Soil fungi communities from young Scots pine plantations 
affected with root rot 

WOJCIECH SZEWCZYK

Department of Forest Pathology, Agricultural University 
Wojska Polskiego 71c, PL-60-625 Poznań, wszew@au.poznan.pl

S z e w c z y k  W.: Soil fungi communities from young Scots pine plantations affected with root rot. 
Acta Mycol. 42 (2):239-244, 2007.

The aim of work was to investigate the qualitative and quantitative characteristic features 
of soil fungi associations occurring in I class pine stands threatened by pathogens of tree roots 
in Zielonka Experimental Forest District (W Poland). During the mycological analyses of soil, 
a total of 694 isolates of fungi representing 33 species were obtained. The most numerously 
represented species was Penicillium daleae which made 75% of all isolates. The second place 
in the ranking belonged to Penicillium janczewski amounting to 11%. In order to define the 
qualitative and quantitative similarity between the studies areas, a proportional inconformity 
was determined. The greatest similarity occurred between the associations of soil fungi 
obtained from site 64c and 35b.

Key words: soil fungi, Scots pine, plantations

INTRODUCTION

Fungi occur in all environments; they play an important role, both a positive and 
negative one, in the life of other organisms and ecosystems. Soil environment is very 
favorable for fungi, they participate in the decomposition of dead organic matter, 
particularly in conditions of a low pH level which limits the activity of bacteria, and 
they enter into mycorhizal relations with trees. There is no doubt that there exist 
many factors affecting the quality of relations dominating in the soil determining 
thereby the occurrence of the particular species of organisms or whole organism 
associations. Associations of organisms occurring on a given area together with ar-
bores cent species decide about the quality of ecological factors in the given place 
reacting to all changes taking place there (M a ń k a  1974). Therefore, it is important 
to get familiar with the biodiversity of these associations (K o w a l s k i  1996) which 
can decide about the health of plants (D a h m ,  S t r z e l c z y k  1977). The objective 
of the present study was to investigate the qualitative and quantitative characteristic 

 ACTA MYCOLOGICA
 Vol. 42 (2): 239-244
 2007

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



240 W. Szewczyk 

features of soil fungi associations occurring in I class pine stands threatened by path-
ogens of tree roots.

MATERIALS AND METHODS

Studies were carried aut in seven separated sites (Tab. 1) localized in I class pine 
stands of the Experimental Forest District Zielonka (W Poland). 

In each separated site, soil samples were taken from one studied area in order to 
isolate fungi communities. Soil for mycological analyses was taken from the depth of 
5-20 cm from 6 sites uniformly distributed on a circle with an about 6 m radius. The 
obtained 6 samples were mixed, givining in this way a sample of about 1 dm3 volume. 
Fungi were isolated using Warcup’s method (Wa r c u p  1950) in the modification of 
K. Mańka (J e n s e n , M a ń k a  1961; M a ń k a , S a l m o n o w i c z  1987). From each 
flask containing soil and sand, 10 Petri dishes were prepared. In this way, the myco-
logical soil analysis from one area was based on 30 Petri dishes. Incubation was car-
ried out for 7 days at room temperature. After this period, the first colonies of fungi 
which developed on Petri dishes were separated. Fungi separation was repeated after 
3 successive days. The developed fungi colonies were transferred to test-tubes with 
agar-glucose-potato nutrients. After 2-3 weeks of incubation, the separated isolates 
were described. The description included the dish number from which the colony of 
fungi was separated and the successive number of test-tube. Then, the developed 
mycelia were compared and groups with the same macroscopic features were sepa-
rated. After 2 weeks, the representatives of these particular groups were transferred 
to Petri dishes with agar-glucose-potato nutrient. After 10 days of incubation, the 
fungi were identified and described. In this way, soil fungi associations obtained and 
systematized.

Ta b l e  1 
Characteristic and location investigation area

Compartment Forest Range Forest site type Pine age in 2002

47k Huta Pusta Fresh mixed coniferous 
forest

9

43f Kamińsko Fresh coniferous forest 12

64c Kamińsko Fresh mixed 
broadleaved forest

10

85c Potasze Fresh mixed coniferous 
forest

9

35b Huta Pusta Fresh coniferous forest 13

5a Rakownia Fresh mixed 
broadleaved forest

13

142d Stęszewko Fresh mixed coniferous 
forest

13



 Soil fungi 241

In order to determine the qualitative and quantitative similarities of the soil fungi 
communities obtained from the studied areas, on the basis of the number of com-
mon and different species, the formula of Marczewski-Steinhaus (R o m a n i s z y n 
1972; L e ś n i a k  1984; S i e r o t a  1995; K o w a l s k i  1996; Ty s z k i e w i c z  2001) was 
applied.

S(1,2)=
w

a+b – w

where:
S – similarity of two mutually comparable soil fungi communities 
a – number of isolates of fungi communities 1,
b – number of isolates of fungi communities 2,
w – number of fungi association isolates common for both associations (1 and 2).

