As a result of our analysis, we present here: a) two new habitat proposals; b) one habitat new for Italy; c) nine new subtypes of already existing HD habitats. We also propose a new name for two of them, better fitting with the proposed subtypes and the new framework (Tab. 1).
a) New habitat proposals
Mediterranean heaths
Motivation: Despite the relevant biogeographical significance recognized to Ericaceae (Schwery et al. 2015) and to the species of the genus Erica (McGuire and Kron 2005; Désamoré et al. 2011), no clear identification exists in the HD for Mediterranean shrubs dominated by heaths (Ojeda 2009; European Commission 2013). In contrast, a wide variety of heath habitats is described under category 4 – Temperate heath and scrub and, particularly, the habitat 4030 – European dry heaths. Due to their historical and present biogeographic relevance (Beffa et al. 2016; Pedrotta et al. 2021), we propose including Mediterranean heaths as a new habitat within the macrotype 52. The communities in this habitat are often unique and rich in plant species endemic and/or with conservation concern, such as Gennaria diphylla and other orchids, and Chamaerops humilis in the thermophilous heaths (Bocchieri and Satta 1999; Biondi and Bagella 2005; Bagella and Urbani 2006); Amelanchier ovalis, Genista spp., Helleborus lividus subsp. corsicus, Ribes multiflorum subsp. sandalioticum and Rosa serafinii in the montane heaths (Farris et al. 2007a; Chelli et al. 2019); Osmunda regalis and Hypericum hircinum in the hygrophilous heaths (Carta et al. 2014), among others.
This habitat can be referred to the CORINE biotope F5.22 – Dwarf ericoid shrubs (Lapresa et al. 2004).
Macrotype: 52 - Mediterranean arborescent matorral.
New habitat proposed: Mediterranean communities dominated by species of the genus Erica. We recognized in Sardinia four subtypes (1–4).
Diagnostic sentence: Subtype 1) calcifuge thermophilous heaths on acidic substrata from thermo- to lower meso-Mediterranean belts; subtype 2) calciphilous thermophilous heaths on sedimentary substrata from thermo- to lower meso-mediterranean belts; subtype 3) montane heaths from upper meso-mediterranean to supra-temperate sub-mediterranean variant) belts; subtype 4) hygrophilous heaths, from thermo- to supra-mediterranean belts, along streams, mainly on acidic soils.
Reference list of diagnostic species: Subtype 1) Erica arborea, Erica scoparia; subtype 2) Erica multiflora; subtype 3) Erica arborea, Erica scoparia, Genista spp., Rosa serafinii; subtype 4) Erica terminalis, Carex microcarpa, Hypericum hircinum, Osmunda regalis.
Phytosociological arrangement: Subtype 1) Ericion arboreae (Rivas-Martínez ex Rivas-Martínez, Costa & Izco 1986) Rivas-Martínez 1987; subtype 2) Oleo-Ceratonion siliquae Br.-Bl. ex Guinochet & Drouineau 1944 em. Rivas-Martínez 1975; subtype 3) Ericion arboreae (Rivas-Martínez ex Rivas-Martínez, Costa & Izco 1986) Rivas-Martínez 1987; subtype 4) Pruno-Rubion ulmifolii O. Bolòs 1954 (Rivas-Martínez et al. 2002; Biondi et al. 2014).
