HACQUETIA 4/1 • 2005, 53–59


CONTRIBUTION TO THE SPRING VEGETATION 
OF THE JULIAN ALPS: THE ASSOCIATION 
CRATONEURETUM FALCATI GAMS 1927


Boštjan SURINA* 

Izvleček 

V prispevku je podana fitocenološka oznaka povirnih sestojev s prevladujočo mahovno vrsto Cratoneuron commutatum var. falcatum (= Palustriella commutata var. falcata) v Krnskem pogorju in na Mangartu (Julijske Alpe). 
Po primerjavi s podobnimi sestoji s Karavank smo jih uvrstili v asociacijo Cratoneuretum falcati (Cratoneurion 
commutati, Montio-Cardaminetea). 

Abstract 

Phytosociological characteristics of stands with predominating Cratoneron commutatum var. falcatum (=Palustriella 
commutata var. falcata) in the Krn Mts. and Mt. Mangart (the Julian Alps) are presented. After the comparison 
with similar stands from the Karavanke Mts. they are ranged into the association Cratoneuretum falcati (Cratoneurion commutati, Montio-Cardaminetea). 

Ključne besede: fitocenologija, vegetacija, Cratoneuretum falcati, Cratoneurion commutati, Montio-Cardaminetea, 
Julijske Alpe 
Key words: phytosociology, vegetation, Cratoneuretum falcati, Cratoneurion commutati, Montio-Cardaminetea, Julian Alps 

INTRODUCTION analyses should be provided. During our extensive 

resesarch on subalpine and alpine vegetation of 
Vegetation of cold springs, commonly dominated the Julian Alps, mainly in the Krn Mts. (Southeastby bryophytes (Montio-Cardaminetea Br.-Bl. et R. Tx. ern Calcareous Alps), we came across similar stands 
ex Klika et Hadač 1944 em. Zechmeister 1993), is with predominating Cratoneuron commutatum s. lat. 
in Slovenia still poorly known. The only phytosoci-(=Palustriella commutata) and some other higrophilological data on the vegetation of calcareous spring ous species of mosses and phanerogams. Thus the 
communities (Cratoneurion commutati Koch 1928) aim of the paper is to contribute to the knowledge 
gave Aichinger (1933: 65, Tab. 17, 6 relevés). While of the vegetation of the class Montio-Cardaminetea in 
investigating the vegetation of the Karavanke Mts. Slovenia. 
(Southeastern Calcareous Alps) he described the 
new association Cratoneuretum commutati Aichinger 
1933 although it is still far from clear whether or METHODS 
not it would be properly to place selective stands 
into the already described association Cratoneure-Phytosociological research was performed in the 
tum commutati Koch 1928 (Aichinger 1933: 64) Krn Mts. and Mt. Mangart (the Julian Alps, South-
since no comparison has been made to date. To eastern Calcareous Alps) applying the sigmatistic 
solve the selective syntaxonomic problem further phytosociological method (Braun-Blanquet 1964). 

* University of Primorska, Science and Research Centre of Koper, Garibaldijeva 1, SI-6000 Koper, bostjan. 
surina@zrs-kp.si 
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HACQUETIA 4/1 • 2005 

For individual taxa a coverage index (Ic) (Lausi & 
al. 1982) and a share of coverage of each taxon in 
association (D%) were calculated using the following formula: 


n – number of relevés in the phytosociological 

table 

ci – coverage value of registered taxa 

csum – sum of coverage values of all taxa in the 

phytosociological table 

For that purpose we first performed a linear 
transformation of cover values for individual taxa 
(van der Maarel 1979: r=1, +=2, 1=3, 2=5, 3=7, 4=8, 
5=9). 

The nomenclature source for phanerogams was 
the Register of the Flora of Slovenia (Trpin & Vreš 
1995) and for mosses the Annotated check-list of 
the mosses of Slovenia (Martinčič 2003). The exception is the moss species Cratoneuron commutatum 
(=Palustriella commutata), where we follow the older 
nomenclature, which is in agreement with the 
present-day syntaxonomic treatise of the spring 
vegetation (Montio-Cardaminetea). With the syntaxonomical treatise of the stands we followed Zechmeister (1993). Collected specimens are stored at 
the Herbarium of the Scientific Research Centre of 
Slovenian Academy of Sciences and Arts (ZRC). 

