15 Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Abstract Dry grassland vegetation on fluvial terraces along middle reaches of river Piave and river Brenta in Northeastern high Po plain were investigated through a phytosociological approach. Comparisons with ecologically analogous communities described from neighbouring territories lead to the description of a new association belonging to Centaureion dichroanthae alliance: Astragalo onobrychidis-Koelerietum pyramidatae. Residual fragments of Chrysopogon gryllus- dominated grassland on slighly deeper soils are refered to Chamaecytiso hirsuti- Chrysopogonetum grylli. Izvleček S fitocenološkim pristopom smo preučili suha travišča na aluvialnih terasah vzdolž srednjega tek rek Piave in Brente v višje ležeči severozahodni Padski nižini. Primerjava z ekološko podobnimi združbami, opisanimi na sosednjih območjih, je pokazala, da smo opisali novo asociacijo, ki jo uvrščamo v zvezo Centaureion dichroanthae alliance: Astragalo onobrychidis-Koelerietum pyramidatae. Preostale fragmente travišč s prevladujočo vrsto Chrysopogon gryllus, ki uspevajo na malo globljih tleh, pa uvrščamo v asociacijo Chamaecytiso hirsuti-Chrysopogonetum grylli. Key words: Astragalo onobrychidis-Koelerietum pyramidatae, Chamaecytiso hirsuti- Chrysopogonetum grylli, Po plain, river Brenta, Scorzoneretalia villosae, Veneto. Ključne besede: Astragalo onobrychidis-Koelerietum pyramidatae, Chamaecytiso hirsuti- Chrysopogonetum grylli, Padska nižina, reka Brenta, Scorzoneretalia villosae, Benečija. Corresponding author: Stefano Tasinazzo E-mail:  stefano.tasinazzo@gmail.com Received: 12. 2. 2020 Accepted: 19. 6. 2021 1 Vicenza, Italy. 2 Giavera del Montello (TV), Italy. 3 Arson di Feltre (BL), Italy. 4 Vicenza, Italy. Stefano Tasinazzo1, Katia Zanatta2, Cesare Lasen3 & Roberto Fiorentin4 DOI: 10.2478/hacq-2021-001721/1 • 2022, 15–40 21/1 • 2022, 15–40 16 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Introduction Rivers are the most fitting example of ecological corridor concept in nature conservation. They mitigate negative effects of increasing habitat fragmentation by connect- ing patches or territories with high natural values and allowing species movements (e.g. Beier & Noss, 1998; Gonzalez et al., 1998). In man-made landscapes, such as Po plain, rivers in themselves constitute core areas by hosting animal and plant populations and habitat which are absent in the poor countryside outside their banks (Buffa & Lasen, 2010). Hydraulic safety reasons, natural disturbances connected to the hydraulic regime and in- herent constraints due to poor soils often allow the devel- opment of mainly herbaceous vegetation with scattered shrubs and trees or groves. Prevailing communities are dry grasslands, which have been recognized at grain sizes below 100 m2 as the most species-rich habitat worldwide (Wilson et al., 2012). On the other hand, they are as- sessed in Europe as the most threatened terrestrial and freshwater habitats, excluding mires and bogs, primarily because of the abandonment of traditional managements (Janssen et al., 2016). This concerns secondary grass- lands, i.e. anthropogenic communities at sites whose potential vegetation is forest, whereas herbaceous veg- etation investigated in the present work at least in part can be considered as extrazonal, spreading within forest biomes but in too dry and shallow soils to support tree growth (Dengler et al., 2014). As many long stretches of northeastern Italian rivers, also the middle river Piave (SAC IT3240023 – Grave del Piave) and Brenta (SCI-SAC IT3260018 – Grave e zone umide della Brenta) are protected in EU under Council Directives 92/43/EEC and/or 79/409/EEC. Military bondages have for a long-time ensured the preservation of some dry grass- land surfaces along the Piave, as in Friuli (Nimis & Fonda, 1997), by avoiding land-use exploitations which are detri- mental to natural environment (gravel extraction, vineyard planting etc.). A planned project of an overflow basin to re- tain flood waters could today compromise the preservation of the little but meaningful fragments remaining, contrast- ing with the principles of the EU environmental legislation (Habitats Directive). Hence, this contribution runs the risk of being reduced to mere documentary material before the complete disappearance of such natural emergencies, as has been advanced in recent years in Friuli-Venezia Giulia for some meadows and grasslands communities (Poldini & Oriolo, 1994). Notwithstanding their naturalistic relevance, no analyt- ical phytosociological study was carried out nor on Piave either along near Brenta Grave, where dry communities are very rare and more impoverished. Recently, the Grave di Ciano, in the core of Piave study area, was designated as a wilderness area (Zunino, 2018). On the basis of this Figure 1: The landscape in the middle course of river Piave with the Venetian Prealps in the background. The investigated dry grasslands in the foregrounds. Slika 1: Pokrajina v srednjem teku reke Piave z Beneškimi Predalpami v ozadju. Preučevana travišča so v ospredju. 21/1 • 2022, 15–40 17 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Figure 2: Original relevés (●) in the middle reaches of river Brenta (A) and river Piave (B) in the eastern high Venetian plain. Also published relevés (■) from Natisone river (Lorenzoni, 1964) are given (see text). Slika 2: Izvirni popisi (●) v srednjem teku rek Brente (A) in Piave (B) v višje ležeči severozahodni Padski nižini. Prikazani so tudi že objavljeni popisi (■) ob reki Natisone/Nadiža (Lorenzoni 1964) (glej besedilo). institution, the only available to date vegetation paper was published, in order to produce a vegetation map not supported by relevés (Pedrotti & Murrja, 2020). The relationship of Venetian terrace river grasslands with ecologically close communities described from neighbouring Friulian territories were tested by means of a phytosociological approach. In fact, Friuli-Venezia Gi- ulia has a well-established tradition of vegetation studies concerning xeric grasslands on gravel bed deposited by pre-Alpine rivers (Zenari, 1928; Pignatti 1952; Lorenzoni, 1964; Lorenzoni, 1967; Feoli Chiapella & Poldini, 1994). The aim of this research is to clarify floristic compo- sition, structure and syntaxonomy of residual dry grass- lands occurring in middle reaches (locally grave) of river Piave, before their possible disappearance or degradation due to human pressures (Figure 1). Observations have been partly extended to river Brenta in order to make the study more exhaustive. Study area The study area encompasses the middle courses of the riv- er Piave and, to a lesser extent, of the river Brenta in the eastern high Venetian plain (western sector of the Vene- tian–Friulian plain, North East Italy; Figure 2). 21/1 • 2022, 15–40 18 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy The high Venetian-Friulian plain area is bounded to the north by the pre-Alpine chain, whereas the southern limit fades with the resurgence belt about 30 km south of the Alpine foothills. Large portions of the northeast- ern Po plain formed during the Last Glacial Maximum on late Pleistocene (12.000 b.p.). This period featured great sedimentary activity of the Adige, Brenta, Piave and Tagliamento Rivers, which received fluvio-glacial deposits from the eastern Alps glaciers and formed tel- escopic coalescent alluvial megafans (Fontana et al., 2014). These deposits are composed of gravels and small rocks, locally mixed with sands, according to a depo- sitional model linked to a braided watercourse that al- ternates phases of flood, with huge solid transport, with lean phases in which it flows below the very permeable alluvial mattress. The gravel bedrock typically varies on size and composition: small-stone and gravel prevalence in the foothill sector, silt and clay widespread presence in correspondence of the resurgence belt (Michelutti et al., 2003). The lithological types reflect the prevalently carbonate nature of the mountain basins to which the two rivers belong. The Piave drains large part of the Do- lomites, and its sediments are 50–70% carbonate, with a significant magmatic component, while Brenta sedi- ments are 20–35% carbonate and have a high content of porphyric rocks (Fontana et al., 2014). Therefore, in the study area substrata are constituted by gravels and few, very permeable sand lenses. Currently, the Piave flows between 10 m high erosion scarps at Grave di Ciano, in its medium course, where the riverbed is 3 km wide and includes some large fluvial islands. Climatic parameters and bioclimatic indices of the study area are based on thermopluviometric data of Cit- tadella (48 m a.s.l., for river Brenta) and Volpago del Montello (94 m a.s.l., for river Piave) stations (https:// www.arpa.veneto.it). Both stations, 45 km away, are in high Po plain. The mean annual temperature is 13.5 °C and the mean annual rainfall is 1180 mm. According to the ‘Worldwide Bioclimatic Classification System’ (Rivas-Martinez & Rivas-Saenz, 1996–2020), the study area is in a transition region between the temperate con- tinental bioclimate, subtype weak subcontinental (Cit- tadella thermopluviometric station) and the temperate oceanic bioclimate, subtype strong semicontinental (Volpago del Montello thermopluviometric station); the thermotype is upper mesotemperate, the ombrotype low- er humid (Figure 3). The humid trait of the bioclimate is mitigated by the porosity of the gravelly soil, which determines a rapid percolation of the rainwater with con- sequent edaphic aridity. As regards landscape, Piave and Brenta riverbeds consti- tute the geosigmetum of glareicolous, lowland and hygro- philous riverbed vegetation of the high Venetian plain, which includes xeric grasslands (sub Saturejion subspica- tae) on third-level terraces (Pedrotti & Murrja, 2020). In these consolidated and exceptionally flooded terraces, the original vegetation-plot records were carried out. Figure 3: Climograms of Cittadella (PD) and Volpago del Montello (TV) thermopluviometric stations. Slika 3: Klimadiagram za klimatski postaji Cittadella (PD) in Volpago del Montello (TV). 