635 Kabas et al.vp


Acta Bot. Croat. 72 (1), 169–184, 2013 CODEN: ABCRA 25
ISSN 0365–0588

eISSN 1847-8476

Stipetum novakii ass. nova – a new association

of serpentine rocky grassland vegetation

(Halacsyetalia sendtneri) in Serbia

EVA N. KABA[1*, ANTUN A. ALEGRO2, NEVENA V. KUZMANOVI]1,
KSENIJA M. JAKOVLJEVI]1, SNE@ANA S. VUKOJI^I]1, DMITAR V. LAKU[I]1

1 Institute of Botany and Botanical Garden, Faculty of Biology, University of Belgrade,
Takovska 43, 11000 Belgrade, Serbia

2 Department of Botany, Faculty of Science, University of Zagreb, Maruli}ev trg 20/II,
10000 Zagreb, Croatia.

Abstract – Phytosociological characteristics of grassland communities above serpentines
(order Halacsyetalia sendtneri H. Ritter-Studni~ka 1970) in Serbia, are analyzed accord-
ing to Braun-Blanquet methodology. In order to detect the basic floristic differentiation of
analyzed communities ordinary correspondence analysis was applied. Cluster analysis was
also performed to see the structure and separation of the communities based on the floristic
composition. In order to determine diagnostic species, fidelity indices with presence/
absence data and the size of all groups standardized to equal size were calculated. The new
association Stipetum novakii is described in open rocky serpentine grasslands in Brdjani
Gorge.

Key words: Stipetum, serpentine, ordination, fidelity, Serbia

Introduction

Serpentine (ophiolithic, ultramafic) rocks represent a group of siliceous rocks which are
characterized by calcium deficiency, high concentrations of aluminium, iron, magnesium,
nickel, cobalt and chromium, and a few plant nutrients. In contrast to other acid siliceous
rocks, the pH values of the serpentine substrate vary from basic to ultrabasic (pH 5.5–8).
Serpentine flora and vegetation differ from those occurring on other types of siliceous
substrates or limestone. Open serpentine habitats are characterized by pronounced thermo-
philous character and xeric conditions. The xerothermic character of serpentine plants is
also enhanced by the specific chemical composition of the serpentine substrate (STEVANOVI]
et al. 2003). All of this results in a great number of specific adaptations (nanism, purpur-

ACTA BOT. CROAT. 72 (1), 2013 169

* Corresponding author, e-mail: ekabas@bio.bg.ac.rs
Copyright® 2013 by Acta Botanica Croatica, the Faculty of Science, University of Zagreb. All rights reserved.

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escence, glaucescence, stenophyllism, plagiotropism etc.) as well as the occurrence of
numerous relic and endemic species.

The largest serpentine areas in Europe are in the Balkan peninsula (Epirus, Thessaly and
Sterea Ellas in Greece, N, NC and SE Albania, C and E Bosnia, W, SW and C Serbia, E and
C Rhodopes mountains in Bulgaria and gorge of River P~inja and SE slopes of Mt [ar
Planina in the NE part of Republic of Macedonia). In the territory of Serbia, the most
frequent serpentine zones are in its C, W, NW and SW parts (JAKOVLJEVI] et al 2011).
General overviews of the rich and interesting endemic serpentine flora in the Balkans are
given by TATI] and VELJOVI] (1990) and STEVANOVI] et al. (2003).

In Serbia 19 associations were described in serpentine rocky grasslands (JOVANOVI] et
al. 1986, LAKU[I] and SABOVLJEVI] 2005) within the alliance Centaureo-Bromion fibrosi
Ble~i} et al. 1960 (order Halacsyetalia sendtneri H. Ritter-Studni~ka 1970. Since the
ultrabasic serpentine substrate appears between 500 to 1900 m a.s.l., their syntaxonomic
diversity might be considerable, and this kind of vegetation requires a more objective
revision of all syntaxa within the alliance Centaureo-Bromion fibrosi and order Hala-
csyetalia sendtneri.