RESULTS AND DISCUSSION 

Floristic composition of the stands 

Characteristic combination of species is composed of Cratoneuron commutatum var. falcatum, Philonotis calcarea, Epilobium alsinifolium and Heliosperma quadridentatum which is for the most part in 
agreement with Zechmeister (1993: 230). 

An edificator of the association is moss species 
Cratoneuron commutatum var. falcatum4–5 practicaly 
overgrowing the stands (Ic=93, Fig. 1). Other characteristic species also achieve a rather high frequency and coverage values, e.g. Heliosperma 
quadridentatum1–3 (Ic=37), Epilobium alsinifolium1–2 
(Ic=33) and Philonotis calcarea1–2 (Ic=24). C. commutatum s. lat. and Epilobium alsinifolium are also transgressive characteristic species of the class Montio-
Cardaminetea. Among the species of the order Mon

tio-Cardaminetalia and class Montio-Cardaminetea we 
noticed Saxifraga stellaris+–3 (Ic=26), S. aizoides+–2 
(Ic=19) and Pinguicula alpina+ (Ic=4). Other species 
of various syntaxonomical groups have lower frequency and coverage values in the stands; in half of 
relevés we noticed Campanula cohleariifolia+(Thlaspietea rotundifolii s. lat.), Parnassia palustris+ and 
Poa alpina+–1 (Elyno-Seslerietea), the last one as constant companion species of the association. Total 
floristic composition is evident in the phytosociological Table 1. 


Figure 1: Stand of the association Cratoneuretum falcati
Gams 1927 from the Swiss Alps (Murgsee, 1790 m a. s. l.)
.
Photo: B. Surina.
Slika 1: Sestoj asociacije Cratoneuretum falcati Gams 1927 iz 
Švicarskih Alp (Murgsee, 1790 m nm. v.). Foto: B. Surina.


Mosses totaly dominate in stands covering at 
least 50 % while ferns (Cystopteris regia only) and 
flowering plants at the most 50 % of the relevé area. Most species of ferns and flowering plants are 
hemicryptophytes (20), six species belong to 
chamaephytes while there are only one geophyte 
and therophyte. In the stands, no phanerophyte 
was observed (see Phytosoc. Tab. 1 and Fig. 2). 

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BOŠTJAN SURINA: CONTRIBUTION TO THE SPRING VEGETATION OF THE JULIAN ALPS: THE ASSOCIATION CRATONEURETUM FALCATI GAMS 1927 


Figure 2: Plant life forms spectrum and a share of their coverage (D%) in the stands of the association Cratoneuretum 
falcati Gams 1927. 
Slika 2: Biološki spekter in delež pokrovnosti (D%) življenjskih oblik v sestojih asociacije Cratoneuretum falcati Gams 
1927. 

Ecology and floristical variability of the stands 

Stands of the association Cratoneuretum falcati 
are optimaly developed in the subalpine and alpine 
belt. According to the literature data, the pH value 
of water is at least 7,1 (see Zechmeister 1993: 230). 
It looks that calcareous soil is even more important 
ecological parameter for the establishment of 
stands of the association, since it determines the 
water chemistry. Soil layer is rather thin and composed of mixture of humus and tiny sand particles 
or the stands thrive on bare rock (lithosols) with 
permanently trickled water, as in most of our cases. 
On some localites in the Krn Mts. (the locality »Čez 
Potoče«), stands are developed in the spring channel. In the Krn Mts. the stands beside the path from 
Pl. Polje pasture to the Čez Potoče pass are developed at an altitude between 1590–1864 m a. s. l. 
but they were also observed on shaded, calcareous 
rocks (2035 m a. s. l.) between the Krnska Škrbina 
pass and Mt. Krn (2242 m a. s. l.). The inclination 
of stands is quite variable; the median is 62,50, minimal 100 and maximal 800. 