21/1 • 2022, 15–40 19 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Materials and Methods A total of 36 phytosociological relevés was carried out, 32 on river Piave terraces and 4 on the river Brenta terraces (Figure 2), ranging from 45 m to 140 m a.s.l. Data were collected according to Braun-Blanquet (1964) methodol- ogy in summer 2020, except for 5 stands, 2 dating back to 1994, one to 2012 and 2 to 2018. The modified Braun- Blanquet scale was used in 2020 vegetation plot records as regards ‘2a’ and ‘2b’ cover values (Barkman et al., 1964). Comparisons with published data were restricted to materials describing communities sharing common eco- logical, altitudinal and phytogeographic traits. In particu- lar, the following data was selected from literature: – Centaureo dichroanthae-Globularietum cordifoliae (Tab.1: rel. 1–14, in Feoli Chiapella & Poldini (1994) – Saturejo variegatae-Brometum condensati (Tab. 2: rel. 1–18, in Feoli Chiapella & Poldini (1994); they in- clude 3 relevés which Lorenzoni (1964) had attributed to Astragalo-Stipetum) – Saturejo variegatae-Brometum condensati (Tab. 3: rel. 29–39, in Tasinazzo (2001)) – Saturejo variegatae-Brometum condensati (Tab. 1: rel. 2-3-4–20-21-22–26-27, in Lasen (1995)) – Bromo condensati-Stipetum eriocaulis (Tab. 1: rel. 5-6- 7-8–10–11-12-13-14-15-16-17-18-19–33, in Lasen (1995)) – Bromo condensati-Stipetum eriocaulis (Tab. 1: tipologia 1, in Scortegagna & Curti (2000)) – Schoeno nigricantis-Chrysopogonetum grylli (Tab. 4: rel. 1–10, in Feoli Chiapella & Poldini (1994)) – Chamaecytiso hirsuti-Chrysopogonetum grylli (Tab. 5: rel. 1–7, in Feoli Chiapella & Poldini (1994)) – Onobrychido arenariae-Brometum erecti avenuletosum pubescentis var. a Chrysopogon gryllus (Tab. 6: rel. 1–7, in Feoli Chiapella & Poldini (1994)) – Astragalo onobrychidis-Artemisietum albae (Tab. 28: rel. 1–17, in Biondi et al. (1997)) At first, binary (presence/absence) data were employed in multivariate analyses, and in a second step computa- tion of similarity was indirectly tested from the site scores on the ordination axis of Principal Component Analysis (Jongman et al., 1995), obtained from a cover data ma- trix. As regards the latter and the classification of original relevés, before to perform cover data analysis, values were converted to van der Maarel (1979) ordinal scale. Also percentage cover values were used in multivariate analy- ses, adopting the approximations given in Gigante et al. (2012; Fig. 1: Braun Blanquet mod. by Barkman et al., 1964) and after square-root-transformation of input data. All multivariate analyses were conducted with Syn-Tax 2000 package (Podani, 2001). Due to difficult and often controversial determinations and to overcome possible bias in analysis results, some elementary taxa were grouped prior of analyses (e.g. Koe- leria pyramidata aggr., Thymus serpyllum aggr., Centaurea scabiosa s.l.). Biological and chorological spectra were weighted us- ing percentage cover values with above approximations. Ecological indicator values and chorotypes (except for Bromopsis condensata, east-Alpic endemic instead of en- demic) are in accordance with Pignatti (2005). For the comparison analyses, chorotypes were grouped (see Ap- pendix 3). The nomenclature of vascular plant species follows Bar- tolucci et al. (2018). The diagnostic species of alliance, suborder, order and class Festuco-Brometea are according to Terzi (2015); some integrations were derived from Mu- cina et al. (2016) for the Festuco-Brometea class. Bromopsis condensata, that in Terzi (2015) was not separated from B. erecta, and Carex liparocarpos, absent in the same au- thor's analysis, were considered diagnostic of Centaureion dichroanthae alliance (for the latter see also Feoli Chiapel- la & Poldini, 1994). Campanula sibirica, also lacking in Terzi (2015), was included amongst order diagnostic spe- cies (Sburlino et al., 2008). Bryophytes and lichens were disregarded. New syntaxon names are in accordance with the rules of the International Code of Phytosociological Nomenclature (Theurillat et al., 2020). Results and Discussion The binary numerical classification proved the independ- ence of original relevés with respect to other stands and coenosis coming from neighbouring and ecologically comparable north-eastern Italian territories (cluster A in Figure 4). Only Lorenzoni’s relevés (1964) from the river Natisone in Friuli-Venezia Giulia joined the cluster group- ing the Venetian river terrace stands. According to Feoli Chiapella & Poldini (1994) these 3 relevés merge in Sat- urejo variegatae-Brometum condensati identifying within it the subass. astragaletosum onobrychidis, whereas Lorenzoni (1964) had attributed them to the independent coenosis Astragalo-Stipetum pennatae. Table of Saturejo-Brometum from Friuli includes also 3 Pignatti’s relevés (subass. epilo- bietosum dodonaei) reported by the author sub “Aggr. ad Artemisia campestris ed Epilobium dodonaei” and referred to Epilobion fleischeri (Pignatti, 1952). On the basis of the overall floristic affinity, Feoli Chiapella & Poldini (1994) address the issue and attribute the Pignatti’s relevés to Saturejo-Brometum. The ambiguity emerged again in our 21/1 • 2022, 15–40 20 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy analysis which enucleates these stands in a cluster totally separated not only from Saturejo-Brometum but also from the other compared xeric cenoses (cluster I in Figure 4). Our results are in some way in accordance with the initial Pignatti’s interpretation (1952), dealing with ‘a vegeta- tion of sandy and stony gravel bed', but further focused studies may provide insights into the referring class of these Festuco-Brometea-species poor vegetation. Artemisia campestris constitutes together with Epilobium dodonaei also on gravel bed of river Brenta a glareicolous com- munity with strong pioneer traits on substrates that are not fully consolidated and subject to episodic flooding. The typical aspect of Saturejo-Brometum coincides with subass. seslerietosum albicantis containing the holotypus (Feoli Chiapella & Poldini, 1994) and which merges with other relevés from Grappa Massif (cluster D in Figure 4). Figure 4: Classification of original and Lorenzoni’s releves (1964) (A) in relation to other Scorzoneretalia relevés from NE-Italy (semplified dendrogram; average link, Jaccard index; binary data). B: stands from Berici Hills; C: Schoeno-Chrysopogonetum + Chamaecytiso-Chrysopogonetum + Onobrychido-Brometum + 1 rel. of Saturejo-Brometum, all from Friuli-Venezia Giulia; D: Saturejo-Brometum from Grappa Massif and Friuli- Venezia Giulia (including holotypus) + 3 rel. of Bromo-Stipetum from M. Summano; E: Bromo-Stipetum from Grappa Massif and M. Summano; F: Centaureo-Globularietum; G: 1 rel. of Saturejo-Brometum from Friuli-Venezia Giulia; H: 3 rel. of Saturejo-Brometum from Friuli-Venezia Giulia; I: 3 rel. of Saturejo-Brometum from Friuli-Venezia Giulia (corresponding to ‘Artemisia campestris ed Epilobium dodonaei’ aggr. in Pignatti (1952)). Slika 4: Klasifikacija izvirnih in Lorenzonijevih popisov (1964) (A) v primerjavi z ostalimi popisi reda Scorzoneretalia iz severovzhodne Italije (poenostavljen dendrogram; povprečna povezava, Jaccardov indeks; binarni podatki). B: sestoji z gričevja Berici; C: Schoeno-Chrysopogonetum + Chamaecytiso-Chrysopogonetum + Onobrychido-Brometum + 1 popis Saturejo-Brometum, vsi iz Furlanije-Julijske krajine; D: Saturejo-Brometum z masiva Grappa in Furlanije-Julijske krajine (vključno s holotipom) + 3 popisi Bromo-Stipetum z gore Summano; E: Bromo-Stipetum z masiva Grappa in gore Summano; F: Centaureo-Globularietum; G: 1 popis Saturejo-Brometum iz Furlanije-Julijske krajine; H: 3 popisi Saturejo-Brometum iz Furlanije-Julijske krajine; I: 3 popisi Saturejo-Brometum iz Furlanije-Julijske krajine (ustreza ‘Artemisia campestris ed Epilobium dodonaei’ aggr. iz Pignatti (1952)). Figure 5: Classification of PCA coordinates of original relevés (□; this study), Lorenzoni’s relevés from F. Natisone (■; Lorenzoni, 1964), Schoeno- Chrysopogonetum + Chamaecytiso-Chrysopogonetum (○; Feoli Chiapella & Poldini 1994) and Centaureo-Globularietum (●; Feoli Chiapella & Poldini 1994) from Friuli-Venezia Giulia (cover data matrix). Slika 5: Klasifikacija PCA koordinat izvirnih popisov (□; ta raziskava), Lorenzonijevih popisov z reke Natisone/Nadiže (■; Lorenzoni, 1964), Schoeno-Chrysopogonetum + Chamaecytiso-Chrysopogonetum (○; Feoli Chiapella & Poldini 1994) in Centaureo-Globularietum (●; Feoli Chiapella & Poldini 1994) iz Furlanije-Julijske krajine (matrika podatkov s pokrovnostjo). 