The aim of this paper is to present the phytosociological analyses of the community
dominated by Stipa novakii Martinovsky and compare it with the other communities of this
type in Serbia, as well as to give an insight into the ecological characteristics in order to
clarify its syntaxonomic position.

Materials and methods

Study area

The community dominated by Stipa novakii has been studied on serpentine rocky soils
and small screes in different phases of genesis in Br|ani Gorge in Serbia. Br|ani Gorge is
located high between Mt Vujan and Ilijak hill. It is 5 km long, 5 km away from the town of
Gornji Milanovac, extending in a north to south direction, passing through the Ibarska
highway. The gorge was cut by the Western Morava 3rd rank tributary, the Despotovica. The
sides of the gorge are slanted at an angle of 10–70°, at an altitude around 300 m.
Geologically, the gorge is mostly composed of the serpentine habsburgite–serpentinite.
Rock erosion led to the formation of a pedological layer. These are rather shallow soils of
low fertility and rock particles are abundantly and inherently present. The soil is eroded and
has a mildly alkaline to neutral reaction (VI]ENTIJEVI]-MARKOVI] 2004). The xerophilous
oak forests of the alliance Quercion frainetto represent the potential of vegetation in this
place (HORVAT et al. 1974). However, since the major parts of the forests are completely
degraded, the dominant vegetation type in this place is steppe–like grassland vegetation.
Climate type in this area is temperate-continental, but in its slighter subhumid variant (Fig.
1.). The annual mean temperature is 10.8 °C and the annual precipitation is 796 mm.
January is the coldest month with a temperature of –3.8 °C, while August is the warmest
with atemperature of 26.5 °C. The wettest month is May with a precipitation of 89 mm and
February is the driest, with 50 mm (HIJMANS et al. 2005). The vegetation period lasts eight
months. It is important to say that the greatest amount of precipitation comes precisely
during the vegetation season (from April to June), winter is the driest season, and winds are
not frequent.

170 ACTA BOT. CROAT. 72 (1), 2013

KABA[ E. N., ALEGRO A. A., KUZMANOVI] N. V., JAKOVLJEVI] K. M., VUKOJI^I] S. S., LAKU[I] D. V.

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Field sampling

Sampling was done according to the methodology and protocols traditionally used in
phytosociology. Relevés were made according to BRAUN-BLANQUET (1964). Plot size was
usually 25 square meters, with the exception of three stands which were made on smaller
relevé area (6, 20 and 14 m2) because of the terrain features. The stands were recorded on
serpentine soil on altitudes between 320 and 360 m on south, east and south-east exposed
slopes with an inclination of 10 to 40 °. Cover of rocks within the stand area varied from
10–70%. The sampling period was spring, 2011. Nomenclature of plant taxa, with a few
exceptions, follows the FLORA EUROPAEA DATABASE. All taxa with authors’ names quoted in
the paper are given in table 1.

Data analysis

In order to detect specificity and resolve the syntaxonomy of the community dominated
by Stipa novakii, we processed 185 relevés belonging to 18 associations traditionally
included in the alliance Centaureo-Bromion fibrosi (Halacsyetalia sendtneri), distributed
throughout the territory of Serbia (Table 1, Fig 2). The communities Eryngio-Brometum
fibrosi Z. Pavlovi}, 1962 ex V. Randjelovi} 2004 and Halascya sendtneri-Potentilla mollis
Z. Pavlovi} 1962, are described just on the basis of two relevés and hence not included in
numerical analyses.

After transformation of Braun-Blanquet abundance-cover scale according to WESTHOFF
and VAN DER MAAREL (1973), the relevés were subjected to correspondence analysis (CA) in
order to detect the basic structure of the floristic composition. Relevés that showed a
significant deviation from the main core of the relevés typical of the analyzed vegetation
were excluded from further numerical analysis. Finally, the main core of relevés was
classified using the UPGMA (unweighted pair-group average linkage) cluster method based
on Chord distance as a heterogeneity measure. These analyses were performed using
FLORA software (KARAD@I] et al. 1998).

