usnea filipendula, and five near threatened species (NT): 
Bacidina arnoldiana, Evernia prunatri, Graphis scripta, Pertusaria coccodes and Vulpi-
cidia pinastri. Four of them are threatened in North-Eastern Poland, including one 
endangered species: Lecanora albella, two vulnerable species: Bacidina arnoldiana 
and Biatora efflorescens, and one data deficient lichen (DD): Fuscidea arboricola 
(Fig. 4). Ten (17.9%) of the species given are protected in Poland, including one 
partially protected (Evernia prunastri) and 9 fully protected (Melanelia fuliginosa, 
Parmelia saxatilis, Parmeliopsis ambiqua, Platismatia glauca, Pseudevernia furfuracea, 
Ramalina farinacea, Usnea filipendula, Usnea subfloridana, Vulpicidia pinastri).

DISCUSSION

Quercus rubra is mostly a large tree with a thick, straight, regular trunk and a 
wide, spreading crown. Outer bark in young red oaks, up to 40 years old, is smooth, 
steel-grey or dark grey, and furrowed or with flat-topped ridges in old trees. Quercus 
rubra differs from native oaks (Q. robur, Q. petraea) both by the habit as well as the 
structure and thickness of outer bark. The trunk of Quercus robur, which tends to 
branch out low above the ground (massive lateral boughs), is covered with thick, 
deeply furrowed, dark brown outer bark. Both these features as well as other factors 
influence species composition of lichens associated with this phorophyte. These dif-
ferences are emphasised by B a r k m a n  (1969), who classifies Quercus rubra along 
such porophytes as Fagus sylvatica and young specimens of Quercus robur and Q. 
petraea. Chemical properties of Fagus sylvatica periderm (low pH) are similar to 
those of Quercus robur and Q. petraea; it differs from them, however, by the bark 
relief and the crown shape. These differences are not as pronounced in the case of 
red oak and beech.

The lichen biota of both oak and beech has not been studied extensively in Po-
land. R u t k o w s k i  and K u k w a  (2000) list 88 taxa, including 51 beech epiphytes 
and 77 oak epiphytes, in their analysis of the lichen biota of beech trees (Fagus sylvat-
ica) and native oaks (Quercus robus and Q. petraea) in 24 sites in Northern Poland. 
The list comprises 40 taxa common for both trees (45.4%).



 Lichens of red oak 325

As these findings show, the lichen biota of red oak seems to be quite diversified 
and is comparable with native oaks, and especially beech. It should be stressed, how-
ever, that the study by R u t k o w s k i  and K u k w a  (2000) does not fully reflect species 
differentiation of its epiphytes in Northern Poland, particularly oak. It only includes 
a small number of sites in North-Eastern Poland, where, according to C i e ś l i ń s k i 
(2003a), 234 lichens of this phorophyte were recorded. C i e ś l i ń s k i  (2003a), how-
ever, does not differentiate oak species, and the findings may concern various taxa. 
Therefore, the information provided by R u t k o w s k i  &  K u k w a  (2000) is of great-
er value in the assessment of lichen biotas of native oak species and beech and red 
oak. The similarity of lichen biotas (Jaccard’s coefficient) of native oaks and beech, 
given in the study by R u t k o w s k i  and K u k w a  (2000), and the lichen biota of red 
oak is 32% for red oak and native oaks, and is slightly higher and equals 34% for red 
oak and beech. The total, aggregated number of epiphytes of oak and beech equals 
109, including 22 taxa recorded exclusively on the bark of Quercus rubra. 

The provided data show that the phorophytic profile of Quercus rubra signifi-
cantly differs from that of other, native oak species. The species has its own specific 
lichen biota which consists of many interesting taxa. As a result of the review of the 
Polish lichenological literature, additional 19 lichen species reported from the bark 
of red oak were recorded. Of those, 11 taxa were not observed in the Olsztyn Lake 
District. The list of lichens of red oak in Poland comprises in total 63 lichen species 
and 4 species of lichenicolous fungi. This biota should be considered to be rich, 
especially as its differentiation appears to be similar to that recorded in the areas 
of the native range of this phorophyte. The number of taxa colonising the bark of 
Quercus rubra in its native occurrence range is small although the fact that its trunks 
are often abundantly covered by lichens is stressed (cf. S t u b b s  1989; M a y  2001). 
H a l e  (1955) reports 45 lichen species from the southern part of Wisconsin, and 
C u l b e r s o n  (1955) reports 41 species from the northern part of the state. S t u b b s 
(1989) presents 32 taxa (15 fruticose and foliose and 17 crustose) from the sites in 
Main. The number of lichens of this important phorophyte in this region usually 
does not exceed 10 in numerous local studies on the north-western part of North 
America (H y e r c z y k  1996, 1998; M a y  2001).