21/1 • 2022, 15–40 21 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Indeed, according to the itself authors’ statement the original description of Saturejo-Brometum is representa- tive of a very articulated coenosis, appearing very hetero- geneous also to our analysis. Owing to the impossibility of ascribing original relevés to Saturejo-Brometum or to other hilly and submontane al- ready typified coenosis, a close examination involved only ecologically comparable communities (known as ‘magre- di’ grasslands) scattered on alluvial fans covering northern Friulian plain between 50 and 300 m elevation: the most pioneer stage Centaureo-Globularietum, the intermediate successional coenosis Schoeno-Chrysopogonetum and the most mature stage Chamaecytiso-Chrysopogonetum. The resulting classification of PCA coordinate values better describes evidences for observed ecological differences amongst original relevés (Figure 5). The Venetian stands are divided into two main groups: a numerically prevalent one on more primitive soils constitutes an independent cluster (A) including the already mentioned relevés from Natisone, the minority one (B1) on more well-developed soils merges with the other Friulian stands and particu- larly with Schoeno- Chrysopogonetum and Chamaecytiso- Chrysopogonetum (B2); Centaureo-Globularietum forms an independent cluster (C). Astragalo onobrychidis-Koelerietum pyramidatae As regards the cluster A, the framing in Festuco-Brometea class (Table 1) is clearly highlighted by a rich content of high frequency species often occurring also with high cover values, such as Koeleria pyramidata, Helianthemum nummularium subsp. obscurum, Fumana procumbens and Thymus pulegioides (V frequency class). Its membership in steppic submediterranean pastures of the SE-European– Illyrian order Scorzoneretalia villosae is clear despite it ap- pears weak due to the marginality of the study area with respect to the distribution area of the order itself. In fact, character species are well-represented only in the relevés coming from eastern Friuli (¢ in Figure 5; rel. 29–31 in Table 1), whereas they decrease sharply in westernmost surveys along the Brenta in Veneto (rel. 1–4 in Table 1). The most common diagnostic species of the order include Plantago holosteum and Chrysopogon gryllus (III frequency class) (Table 1). More evident is the framing in the lower syntaxonomical level. The presence, often with high fre- quency and cover values, of Potentilla pusilla, Carex lipa- rocarpos, Bromopsis condensata, Cytisus purpureus assures the attribution to Centaureion dichroanthae, alliance encompassing prealpic submediterranean grasslands on shallow soils (Mucina et al., 2016). With regard to the association rank, because of phytogeographical reasons it is not possible to refer the vegetation plot records to Astragalo-Stipetum pennatae, as proposed by Lorenzoni (1964). Astragalo-Stipetum is a community described for continental inner Alps and distinguished by mostly conti- nental species such as Poa perconcinna, Koeleria vallesiana, Minuartia rostrata, Androsace septentrionalis, Oxytropis halleri/velutina, Stipa capillata etc. It belongs to steppic rocky grasslands of deep intramontane valleys of the Alps (Stipo-Poion xerophilae). Floristic composition of Astra- galo-Koelerietum attributes unique traits with respect to the other Scorzoneretalia associations so far described. The comparison by means of chorological groups, extended to Astragalo onobrychidis-Artemisietum albae of fluvial ter- races of the Taro flowing in low Po plain in the Apennine area, shows closer  relationship  with  Friulian Centaureo- Globularietum (Figure 6) as consequence of higher rates of orophytes attesting a marked primitiveness of the substratum. Lower percentages of the eurasiatic group constitute additional reason for their closeness (Table 2). Centaureo-Globlularietum belongs to Centaureion alliance too, whereas Schoeno-Chrysopogonetum and Chamaecytiso- Chrysopogonetum are attributed to Scorzonerion villosae al- liance (Terzi, 2015). Figure 6: PCA of dry grassland of northeastern Italian plain (●) in relation to chorotype groups (□). First axis accounts for 48.9% of total variance, second axi for 31.6% (square-root-transformed percentage cover data). Community abbreviations as in Table 2, chorotype group as in Appendix 3. Slika 6: PCA suhih travišč iz severovzhodne italijanske nižine (●) v od- nosu do horoloških skupin (□). Prva os pojasni 48,9% skupne variance, druga pa 31,6% (pokrovnost transformirana s korenjenjem). Okrajšave združb so enake kot v Tabeli 2, horološke skupine pa v Prilogi 3. 21/1 • 2022, 15–40 22 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy At a more detailed examination, the new community differs from Centaureo-Globularietum in lacking both all the character species of this association (Euphorbia tri- flora/kerneri, Matthiola fruticulosa/valesiaca, Brassica gla- brescens and Crambe tataria) and many significant and often very frequent alliance species such as Centaurea dichroantha, Carex mucronata, Sesleria caerulea, Polygala forojulensis, Lomelosia graminifolia, Hieracium porrifolium ecc. Many of these are endemic elements (Euphorbia tri- flora/kerneri, Matthiola fruticulosa/valesiaca, Brassica gla- brescens, Centaurea dichroantha) contributing to mark the absolute phytogeographic originality of the coenosis and more generally of the high Friulian Plain where it thrives (e.g. Poldini, 1973). From the synecological point of view Lorenzoni (1967) already outlined the independence of the two coenosis, however occurring in closely contact in Friuli-Venezia Giulia. He observed the hypothesized Astragalo-Stipetum on consolidated gravel deposits with initial humus accumulation, thriving between Centaureo- Globularietum closer to river bed where there are no evi- dence of organic matter and Chrysopogonetum s.l. lying on well-developed, decalcified soils. Ordination through soil indicator values confirms author’s observations (Figure 7). Centaureo-Globularietum and Astragalo-Koelerietum share the presence of Gypsophila repens, a de-Alpine entity in- gressive from Thlaspietea, that Feoli Chiapella & Poldini (1994) consider differential of the former. Thereby, this glareophyte should be regarded as diagnostic of Centau- renion. The exclusive entities Potentilla pusilla, Astragalus onobrychis and Erucastrum nasturtiifolium may be consid- ered the good differential entities of the new community (Table 3). Astragalus onobrychis is also included amongst differential species of Astragalo-Artemisietum, a coenosis Figure 7: PCA of dry grassland of northeastern Italian plain (■) in relation to soil indication values (○). M: moisture, N: nitrogen, R: reaction. First axis accounts for 72.9% of total variance, 2° axis: 24.9%; weighted cover data). Community abbreviations as in Table 2. Slika 7: PCA suhih travišč iz severovzhodne italijanske nižine (■) v odnosu do indikatorskih vrednosti tal (○). M: vlažnost, N: dušik, R: reakcija. Prva os pojasni 72,9% skupne variance, druga os: 24,9%; tehtani podatki pokrovnosti). Okrajšave združb so enake kot v Tabeli 2. very rich in Festuco-Brometea species, but lacking in diag- nostic species of Scorzoneretalia and lower syntaxonomi- cal rank levels. In any case, it is attributed to Ononido- Rosmarinetea (Biondi et al., 1997). On the basis of the above, the relevés in Table 1 may relate to a new association, named Astragalo onobrychidis- Koelerietum pyramidatae. Astragalo onobrychidis-Koelerietum pyramidatae ass. nova hoc loco (holotypus rel. 8 in Table 1) Differential species. Potentilla pusilla, Astragalus onobry- chis and Erucastrum nasturtiifolium Floristic composition. It is a discontinuous para-steppic dry grassland with largely dominant hemicryptophytes, with Stipa eriocaulis often structuring the herbaceous landscape (Figure 8). Stipa eriocaulis, Koeleria pyramidata, Bromopsis condensata, Oreoselinum nigrum and Centaurea scabiosa are the tall constant grasses and forbs forming the sparse high vegetation cover. The richer lower layer includes Potentilla pusilla, Helianthemum nummularium/ obscurum, Fumana procumbens, Thymus pulegioides, Glob- ularia bisnagarica, Sanguisorba minor, Carex liparocarpos, Astragalus onobrychis etc. among the entities more fre- quent or abundant. A cryptogamic layer is always present and sometimes significant in terms of coverage. Life forms and chorotypes. Hemicryptophytes 72.2%, chamaephytes 