Due to the fact that traditionally recognized characteristic and differential species, in
most cases, have mainly regional validity, the same species can occur in different species

ACTA BOT. CROAT. 72 (1), 2013 171

A NEW SERPENTINE ROCKY GRASSLAND ASSOCIATION

0

5

10

15

20

25

30

35

40

45

50

I II III IV V VI VII VIII IX X XI XII
0

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40

50

60

70

80

90

100

temperature rainfall

ra
in

fa
ll

(m
m

)

te
m

p
e
ra

tu
re

(°
C

)

10.76 °C 796 mm

Fig. 1. The climate diagram for Br|jani Gorge in Serbia (from WALTER and LEITH 1964).

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172 ACTA BOT. CROAT. 72 (1), 2013

KABA[ E. N., ALEGRO A. A., KUZMANOVI] N. V., JAKOVLJEVI] K. M., VUKOJI^I] S. S., LAKU[I] D. V.

Tab. 1. Communities traditionally included in alliance Centaureo-Bromion fibrosi of order Hala-
csyetalia sendtneri, that are used to compare.

No. Associations
UTM

(10×10 km)
Localities Reference

1. Festuco duriusculae-
Euphorbietum glabriflorae

S. Jov. et R. Jov.

CP75 Tara, Zlatibor,
980–1060 m a.s.l.

JOVANOVI] et al.
(1992)

2. Festuco sulcatae- Potentilletum
zlatiborensis Z. Pavlovi} 1951

CT94 Zlatibor,
890–1020 m a.s.l.

PAVLOVI] (1951)

3. Poo molinieri- Plantaginetum
holostei Z. Pavlovi} 1951

DP72 Studena Mt.,
910–1250 m a.s.l.

PAVLOVI] (1951)

4. Artemisio-Teucrietum montani
Bla`en~i}, Vu~kovi}, R. 1983

DP91 Go~, Mitrovo Polje,
710 –810 m a.s.l.

BLA@EN^I] and
VU^KOVI] (1986)

5. Carici humilis-Festucetum
pancicianae R. Jovanovi} et
S. Jovanovi} 1987

DM79 Kopaonik,
1650–1900 m a.s.l.

JOVANOVI]-DUNJI]
and JOVANOVI]
(1987)

6. Potentillo tommasinianae-
Festucetum pancicianae

D. Laku{i} 1989

DM79 Kopaonik, Krmeljica,
1050–1070 m a.s.l.

LAKU[I] and
RAN\ELOVI] (1996)

7. Artemisio-Silenetum armeriae
D. Laku{i} 1989

DM99 Kopaonik, Vlajkovci,
700–750 m a.s.l.

LAKU[I] and
RAN\ELOVI] (1996)

8. Sedo-Dianthetum serbici
Z. Pavlovi} 1967

DN77 Rogozna,
500–850 m a.s.l.

PAVLOVI] (1967)

9. Potentillo-Fumanetum bonaparti
Rexhepi 1979

DN85 Ibar Valley – Kosovo,
600–900 m a.s.l.

REXHEPI (1979)

10. Hyperico-Euphorbietum
glabriflorae Rexhepi 1978

EN05 Kopaonik, Barelj,
1500m a.s.l.

REXHEPI
(pers. comm.)

11. Onosmato-Scabiosetum
fumarioides Rexhepi 1978

DN60 Kozni~ka Boka,
800–960 m a.s.l.

REXHEPI (1985)

12. Polygalo-Genistetum
hassertianae Ble~i} et al. 1969

DN60 Kozni~ka Boka,
620–810 m a.s.l.

BLE^I] et al.
(1969)

13. Hyperico-Euphorbietum
glabriflorae Rexhepi 1978

DN80 Drenica, Nekoc,
730–895 m a.s.l.

KRASNIQI and
MILLAKU (2007).

14. Sedo-Bornmüellerietum dieckii
Ble~i} et al. 1969

DN97 [arplanina, Ostrovica,
1280–1380 m a.s.l.

BLE^I] et al.
(1969)

15. Bornmüellero dieckii-
Seslerietum latifoliae

S. Jov. et V. Stev.

DN97 [arplanina, Ostrovica,
1700 m a.s.l.