It is assumed that if the comparable communities have all features in common, 
the similarity is S = 1 or 100%. If the studied communities have no common fea-
tures, then their similarity is S = 0. Also the so called distance between the commu-
nities was determined: the more features are common, the smaller is the distance, 
and the less features are common, the greater is the distance. The distance of two 
associations (r) is expressed by the formula:

r  = 1 – S

Because of the discrete character of the data, in order to define the qualitative 
and quantitative similarity between the studies areas, a proportional inconformity 
was determined. The distance between the areas has been illustrated on dendro-
grams using the method of mean connections (D o b o s z  2001).

RESULTS

During the mycological analyses of soil, a total of 694 isolates of fungi represent-
ing 33 species were obtained. The most numerously represented species was Penicil-
lium daleae which made 75% of all isolates and it was present in all associations from 
all studied sites. The second place in the ranking belonged to Penicillium janczewski 
amounting to 11% and it was also present in all the studied associations except for 
the association from site 47k. The successive rank belonged to Chrysosporium mer-
darium (7%), Ch. pannorum (7%) and Penicillium stecki (4%). Species group which 
occurred sporadically, they were represented by one isolate only, included: Mor-
tierella isabelina, M. microspora var. macrocystis and two non-sporiferous species.

The most numerous soil fungi association was obtained from site 85c, it consisted 
of 179 isolates representing 13 species. The least numerous was the community of 
soil fungi from site 47k including 63 isolates represented by 10 species. The poorest 
community regarding its qualitative aspect was the association from site 35b repre-
sented by 9 species of soil fungi.

Table 2 contains the qualitative and quantitative composition of soil fungi asso-
ciations from the particular studied areas.



242 W. Szewczyk 

In order to determine the qualitative similarities of fungi associations, on seven 
analyzed areas, similarity cocfficients of associations were determined according to 
the formula of Marczewski-Steinhaus (Tab. 3). Similarity determined in this way 
shows only the fact of occurrence or absence of the given fungi, but it does not indi-
cate their frequency.

Ta b l e  2 
Species of fungi obtained on investigation areas

Species Area Total5a 35b 43f 47k 64c 85c 142d
Absidia glauca Hagem 2 1 3
Acremonium charticola  (J. Lindau) W. Gams 2 2
Acremonium killiense Grütz 3 1 4
Acremonium pteridii W. Gams et Frankland 2 2
Acremonium strictum W. Gams 1 2 1 4
Alternaria alternata (Fr.) Keissl. 4 1 5
Aspergillus clavatus Desm. 4 2 6
Chaetomium globosum Kunze (Ehrenb.)  
J.W. Carmich

3 3

Chrysosporium merdarium (Ehrenb.) J. W. Carmich 1 32 15 48
Geomyces  pannorum Sigleret  J. W. Carmich 10 9 3 25 47
Mortierella isabellina (Oudem.) Arx 1 1
Mortierella macrocystis (W.Gams) 1 1
Umbelopsis nana (Linnem.) Arx 2 2
Mortierella vinacea Dixon-Steward 3 2 5
Non-sporiferous 1 1 1
Non-sporiferous 2 2 2
Non-sporiferous 3 8 8
Non-sporiferous 4 1 1
Penicillium adametzii Zaleski 3 5 2
Penicillium citrinum Thom 9 2 13 9 11 44
Penicillium daleae Zaleski 52 69 40 46 39 74 36 356
Penicillium glabrum (Wenmer) Westling 6 1 7
Penicillium janczewskii Zaleski 18 2 14 24 13 5 76
Penicillium jensenii Zaleski 1 4 5
Penicillium minioluteum Dierckx 2 2
Penicillium vinaceum Gilman et Abbott 8 8
Penicillium waksmanii Zaleski 7 1 1 9
Trichoderma aureoviride Rifai 3 1 5 9
Trichoderma koningii Oudem. 2 2
Trichoderma viride Pers. 4 1 7 12
Simplicillium lamellicola (F.E.V. Sm.) W. Gams 3 1 4
Micromucor ramannianus var. ramannianus   
(A. Möller) Arx

5 5

Total: 112 90 79 63 92 179 80 694

Ta b l e  3 
Similarities of soil fungi communities coming from compartment  

in Zielonka Experimental Forest District (W Poland)

 142d 85c 64c 47k 43f 35b
5a 28% 14% 20% 24% 17% 18%

35b 24% 29% 60% 27% 19%
43f 22% 21% 21% 11%
47k 16% 10% 31%
64c 19% 25%
85c 19%



 Soil fungi 243

The greatest similarity. As height as 60% occurred in case of soil fungi communi-
ties from sites 64c and 35b. The least similarities were found between the commu-
nities of soil fungi from sites 47k and 43f amounting only to 11%. Other soil fungi 
associations showed a similar qualitative similarity ranging between 14 and 31%.

During the studies, the coefficient of the proportional distance between the as-
sociations was determined taking into consideration also the frequency of the given 
fungi species in the associations. The obtained coefficient values have been illustrat-
ed in the form of a dendrogram (Fig. 1). The greatest similarity occurred between 
the communities of soil fungi obtained from site 64c and 35b. The communities of 
soil fungi obtained from site 85c was the most different from the other ones.