As the surface area covered by deciduous forests of the class Querco-Fagetea, 
associated with the richest lichen biotas in lowland regions, has been declining 
(C z y ż e w s k a  2003), Quercus rubra, a phorophyte characterised by a broad ecologi-
cal scale and potentially rich lichen biota, may play an important role in the preser-
vation of lichen species diversity in forest phytocoenoses. The biocoenotic function 
of red oak, underestimated so far, may be of certain use in cultivated forests located 
outside or on the limit of the native occurrence of beech. Special attention should be 
paid to the occurrence of Lecanora albella, a species belonging to a group of lowland 
old-growth forest indicators, on the bark of red oak (cf. C i e ś l i ń s k i ,  C z y ż e w s k a , 
Fa b i s z e w s k i  2003). The phorophyte has been reported on the bark of red oak 
both in the Olsztyn Lake District and Gdańsk Pomerania (Ty s z k i e w i c z  1935). 
According to Fa ł t y n o w i c z  (1991), Lecanora albella is in particular associated 
with beech bark in Western Pomerania. It occurs on a variety of deciduous species 
in North-Eastern Poland (C i e ś l i ń s k i  2003a) and exemplifies ecological vicarism 
(cf. B a r k m a n  1969; Fa ł t y n o w i c z  1991; Z a l e w s k a  2000). In the Olsztyn Lake 



326 D. Kubiak 

District, the species was recorded in the city forest in Olsztyn where many other 
lichen lowland old-growth forest indicators also occur (K u b i a k  2005).

CONCLUSIONS

1. The epiphytic biota of Quercus rubra as a phorophyte is characteristic, diver-
sified and rich, and it comprises 63 lichen species and 4 species of lichenicolous 
fungi.

2. Species of rare lichens, both threatened with extinction (Lecanora albella, 
Melanelia olivacea, Ochrolechia androgyna, Usnea subfloridana) and differentiated 
very rarely (Fuscidea arboricola, F. pusilla, Lecidella subviridis, Ropalospora viridis), 
were recorded on the bark of red oak in Poland.

3. As well as having many biocoenotic functions, red oak may play an important 
role in preserving lichen biodiversity in the forest environment in Poland.

Acknowledgements: The author would like to thank Dr. Martin Kukwa, Department of Plant Taxonomy 
and Nature Protection, University of Gdańsk, for his kind help in determining selected lichen specimens. 
He would also like to thank the anonymous Reviewer for valuable comments and remarks.

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328 D. Kubiak 

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Porosty dębu czerwonego Quercus rubra w środowisku leśnym 
Pojezierza Olsztyńskiego

S t r e s z c z e n i e

W wyniku przeprowadzonych badań własnych oraz przeglądu krajowej literatury licheno
logicznej odnotowano 63 gatunki porostów oraz 4 gatunki grzybów naporostowych występują
cych na korze Quercus rubra. Podczas szczegółowych badań nad porostami epifitycznymi tego 
forofitu, przeprowadzonych na 16 stanowiskach w lasach Pojezierza Olsztyńskiego, stwierdzo
no 56 taksonów, w tym szereg gatunków rzadkich. Wyróżniona na obszarze Pojezierza biota 
liczy 11 gatunków umieszczonych na krajowej „Czerwonej Liście” oraz 14 porostów objętych 
ochroną gatunkową. Do szczególnie interesujących taksonów zaliczyć należy: Fuscidea arbori
cola, Lecanora albella, Lecidella subviridis, Ochrolechia androgyna i O. turneri.


		2014-01-01T11:44:52+0100
	Polish Botanical Society