JOVANOVI] et al.
(1992)

16. Cynancho-Saponarietum
intermediae Ble~i}, Tati} et
Krasni}i 1969

EM07 [ara Mt., Brezovica,
820–1270 m a.s.l.

BLE^I] et al.
(1969)

17. Stipeto-Convolvuletum compacti
Millaku et al. 2011

EM16 Kosovo, Gurane,
650–735 m a.s.l.

MILLAKU et al.
(2011)

18. Festuco-Plantaginetum serpentini
Randjelovi} et Ru`i} 1982

EM57 Pre{evo, Miratovac,
600–960 m a.s.l.

RAN\ELOVI]
and RU@I] (1983)

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combinations in different regions (e.g. in other mountain ranges as a consequence of a
different florogenesis). This is the case with all the mentioned lists of Balkan syntaxa in
which characteristic and differential species are characterized with a high degree of

ACTA BOT. CROAT. 72 (1), 2013 173

A NEW SERPENTINE ROCKY GRASSLAND ASSOCIATION

Fig. 2. The map of the localities of analyzed communities. The distribution is mapped using an under-
lying 10 x 10 UTM coordinate grid 100 x 100 km (UTM Grid zone 34, the black dots with the
corresponding ordinal numbers represents the localities of the communities listed in table 1.
The black square represents the locality of the Stipa novakii community.

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subjectivity, rather intuitive than objective. Therefore, in this article, we used the concept of
diagnostic and dominant species proposed by CHYTRÝ et al. (2002) and CHYTRÝ and TICHÝ
(2003). Using the statistical measures of fidelity, we quantified concentrations of species
occurrences in groups of classified sites in order to determine diagnostic species (CHYTRÝ et
al. 2002). The size of the site groups in the data set is virtually equalized, while the relative
frequencies of species occurrence within and outside of these groups are kept constant
(TICHÝ and CHYTRÝ 2006). Then, fidelity is calculated using the F-values of the association.
With the use of this approach, species fidelity to a community types does not depend on the
number of available field records. Since these values of fidelity measures are not the
functions of statistical significance of fidelity, we performed the Monte Carlo test of
significance of observed maximum indicator value for species with 4999 permutations. For
the calculation of F-values, PcOrd 6.0 software (MCCUNE and MEFFORD 2011) was used. In
order to determine dominant species we calculated the coverage index (Ic) according to
LAUSI et al. (1982). In the purpose of defining the geoelements we used the groupings made
by MEUSEL et al. (1965, 1978), MEUSEL and JÄGER (1992), modified for the Serbian territory
by STEVANOVI] (1992).

Results

Ordination

Correspondence analysis has shown that the relevés of ass. Festuco sulcatae-Potentil-
letum zlatiborensis are completely separated from the rest of the relevés along the negative
part of the first principal axes (Fig.3), which correlates with the highest extent of variability
(about 85%). At the same time, this analysis completely separated the relevés with the
domination of Stipa novakii from the rest of the communities along the positive part of the
second axis. It can also be seen that the Kosovan site groups Festuco-Plantaginetum
serpentini, Hyperico-Euphorbietum glabriflorae and Stipeto-Convolvuletum compacti are
well separated along the negative part of the second axis. The rest of the relevés representing
the Centaureo-Bromion fibrosi communities are concentrated in the centre of correspon-
dence space.

Classification

The results of the cluster analysis, performed on the data set from which relevés of ass.
Festuco sulcatae-Potentilletum zlatiborensis were excluded has shown that three main
»stand groups« (clusters) could be differentiated. The cluster that separates at the highest
heterogeneity level consists of two relevés from the ass. Poo molinieri-Plantaginetum
holostei. These two stands are separated from the community they belong to, probably
because they were recorded in open rocky grasslands, covering up to 25% and at higher
altitudes of 1250 m a.s.l. From 91 species in total in these stands, only 10 and 12 species of
the association are present. At the next level two main clusters can be seen, one of them
representing the community dominated by Stipa novakii, and the other one representing the
rest of the Centaureo-Bromion fibrosi communities. Within this last cluster, at different
heterogeneity levels, 18 small subclusters can be distinguished. Each of them represents a
more or less discrete community (Fig 4).