DISCUSSION

On the studies areas where soil samples were taken for mycological analyses, ob-
servation were carried out referring to the monitoring of infections diseases of tree 
roots (S z e w c z y k  2005). On all studied areas, there occurred pine infestations by 
A. ostoyae. An exception was site 35b where pine were attacked by H. annosum. In 
all studied areas there grew young planted trees, the soil was prepared in the same 
way (furrow ploughing) and the trees were in a similar age (9-13 years), however, 
they occupied different forest sites (Fresh coniferous forest, fresh mixed coniferous 
forest and Fresh mixed broadleaved forest). On the basis of a determined similar-
ity of associations and the coefficient of proportional distance, one can conclude 

Fig. 1. Percentage distance between soil fungi community coming from compartment in 
Zielonka Experimental Forest District.



244 W. Szewczyk 

that there is no dependence between the qualitative and quantitative composition 
of soil fungi and the occurrence of Armillaria ostoyae and Heterobasidion annsoum, 
the forest sites type and the age of trees on the areas where samples were taken. 
All obtained isolates represented commonly occurring soil fungi. Some of them can 
have an effect on Armillaria spp. or Heterobasidion annosum. The most frequently 
occurring fungus type was Penicillium janczewski characterized by the production of 
enzymes which decompose cellular walls of wood making thereby an entrance for 
infection of Armillaria spp. (B ä ä t h , S o d e r s t r ö m  1980). Another type of fungus 
which may have an effect of Armillaria spp. is Trichoderma which trough antibiosis 
can limit the growth of rhizomorphs (S h o w , K i l e  2001). Fungi of Mortierella type 
do not play any significant role in soil metabolism, but they are able to decompose 
chitin Acremonium spp. Can be pathogens for humans and animals: the same refers 
also to Aspergillus spp. or Penicillium spp. causing sapergollotoxicoses and penicil-
lotoxicoses.

REFERENCES

B ä ä t h  E., S ö d e r s t r ö m  B.E. 1980. Degradation of macromolecules by microfungi isolated from 
different podzolic soil horizons. Can. J. Bot. 58: 422–425.

D o b o s z  M. 2001. Wspomagana komputerowo statystyczna analiza wyników badań. Akademicka Ofi-
cyna Wydawnicza Exit, Warszawa.

J o h n s o n  L.F., M a ń k a  K. 1961. A modification of Warcup’s soil-plate method for isolating soil fungi. 
Soil Sci. 92: 79–84.

K o w a l s k i  S. 1996. Biodiversity of soil fungi in converted stand of Pinus sylverstris L. as an indicator of 
environment degradation as the effect of industrial pollution. Phytopathol. Pol.12: 163–175.

M a ń k a  K., S a l m o n o w i c z  B. 1987. Udoskonalenie niektórych technik zmodyfikowanej metody płytek 
glebowych do izolowania grzybów z gleby z punktu widzenia mikologii fitopatologicznej. Rocz. Nauk 
Rol. Ser. E Ochr. Rośl. 17: 35–46.

R o m a n i s z y n  W. 1972. Uwagi krytyczne o definicji Sorensena i metodzie Renkonena obliczania 
współczynnika podobieństwa zbiorów. Wiad. Ekol. 18 (4): 375–380.

S z e w c z y k  W. 2005. Monitoring Armillaria root rot in young (up to 20 yrs) Scots pine plantation in 
Zielonka Forest District. Acta Sci. Pol. Silv. Colendar. Rat. Ind. Lignar. 4 (2): 91–100.

Ty s z k i e w i c z  Z. 2001. Zbiorowiska grzybów glebowych i ich wpływ na kształtowanie się zdrowotności 
naturalnych odnowień dwóch różnych grądów. Zesz. Nauk. Politechniki Białostockiej. Inżynieria 
Środowiska 12. Białystok: 143–185. 

Wa r c u p  J. 1950. The soil plate method for isolation of fungi from soil. Nature 166: 117–118.

Zbiorowiska grzybów glebowych w młodych plantacjach sosny zwyczajnej  
atakowanej zgnilizną korzeni

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

Celem badań było poznanie i porównanie zbiorowisk grzybów występujących w glebach le-
śnych wybranych siedlisk na terenie Nadleśnictwa Doświadczalnego Zielonka. W trakcie ana-
liz mikologicznych gleby otrzymano ogółem 694 izolaty grzybów reprezentujące 33 gatunki. 
Najliczniej reprezentowanym gatunkiem był Penicillium daleae, który stanowił 75% wszystkich 
izolatów i wchodził w skład zbiorowisk ze wszystkich badanych wydzieleń. Drugim pod wzglę-
dem frekwencji był Penicillium janczewskii – jego udział w ogólnej liczbie izolatów wynosił 
11 %. Wyznaczono współczynnik odległości procentowej między zbiorowiskami. Największe 
podobieństwo występuje między zbiorowiskami grzybów glebowych uzyskanych z powierzchni 
badawczych zlokalizowanych w wydzieleniu 64c i 35b.


		2014-01-01T11:46:31+0100
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