Sarcosoma globosum – an indicator of climate change?

ESTERI OHENOJA, MAARIT KAUKONEN  
and ANNA LIISA RUOTSALAINEN

Botanical Museum, University of Oulu, P.O.Box 3000, FI-90014, Oulu 
 esteri.ohenoja@oulu.fi

Ohenoja E., Kaukonen M., Ruotsalainen A. L.: Sarcosoma globosum – an indicator of climate 
change? Acta Mycol. 48 (1): 81–88,  2013.

Occurrence of a spring ascomycete, Sarcosoma globosum has increased in Finland during 
the last three decades. River banks and old spruce forests are its typical habitats. Some of its 
habitats are damaged or even destroyed, however, because of forestry and building of roads 
and houses. It is a care-demanding fungus on the Finnish Red List, according to the IUCN 
criteria, but its present status is being discussed.
Key words: Ascomycota, Sarcosomataceae, distribution, ecology, endangeredness

INTRODUCTION

The genus Sarcosoma belongs to the ascomycete order Pezizales and to the family 
Sarcosomataceae, S. globosum (Schmidel) Casp. being the only species in the genus 
in the temperate areas. It occurs in southern and central Finland, usually in alluvial 
stands along rivers and brooks. It is rare and threatened in Europe and one of the 
33 fungal species proposed to the Bern Convention (Dahlberg, Croneborg 2003). 
S. globosum is also found in the eastern parts of N. America.

DESCRIPTION OF THE SPECIES

Sarcosoma globosum has big, sessile, roundish, barrel-like fruit bodies, 5-10 cm in di-
ameter, dark brown-blackish, hymenium even, glossy, sterile part matt, velvety (Fig. 
1a). Content of the fruit bodies is gelatinous. The genus name derives from Greek 
and means ´fleshy body´. The fruit bodies turn flatter and more wrinkled when be-
coming older. Dry weight percentage of the fungus is about three. 

Asci are 8-spored, 250–300 × 35-38 μm in size, tips not amyloid with iodine. 
Spores are hyaline, smooth, ellipsoid, 25-28 × 8-9 μm in size. Paraphyses are filiform, 

ACTA MYCOLOGICA
Vol. 48 (1): 81–88

2013
DOI: 10.5586/am.2013.010



82 E. Ohenoja et al. 

brown, brittle, as long as the asci and 2.5-4.0 μm wide (Fig. 1b). As for the way of 
living of S. globosum, it is supposed to be saprophytic.

ECOLOGY, PHENOLOGY AND DISTRIBUTION

Typical habitats of Sarcosoma globosum are the forests along rivers and brooks (Figs 
1a, 2), often on alluvial shores, where the microclimate is favorable. The soil of 
flooded areas is rich in nutrients and moist also during dry springs. The fruit bodies 
often grow under aged spruces or pines among mosses and litter. S. globosum has 
been found in Finland both on calcareous and acid ground, though it is considered 
to benefit from lime (Martinsson, Nitare 1986, Tedebrand 1999). The plants and 
fungi reported in the vicinity of S. globosum are listed in Table 1. 

S. globosum has been found in southern and central Finland the northernmost lo-
cality lying on the latitude of 66 degrees (Figs 3a-d, Tab. 2). History of the occurrence 
of the species in Finland has been presented by Kosonen (1988). First finds of S. glo-
bosum are from 1915 and 1916, the locality Rapolanharju (at Sääksmäki, Valkeakoski) 
being in southern Finland (Kivirikko 1916). This locality has not been continuously 
monitored, but it is protected, and the fungus was observed there e.g. in spring 1990. 
Kuopio has been a good area, too (Heikkilä, Vauras 1982). The northernmost locality 
in Finland, in Kuusamo, has lately been visited only occasionally, but Muhos, close to 
Oulu, has been monitored regularly since the first discovery in 1973.

Fig. 1. Sarcosoma globosum: a – on bank of the brook Kalimeenoja in Oulu. Photo Lassi 
Kalleinen. 2012; b – microscopical characters (asci, spores and paraphyses) (Muhos 2.VI.1973 
M. Ohenoja) Microsc. Esteri Ohenoja 2013.

a b



 Sarcosoma globosum – an indicator of climate change? 83

Fig. 2. Typical habitat of Sarcosoma globosum at Muhos. Photo Esteri Ohenoja 2012.

Table 1 
Plants and fungi found in the closest neighbourhood of Sarcosoma globosum in Finland.  