Dynamics and contacts: Contacts with all other communities involved in the vegetation series: anthropogenic herb-dominated communities of Stellarietea mediae and Polygono-Poetea annuae Rivas-Martínez 1975; fringes of Galio-Urticetea Passarge ex Kopecký 1969 and Trifolio medii-Geranietea sanguinei Müller 1962; dwarf shrub communities of Cisto-Lavanduletea Br.-Bl. in Br.-Bl., Molinier & Wagner 1940 and Rosmarinetea officinalis Rivas-Martínez, Fernández-González, Loidi, Lousã & Penas 2001; shrub communities of Rhamno-Prunetea Rivas-Goday & Borja ex Tüxen 1962 and Quercetea ilicis Br.-Bl. ex A. & O. Bolòs 1950 (Pistacio lentisci-Rhamnetalia alaterni Rivas-Martínez 1975); woods of Querco roboris-Fagetea sylvaticae Br.-Bl. & Vlieger in Vlieger 1937 and Quercetea ilicis (Bacchetta et al. 2009). The subtypes 1 and 3 are in contact with garrigues of Teucrion mari Gamisans & Muracciole 1984, Cisto-Lavanduletea (including montane aspects referred to Carici-Genistetea lobelii Klein 1972) (Valsecchi 1994; Farris et al. 2007a); subtype 2 with communities of Rosmarinion officinalis Br.-Bl. ex Molinier 1934 (incl. Rosmarino-Ericion Br.-Bl. 1931); subtype 4 with edaphohygrophilous woods of Hyperico hircini–Alnenion glutinosaeDierschke 1975, with a Tyrrhenian distribution (Dierschke 1975; Angius and Bacchetta 2009), and rhizophytic vegetation of Caricion microcarpae Gamisans 1975 (Bacchetta and Mossa 2004).
Calaminarian vegetation of mining dumps, tailing dams and quarries
Motivation: Natural revegetated post-mining dumps, tailing dams and quarries may act as important secondary habitats and can be considered a potential complement to existing protected ones (e.g., Angiolini et al. 2005; Řehounková et al. 2020). Due to the extreme and peculiar environmental conditions occurring there, the biological communities established on these substrates are often unique and rich in endemic plant species. Several threatened plants, such as Linum muelleri (a species listed in the Annex II of HD) or Iberis integerrima, are particularly adapted or even exclusive to this habitat. It might also support or be in contact with suitable conditions for different animals of conservation interest, such as birds, bats, amphibians and reptilians (Isaia et al. 2011; Lunghi et al. 2020). At the same time, the conservation and sustainable management of this habitat might facilitate the stabilization and phytoremediation of the contaminated substrata (Bacchetta et al. 2015, 2018; Boi et al. 2020). This habitat is present across Europe in different biogeographic and bioclimatic regions and further several subtypes with different species at the regional level can be included.
Macrotype: 81 – Scree.
New habitat proposed: Calaminarian vegetation of mining dumps, tailing dams and quarries. We recognized in Sardinia one subtype.
Diagnostic sentence: Mediterranean communities dominated by suffruticose chamaephytes and hemicryptophytes, specifically adapted to extreme environments determined by long-term historical mining activities, growing on soils often characterized by medium to very high levels of heavy metals (e.g., lead and zinc). Edaphic conditions can vary from gross-grained, hard-sloping dumps to impermeable and temporally inundated fine-grained deposits.
Reference list of diagnostic species: Echium anchusoides, Epipactis helleborine subsp. tremolsii, Euphorbia pithyusa subsp. cupanii, Helichrysum microphyllum subsp. tyrrhenicum, Iberis integerrima, Limonium merxmuelleri subsp. merxmuelleri, Linum muelleri, Lysimachia monelli, Ptilostemon casabonae, Santolina insularis, Scrophularia canina.
Phytosociological arrangement: Ptilostemono casabonae-Euphorbion cupanii Angiolini, Bacch., Brullo, Casti, Giusso Del Galdo & Guarino 2005 and, partially, Teucrion mari Gamisans & Muracciole 1985 (Bacchetta et al. 2007a).
Dynamics and contacts: Contacts with therophytic grasslands of Tuberarion guttatae Br.-Bl. 1931 or, when roots can stabilize soils and the concentration of heavy metals decreases, with garrigues of Cisto-Lavanduletea Br.-Bl. in Br.-Bl., Molinier & Wagner 1940, shrubs and micro-forests of the Pistacio-Rhamnetalia alaterni Rivas-Martínez 1975 and Quercetalia ilicis Br.-Bl. ex Molinier 1934 (Bacchetta et al. 2007b). Especially in temporally inundated fine-grained deposits, it can also be in contact with helophytic communities of Phragmitetalia australis Koch 1926, while, in other contexts, with different rocky habitats and caves.
c) New subtypes in already existing HD habitats
Ephedra distachya mantles on clay substrates
Motivation: This habitat, very rare and prone to shrinkage due to coastal erosion (Biondi et al. 2009), represents the mantle step dynamically linked to Juniperus spp. communities. In Sardinia, it occurs on fine clay substrates along the coastal ponds or along the temporary retrodunal ponds (Fenu et al. 2012); it deserves a special interest the presence of species that generally live on the sand such as Scrophularia ramosissima and Armeria pungens, interesting taxa both from the phytogeographic and conservation points of view.