The relevé area rarely exceeds 4 m2 (median is 
2 m2). Alltogether we noted 35 taxa, 28 species of 
phanerogams and seven moss species in stands. 
Four moss species stayed unidentified and they are 
not included in the phytosociological table. The 
median of the number of species per plot size is 10, 
minimal 6 and maximal 17 and it depends on cover 
values of mosses, specially of Cratoneuron commutatum var. falcatum: where mosses cover majority of 

stands the number phanerogams is low and vice 
versa. Because of small number of species in stands 
of the association, the coefficient of variation of 
number of species per plot size is rather high 
(42,5 %). 

Distribution and syntaxonomical position of the 
stands 

Stands of the association Cratoneuretum falcati 
are distributed throughout the entire holarctic area (Philippi 1975). On the other hand, phytosociological data on the subject from the Southeastern 
Calcareous Alps are rather scarce. Aichinger (1933: 
Tab. 17) studied similar stands from the Karavanke 
Mts. and performed five relevés of spring vegetation with totaly dominating Cratoneuron commutatum3–5. Subsequently, he placed them in the association Cratoneuretum commutati Aichinger 1933. 
These stands are most typically developed in a 
montane belt and they differ from stands of the association Cratoneuretum falcati Gams 1927 by absence or only sporadic presence of some of the 
characteristic species of latter, such as Epilobium alsinifolium, Philonotis calcarea and Heliosperma quadridentatum. 

Because of taxonomic problems and difficulties 
in distinguishing the taxa within the C. commutatum 
aggregate, the precise evaluation of area of distribution and ecology of the association, specially on 
the basis of older literature data, is not possible. It 
is generally established that at higher altitude 
(above 1500 m a. s. l.) the typical form (variety) C. 
commutatum var. commutatum is replaced by C. commutatum var. falcatum (Zechmeister 1993: 230, 
Mertz 2000: 338). Although the first recordings for 
the Julian Alps (namely from the Mts. of Krn and 
Mangart) are given in the present paper, stands of 
the association Cratoneuretum falcati are much more 
frequent. Dakskobler observed relevant stands on 
many places, e.g. on slopes of Loška stena above 
the Koritnica valley, beneath the Mt. Šplevta above 
the Beli potok valley, arround the spring of Mala 
Pišnica and many other localities (Dakskobler, 
pers. comm.). 

Phytosociologists do not agree on the syntaxonomical treatment of stands dominated by Cratoneuron commutatum agg. in the Alps (Montio-Cardaminetea). Differences derive from the fact that the 
taxonomic problem concerning polymorphism of 
Cratoneuron commutatum agg. is stil not completely 
solved. Although the taxa Cratoneuron commutatum 
(Hedw.) Roth (=Palustriella commutata [Hedw.] 
Ochyra) and C. commutatum var. falcatum (Brid.) 

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HACQUETIA 4/1 • 2005 

Mönk. prefer different habitats it is far from clear 
whether or not morphological characteristics of 
the variety “falcatum” are fixed geneticaly (Hill & al. 
1994). Nevertheless, many bryologist distinguish 
the taxa on the level of variety (e.g. Pavletić 1955: 
414, 1968: 335, Frahm & Frey 1992: 425, Smith 
1996: 543, Martinčič 2003: 112) or even species 
level (e.g. Dierssen 2001: 137), whereas some of 
them within a polymorphic taxon C. commutatum 
(Hill & al. 1994, Huber 1998: 261–262). Many phytosociologists who have studied the vegetation of 
cold, calcareous springs, dominated by bryophytes 
(order Montio-Cardaminetalia and alliance Cratoneurion commutati s. lat.), have treated relevant stands 
withintheassociation Cratoneuretumcommutati Koch 
1928 (e.g. Oberdorfer 1994: 37, Rodwell & al. 2002: 
63) or Cratoneuretum commutati Aichinger 1933 
(Mertz 2000: 338) within the alliances Cratoneurion 
Koch 1928 either Adiantion Br.-Bl. ex Horvatić 1939 
(Zechmeister 1993: 232–234). In contrast, Zechmeister has been more subtle and has distinguished 
homogenous stands with dominating Cratoneuron 
commutatum (montane belt) from stands with Cratoneuron commutatum var. falcatum (subalpine and 
alpine belt). He placed the association Cratoneuretum commutati Aichinger 1933 in the alliance Adiantion, whereas the association Cratoneuretum falcati 
Gams 1927 in the alliance Cratoneurion (Zechmeister 1993: 229–234). In the paper we followed 
Zechmeister’s syntaxonomical proposition. 