19.5%, geophytes 5.3%, therophytes 2.3%, nanophanerophytes 0.2%, phanerophytes 0.5%. Synecology. The coenosis thrives on consolidated gravel and pebble sediments, on flat ground or secondly gentle slopes, of river terraces, where it occupies Calcixerepts- Haploxerepts soils (Soil Survey Staff 2015). The small share of wide-ranging species agrees with initial stages of colonization. Dryness and stoniness of the habitat are also underlined by the occurrence of species ingressive from Thlaspietea rotundifolii (Gypsophila repens, Erucastrum na- sturtiifolium). Ecological spectrum. Light 5.07, temperature 5.89, continentality 5.82, moisture 2.91, soil reaction 5.95, nitrogen 2.20. Syntaxonomy. The cluster analysis allows us to recog- nise three different aggregation types (Figure 9). The rel. 8–31 represent the typical one thriving on consolidated terraces of river Piave, with the exception of the last three stands collected along river Natisone by Lorenzoni (1964). Only rel. 8–31 include Gypsophila repens and Erucastrum nasturtiifolium. Diagnostic taxa of Centaureion alliance, Koelerienalia suborder and Scorzoneretalia order are here numerically well represented. Here Stipa eriocaulis occurs, often attaining high cover values, in a such way to outline 21/1 • 2022, 15–40 23 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy appears highly localised, very fragmented and disappear- ing, so relevés are in partly degraded conditions. Further research can clarify the possibility of their framing in different vegetation types; at present, we think that the synecology and the occurrence of two differential spe- cies justifies their inclusion in Astragalo-Koelerietum. The remaining relevés (5–7) are representative of a degraded aspect differentiated by large cover of Bothriochloa ischae- mum a species with apophyte traits. These stands are also liable to belong to another vegetation type due to the lacking of the greater part of the most significative species. Synchorology. The community occurs on the mid- dle reaches  (grave) of  rivers Piave and, partly, Brenta in Veneto, but according to Lorenzoni’s observations (1964, 1967) its distribution area extended up to eastern Friuli- Venezia Giulia across rivers Tagliamento, Torre and Nati- sone. It is likely that it might occurs also on river Isonzo, but all Friulian data need confirmation (see Appendix 4). Chorological spectrum. Atlantic 25.4, Eurasiatic 24.4, orophytes 14.8, Eastern 13.5, Mediterranean 9.4, Cos- mopolitan 8.4, Boreal 2.2, alien 1.8, Endemic 0.1. Natura 2000. 62A0 Figure 8: The new association Astragalo onobrychidis-Koelerietum pyramidatae in the Grave di Ciano in the middle course of river Piave. Slika 8: Nova asociacija Astragalo onobrychidis-Koelerietum pyramidatae v kraju Grave di Ciano v srednjem teku reke Piave. Figure 9: Dendrogram of relevés of Table 1 (algorithm: average link, similarity ratio; cover data). Slika 9: Dendrogram popisov iz Tabele 1 (algoritem: povprečna povezava, delež podobnosti; podatki s pokrovnostjo). 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 the structure of the habitat. The rel. 1–4, from terraces of river Brenta, are the most species-poor stands, with very scarce occurring alliance, suborder and order diagnostic species and with an important bryophyte cover. Artemisia campestris differentiate this western provenance. Habitat 21/1 • 2022, 15–40 24 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Chamaecytiso hirsuti-Chrysopogonetum grylli Also original relevés in cluster B1 (Figure 5) can be easily attributed to Festuco-Brometea and Scorzoneretalia villosae, but inclusion in lower syntaxonomical levels is not equally clear. Stands were gathered on middle reach- es of the river Piave, on residual fragments of well-devel- oped soils representing higher terraces. The community is characterised by the large predominance of Chrysopogon gryllus, in place of Stipa eriocaulis, but this vicariance is not associated with the occurring of Hypochaeridenion and Scorzonerion species as it might be expected, diag- nostic taxa of Centaureion prevail (Table 4). Small size patches are responsible for a reduction in vegetation ho- mogeneity due to a mass effect induced by wider shal- low-soil surrounding areas that favour the penetration of species better-tolerating more severe dryness conditions. Nevertheless, a set of mesophilous species enter the com- munity by acting as good indicators of improved growth conditions (Dactylis glomerata, Bromus erectus, Salvia pratensis etc.). Despite the uncertain alliance position and following the cluster analysis outcome (Figure 5), the most viable option was the comparison with similar Chrysopogon gryllus-rich associations described from the high plain of Friuli-Venezia Giulia: Schoeno-Chrysopogo- netum and Chamaecytiso-Chrysopogonetum, belonging to Hypochaeridenion suballiance. The hypothesis to refer relevés to Onobrychido-Brometum avenuletosum pubescen- tis var. a Chrysopogon gryllus was excluded by initial step of the analysis. Our relevés fit better with Chamaecytiso- Chrysopogonetum on the basis of a common chorological framework in which the high incidence of the eurasiatic group stands out (Figure 4). This is in line with Feoli Chi- apella & Poldini (1994) postulate’s according to which its distribution area should go beyond the western re- gional borders. Hence, relevés in Table 4 are referred to Chamaecytiso-Chrysopogonetum. Venetian material lacks the differential species of association reported by the authors for Friulian territory. However, Anacamptis co- riophora shows its ecological optimum in this association occurring almost exclusively within it in Venetian stands and in no other dry semi-natural grassland community outside this one in Friuli-Venezia Giulia (Feoli Chiapella & Poldini, 1994). So, in our opinion, this species may be added to the differential entities of the association. Cytisus pseudoprocumbens and Medicago prostrata can be regarded as differential species of the Venetian provenance of the coenosis. This coenosis has suffered a drastic reduction in Friuli during last decades, because of intensive cultiva- tion (maize). It appears highly likely that the coenosis was widespread outside the actual river banks of Piave, where now vineyards dominate the countryside. Syntaxonomic scheme Festuco-Brometea Br.-Bl. et Tx. ex Soó 1947 Scorzoneretalia villosae Kovačević 1959 Koelerienalia splendentis (Horvatić 1973) Terzi 2015 Centaureion dichroanthae Pignatti 1952 Astragalo onobrychidis-Koelerietum pyramida- tae ass. nova hoc loco (holotypus: Table 1, rel. 8) (syn. Astragalo-Stipetum pennatae Br.- Bl. 1961 sensu Lorenzoni 1964) Scorzonerion villosae Horvatić ex Kovačević 1959 Hypochoeridenion maculatae Poldini & Feoli Chiapella ex Terzi 2011 Chamaecytiso hirsuti-Chrysopogonetum grylli Pignatti ex Feoli Chiapella & Poldini 1994 Conclusions The present research from gravel-bed rivers Piave and Brenta in north-eastern Italian plain resulted in the iden- tification of an already described coenosis and in the for- malization of a new dry grassland association. The new knowledge provides a valuable tool for the geographical demarcation of the distribution area of orders Scorzon- eretalia villosae, Brachypodietalia pinnati and Festucetalia valesiacae, in a biogeographical context where the limits of these syntaxonomic levels have not yet been well clari- fied. The reported Chamaecytiso-Chrysopogonetum and Astragalo-Koelerietum are xeric coenosis hosting many grassland specialists. They belong to Paleartic grasslands, a series of habitat well known for their high biodiversity, but also for their strongly decline during last century due to practice intensification in agriculture, natural succes- sion, artificial afforestation, transformation into arable lands, quarry opening (Dengler et al., 2014). The disap- pearance risk of most of remaining areas of Chamaecyti- so-Chrysopogonetum and Astragalo-Koelerietum on gravel terraces of rivers Piave lies in the construction project of an overflow basin to retain flood waters. They both have to be referred to Habitat 62A0, are included in Natura 2000 network and deserve the attention of a society that wants to define itself cultured and civilised, at least for le- gal reasons. The very low rate of alien species underlines the good conservation status of the studied vegetation plot records, but the invasive Amorpha fruticosa spread- ing copiously along fluvial terraces threatens their biodi- versity preservation. A regulated use of the most intact areas and the exclusion of land use changes as well as the maintenance of high proportion of ecologically valuable habitat in the surroundings (Janišova et al., 2014) could assure the conservation of these surviving communities. 21/1 • 2022, 15–40 25 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Other syntaxa quoted in the text Astragalo onobrychidis-Artemisietum albae Biondi, Vagge, Baldoni & Taffetani 1997 Astragalo onobrychidis-Stipetum pennatae Braun-Blanquet 1961 Bromo condensati-Stipetum eriocaulis Lasen ex Terzi 2015 Centaureo dichroanthae-Globularietum cordifoliae Pignatti 1952 Chamaecytiso hirsuti-Chrysopogonetum grylli Pignatti ex Feoli Chiapella & Poldini 1994 Onobrychido arenariae-Brometum erecti Poldini & Feoli Chiapella in Feoli Chiapella & Poldini 1994 Ononido-Rosmarinetea Br.