Macrotype: 22 - Sea dunes of the Mediterranean coast.
Reference habitat: 2210 - Crucianellion maritimae fixed beach dunes. We recognized in Sardinia one subtype.
Diagnostic sentence: Primary garrigues of the Mediterranean bioregion, with few species that develop mainly on the inland-facing slope of mobile dunes with stable and compact sands belonging to Crucianellion maritimae Rivas Goday & Rivas-Martínez 1958.
Reference list of diagnostic species: Ephedra distachya, Helichrysum microphyllum subsp. tyrrhenicum, Scrophularia ramosissima and Armeria pungens.
Phytosociological arrangement: Partially included in the coenosis described in Sardinia as Ephedro-Helichrysetum tyrrhenici Valsecchi & Bagella 1991 corr., belonging to Crucianellion maritimae Rivas Goday & Rivas-Martínez 1958 (Biondi and Bagella 2005; Biondi et al. 2014).
Dynamics and contacts: These formations are in contact with Juniperus macrocarpa and J. turbinata formations included in habitat 2250*, belonging to the alliance Juniperion turbinatae Rivas-Martínez (1975) 1987, and with the communities dominated by Calamagrostis arenaria subsp. arundinacea included in habitat 2120 in the inland-facing slopes of mobile dunes on consolidated and humified substrates.
Dwarf vegetation with Nananthea perpusilla
Motivation: Temporary wet habitats are among the most interesting in the Mediterranean bioclimatic region (Médail et al. 1998). Issues related to their detection and classification are due at least partly to their intrinsic characteristics and to the traits of the plants that they host (Bagella et al. 2016; Bagella et al. 2018). They cover minimal surface areas, are ephemeral, and show high variability in terms of duration of the flooding period. Furthermore, the species which colonize them are often inconspicuous (e.g., dwarf annuals or dwarf geophytes), exhibit a very short life cycle, and are often poorly known (Bagella et al. 2007). Among these habitats, the most interesting from a conservation point of view are those with shallow waters (a few cm) located on small areas, referred to as priority habitat 3170*. However, the description of this habitat refers exclusively to communities of the class Isoeto-Nanojuncetea Br.-Bl. & Tüxen ex Westhoff, Dijk & Passchier 1946, thus excluding communities that are structurally similar but develop in small coastal ponds where the marine aerosol reaches. In these contexts, paucispecific communities, characterized by Nananthea perpusilla, develop (Biondi et al. 2001). Although it is already included in the physiognomic reference combination of habitat 3170* (Biondi et al. 2009), the peculiarity of the coenoses in which this species becomes dominant is not sufficiently valued. We, therefore, propose to establish within habitat 3170* a subtype characterized by the presence of slightly brackish water.
Macrotype: 31 – Standing water.
Reference habitat: 3170* - Mediterranean temporary ponds. We recognized in Sardinia one subtype.
Diagnostic sentence: Mediterranean amphibious vegetation, dominated by small-sized therophytes and geophytes, with predominantly winter/early-spring phenology, linked to shallow-water temporary pond systems influenced by the presence of saltwater or marine aerosol, distributed in coastal areas of Sardinia and Corsica prone to thermo-mediterranean thermotype.
Reference list of diagnostic species: Nananthea perpusilla, Bellium bellidioides, Hypochaeris glabra, Plantago bellardi, Romulea requienii, Senecio leucanthemifolius subsp. leucanthemifolius.