Acknowledgments 

I am indebted to dr. Igor Dakskobler (Institute 
of Biology, Centre for Scientific Research of Slovenian Academy if Sciences and Arts) for kindly sharing valuble and unpublished data on distribution 
of association Cratoneuretum falcati in the Julian 
Alps. The research was carried out at the Institute 
of Biology, Scientific Research Centre of Slovenian 
Academy of Sciences and Arts. 

POVZETEK 

Prispevek k poznavanju povirne vegetacije Julijskih 
Alp: asociacija Cratoneuretum falcati Gams 1927 

Vegetacija hladnih povirij, v katerih prevladujejo mahovi (Montio-Cardaminetea), je v Sloveniji še 
zelo slabo raziskana. Prve tovrstne podatke za Jugovzhodne Apneniške Alpe je prispeval Aichinger 
(1933) pri proučevanju vegetacije Karavank. Podal 

je pet fitocenoloških popisov, v katerih prevladuje 
takson Cratoneuron commutatum (= Palustriella commutata), in jih uvrstil v novo opisano asociacijo Cratoneuretum commutati Aichinger 1933. Pri raziskovanju subalpinske in alpinske vegetacije v Julijskih 
Alpah, predvsem v Krnskem pogorju in okolici 
Mangarta, smo opazili podobne povirne sestoje, v 
katerih prevladujejo mahovna vrsta Cratoneuron 
commutati var. falcatum ter nekatere vlagoljubne vrste semenk. V prispevku smo želeli podati fitocenološko oznako teh sestojev ter tako prispevati k poznavanju vegetacije razreda Montio-Cardaminetea v 
Sloveniji. 

Značilno kombinacijo vrst v proučevanih sestojih sestavljajo vrste Cratoneuron commutatum var. 
falcatum, Philonotis calcarea, Epilobium alsinifolium in 
Heliosperma quadridentatum. Mahovna vrsta Cratoneuron commutatum var. falcatum4–5 je graditeljica asociacije in praktično prekriva rastišča (Ic = 93). Veliko pokrovno vrednost dosegajo tudi ostale značilnice asociacije, in sicer vrste Heliosperma quadridentatum1–3 (Ic = 37), Epilobium alsinifolium1–2 (Ic = 33) in 
Philonotis calcarea1–2 (Ic = 24). Od vrst reda Montio-
Cardaminetalia oz. razreda Motnio-Cardaminetea smo 
zapisali vrste Saxifraga stellaris+–3 (Ic = 26), S. aizoides+–2 (Ic = 19) in Pinguicula alpina+ (Ic = 4). Vse ostale vrste, ki pripadajo različnim sintaksonomskim 
skupinam, imajo majhno stalnost in pokrovno 
vrednost; v polovici popisov smo opazili le vrste 
Campanula cohleariifolia+(Thlaspietea rotundifolii s. 
lat.), Parnassia palustris+ (spremljevalna vrsta) in 
Poa alpina+–1 (Elyno-Seslerietea), slednjo navaja Zechmeister (1993: 230) kot konstantno spremljevalko. 
Ostale vrste, ki se pojavljajo v manj kot polovici popisov, so razvidne iz fitocenološke tabele 1. V asociaciji po pokrovnosti prevladujejo mahovne vrste in 
pokrivajo najmanj 50 in največ 90 % površine rastišč (srednja vrednost je 65 %) (slika 2). Nekaj primerkov je ostalo nedoločenih in jih nismo vključili 
v fitocenološko tabelo. Praprotnice (le vrsta Cystopteris regia) in semenke pokrivajo največ 50 % površine rastišč, najmanj 10 %, srednja vrednost pa je 
30 %. Največ praprotnic in semenk smo uvrstili v 
skupino hemikriptofitov (20), po eno vrsto pa med 
geofite in terofite. V sestojih smo opazili šest vrst, ki 
smo jih uvrstili v skupino hemikriptofitov. 