The species are in an order of the observed frequency in the stands in question

Vascular plants
Picea abies  
Betula pubescens 
Sorbus aucuparia 
Pinus sylvestris 
Juniperus communis 
Rosa majalis 
Prunus padus 
Populus tremula 
Alnus incana 
Ribes spicatum 
Lonicera xylosteum 
Daphne mezereum 
Salix caprea
Vaccinium vitis-idaea 
Oxalis acetosella 
Linnaea borealis 
Orthilia secunda 
Maianthemum bifolium 
Luzula pilosa 
Trientalis europaea 
Vaccinium myrtillus 
Convallaria majalis 
Deschampsia flexuosa 
Equisetum sylvaticum 
Gymnocarpium dryopteris  
Vaccinium myrtillus 
Empetrum nigrum ssp. hermaphroditum 

Silene dioica 
Solidago virgaurea 
Hieracium sp. 
Paris quadrifolia 
Rubus saxatilis 
Melica nutans 
Elymus caninus 
Scirpus sylvaticus 
Poa nemoralis 
Diphasiastrum complanatum 
Equisetum arvense 
Matteuccia struthiopteris 

Mosses
Hylocomium splendens 
Pleurozium schreberi 
Polytrichum commune 
Dicranum polysetum 
Rhytidiadelphus triquetrus 
Brachythecium curtum 
Rhodobryum roseum 
Sphagnum sp. 

Fungi
Microstoma protractum 
Strobilurus esculentus 
Auriscalpium vulgare



84 E. Ohenoja et al. 

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86 E. Ohenoja et al. 

There are over 80 collects and observations of S. globosum from Finland be-
tween 1915 and 2012. As for the phenology of the species (Tab. 2), it has been found 
in southern Finland in April-May, and in central Finland in May-June, the main 
fruiting time being in the southern half of the country somewhat earlier than in the 
North. The species was found in southwestern Finland once in December and in 
eastern Finland in November. In 1985 when S. globosum was abundant in Sweden 
(Martinsson, Nitare 1986) there was not a single find in Finland, but the springs 
1998 and 1999, when the fungus was very abundant in Central Sweden (Tedebrand 
1999) were good also in the southern part of  Finland, and it was observed first time 
also in Simo, the north western most locality. The springs of 1990, 2001, 2005, 2008, 
and 2012 were good, especially in the northern part of the species´ distribution. The 
amount of fruit bodies has been even hundreds at some localities. There has been 
information about this curious fungus e.g., in some newspapers, and this has appar-
ently increased knowledge of its occurrence in the country.

Table 2 
The localities of Sarcosoma globosum in Finland

Abbreviations: 1b-4a forest vegetation zones (Rassi et al. 2010)
H Herbarium of the University of Helsinki, JYV Herbarium of the Jyväskylä University Museum, KUO 
Herbarium of Kuopio Natural History Museum, OULU Herbarium of the University of Oulu, TUR 
Herbarium of the University of Turku, TUR-A Herbarium of Åbo Akademi  

Hemiboreal, Oak zone (1b). Lohja 22.4.1975 (H), 14.51987 (H); Parainen 27.5.1978 (TUR), 26.4.1989 
(TUR), 29.4.1989 (TUR), 9.5.1989 (TUR-A), 8.4.1990 (TUR), 25.4.2000 (TUR), 25.12.2000 (TUR-A), 
12.4.2001 (TUR), 20.4.2001 (TUR), 17.5.2001 (TUR), .5.2006 (TUR); Perniö 11.5.1961 (TUR); 
Piikkiö 13.-14.5.1954 (TUR), .3.1961 (H), 23.3.1961 (TUR), 18.4.1961 (TUR), 28.5.1961 (TUR), 
8.5.1963 (TUR, OULU), 29.5.1967 (TUR); Rymättylä 14.4.1990 (TUR); Sauvo 9.4.1989 (TUR); Turku 
(Kakskerta) 14.5.1980 (TUR).

Southern boreal, SW Finland and S Ostrobothnia (2a). Hattula 20.5.2000 (TUR); Hämeenkoski 
(Koski) 28.5.1980 (OULU); Pyhtää 22.4.2001 (H); Säkylä 3.5.1998 (TUR); Valkeakoski (Sääksmäki) 
4.6.1915 (litt.), 7.5.1916 (litt.), 12.6.1980 (H), 1.6.1982 (?), 1.5.1987 (?), 27.5.1987 (TUR), 21.5.1988 
(TUR), 29.4.1990 (OULU), 24.5.1998 (H, TUR), 5.5.1998 (TUR), 19.4.2005 (H).