-Bl. in A. Bolòs y Vayreda 1950 Saturejo variegatae-Brometum condensati Poldini & Feoli Chiapella in Feoli Chiapella & Poldini 1994 Schoeno nigricantis-Chrysopogonetum grylli Pignatti ex Feoli Chiapella & Poldini 1994 Stipo-Poion xerophilae Br.-Bl. et Richard 1950 Acknowledgements We would like to thank Ballestrin S., Checuz R., Sebel- lin A. for their friendly joining during surveys and Fer- rarese F. for valuable help in graphics; Checuz R. gave us the photographs included in the paper. We are grateful to dr. Vidali M. for supplying us with some bibliographic items. Prof. Pedrotti F. recently once again highlighted the naturalistic relevance of dry grasslands of the Piave. Two anonymous referees improved an early version of the manuscript. We thank the journal editorial team for translation into Slovenian. Stefano Tasinazzo  https://orcid.org/0000-0002-5829-0456 Katia Zanatta  https://orcid.org/0000-0002-9578-5802 Cesare Lasen  https://orcid.org/0000-0002-4182-7042 Roberto Fiorentin  https://orcid.org/0000-0003-3580-8985 References Barkman, J. J., Doing, H., & Segal, S. (1964). Kritische Bemerkungen und Vorschläge zur quantitativen Vegetationsanalyse. Acta Botanica Neerlandica, 13, 394–419. https://doi.org/10.1111/j.1438-8677.1964. tb00164.x Bartolucci, F., Peruzzi, L., Galasso, G., Albano, A., Alessandrini, A., Ardenghi, N. M. G., Astuti, G., Bacchetta, G., Ballelli, S., Banfi, E., Barberis, G., Bernardo, L., Bouvet, D., Bovio, M., Cecchi, L., Di Pietro, R., Domina, G., Fascetti, S., Fenu, G., Festi, F., Foggi, B., Gallo, L., Gottschlich, G., Gubellini, L., Iamonico, D., Iberite, M., Jiménez-Mejías, P., Lattanzi, E., Marchetti, D., Martinetto, E., Masin R. R., Medagli, P., Passalacqua, N. G., Peccenini, S., Pennesi, R., Pierini, B., Poldini, L., Prosser, F., Raimondo, F. M., Roma-Marzio, F., Rosati, L., Santangelo, A., Scoppola, A., Scortegagna, S., Selvaggi, A., Selvi, F., Soldano, A., Stinca, A., Wagensommer, R. P., Wilhalm, T., & Conti, F. (2018). An updated checklist of the vascular flora native to Italy. Plant Biosystems, 152(2), 179–303. https://doi.org/10.1080/1126 3504.2017.1419996 Beier, P., & Noss, R. F. (1998). Do habitat corridors provide connectivity? Conservation Biology, 12(6), 1241-1252. http://dx.doi. org/10.1111/j.1523-1739.1998.98036.x Buffa, G., & Lasen, C. (2010). Atlante dei siti Natura 2000 del Veneto. Regione del Veneto – Direzione Pianificazione Territoriale e Parchi. Braun-Blanquet, J. (1964). Pflanzensoziologie – Grundzüge der Vegetationskunde. Springer Verlag. Biondi, E., Vagge, I., Baldoni, M., & Taffetani, F. (1997). La vegetazione del Parco fluviale regionale del Taro (Emilia-Romagna). Fitosociologia, 34, 69–110. Dengler, J., Janišova, M., Török, P., & Wellstein, C. (2014). Biodiversity of Palaearctic grasslands: a synthesis. Agriculture Ecosystems & Environment, 182, 1–14. https://doi.org/10.1016/j. agee.2013.12.015 Feoli Chiapella, L., & Poldini, L. (1994). Prati e pascoli del Friuli (NE Italia) su substrati basici. Studia Geobotanica, 13(1993), 3–140. Gigante, D., Acosta, A. T. R., Agrillo, E., Attorre, F., Cambria, V. E., Casavecchia, S., Chiarucci, A., Del Vico, E., De Sanctis, M., Facioni, L., Geri, F., Guarino, R., Landi, S., Landucci, F., Lucarini, D., Panfili, E., Pesaresi, S., Prisco, I., Rosati, L., Spada, F., & Venanzoni, R. (2012). VegItaly: Technical features, crucial issues and some solutions. Plant Sociology, 49(2), 71–79. 10.7338/pls2012492/05 Gonzalez, A., Lawton, J. H., Gilbert, F. S., Blackburn, T. M., & Evans-Freke, I. (1998). Metapopulation dynamics, abundance, and distribution in a microecosystem. Science, 281(5385), 2045–2047. https://doi.org/10.1126/science.281.5385.2045 Janišova, M., Michalcová, D., Bacaro, G., & Ghisla, A. (2014). Landscape effects on diversity of semi-natural grasslands. Agriculture Ecosystems & Environment, 182, 47–58. http://dx.doi.org/10.1016/j. agee.2013.05.022 Janssen, J. A. M., Rodwell, J. S., García Criado, M., Gubbay, S., Haynes, T., Nieto, A., Sanders, N., Landucci, F., Loidi, J., Ssymank A., Tahvanainen, T., Valderrabano, M., Acosta, A., Aronsson, M., Arts, G., Attorre, F., Bergmeier, E., Bijlsma, R.-J., Bioret, F., Biţă-Nicolae, C., Biurrun, I., Calix, M., Capelo, J., Čarni, A., Chytrý, M., Dengler, J., Dimopoulos, P., Essl, F., Gardfjell, H., Gigante, D., Giusso del Galdo, G., Hájek, M., Jansen, F., Jansen, J., Kapfer, J., Mickolajczak, A., Molina J. A., Molnár, Z., Paternoster, D., Piernik, A., Poulin, B., Renaux, B., Schaminée, J. H. J., Šumberová, K., Toivonen, H., Tonteri, T., Tsiripidis, I., Tzonev, R., & Valachovič, M. (2016). European Red List of Habitats. Part 2. Terrestrial and freshwater habitats. Publications Office of the European Union. Jongman, R. H. G., ter Braak, C. J. F., & van Tongeren, O. F. R. (1995). Data analysis in community and landscape ecology. Cambridge University Press. Lasen, C. (1995). Note sintassonomiche e corologiche sui prati aridi del Grappa. Fitosociologia, 30, 181–199. Lorenzoni, G. G. (1964). Un esempio di Astragalo-Stipetum pennatae Br.-Bl. 1961 nel Friuli nord-orientale. Lavori di Botanica Istituto Botanico dell’ Universita Padova, 23, 3–11. Lorenzoni, G. G. (1967). Ricerche sui prati a “Chrysopogon gryllus” della pianura friulana. “Udine”, Bollettino Biblioteca e Musei Civici e Biennali d’Arte Antica, 4, 5–21. 21/1 • 2022, 15–40 26 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Maarel, E. van der. (1979). Transformation of cover-abundance values in phytosociology and its effect on community similarity. Vegetatio, 39(2), 97–114. Michelutti, G., Zanolla, S., & Barbieri, S. (2003). Suoli e paesaggi del Friuli Venezia Giulia. Pianura e colline del pordenonese. Ersa. Mucina, L., Bültmann, H., Dierßen, K., Theurillat, J.-P., Raus, T., Čarni, A., Šumberová, K., Willner, W., Dengler, J. García, R. G., Chytrý, M., Hájek, M., Di Pietro, R., Iakushenko, D., Pallas, J., Daniëls, F. J. A., Bergmeier, E., Santos Guerra, A., Ermakov, N., Valachovič, M., Schaminée, J. H. J., Lysenko, T., Didukh, Y. P., Pignatti, S., Rodwell, J. S., Capelo, J., Weber, H. E., Solomeshch, A., Dimopoulos, P., Aguiar, C., Hennekens, S. M., & Tichý, L. (2016). Vegetation of Europe: hierarchical floristic classification system of vascular plant, bryophyte, lichen, and algal communities. Applied Vegetation Science, 19(suppl. 1), 3–264. https://doi.org/10.1111/ avsc.12257 Nimis, P. L., & Fonda, G. (1997). Phytogeography of parasteppic vegetation in the high Friulian Plain (NE Italy). Plant Ecology, 132, 15–28. Pedrotti, F., & Murrja, E. (2020). Il paesaggio dell’area wilderness “Piave della Battaglia – settore Grave di Ciano” (Veneto). Tip. Ed. Temi. Pignatti, S. (1952). Introduzione allo studio fitosociologico della pianura veneta orientale. Atti Istituto Botanico Pavia, ser. 5, 11(1-3), 92–258. Pignatti, S. (2005). Valori di bioindicazione delle piante vascolari della flora d’Italia. Braun-Blanquetia, 39, 3–97. Podani, J. (2001). Syn-Tax 2000. Computer program for data analysis in ecology and systematics. User’s manual. Scientia Publishing. Poldini, L. (1973). I magredi. Informatore Botanico Italiano, 5(2), 146–148. Poldini, L., & Oriolo, G. (1994). La vegetazione dei prati da sfalcio e dei pascoli intensivi (Arrhenatheretalia e Poo-Trisetetalia) in Friuli (NE Italia). Studia Geobotanica, 14(Suppl. 1), 3–48. Rivas-Martínez, S. (2008). Global bioclimatics (Clasificación Bioclimática de la Tierra). Phytosociological Research Center. Retrieved January 15, 2021, from http://www.globalbioclimatics.org/book/bioc/ global_bioclimatics-2008_00.htm Rivas-Martinez, S., & Rivas-Saenz, S. (1996–2020). Worldwide Bioclimatic Classification System. Phytosociological Research Center. Retrieved January 15, 2021, from http://www.globalbioclimatics.org Sburlino, G., Buffa, G., Filesi, L., & Gamper, U. (2008). Phytocoenotic originality of the N-Adriatic coastal sand dunes (Northern Italy) in the European context: The Stipa veneta-rich communities. Plant Biosystems, 142(3), 533–539. https://doi. org/10.1080/11263500802410884 Scortegagna, S., & Curti, L. (2000). L’incespugliamento spontaneo dei prati aridi del Monte Summano (Prealpi Vicentine – Veneto). Studi Trentini Scienze Naturali Acta Biologica, 74(1997), 155–173. Soil Survey Staff. (2015). Illustrated guide to soil taxonomy. U.S. Department of Agriculture, Natural Resources Conservation Service, National Soil Survey Center. Tasinazzo, S. (2001). I prati dei Colli Berici (Vicenza, NE Italia). Fitosociologia, 38(1), 103–116. Terzi, M. (2015). Numerical analysis of the order Scorzoneretalia villosae. Phytocoenologia, 45(1-2), 11–32. http://dx.doi.org/10.1127/ phyto/2015/0009 Theurillat, J. P., Willner, W., Fernández-González, F., Bültmann, H., Čarni, A., Gigante, D., Mucina, L., & Weber, H. (2020). International Code of Phytosociological Nomenclature. 