Asociacija je optimalno razvita v subalpinskem 
in alpinskem pasu. Po podatkih iz literature dosega 
pH vode vrednost vsaj 7,1 (glej Zechmeister, 1993: 
230), še pomembnejši okoljski parameter za razvoj 
asociacije pa je karbonatna podlaga, ki določa kemizem vode. Talno podlago navadno gradi tanka 
plast humusa in drobnega peska, a se asociacija 

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BOŠTJAN SURINA: CONTRIBUTION TO THE SPRING VEGETATION OF THE JULIAN ALPS: THE ASSOCIATION CRATONEURETUM FALCATI GAMS 1927 

(kar velja v našem primeru) lahko razvije tudi na 
goli skali v ostenju, čez katero v večini leta mezi voda oziroma na drobnem prodnem pesku v strugi 
manjšega potoka ali ob njej. V Krnskem pogorju 
smo jo opazili v nadmorski višini 1590 in 1864 m 
(potok ob stezi, ki od Pl. Polje vodi na prelaz Čez 
Potoče) oziroma 2035 m v osojnem ostenju med 
Krnsko Škrbino in Krnom. Naklon rastišč lahko 
precej niha. Njegova srednja vrednost v šestih popisih je bila 62,50, najmanj 100 in največ 800. Sestoje 
smo popisali na majhni površini, in sicer na najmanj dveh in največ štirih kvadratnih metrih (srednja vrednost je 2 m2). V šestih popisih smo zapisali 
35 taksonov, 27 vrst semenk, eno vrsto praproti in 
sedem mahovnih vrst. Štiri mahovni primerki so 
ostali nedoločeni in jih nismo uvrstili v fitocenološko tabelo. Da bi dobili boljši vpogled v floristično 
zgradbo in okoljske razmere rastišč asociacije, smo 
opravili tudi tri popise v območju Mangarta in jih 
vključili v fitocenološko tabelo. 

Srednje število vrst na popisno ploskev je deset, 
najmanj šest in največ 17 in je odvisno od pokrovne 
vrednosti mahov, zlasti vrste Cratoneuron commutatum var. falcatum: kjer mahovna plast pokriva večji 
delež površine rastišč, se pojavlja manjše število semenk in vice versa. Koeficient variacije števila vrst 
na popisno ploskev je velik in znaša 42,5 %. 

Philippi (1975) meni, da uspeva asociacija Cratoneuretum falcati v celotnem holarktičnem območju. V Julijskih Alpah smo jo zaenkrat dokumentirali 
le z našimi fitocenološkimi popisi (s Krnskega pogorja in Mangarta), a je gotovo bolj pogosta, saj je 
Dakskobler sestoje asociacije Caratoneuretum falcati 
opazil še na veliko krajih, npr. na pobočjih pod Loško steno v dolini Koritnice, pod Šplevto nad doli-
no Belega potoka v Trenti, v povirju Male Pišnice 
in drugod (Dakskobler, pisno sporočilo). 

Aichinger (1933: tab. 17) je v Karavankah opravil 5 fitocenoloških popisov povirnih sestojev, kjer 
popolnoma dominira vrsta Cratoneuron commutatum3–5, in jih uvrstil v novo opisano asociacijo Cratoneuretum commutati Aichinger 1933. Ta asociacija 
dosega svoj optimum v montanskem pasu in se razlikuje od asociacije Cratoneuretum falcati Gams 1927 
med drugim tudi v odsotnosti in skromni zastopanosti nekaterih značilnic in pogostih vrst slednje, 
in sicer vrst Epilobium alsinifolium, Philonotis calcarea 
in Heliosperma quadridentatum. 

Taksonomske težave agregata Cratoneuron commutatum agg. onemogočajo natančno sintaksonomsko in okoljsko vrednotenje asociacije, saj so predvsem starejši literaturni podatki o pojavljanju tega 
taksona nezanesljivi. Načeloma velja, da varieteta 