Southern boreal, Lake district (2b). Heinävesi 12.5.1986 (H), 3.5.2001 (H); Konnevesi 18.6.2008 
(JYV); Kuopio 16.4.1950 (KUO), 9.5.1954 (H), 23.5.1954 (KUO), 23.5.1973 (KUO), 26.5.1962 (TUR), 
22.5.1986 (KUO), 5.7.1994 (JYV), 5.6.1997 (TUR), 17.5.1999 (KUO); Maaninka 31.5.1998 (KUO); 
Rautalampi 1.5.1990 (litt.), 9.6.1991 (KUO); Savonlinna 6.6.2001 (H); 23.5.1992 (litt.); Äänekoski 
15.6.1982 (OULU).

Middle boreal, Ostrobothnia (3a). Liminka 9.5.2012 (obs.); Muhos 2.6.1973 (OULU), 27.5.1988 
(OULU), 24.5.1990 (OULU), 18.5.1993 (OULU), 28.5.1994 (OULU), 8.5.2010 (OULU), .6.2012 
(obs.); Oulu 21.5.2005 (OULU), 22.5.2012 (obs.), 23.5.2012 (obs.); Oulu (Haukipudas) 20.5.2005 
(OULU); Oulu (Kiiminki) 27.5.2005 (OULU); Revonlahti 8.5.2012 (obs.); Raahe 10.5.2012 (obs.); 
Tyrnävä 13.5.2012 (obs.).

Middle boreal, N Karelia and Kainuu (3b). Hyrynsalmi 30.5.2001 (OULU), 12.5.2005 (OULU); 
Kajaani 20.5.2008 (obs.), 25.5.2008 (obs.); Nurmes 29.5.2005 (TUR-A), 1.6.2005 (TUR-A);  Puolanka 
21.5.2005 (OULU). 

Middle boreal, SW Lapland (3c). Simo .5.1999 (obs.), 15.5.2008 (OULU).

Northern boreal, Kuusamo district (4a). Kuusamo 19.6.1968 (H).

RUSSIA Karelia onegensis (Kon). Karhumäki 10.5.1943 (H).

RUSSIA Karelia australis (Ka). Viipuri 20.5.1891 (H).



 Sarcosoma globosum – an indicator of climate change? 87

ENDANGEREDNESS

Sarcosoma globosum is, according to the criteria of IUCN, a care-demanding fungus 
species in Finland (Rassi et al. 2010). It is included in ten Red Lists of European 
countries (Dahlberg, Croneberg 2003). In Estonia it used to be very rare, but in 2005 
and 2006 it appeared abundantly (Kullmann 2011). It is very rare in Norway, maybe 
because of the oceanic climate of the country, but in the semiarid, formerly pas-
tured forests in Sweden it has been abundant (Tedebrand 1999). Now it is, however, 
somewhat declining. In Poland it is on the red list in the category of endangered 
species (Wojewoda, Ławrynowicz 2006). It is extinct from Slovakia, Germany and 
Lithuania, but in Latvia and Norway it has been found again. It is obvious, that it is 
increasing in Finland, but on the other hand it has lost habitats because of e.g. clear-
ing of forest stands (Fig. 4) and the human impact on the riversides. A protection 
plan has been prepared for one area of occurrence at Muhos (Kaukonen, Ohenoja 
1994), and that part of the river valley is now protected. Also some other Finnish 
localities are situated in nature reserves.

DISCUSSION

The distribution of Sarcosoma globosum seems to be nemoral-boreal-montane. It 
always grows in same kind of habitats, characterized by the vicinity of rivers and 
brooks. Though the fungus can sometimes be very difficult to find when hiding deep 
in the moss carpet, it is so striking in characters, that people have noticed  it and also 
informed museums and researchers about it. Why it seems to be more abundant now 
than before, the climate change with somewhat warmer winters and rainy springs 
could be one reason. Martinsson and Nitare wrote already in1986 that cold winters 
with less snow are not favorable for the fruiting of the fungus. For instance, there 
was a mild winter preceding a good yield of Sarcosoma in Finland in spring 1961. 
The latest winters have also been rather warm, with, however, much snow. Based 
on the present knowledge, it would be appropriate to reevaluate the regional threat 
class of S. globosum on the Finnish red list of species.

Acknowledgements. The authors thank the curators of the herbaria of H, IISALMI, JYV, KUO, TUR, 
and TUR-A, and many other friends, too, for sending data and collects. Lassi Kalleinen is warmly thanked 
for the photo and technical help. We congratulate our colleague and friend Maria on her long standing, 
tough and productive mycological activity.

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