4th edition. Applied Vegeta- tion Science, 24, Article e12491. https://doi.org/10.1111/avsc.12491 Wilson, J. B., Peet, R. K., Dengler, J., & Pärtel, M. (2012). Plant species richness: the world records. Journal Vegetation Science, 23, 796–802. https://doi.org/10.1111/j.1654-1103.2012.01400.x Zenari, S. (1928). La vegetazione dei ‘magredi’ nell’alta pianura del Friuli occidentale. Atti Accademia Scientifica Veneto-Trentino-Istriana, 19, 51–56. Zunino, F. (2018). Sul Fiume Piave di 100 anni fa designata la seconda Area Wilderness del Veneto! Documenti Wilderness, 33(4), 1. Appendix 1: Localities, dates and geographical coordinates (WGS84 system) of relevés of Table 1. Rel. 1: Ballin-Miotto (Fontaniva-PD), 9/06/2020, 45,640309 N – 11,726687 E; rel. 2: Ballin-Miotto (Fon- taniva-PD), 9/06/2020, 45,641383 N – 11,725807 E; rel. 3: Ballin-Miotto (Fontaniva-PD), 9/06/2020, 45,642984 N – 11,723962 E; rel. 4: Ballin-Miotto (Fon- taniva-PD), 9/06/2020, 45,639141 N – 11,727511 E; rel. 5: S.Lucia di Piave (TV), 9/07/2020, 45,80646 N – 12,26598 E; rel. 6: S. Lucia di Piave (TV), 9/07/2020, 45,8116 N – 12,27109 E; rel. 7: Salettuol (Maserada sul Piave-TV), 13/07/2020, 45,77922 N – 12,3071 E; rel. 8: Grave di Ciano (Crocetta del Montello-TV), 30/05/2020, 45,8392528 N – 12,06488611 E; rel. 9: Grave di Ciano (TV), 30/05/2020, 45,8334167 N – 12,06795278 E; rel. 10: Grave di Ciano (TV), 20/06/2020, 45,841191 N – 12,049816 E; rel. 11: Iso- la dei Morti (Moriago d. Battaglia-TV), 12/06/2020, 45,84907 N – 12,07862 E; rel. 12: Isola dei Morti (TV), 12/06/2020, 45,848436 N – 12,080083 E; rel. 13: Grave di Ciano (TV), 20/06/2020, 45,839898 N – 12,051321 E; rel. 14: Grave di Ciano (TV), 30/05/2020, 45,8347056 N – 12,07106389 E; rel. 15: Grave di Ciano (TV), 30/05/2020, 45,84363611 N – 12,0581722 E; rel. 16: Falzè di Piave (TV), 12/06/2020, 45,85712 N – 12,17706 E; rel. 17: Grave di Ciano (TV), 20/06/2020, 45,830689 N – 12,05247 E; rel. 18: Grave di Ciano (TV), 20/06/2020, 45,839245 N – 12,049357 E; rel. 19: Isola dei Morti (TV), 01/06/2012, 45,840876 N – 12,103676 E; rel. 20: Isola dei Morti (TV), 24/05/2018, 45,8427778 N – 12,0988889 E; rel. 21: Isola dei Morti (TV), 24/05/2018, 45,845 N – 12,1063889 E; rel. 22: Grave di Ciano (TV), 30/05/2020, 45,84363611 N – 12,0581722 E; rel. 23: Grave di Ciano (TV), 21/1 • 2022, 15–40 27 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy 30/05/2020, 45,845688 N – 12,04533611 E; rel. 24: Salettuol (TV), 13/07/2020, 45,77205 N – 12,31414 E; rel. 25: Parabae (Maserada sul Piave-TV), 15/06/2020, 45,76498 N – 12,31571 E; rel. 26: Spresiano (TV), 15/06/2020, 45,78845 N – 12,28371 E; rel. 27: Spre- siano (TV), 20/06/1994, 45,787821 N – 12,279095 E; rel. 28: Spresiano (TV), 20/06/1994, 45,787786 N – 12,283453 E; rel. 29: rel. 4 in Table 2 in Feoli Chiapella & Poldini 1994; rel. 30: rel. 5 in Table 2 in Feoli Chia- pella & Poldini 1994; rel. 31: rel. 6 in Table 2 in Feoli Chiapella & Poldini 1994. Appendix 2: Localities, dates and geographical coordinates of relevés of Table 4. Rel. 1: Spresiano (TV), 20/06/1994, 45,78882 N – 12,282104 E; rel. 2: Parabae (Maserada sul Piave-TV), 15/06/2020, 45,76314 N – 12,31719 E; rel. 3: Grave di Ciano (Crocetta del Montello-TV), 20/06/2020, 45,842808 N – 12,048247 E; rel. 4: Isola dei Morti (Moriago d. Battaglia-TV), 12/06/2020, 45,842974 N – 12,099714 E; rel. 5: Isola dei Morti (TV), 12/06/2020, 45,848223 N – 12,079289 E; rel. 6: Palazzon (Spre- siano-TV), 15/06/2020, 45,78612 N – 12,28332 E; rel. 7: Isola dei Morti (TV), 12/06/2020, 45,842842 N – 12,102824 E; rel. 8: Palazzon (TV), 15/06/2020, 45,78771 N – 12.27907 E. Appendix 3: Chorotype grouping in statistical analysis. cosmopolitan group: cosmopolitan, subcosmopolitan and thermocosmopolitan chorotypes boreal group: circumboreal, Eurosiberian and Arctic-al- pine chorotypes eurasiatic group: paleotemperate, eurasiatic, S-European- S-Siberian, European-W Asiatic, European-Caucasian, European, C-European, S-C-European and NC-Euro- pean chorotypes eastern group: NE-eurimediterranean, NE-Mediterrane- an-montane, SE-European-pontic, SE-European, SE- European-S-Siberian, E-Alpic endemic and SE-Alpic endemic chorotypes Mediterranean group: stenomediterranean, W-stenomed- iterranean, SW-stenomediterranean, eurimediterra- nean, N-eurimediterranean, eurimediterranean-pontic and eurimediterranean-Turanian chorotypes Atlantic group: W-European and subatlantic chorotypes orophyte group: N-Mediterranean-montane, E-Medi- terranean-montane, W-Mediterranean-montane, oro- phytic S-European, orophytic S-European-Caucasian, orophytic SE-European, orophytic European and oro- phytic C-European chorotypes endemic group: endemic and Alpic-endemic chorotypes alien Appendix 4: After the acceptance of the article, the occurrence of Astragalo onobrychidis-Koelerietum pyramidatae was con- firmed along river Tagliamento. The corresponding rel- evé is here reported. Locality: S. Martino al Tagliamen- to (PN); date: 12/06/2021; geographical coordinates: 46,02141 N – 12,90508 E; altitude: 70 m a.s.l.; area: 60 m2; cover: 65%; cover Musci: 25%; slope 0°. Species: Stipa eriocaulis 3, Bothriochloa ischaemum 2b, Bromus condensatus 2a, Fumana procumbens 2a, Astragalus ono- brychis 1, Euphorbia cyparissias 1, Helianthemum nummu- larium/obscurum 1, Sanguisorba minor 1, Asparagus offici- nalis +, Asperula purpurea +, Carex caryophyllea +, Carex liparocarpos +, Centaurea jacea/gaudinii +, Chrysopogon gryllus +, Erigeron annuus +, Globularia bisnagarica +, Hy- pericum perforatum +, Koeleria pyramidata +, Ligustrum vulgare (pl+B2) +, Linum tenuifolium +, Potentilla pusilla +, Reseda lutea +, Satureja montana/variegata +, Ophrys holosericea r, Oreoselinum nigrum r. 21/1 • 2022, 15–40 28 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Ta bl e 1: A str ag al o on ob ry ch id is- Ko ele rie tu m p yr am id at ae a ss . n ov a. * : s ub K . v al les ia na (S ut .) G au d. ; p l: pl an tu la e; B 2: lo w er sh ru b la ye r; na : n ot a va ila bl e. G eo gr ap hi ca l a re a: B riv er B re nt a, P ri ve r P ia ve , N ri ve r N at iso ne . Ta be la 1 : A str ag al o on ob ry ch id is- Ko ele rie tu m p yr am id at ae a ss . n ov a. * : s ub K . v al les ia na (S ut .) G au d. ; p l: pl an tu la e; B 2: sp od nj a gr m ov na p la st; n a: n i n a vo ljo . G eo gr af sk o ob m oč je : B : r ek a Br en ta , P : r ek a Pi av a, N : r ek a N at iso ne /N ad iža . re le vé n ° 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 pr . fr. ar ea (m 2) 30 50 10 0 10 0 70 60 60 10 0 10 0 10 0 80 60 60 80 10 0 60 80 80 10 0 50 10 0 50 60 70 10 0 10 0 10 0 60 25 30 50 co ve r ( % ) 30 60 60 60 80 60 75 80 95 85 85 85 70 80 80 70 90 80 10 0 95 75 70 95 75 80 80 90 90 10 0 10 0 95 co ve r M us ci +l ic he ns (% ) 60 50 <5 80 15 35 15 15 10 10 10 25 50 15 15 20 30 30 nd 10 30 <5 10 25 35 30 nd nd nd nd nd slo pe (° ) - - - - - - - - - - - - - - - - - - - - - - - - - - - - 30 30 70 al tit ud e (m a .s. l.) 40 40 40 40 62 63 44 12 7 12 5 13 2 12 5 12 5 13 2 12 4 13 1 91 12 4 13 1 11 6 11 8 11 6 13 1 13 4 39 37 52 52 51 na na na sp ec ie s n um be r 20 21 19 23 28 27 25 28 32 31 37 32 23 31 26 26 35 37 36 40 42 28 33 30 31 31 26 30 38 37 37 pr . fr. % ge og ra ph ic al a re a B B B B P P P P P P P P P P P P P P P P P P P P P P P P N N N di ff sp o f A st ra ga lo -K oe le ri et um Po te nt ill a pu sil la (A ll) + 1 + 1 1 + 2a + + + 1 2a 2a 1 1 1 + + 1 1 1 2a 1 1 + 1 + 1 + + 30 97 As tra ga lu s o no br yc hi s ( C l) 2a 2a 1 1 + 1 + + + r + 2a + + 1 + + + + + 1 + 1 23 74 Er uc as tr um n as tu rt iif ol iu m + + + + + + + 7 23 C en ta ur ei on d ic hr oa nt ha e C ar ex li pa ro ca rp os 2b 2a 2b 3 2a 1 1 1 1 + 1 1 2a 2b 1 1 1 + + + + + 1 1 24 77 Br om us co nd en sa tu s 2a 2b 2b 3 2a 1 1 2b 1 + 1 2a 2b 3 + + 16 52 Cy tis us p ur pu re us 2a 1 1 + + + 1 + + 1 1 1 + 13 42 G yp so ph ila re pe ns + + + + + + + + 1 + + 11 35 Cy tis us p seu do pr oc um be ns + + 1 1 1 1 6 19 K oe le ri en al ia sp le nd en ti s St ip a er io ca ul is 3 4 3 4 3 4 4 2b 2a 2a 2b 4 3 4 3 2a 1 2b 1 3 + 3 3 2 24 77 Te uc riu m m on ta nu m 2a 1 + 2a + 1 + + + + + 1 1 1 + + 16 52 Tr in ia g la uc a 1 1 1 + 4 13 In ul a en sif ol ia + 1 + 1 4 13 G lo bu la ria co rd ifo lia 1 + + 3 10 Sa tu re ja m on ta na /v ar ieg at a + + + 3 10 Po te nt ill a he pt ap hy lla /a us tra lis + 1 3 Sc or zo ne re ta lia v ill os ae Pl an ta go h ol os te um + + + 1 + 2a 1 + 1 + 1 1 1 1 + 1 + 17 55 C hr ys op og on g ry llu s + 1 + + + 2a 3 2a 2b 2a + + + + 14 45 Sc ab io sa tr ia nd ra + + + + + + + + r + + 11 35 Sa lv ia p ra te ns is + + r + + + + + + + 10 32 21/1 • 2022, 15–40 29 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy re le vé n ° 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 pr . fr. C am pa nu la si bi ric a 1 + + + + + 6 19 Er yn gi um a m et hy sti nu m + + + + 1 5 16 C en ta ur ea ja ce a/ ga ud in ii + + + + + 5 16 M ed ica go p ro str at a + 1 + + + 5 16 Th ym us o en ip on ta nu s + 1 2a + 4 13 Fe stu ca v al esi ac a + + + 3 10 H yp oc ha er is m ac ul at a + + + 3 10 Rh in an th us fr ey ni i + + + 3 10 Fi lip