C. commutatum var. falcatum v višjih legah nadomešča tipično – C. commutatum var. commutatum. 
APPENDIX 

Localites of relevés 

1. Slovenia, the Julian Alps, Krn Mts., spring by 
the path from Pl. Pollje pasture to Čez Potoče pass. 
MTB: 9748/1, UTM: UM92; leg. & det.: B. Surina, 
6.8.2003. 2. Slovenia, the Julian Alps, Krn Mts., 
spring by the path from Pl. Polje pasture to Čez 
Potoče pass. MTB: 9748/113, UTM: UM92; leg. & 
det.: B. Surina, 6.8.2003. 3. Slovenia, the Julian 
Alps, Mt. Mangart, above the road to Mangartsko 
sedlo pass, just before the highest tunnel. MTB: 
9547/4, UTM: UM94; leg. & det.: D. Stešević & B. 
Surina, 10.8.2003. 4. Slovenia, the Julian Alps, Mt. 
Mangart, above the road to Mangartsko sedlo pass, 
just before the highest tunnel. MTB: 9547/4, UTM: 
UM94; leg. & det.: D. Stešević & B. Surina, 10.8.2003. 
5. Slovenia, the Julian Alps, Mt. Mangart, above the 
road to Mangartsko sedlo pass, just before the highest tunnel. MTB: 9547/4, UTM: UM94; leg. & det.: 
D. Stešević & B. Surina, 10.8.2003. 6. Slovenia, the 
Julian Alps, Krn Mts., shady and moist rock crevices 
between the Krnska škrbina pass and Mt. Krn. 
MTB: 9748/1, UTM: UM92; leg. & det: B. Surina, 
22.8.2003. 
REFERENCES 

Aichinger, E. 1933: Vegetationskunde der Karawanken. Pflanzensoziologie, 2. Gustav Fischer, 
Jena, 329 pp. 

Braun-Blanquet, J. 1964: Pflanzensoziologie. 
Grundzüge der Vegetationskunde. 3. Auflage. 
Springer, Wien – New York, 865 pp. 

Dierssen, K., 2001: Distribution, ecological amplitude and phytosociological characterization of 
European bryophytes. Bryophytorum Bibliotheca 56: 1–289. 

Frahm, J. P., Frey, W. 1992: Moosflora. Verlag Eugen Ulmer, Stuttgart, 528 pp. 

Hill, M. O., Preston, C. D., Smith, A. J. E. 1994: Atlas of Bryophytes of Britain and Ireland. Volume 3. Mosses (except Diplolepidae). Colchester, 400 pp. 

Huber, A., 1998: Die Mosse im Grossraum Regensburg und ihre Einsatzmöglichkeiten als Bioindikatoren für Radiocäsium. Hoppea, Denkschr. 
Regensb. Bot. Ges. 59: 5–683. 

57 


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Lausi, D., Gerdol, R., Piccoli, F., 1982: Syntaxonomy of the Ostrya carpinifolia woods in the southern Alps (N-Italy) based on numerical methods. 
Studia Geobotanica 2: 41–58. 

Martinčič, A., 2003: Seznam listnatih mahov (Bryopsida) Slovenije. Hacquetia 2 (1): 91–166. 

Mertz, P. 2000: Pflanzengesselschaften Mitteleuropas und der Alpen. Ecomed, Landsberg/Lech, 
511 pp. 

Oberdorfer, E. 1994: Pflanzensoziologische Exkursionsflora. Ulmer, Stuttgart, 1050 pp. 

Pavletić, Z. 1955: Prodromus flore briofita Jugoslavije. JAZU, Zagreb, 577 pp. 

Pavletić, Z. 1968: Flora mahovina Jugoslavije. Institut za botaniku Sveučilišta u Zagrebu, Zagreb, 
431 pp. 

Philippi, G., 1975: Quellflurgesellschaften der 
Allgäuer Alpen. Beiträge zur naturkundlichen 
Forschung in Südwestdeutschland 34: 259–287. 

Rodwell, J. S., Mucina, L., Pignatti, S., Moss, D. 
2002: The Diversity of European Vegetation. An 
overview of phytosociological alliances and their 
relationships to EUNIS habitats. Report ECLNV nr. 2002/054. JB&A, Wageningen, 168 pp. 

Smith, A. J. E. 1996: The Moss Flora of Britain & 
Ireland. Cambridge University Press, Cambridge, 706 pp. 

Trpin, D., Vreš, B. 1995: Register flore Slovenije. 
ZRC SAZU, Ljubljana, 143 pp. 

van der Maarel, E., 1979: Transformation of cover-
abundance values in phytosociology and its effects on community similarity. Vegetatio 39 (2): 
97–114. 