174 ACTA BOT. CROAT. 72 (1), 2013

KABA[ E. N., ALEGRO A. A., KUZMANOVI] N. V., JAKOVLJEVI] K. M., VUKOJI^I] S. S., LAKU[I] D. V.

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Dominant and diagnostic species

Five taxa out of 476 were exclusively present in the Stipa novakii community from
Br|ani Gorge, whereas 445 taxa were exclusive for the rest of the analyzed communities
(Centaureo-Bromion fibrosi) and absent from the relevés from Br|ani Gorge. Only 26 taxa
were present in both groups.

The most frequent and the most abundant species with large coverage indices in Stipa
novakii community are: Stipa novakii Chamaecytisus hirsutus (L.) Link, Erysimum lina-
riifolium Tausch, Silene bupleuroides L., Artemisia lobelii All., Galium purpureum L.,
Chrysopogon gryllus (L.) Trin., Polygala supina Schreber and Cheilanthes marantae (L.)
Domin (Tab. 2).

Species with the highest F-values, and a high degree of fidelity to this community are:
Stipa novakii, Chamaecytisus hirsutus, Erysimum linariifolium, Polygala supina, Chryso-
pogon gryllus which again indicates that these species could be diagnostic for this com-
munity. A set of species characterized by relatively high Ic-values, but very low F-values
was the following: Leontodon crispus subsp. asper (Waldst. et Kit.) Rohlena, Halacsya
sendtneri (Boiss.) Dörfler and Teucrium montanum L. (Tab. 2). High Ic-values and low
F-values indicate that they are common (with relatively large frequency, abundance and
cover) in the investigated community, but without a diagnostic value for the Stipa novakii
community. Their fidelity values are much greater in respect to some other communities of
Centaureo-Bromion fibrosi, where they can even be a diagnostic species.

ACTA BOT. CROAT. 72 (1), 2013 175

A NEW SERPENTINE ROCKY GRASSLAND ASSOCIATION

Fig. 3. Correspondence analysis (CA) of 19 analyzed communities of serpentine rocky ground vege-
tation traditionally included in alliance Centaureo-Bromion fibrosi of order Halacsyetalia
sendtneri in Serbia.

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176 ACTA BOT. CROAT. 72 (1), 2013

KABA[ E. N., ALEGRO A. A., KUZMANOVI] N. V., JAKOVLJEVI] K. M., VUKOJI^I] S. S., LAKU[I] D. V.

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178 ACTA BOT. CROAT. 72 (1), 2013

KABA[ E. N., ALEGRO A. A., KUZMANOVI] N. V., JAKOVLJEVI] K. M., VUKOJI^I] S. S., LAKU[I] D. V.

Fig. 4. Cluster analysis of the second data set of 18 analyzed communities of serpentine rocky ground
vegetation traditionally included in the alliance Centaureo-Bromion fibrosi of the order Hala-
csyetalia sendtneri in Serbia.

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Phytogeographic analysis

Floristic composition of Stipa novakii community showed the dominance of species of
Mediterranean-sub-Mediterranean and Pontic-sub-Mediterranean geoelements (11 taxa i.e.
35% in each chorological type). Taxa with centres of distribution primarily in the central
European or mountain regions are present in much lower numbers (Tab. 2). Since the
community is developed in serpentine open rocky grasslands, such a floristic composition
was expected. These habitats are known to have extremely thermophilous character,
conditioned by the serpentine geological substratum, and the deriving shallow and poor
soils, developing on more or less steep slopes with southern expositions.

All the results presented suggest that the community dominated by Stipa novakii
developed on open serpentine rocky soils in Br|ani Gorge is well differentiated from other
associations within the alliance Centaureo-Bromion fibrosi, and we propose a new associ-
ation under the name Stipetum novakii ass. nova hoc loco.