en du la v ul ga ris + + 2 6 Lo tu s h er ba ce us + 1 3 O no ni s s pi no sa + 1 3 Pr un ell a gr an di flo ra + 1 3 Ps eu do lys im ac hi on b ar re lie ri/ ni te ns + 1 3 Fe ru la go ca m pe str is + 1 3 Fe st uc o- B ro m et ea Ko ele ria p yr am id at a 2a 2a 1 1 1 + + 3 2b 2a 2a 2b 1 2a 3 2b 3 3 2a 2b 2b 3 2b 3 2a 1 1 2 + + + 31 10 0 H eli an th em um n um m ul ar iu m /o bs cu ru m 1 2a 1 1 1 + 1 1 1 2a 1 1 1 + 1 1 + 1 1 1 + 1 2b 2a 1 1 1 + + 29 94 Fu m an a pr oc um be ns 2a 2a 1 + 1 + 2a 1 1 + 1 2a 1 1 1 1 1 + 1 + 2b + + + + + + + 28 90 Th ym us p ul eg io id es 1 2a + 1 2a 2a + 2a 2a + 2a 2b + 1 2a 2b + + 2a 2a 1 1 1 2a 2b 1 26 84 G lo bu la ria b isn ag ar ica 2a + + + + 1 + + + 1 1 1 2a 1 1 1 + 1 2a + + + + + 24 77 Sa ng ui so rb a m in or + + + 1 + 1 + 1 + + + + + + + + + + + + + + + + 24 77 C en ta ur ea sc ab io sa s. l. + + + + + + + + + + 1 + + 1 1 + 1 1 r + + + 22 71 Th esi um h um ifu su m r + + 1 + + + + + 1 + 1 + + + 1 + 1 1 2 1 21 68 Ar te m isi a al ba + + + + 1 + + + + 2a 2a 3 2b 1 2a + 2a 1 + 1 20 65 Bo th rio ch lo a isc ha em um + 2a 1 2a 4 4 4 + + 1 1 1 2a + 1 + + 2b 1 2b 20 65 Eu ph or bi a cy pa ris sia s r + + + 1 + 1 2a + + + + + + 1 1 1 + 1 1 20 65 Le on to do n cr isp us + + + + + + + 1 + + + 1 + + + r r + + 19 61 G al iu m v er um + + + + + + + + + + + + + + + 15 48 O no br yc hi s a re na ria /a re na ria 1 + 1 1 + 1 + + + 2a + + + 1 + 15 48 Br om us er ec tu s 1 + + 1 + + + 2a 2b 1 4 2b + 13 42 Br ac hy po di um ru pe str e + + + + + + 1 2a 2a + + 1 12 39 C ar ex h um ili s + 1 1 1 2a + 2a + 1 2a + 1 12 39 C ar ex ca ry op hy lle a 2a + + + 1 1 1 2a 1 9 29 Fe stu ca st ric ta /su lca ta + + 2a 1 1 2 + + + 9 29 H ip po cr ep is co m os a + + + + + 1 + + + 9 29 As pe ru la cy na nc hi ca + + + + + + + r 8 26 21/1 • 2022, 15–40 30 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy re le vé n ° 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 pr . fr. Al liu m ca rin at um 1 + 1 1 + r 6 19 Te uc riu m ch am ae dr ys 1 + 2a 2a 1 + 6 19 G al iu m lu cid um + + 1 + 4 13 Li nu m te nu ifo liu m + + + + 4 13 Lo tu s c or ni cu la tu s + + + + 4 13 O do nt ite s l ut eu s + + + + 4 13 An ac am pt is py ra m id al is + + + 3 10 O ro ba nc he g ra cil is + + + 3 10 Tr ifo liu m m on ta nu m + 2a + 3 10 An ac am pt is co rio ph or a + r 2 6 An th yll is vu ln er ar ia s. l. + + 2 6 C am pa nu la g lo m er at a + + 2 6 O no ni s n at rix 1 + 2 6 Pi m pi ne lla sa xi fra ga + + 2 6 Po lyg al a co m os a + + 2 6 Th ym us se rp yll um a gg . + + 2 6 As pe ru la p ur pu re a + 1 3 Ke ng ia se ro tin a + 1 3 M ed ica go fa lca ta + 1 3 O ph ry s h ol os er ica + 1 3 O rc hi s m ili ta ris r 1 3 Se sel i a nn uu m + 1 3 St ac hy s r ec ta + 1 3 Tr if ol io -G er an ie te a O re os eli nu m n ig ru m r + + + + + + + + + + + + 1 1 1 + + 1 1 20 65 An th er icu m ra m os um + + 1 + 1 1 1 7 23 Bu ph ta lm um sa lic ifo liu m + 1 3 C lem at is re cta + 1 3 Li liu m b ul bi fer um + 1 3 Tr ifo liu m ru be ns + 1 3 K oe le ri o- C or yn ep ho re te a+ Se do -S cl er an th et ea Pe tro rh ag ia sa xi fra ga + + + 1 + + + + + + + + 1 + 1 15 48 Se du m se xa ng ul ar e + + 2b 1 + + + + + 9 29 M ed ica go m in im a + + + 1 + + 6 19 D ia nt hu s s ylv est ris r + + 3 10 21/1 • 2022, 15–40 31 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy re le vé n ° 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 pr . fr. Al liu m lu sit an icu m 1 1 3 C at ap od iu m ri gi du m + 1 3 C er as tiu m se m id ec an dr um + 1 3 Tr ifo liu m ca m pe str e r 1 3 O th er sp ec ie s Er ig er on a nn uu s + + + 1 1 3 + r r + + r + + + + + + 18 58 As pa ra gu s o ffi cin al lis + r + + + r + r + r + r 12 39 Re sed a lu te a + + + + + + + + 1 + + 11 35 Ec hi um v ul ga re + + r + r r r + 8 26 Po pu lu s n ig ra (p l+ B2 ) + + 1 + r + + 7 23 Am or ph a fru tic os a (B 2) + + + + + 5 16 Li gu str um v ul ga re (p l+ B2 ) + 1 + + + 5 16 Ar te m isi a ca m pe str is 2a 2b 2b 2b 4 13 C or nu s s an gu in ea (p l+ B2 ) + + + r 4 13 D ip lo ta xi s t en ui fo lia + r r + 4 13 H yp er icu m p er fo ra tu m + + + r 4 13 Ro sa sp . p l. (p l+ B2 ) + + r + 4 13 Sp or ob ol us n eg lec tu s + 1 1 + 4 13 C en ta ur iu m er yt hr ae a + + + 3 10 C en ta ur ea st oe be + + r 3 10 Pl an ta go la nc eo la ta + + + 3 10 Rh am nu s s ax at ili s ( B2 ) + + 1 3 10 Sa lix el ea gn os (p l+ B2 ) + + + 3 10 Ar en ar ia se rp yll ifo lia + 1 2 6 Br om us sq ua rr os us + r 2 6 C ep ha la nt he ra d am as on iu m + + 2 6 C ho nd ril la ju nc ea + + 2 6 Cy tis us h irs ut us + + 2 6 Er ica ca rn ea + + 2 6 Eu ph or bi a m ac ul at a + 1 2 6 G ym na de ni a co no ps ea + + 2 6 H ier ac iu m m ur or um a gg . + + 2 6 Pi lo sel la p ilo sel lo id es + + 2 6 Le m bo tro pi s n ig ric an s ( B2 ) + + 2 6 Pr un us sp in os a (p l+ B2 ) + + 2 6 Si len e v ul ga ris r + 2 6 21/1 • 2022, 15–40 32 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy re le vé n ° 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 pr . fr. Th ym ela ea p as ser in a r + 2 6 Bi scu te lla la ev ig at a + 1 3 C al am in th a ne pe ta + 1 3 Be rb er is vu lg ar is (B 2) + 1 3 C ar ex sy lv at ica r 1 3 C lem at is vi ta lb a + 1 3 C re pi s f oe tid a r 1 3 Cy no do n da cty lo n + 1 3 D ac ty lis g lo m er at a + 1 3 D au cu s c ar ot a r 1 3 Ep ilo bi um d od on ae i r 1 3 Fr an gu la a ln us + 1 3 Fr ax in us o rn us (p l+ B2 ) + 1 3 M ol in ia a ru nd in ac ea + 1 3 Po a co m pr ess a 1 1 3 Sa lv ia v er tic ill at a + 1 3 Te uc riu m b ot ry s + 1 3 To ry lis cf ja po ni ca + 1 3 A -K C -G S- C C -C _v C -C _f A -A co sm op ol ita n 8, 37 6, 04 5, 31 0, 59 0, 03 22 ,0 6 bo re al 2, 19 0, 83 1, 91 0, 99 8, 35 0, 40 eu ra sia tic 24 ,3 5 21 ,0 2 42 ,9 4 75 ,1 6 65 ,9 1 25 ,0 5 ea ste rn 13 ,5 1 10 ,6 5 24 ,9 4 10 ,0 1 17 ,5 1 0, 32 m ed ite rr an ea n 9, 38 4, 65 4, 38 8, 97 4, 35 39 ,7 4 at la nt ic 25 ,4 4 5, 44 14 ,4 8 1, 64 0, 93 0, 24 or op hy te s 14 ,8 0 35 ,6 4 4, 46 2, 36 2, 78 6, 89 en de m ic 0, 11 15 ,7 3 1, 58 0, 00 0, 17 4, 90 al ie n 1, 84 0, 00 0, 00 0, 27 0, 00 0, 40 Ta bl e 2: P er ce nt ag e di str ib ut io n of c ho ro lo gi ca l g ro up s i n di ffe re nt c om pa ris on c oe no sis (p er ce nt ag e co ve r va lu es ). A- K : A str ag al o- Ko ele rie tu m (t hi s s tu dy ); C -C _v : C ha m ae cy tis o- C hr ys op og on et um fr om V en et o (th is stu dy ); C -G : C en ta ur eo -G lo bu la rie tu m (F eo li C hi ap el la & P ol di ni 1 99 4) ; S -C : S ch oe no -C hr ys op og on et um (F eo li C hi ap el la & P ol di ni 1 99 4) ; C -C _f : C ha m ae cy tis o- C hr ys op og on et um fr om F riu li- Ve ne zia G iu lia (F eo li C hi ap el la & P ol di ni 1 99 4) ; A -A : A str ag al o- Ar te m isi et um (B io nd i e t a l. 19 97 ). Ta be la 2 : O ds to tn i d el ež h or ol oš ki h sk up in v p rim er ja ni h zd ru žb ah (p ok ro vn os t v o ds to tk ih ) A -K : A str ag al o- Ko ele rie tu m (t a ra zis ka va ); C -C _v : C ha m ae cy tis o- C hr ys op og on et um iz B en eč ije (t a ra zis ka va ); C -G : C en ta ur eo - G lo bu la rie tu m (F eo li C hi ap el la & P ol di ni 1 99 4) ; S -C : S ch oe no -C hr ys op og on et um (F eo li C hi ap el la & P ol di ni 19 94 ); C -C _f : C ha m ae cy tis o- C hr ys op og on et um iz F ur la ni je -Ju lij sk e kr aj in e (F eo li C hi ap el la & P ol di ni 1 99 4) ; A- A: A str ag al o- Ar te m isi et um (B io nd i e t a l. 19 97 ). 21/1 • 2022, 15–40 33 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy A-K C-G C-C_v C-C_f S-C A-A relevés (n°) 31 14 8 7 10 17 diff sp of Astragalo-Koelerietum Astragalus onobrychis (Cl) 74 38 59 Potentilla pusilla (All) 97 63 6 Erucastrum nasturtiifolium 23 diff sp of Centaureo-Globularietum Euphorbia triflora/kerneri (All) 93 30 Matthiola fruticulosa/valesiaca 57 Brassica glabrescens 36 Crambe tataria 36 diff sp of Chamaecytiso-Chrysopogonetum Dianthus sanguineus 71 Prunella laciniata (All2) 43 Serapias vomeracea 43 Anacamptis coriophora 6 63 14 Cytisus pseudoprocumbens (All) 19 50 88 14 60 Medicago prostrata (O) 16 7 75 10 diff sp of Schoeno-Chrysopogonetum Globularia bisnagarica (Cl) 77 14 50 14 90 65 diff sp of Astragalo-Artemisietum Artemisia alba (Cl) 65 29 63 100 Festuca robustifolia 76 Centaurea aplolepa/lunensis 76 Centaureion dichroanthae Bromopsis condensata 52 71 50 57 100 Cytisus purpureus 42 57 50 80 Centaurea dichroantha 100 70 Carex liparocarpos 77 14 50 20 6 Gypsophila repens 35 79 13 10 Carex mucronata 93 10 Sesleria caerulea 86 Polygala forojulensis 43 20 Lomelosia graminifolia 36 10 Hieracium porrifolium 36 Euphrasia cuspidata 14 Allium ochroleucum 7 Gentiana clusii 7 Leontodon incanus s.l. 7 Hypochoeridenion maculatae Centaurea scabiosa/fritschii 86 50 Knautia ressmannii 29 50 Table 3: Synoptic table of dry grassland communities on fluvial terraces of gravel bed deposits from North-eastern Po plain. Ab- breviations as in Table 2. Companion species occurring at least once in ≥ II frequency class were included. Tabela 3: Sinoptična tabela združb suhih travišč na rečnih prodnatih terasah v severovzhodni Padski nižini. Okrajšave so enake kot v Tabeli 2. Prikazane so spremljevalne