Zechmeister, H. G. 1993: Montio-Cardaminetea. In: 
Grabherr, G., Mucina, L. (eds.): Die Pflanzengesellschaften Österreichs. Teil II: Natürliche waldfreie Vegetation. Jena – Stuttgart – New 
York, pp. 213–240. 

Recieved 13. 10. 2004 
Revision recieved 23. 11. 2004 
Accepted 20. 1. 2005 

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BOŠTJAN SURINA: CONTRIBUTION TO THE SPRING VEGETATION OF THE JULIAN ALPS: THE ASSOCIATION CRATONEURETUM FALCATI GAMS 1927 

Table 1 (Tabela 1): Cratoneuretum falcati Gams 1927 
Number of relevé 1 2 3 4 5 6 
Altitude (m) 1590 1864 1818 1800 1800 2035 
Exposition E SE S S S N 
Inclination (0) 45 10 15 45 80 80 
Cover (%) Herb layer C 10 40 20 20 40 50 
Moss layer D 90 60 70 50 90 50 
Relevé area (m2) 2 2 2 4 3 2 
Number of taxa 7 13 17 13 7 6 fr % I c D% 
Characteristic species combination 
Cratoneuron commutatum var. falcatum D 5 4 4 4 5 4 6 100 92.592 23 
Heliosperma quadridentatum C . . 1 2 2 3 4 67 37.037 9 Ha 
Philonotis calcarea D . . 2 2 1 . 3 50 24.074 6 
Cratoneurion, Montio-Cardaminetalia & Montio-Cardaminetea 
Epilobium alsinifolium C 2 2 . 1 2 . 4 67 33.333 8 He 
Saxifraga stellaris C . . + 2 3 . 3 50 25.925 6 Ha 
Saxifraga aizoides C . 2 1 . . + 3 50 18.518 5 Ha 
Pinguicula alpina C . . + . . . 1 17 3.703 1 He 
Thlaspietea rotundifolii s. lat. 
Campanula cochleariifolia C + . + + . . 3 50 11.111 3 He 
Adenostyles glabra C + + . . . . 2 33 7.407 2 He 
Saxifraga sedoides C . . . . . 1 1 17 5.555 1 Ha 
Cerastium carinthiacum / austroalpinum C . . . . + . 1 17 3.703 1 Ha 
Polygonum viviparum C . + . . . . 1 17 3.703 1 Ge 
Rhodiola rosea C . + . . . . 1 17 3.703 1 He 
Leontodon hispidus / hyoseroides C . + . + . . 2 33 7.407 2 He 
Elyno-Seslerietea 
Poa alpina C . + . + . 1 3 50 12.962 3 He 
Aster bellidiastrum C . . + . . . 1 17 3.703 1 He 
Carex sempervirens C . . . + . . 1 17 3.703 1 He 
Thymus alpigenus C . + . . . . 1 17 3.703 1 He 
Galium anisophyllum C . + . . . . 1 17 3.703 1 He 
Juncus monanthos C . . + . . . 1 17 3.703 1 He 
Ranunculus carinthiacus C . . + . . . 1 17 3.703 1 He 
Other species 
Parnassia palustris C . + + + . . 3 50 11.111 3 He 
Viola biflora C . + + . . . 2 33 7.407 2 He 
Deschampsia caespitosa C + + . . . . 2 33 7.407 2 He 
Cystopteris fragilis C . . + . . . 1 17 3.703 1 He 
Cerastium subtriflorum C . . + . . . 1 17 3.703 1 Ha 
Euphrasia picta C . . . + . . 1 17 3.703 1 Te 
Hieracium bifidum C + . . . . . 1 17 3.703 1 He 
Selaginella selaginoides C . . + . . . 1 17 3.703 1 He 
Mosses 
Bryum sp. D . 1 . 1 . . 2 33 11.111 3 
Meesia uliginosa D . . . + 1 . 2 33 9.259 2 
Amblystegium tenax D . . 2 . . . 1 17 9.259 2 
Brachythecium sp. D . . . . . 1 1 17 5.555 1 
Eurhynchium striatum D . . 1 . . . 1 17 5.555 1 
Isothecium myurum D + . . . . . 1 17 3.703 1 

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