Syntaxonomical treatement

Ass. Stipetum novakii ass. nova hoc loco (Holotypus Tab. 2, rel. 4, Fig. 5)

Dominant species: Stipa novakii (1–3) (Ic = 56), Chamaecytisus hirsutus (+–2) (Ic =
33), Erysimum linariifolium (+–1) (Ic = 25), Silene bupleuroides (+–1) (Ic = 25), Artemisia
lobeli (+–1) (Ic = 27), Galium purpureum (+–1) (Ic = 23), Chrysopogon gryllus (+–1) (Ic =
23), Polygala supina (+–1) (Ic = 22), Cheilanthes marantae (1) (Ic = 21).

Diagnosis: Stipetum novakii is secondary rocky grassland developed on mostly SE and
S (rarely E) exposed cliffs, with an inclination between 10° and 40°. The dominant and
characteristic species Stipa novakii with its dense tufts, forms poorly to richly developed
stands up to 60 cm high, covering 10–70 % (average 40.9 %) of the relevé area (Tab. 2). The
very poorly developed, thin pioneer soil layer with a large concentration of heavy metals

ACTA BOT. CROAT. 72 (1), 2013 179

A NEW SERPENTINE ROCKY GRASSLAND ASSOCIATION

Fig. 5. Grassland of the association Stipetum novakii in Br|ani Gorge serpentines (Photo: S. Vukoji~i})

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results in there being relatively low plant diversity. In eleven relevés representing this
community only 31 species were found. The average number of species per relevé was 13.
Diagnostic species of the association are: Stipa novakii, Chamaecytisus hirsutus, Erysimum
linariifolium, Polygala supina, Chrysopogon gryllus, Galium purpureum. However, such a
situation enables the development of a certain number of endemic serpentine species such as
Stipa novakii, Halacsya sendtneri (Boiss.) Dörfler, Scrophularia canina L. subsp. tristis (K.
Malý) Nikoli} etc. Since the other characteristic species, as well as the differential ones,
appear to be common accompanying species, we have chosen only Stipa novakii as a name
giving species. The fact that it is endemic for very small serpentine area in western Serbia is
also the criteria for Stipa novakii to be elected for the nominal species and also points up the
endemic status of the community itself. The occurrence of some differential shrub and
forest species, such as Chamaecytisus hirsutus, Prunus mahaleb L., Cotinus coggygria
Scop., Quercus cerris L., Quercus pubescens Willd., distinctly characterizes this grassland
community. The community basically represents a relatively short-term transitional syn-
genetic stage in the succession of vegetation, performing its role in binding and fixing the
mobile substrate of mature screes on serpentine slope bedrock. The progressive succession
will probably result in secondary grasslands of the Chrysopogonetum grylli type, after
which shrubs and short trees will prevail in the physiognomy of the vegetation cover.

Nomenclatural remark

Holotypus: Tab. 2, relevé 4 – holotypus hoc loco
Syntaxonomical scheme
Festuco-Brometea Br.-Bl. et R. Tx. 1943

Halacsyetalia sendtneri H. Ritter-Studni~ka 1970
All. non defined

Stipetum novakii Kaba{ et D. Laku{i} ass. nova hoc loco

Discussion

In the analyzed serpentine rocky grasslands vegetation, only 5 out of 476 taxa were
exclusively presented in stands dominated by Stipa novakii. All of the investigated com-
munities had 26 taxa in common, with a certain number of Balkan serpentine endemics
among them, such as: Scrophularia canina subsp. tristis, Silene bupleuroides, Scabiosa
fumarioides Vis. et Pancic, Halacsya sendtneri and others, suggesting that they really do
belong to the same higher syntaxa. Of the taxa, 454 were not recorded in the community
from Br|ani Gorge, and were present only in the rest of the Centaureo-Bromion fibrosi
communities. The most frequent and the most abundant species present in the stands from
Br|ani Gorge is Stipa novakii. This is an endemic species for West Serbian serpentines. Its
range descends southwards Kosovo, where it is gradually replaced with another endemic
species, Stipa mayeri Martinovský. The endemic status of its dominant species implies the
endemic status of the community Stipetum novakii itself.