vrste, ki se pojavljajo vsaj enkrat s frekvenčnim razredom večjim od II. 21/1 • 2022, 15–40 34 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy A-K C-G C-C_v C-C_f S-C A-A relevés (n°) 31 14 8 7 10 17 Rhinanthus freynii 10 29 20 Carex montana 43 Prunella grandiflora 3 14 10 Cirsium pannonicum 20 Scorzonerion villosae (All 2) Hypochaeris maculata 10 14 86 70 Filipendula vulgaris 6 86 50 Plantago media 25 14 40 Ononis spinosa 3 43 10 18 Lotus herbaceus 3 13 20 Knautia illyrica 14 10 Scorzonera villosa 14 Euphorbia brittingeri 10 Ferulago campestris 3 Scorzoneretalia villosae Chrysopogon gryllus 45 64 100 100 100 Plantago holosteum 55 86 50 14 70 Salvia pratensis 32 88 43 50 6 Scabiosa triandra 35 14 25 57 70 Centaurea jacea/gaudinii 16 7 50 57 50 Betonica officinalis/serotina 7 57 60 Eryngium amethystinum 16 21 50 Campanula sibirica 19 21 25 10 Plantago argentea/liburnica 21 30 Noccaea praecox 14 Centaurea triumfettii 10 Festuca valesiaca 10 Pseudolysimachion barrelieri/nitens 3 Koelerienalia splendentis Teucrium montanum 52 93 50 10 24 Stipa eriocaulis/eriocaulis 77 93 50 Trinia glauca 13 71 50 40 Globularia cordifolia 10 100 30 Inula ensifolia 13 86 13 Potentilla heptaphylla/australis 3 43 50 Scorzonera austriaca 57 20 Genista sericea 64 10 Seseli kochii 43 10 Satureja montana/variegata 10 14 Festuco-Brometea Thymus serpyllum agg. 90 71 100 86 90 88 Koeleria pyramidata 100 100 100 71 80 Helianthemum nummularium/obscurum 94 64 100 71 70 29 Sanguisorba minor 77 21 63 29 90 82 Galium verum 48 21 88 100 100 Euphorbia cyparissias 65 21 88 57 20 47 21/1 • 2022, 15–40 35 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy A-K C-G C-C_v C-C_f S-C A-A relevés (n°) 31 14 8 7 10 17 Carex humilis 39 86 63 29 70 Fumana procumbens 90 93 38 59 Lotus corniculatus 13 29 38 100 100 Thesium humifusum 68 71 88 40 6 Brachypodium rupestre 39 50 71 100 12 Festuca stricta/sulcata 29 14 63 57 80 Leontodon crispus 61 43 25 43 60 Asperula cynanchica 26 43 13 57 80 Galium lucidum 13 93 38 14 50 6 Bothriochloa ischaemum 65 7 25 10 100 Hippocrepis comosa 29 36 38 14 80 Teucrium chamaedrys 19 29 63 14 60 12 Bromopsis erecta 42 88 65 Carex caryophyllea 29 14 25 43 70 Trifolium montanum 10 50 71 50 Briza media 13 86 60 Anthyllis vulneraria s.l. 6 36 57 40 Pimpinella saxifraga 6 13 71 40 Centaurea scabiosa 71 50 Pilosella officinarum 14 57 40 6 Anacamptis morio 43 14 50 Linum catharticum 7 29 70 Anacamptis pyramidalis 10 14 25 14 40 Asperula purpurea 3 14 14 71 Linum tenuifolium 13 57 13 6 Onobrychis arenaria/arenaria 48 38 Campanula glomerata 6 57 10 Carex flacca 14 40 Odontites luteus 13 41 Plantago sempervirens 53 Ranunculus bulbosus 29 20 Stachys recta s.l. 3 41 Polygala comosa 6 38 Ononis natrix 6 35 Eryngium campestre 41 Allium coloratum 29 12 Melica ciliata 7 29 Medicago lupulina 14 20 Orchis militaris 3 25 Neotinea tridentata 20 Allium carinatum 19 Ophrys apifera 7 10 Medicago falcata 3 13 Kengia serotina 3 12 Asperula aristata 12 Carlina vulgaris 12 Orobanche gracilis 10 Carlina acaulis 7 Alyssum montanum 7 21/1 • 2022, 15–40 36 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy A-K C-G C-C_v C-C_f S-C A-A relevés (n°) 31 14 8 7 10 17 Gentianella pilosa 7 Ophrys holoserica 3 Seseli annuum 3 Molinio-Arrhenatheretea Dactylis glomerata 3 29 63 43 90 59 Gymnadenia conopsea 6 29 13 29 20 Tragopogon pratensis aggr. 43 30 12 Leontodon hispidus 14 70 Jacobaea vulgaris 14 43 10 Prunella vulgaris 14 50 Ranunculus tuberosus 43 Rumex acetosa 43 Linum bienne 41 Trifolium pratense 14 20 Arrhenatherum elatius 29 Holcus lanatus 29 Trifolio-Geranietea Oreoselinum nigrum 65 93 88 100 80 Anthericum ramosum 23 43 38 43 Buphtalmum salicifolium 3 7 25 57 40 Trifolium rubens 3 71 Vincetoxicum hirundinaria 7 13 14 30 Cruciata glabra 7 29 Viola hirta 29 Koelerio-Corynephoretea+Sedo-Scleranthetea Sedum sexangulare 29 25 10 35 Petrorhagia saxifraga 48 25 10 Catapodium rigidum 3 24 Sedum acre 24 Sedum sediforme 24 Thlaspietea rotundifolii+Asplenietea trichomanis Pilosella piloselloides 6 50 71 60 Achnatherum calamagrostis 14 24 Epilobium dodonaei 3 24 Elyno-Seslerietea Biscutella laevigata 3 50 86 40 Leucanthemum heterophyllum 60 Rhinanthus glacialis 14 40 Dianthus sternbergii 36 Helianthemum alpestre 36 Dryas octopetala 21 Other species Plantago lanceolata 10 25 57 30 53 Erica carnea 6 93 50 Schoenus nigricans 79 60 21/1 • 2022, 15–40 37 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy A-K C-G C-C_v C-C_f S-C A-A relevés (n°) 31 14 8 7 10 17 Leucanthemum vulgare agg. 86 29 Hypericum perforatum 13 13 88 Cytisus hirsutus 6 86 10 Asparagus officinalis 39 38 18 Anthoxanthum odoratum 86 Erigeron annuus 58 25 Reseda lutea 35 21 25 Polygala vulgaris 71 10 Genista tinctoria 57 20 Blackstonia perfoliata 7 50 18 Potentilla erecta 43 30 Diplotaxis tenuifolia 13 21 13 18 Agrostis capillaris 57 Centaurium erythraea 10 7 38 Amorpha fruticosa (B2) 16 38 Chondrilla juncea 6 47 Dittrichia viscosa 53 Silene vulgaris 6 20 18 Potentilla alba 43 Cota tinctoria 41 Avena barbata 41 Setaria viridis 41 Ligustrum vulgare (pl+B2) 16 25 Echium vulgare 26 12 Erigeron canadensis 35 Erigeron sumatrensis 35 Sixalix atropurpurea 35 Rhamnus saxatilis (B2) 10 25 Crepis froelichiana/dinarica 30 Thalictrum minus s.l. 30 Potentilla pedata 29 Scabiosa columbaria 29 Populus nigra (pl+B2) 23 6 Serratula tinctoria s.l. 7 20 Helichrysum italicum 24 Inula spiraeifolia 24 Epipactis atrorubens 20 Genista germanica 20 Scirpoides holoschoenus 20 21/1 • 2022, 15–40 38 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy Table 4: Chamaecytyso hirsuti-Chrysopogonetum grylli Venetian provenance. Abbreviations as in Table 1. Tabela 4: Chamaecytyso hirsuti-Chrysopogonetum grylli iz Benečije. Okrajšave so enake kot v Tabeli 1. relevé n° 1 2 3 4 5 6 7 8 pr. fr. area (m2) 60 80 60 100 80 60 100 60 cover (%) 100 100 95 95 100 95 100 90 cover Musci+lichens (%) na 5 - 5 - 15 - 10 altitude (m a.s.l.) 52 36 132 118 125 51 117 51 species number 32 26 36 36 30 30 47 30 pr fr% geographical area P P P P P P P P diff sp of Chamaecytiso-Chrysopogonetum Cytisus pseudoprocumbens (All) 1 2a 2b + + 1 + 7 88 Medicago prostrata (O) + + + 1 + 2a 6 75 Anacamptis coriophora + + 1 + + 5 63 Centaureion dichroanthae Potentilla pusilla agg. + 1 + + 1 5 63 Bromus condensatus 1 + 1 2a 4 50 Cytisus purpureus 1 + + 2a 4 50 Carex liparocarpos + + + 1 4 50 Gypsophila repens + 1 13 Scorzonerion villosae Plantago media + + 2 25 Lotus herbaceus + 1 13 Scorzoneretalia villosae Chrysopogon gryllus 5 3 4 3 4 3 4 2b 8 100 Salvia pratensis r + + + + + + 7 88 Plantago holosteum 1 1 + 2a 4 50 Centaurea jacea/gaudinii + + + + 4 50 Eryngium amethystinum + + + + 4 50 Scabiosa triandra + + 2 25 Campanula sibirica + 1 2 25 Koelerienalia splendentis Teucrium montanum + + + + 4 50 Stipa eriocaulis/eriocaulis + r + + 4 50 Trinia glauca 1 + + 1 4 50 Inula ensifolia + 1 13 Festuco-Brometea Thymus pulegioides 1 1 + 1 1 1 1 2b 8 100 Koeleria pyramidata 1 1 1 1 1 + 1 + 8 100 Helianthemum nummularium/obscurum 1 1 1 1 + 1 1 1 8 100 Bromus erectus + 3 2b 3 2a 2a 2a 7 88 Euphorbia cyparissias + + + + 1 2a + 7 88 Galium verum 1 + 1 + 1 + 2b 7 88 Thesium humifusum + + + + + + + 7 88 Artemisia alba 1 + 2a + 1 5 63 21/1 • 2022, 15–40 39 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy relevé n° 1 2 3 4 5 6 7 8 pr. fr. Carex humilis 1 + 2b 1 1 5 63 Festuca stricta/sulcata 1 2b 2a + 1 5 63 Sanguisorba minor + + + + + 5 63 Teucrium chamaedrys 1 1 + 2a 2b 5 63 Brachypodium rupestre + + 1 2a 4 50 Centaurea scabiosa s.l. + + + + 4 50 Globularia bisnagarica + 1 + 1 4 50 Trifolium montanum + 1 + 1 4 50 Fumana procumbens + + + 3 38 Galium lucidum 1 + 1 3 38 Hippocrepis comosa + + + 3 38 Lotus corniculatus + + + 3 38 Onobrychis arenaria + + + 3 38 Polygala comosa + + + 3 38 Astragalus onobrychis + + + 3 38 Anacamptis pyramidalis + + 2 25 Bothriochloa ischaemum 1 1 2 25 Carex caryophyllea + + 2 25 Leontodon crispus + + 2 25 Orchis militaris r + 2 25 Asperula cynanchica + 1 13 Briza media 2a 1 13 Gymnadenia conopsea + 1 13 Linum tenuifolium + 1 13 Medicago falcata + 1 13 Pimpinella saxifraga r 1 13 Trifolio-Geranietea Peucedanum oreoselinum + + + + + + + 7 88 Anthericum ramosum + r + 3 38 Buphtalmum salicifolium + + 2 25 Clematis recta + 1 13 Vincetoxicum hirundinaria + 1 13 Other species Dactylis glomerata + + 1 1 1 5 63 Amorpha fruticosa (B2) + + + 3 38 Asparagus officinallis + + + 3 38 Centaurium erythraea r + + 3 38 Erigeron annuus + + 2 25 Ligustrum vulgare (pl+B2) + + 2 25 Petrorhagia saxifraga + + 2 25 Plantago lanceolata + + 2 25 Reseda lutea + + 2 25 Rhamnus saxatilis (B2) + + 2 25 Sedum sexangulare + + 2 25 Achillea millefolium agg. + 1 13 Chenopodium album + 1 13 Diplotaxis tenuifolia + 1 13 21/1 • 2022, 15–40 40 Tasinazzo et al. Dry grasslands on fluvial terraces of the middle reaches of river Piave in the North East Italy relevé n° 1 2 3 4 5 6 7 8 pr. fr. Fraxinus ornus (pl+B2) + 1 13 Hypericum perforatum r 1 13 Inula salicina + 1 13 Medicago minima + 1 13 Pyrus communis (B2) r 1 13 Salix eleagnos (pl+B2) 1 1 13 Solanum nigrum r 1 13 Ulmus minor (pl+B2) r 1 13 Vicia cracca s.l. + 1 13