Phytosociological arrangement: Saginion maritimae Westhoff, Leeuwen & Adriani 1962, Saginetea maritimae Westhoff, Leeuwen & Adriani 1962.
Dynamics and contacts: The communities included in this habitat in Sardinia take part of the coastal sigmetum Euphorbio characiae-Junipero turbinatae (Biondi et al. 2001; Biondi and Bagella 2005; Pisanu et al. 2014).
Mediterranean Pruno-Rubion communities
Motivation: The Mediterranean formations belonging to the Pruno spinosae-Rubion ulmifolii O. Bolòs 1954 are not adequately considered in the HD. In Sardinia, they are referable to the CORINE biotope +31.8A – Submediterranean vegetation with Rubus ulmifolius (Lapresa et al. 2004). In Sardinia, they deserve a special interest for the presence of several endemics belonging to the genera Rubus and Ribes, which are exclusive to this habitat. Among them, R. sardoum is a priority species of the Annex II of the HD.
Macrotype: 51 - Sub-Mediterranean and temperate scrub.
Reference habitat: 5130 - Juniperus communis formations on heaths or calcareous grasslands. We recognized in Sardinia one subtype.
Diagnostic sentence: shrub deciduous meso-hygrophilous communities of the Pruno spinosae-Rubion ulmifolii of the Mediterranean bioregion.
Reference list of diagnostic species: The subtype is of particular interest for the presence of endemic plants belonging to the genera Rubus (R. arrigonii, R. laconensis, R. limbarae, and R. pignattii) and Ribes (R. multiflorum subsp. sandalioticum and R. sardoum).
Phytosociological arrangement: Pruno spinosae-Rubion ulmifolii.
Dynamics and contacts: It can be in contact with wood communities of Querco roboris-Fagetea sylvaticae Br.-Bl. & Vlieger in Vlieger 1937 and Quercetea ilicis Br.-Bl. ex A. & O. Bolòs 1950 (Bacchetta et al. 2009) and with hygrophilous grasslands of the Molinio-Arrhenatheretea Tüxen 1937, and woodlands of the Osmundo-Alnion glutinosae (Biondi et al. 2002; Farris et al. 2007a; Biondi et al. 2009).
Shrub communities surrounding Mediterranean temporary ponds
Motivation: These formations dominated by Myrtus communis and Oenanthe pimpinelloides are very rare transitional formations between Mediterranean temporary ponds and Mediterranean maquis representing a buffer area (Bagella et al. 2009).
Macrotype: 53 - Thermo-Mediterranean and pre-steppe brush.
Reference habitat: 5330 - Thermo-Mediterranean and pre-desert scrub. We recognized in Sardinia one subtype.
Diagnostic sentence: Maquis with sclerophyllous Mediterranean species, characteristic of the thermo-and meso-mediterranean bioclimatic belts, on different substrates (granites and effusive volcanites), typical of hydromorphic soils with a clay texture and slow drainage.
Reference list of diagnostic species: Myrtus communis, Oenanthe pimpinelloides, Pistacia lentiscus, Pyrus spinosa, Rubus ulmifolius, Rubia peregrina, Phillyrea latifolia, Asparagus acutifolius, Smilax aspera.
Phytosociological arrangement: In Sardinia, this community is referred to the Oleo-Ceratonion siliquae Br.-Bl. ex Guinochet & Drouineau 1944 em. Rivas-Martínez 1975, Calicotomo-Myrtetum Guinochet in Guinochet & Drouineau 1944 em. O. Bolòs 1962 (Farris et al. 2007b).
Dynamics and contacts: These formations establish contacts with Mediterranean amphibious vegetation of Isoeto-Nanojuncetea Br.-Bl. & Tüxen ex Westhoff, Dijk & Passchier 1946 (Isoetion Br.-Bl. 1936, Cicendio-Solenopsion laurentiae Brullo & Minissale 1998, Preslion cervinae Br.-Bl. ex Moor 1937), characterizing the Mediterranean temporary ponds (3170*) and with the communities of Oleo-Ceratonion siliquae Br.-Bl. ex Guinochet & Drouineau 1944 em. Rivas-Martínez 1975.