Correspondence analysis has shown, firstly, that ass. Festuco sulcatae-Potentilletum
zlatiborensis is completely separated from all other analyzed communities, representing
well-supported syntaxa. In addition to its obvious detachment from other communities, we
have noticed that the community was listed within Halacsyetalia sendtneri and Centau-

180 ACTA BOT. CROAT. 72 (1), 2013

KABA[ E. N., ALEGRO A. A., KUZMANOVI] N. V., JAKOVLJEVI] K. M., VUKOJI^I] S. S., LAKU[I] D. V.

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reo-Bromion fibrosi by mistake. Due to ecological, physiognomic and structural characte-
ristics such as closed plant cover with ground cover of 90–100%, a typical grassland look,
the fact that it is developed on plateaus (slope = 0–5°, extremely 15°) with the thicker soil
layer with more humus, a higher floristic richness (86 registered species), in the original
paper in which it was published, it was considered to be an intermediate syngenetic stage
connecting the open serpentine vegetation of Poo molinieri-Plantaginetum holostei and the
dry mountainous grasslands of Koelerietum montanae type (PAVLOVI] 1951). The authors
consider that this association does not belong to the order Halacsyetalia sendtneri and
should be listed within Festucetalia valesiacae Br.-Bl. et R. Tx. 1943 and Chrysopogoni-
-Danthonion alpinae Koji} 1957, but this exceeds the aim of this paper.

Furthermore, both numerical analyses have also shown that Stipetum novakii ass. nova
significantly differs from the rest of the communities representing Centaureo-Bromion
fibrosi. The fact that species Bromus erectus Hudson subsp. fibrosus (Hackel) Stojan. et
Stefanov. is absent from the community from Br|ani Gorge, as are most of the diagnostic
species of alliance Centaureo-Bromion fibrosi, such as Centaurea kosaninii Hayek, Sedum
serpentini Janchen, Alyssum montanum L. subsp. serbicum Novák, Thymus lykae Degen et
Jáv., Stachys recta L. subsp. baldaccii (K. Malý) Hayek, Stachys scardica (Griseb.) Hayek,
Euphorbia glabriflora Vis., Poa badensis Haenke ex Willd., Alyssum markgrafii O. E.
Schulz, Plantago holosteum Scop. etc., indicates the high specificity and distinctiveness of
this community and may lead us to think that its place is not at all within Centaureo-
-Bromion fibrosi. Regarding this, there is a high probability that Stipetum novakii ass.nova
should belong to a new alliance, yet to be defined by further research. On the other hand,
high F-values in the species Scrophularia canina subsp. tristis, Cheilanthes marantae,
Silene bupleuroides, Artemisia lobelii, Bromus pannonicus Kummer et Sendtner, Halacsya
sendtneri, and negative F-values within the species Festuca duriuscula L., Potentilla are-
naria Borkh. var. tommasiniana (F. W. Schultz) Hegi, Koeleria splendens C. Presl, Dan-
thonia provincialis DC., Festuca valesiaca Schleicher ex Gaudin subsp. sulcata (Hackel)
Hegi, Festuca valesiaca subsp. pseudovina (Hackel ex Wiesb.) Hegi, indicate that the
Stipetum novakii community should not be listed within xerophilous rocky grasslands of the
order Festucetalia valesiacae, and its syntaxonomical position is, without any doubt, within
the endemic order of the Central Balkans, Halacsyetalia sendtneri.

Since our numerical analysis showed that the heterogeneity level that separates Stipetum
novakii ass. nova from the rest of the analyzed communities provides a sufficient basis for
conferring on it the status of the association and also indicates that a new alliance should be
introduced, further analyses are needed in order to get a more consistent syntaxonomic
classification within the order Halacsyetalia sendtneri.

Acknowledgements

The authors are grateful to the Serbian Ministry of Science and Technological Deve-
lopment (Project No. 173030 Biodiversity of the plant life of Serbia and Balkan Peninsula –
Assessment, sustainable use and conservation (2011–2014)) for financial support. The
authors also wish to thank the editor and reviewers for their valuable comments and sug-
gestions, which significantly improved this manuscript.

ACTA BOT. CROAT. 72 (1), 2013 181

A NEW SERPENTINE ROCKY GRASSLAND ASSOCIATION

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