Helianthemum caput-felis and Viola arborescens garrigues
Motivation: Habitat 5410, present along the coasts of the western Mediterranean, widespread in the Iberian-Levantine coasts in Italy, has so far been reported only for the northern Sardinia and, sporadically, in the southern part of the island; if also the coastal garrigues with Helianthemum caput-felis and Viola arborescens were included, it would have a more continuous distribution along the coasts of Sardinia. These communities deserve a special interest due to the presence of several endemics such as Polygala sinisica, which is exclusive to this habitat, and other plants of phytogeographic interest, like Polygala rupestris, which, in Italy, is only present in these formations.
Macrotype: 54 – Phrygana.
Reference habitat: 5410 - West Mediterranean clifftop phryganas (Astragalo-Plantaginetum subulatae). We recognized in Sardinia one subtype.
Diagnostic sentence: Coastal garrigues, generally localized on the top of the cliffs and adjacent rocky areas, in the thermo-mediterranean phytoclimatic belt.
Reference list of diagnostic species: In Italy, the habitat is of particular interest for several endemic vascular plants such as Centaurea horrida, Astragalus tegulensis, A. terraccianoi, Polygala sinisica, Helichrysum microphyllum subsp. tyrrhenicum, Limonium lausianum, Genista sardoa and Genista corsica. There are also numerous species of phytogeographic interest such as Helianthemum caput-felis, Viola arborescens, Polygala rupestris and Coris monspeliensis.
Phytosociological arrangement: Not yet defined. Putatively Rosmarinetea officinalis Rivas-Martínez, T.E. Diáz, F.Prieto, Loidi & Penas 2002.
Dynamics and contacts: Partially investigated for the northern Sardinia; some aspects are reported in the study of plant communities dominated by Centaurea horrida (Biondi et al. 2001; Farris et al. 2008) and in the Italian Interpretation Manual of the HD (Biondi et al. 2009).
Mediterranean semi-natural grasslands
Motivation: The conservation value of the European traditional farming systems has been recognized for several decades because of the biodiversity levels they support and the socio-ecological values they provide (Bignal and McCracken 2000). Among traditional farming systems, semi-natural grasslands host high levels of plant diversity and habitat richness at different spatial scales (Biurrún et al. 2021), responding to different drivers such as grazing intensity, soil and topographical variables (Napoleone et al. 2021). Moreover, they support several ecosystem services (Bagella et al. 2020a). Mediterranean semi-natural grasslands are already included in the HD with the priority code 6220*- ‘Pseudo-steppe with grasses and annuals of the Thero-Brachypodietea’ but only one and half rows of explanation in the Interpretation Manual of EU Habitats is provided for Italy: "In Italy this habitat mainly exists in the South and on the islands (Thero-Brachypodietea, Poetea bulbosae, Lygeo-Stipetea)" (European Commission 2013). Several interpretations were proposed because of the scarcity of information and the complexity of recognizing this habitat in the field (Farris et al. 2007c, San Miguel 2008). Moreover, the class Thero-Brachypodietea Br.-Bl. in Br.-Bl., Emberger & Molinier 1947 is now considered as a synonym of the class Lygeo-Stipetea Rivas-Martínez 1978 (Rivas-Martínez et al. 2002; Biondi et al. 2014). Later, new contributions provided experimental and phytosociological evidence to discriminate pastures with conservation concern, belonging to Poetea bulbosae Rivas Goday & Rivas-Martínez in Rivas-Martínez 1978, from nitrophilous herb-dominated communities, belonging to Stellarietea mediae Tüxen, Lohmeyer & Preising ex von Rochow 1951 (Farris et al. 2010). The high conservation value of supra-mediterranean and supra-temperate sub-mediterranean humid pastures referred to the Cynosurion cristati Tüxen 1947 of the Molinio-Arrhenatheretea Tüxen 1937 was also underlined (Farris et al. 2013b). Therefore, we propose changing the name of the habitat to "Mediterranean semi-natural grasslands" in which several subtypes can be considered.
Macrotype: 62 - Semi-natural dry grasslands and scrubland facies.
Reference habitat: 6220* Pseudo-steppe with grasses and annuals of the Thero-Brachypodietea.
New name proposed: Mediterranean semi-natural grasslands. We recognized in Sardinia five subtypes (1–5).
Diagnostic sentence: Thermo- to supra-mediterranean (up to supra-temperate sub-mediterranean), mostly open, annual and perennial grasslands. Subtype 1) Short-grass annual grasslands rich in therophytes and small geophytes on oligotrophic soils; subtype 2) thermo-mediterranean arid to dry, tall size, perennial grasslands; subtype 3) meso-mediterranean dry to subhumid, medium size, perennial grasslands; subtype 4) thermo- to supra-mediterranean (up to supra-temperate sub-mediterranean) pastures rich in therophytes and geophytes; subtype 5) supra-mediterranean to supra-temperate perennial pastures, rich in endemics and boreal-temperate taxa.
Reference list of diagnostic species: Subtype 1) Brachypodium distachyon, Tuberaria guttata; subtype 2) Hyparrhenia hirta, Lygeum spartum; subtype 3) Brachypodium retusum, Dactylis glomerata subsp. hispanica; subtype 4) Poa bulbosa, Ranunculus paludosus, Trifolium subterraneum (in Sardinia Crocus minimus, Ornithogalum corsicum and Romulea requienii differentiate the endemic suballiance Ornithogalo corsici-Trifolienion subterranei Farris, Rosati, Secchi & Filigheddu, 2013); subtype 5) Agrostis capillaris, Cynosurus cristatus, Danthonia decumbens, Festuca morisiana subsp. morisiana, Lotus corniculatus subsp. alpinus, Oenanthe lisae, Ranunculus cordiger. Each subtype can be referred to one or more CORINE biotopes: subtype 1) E1.A - Mediterranean arid grasslands, from acidophilous to neutrophilous, with low cover; subtype 2) E1.42 - Lygeum spartum steppe and E1.43 - Mediterranean steppe dominated by tall Graminaceae; subtype 3) E1.31 – western-Mediterranean xeric grasslands; subtype 4) E1.32 – south-western-Mediterranean stable pastures; subtype 5) E1.51 - montane supra-mediterranean steppe, E1.72 – grasslands with Agrostis spp. and Festuca spp. and E2.14 – multi-specific communities of flooded grasslands (Lapresa et al. 2004).
Phytosociological arrangement: Subtype 1) Helianthemetea guttati (Br.-Bl. in Br.-Bl., Roussine & Nègre 1952) Rivas Goday & Rivas-Martínez 1963 em. Rivas-Martínez 1978; subtype 2) Lygeo-Stipetea; subtype 3) Brachypodio ramosi-Dactyletalia hispanicae Biondi, Filigheddu & Farris 2001 (Artemisietea vulgaris Lohmeyer, Preising & Tüxen ex von Rochow 1951); subtype 4) Poetea bulbosae; subtype 5) Cynosurion cristati (Molinio-Arrhenatheretea) (Farris et al. 2007c, 2013).
Dynamics and contacts: The communities included in this habitat take contact with all other communities involved in the vegetation series: annual anthropogenic herb communities of Stellarietea mediae and grasslands of Polygono-Poetea annuae Rivas-Martínez 1975; fringe communities of Galio-Urticetea Passarge ex Kopecký 1969 and Trifolio medii-Geranietea sanguinei Müller 1962; dwarf shrub communities of Cisto-Lavanduletea Br.-Bl. in Br.-Bl., Molinier & Wagner 1940 and Rosmarinetea officinalis Rivas-Martínez, Fernández-González, Loidi, Lousã & Penas 2001; shrub communities of Rhamno-Prunetea Rivas-Goday & Borja ex Tüxen 1962 and Quercetea ilicis Br.-Bl. ex A. & O. Bolòs 1950 (Pistacio lentisci-Rhamnetalia alaterni Rivas Martínez 1975); wood communities of Querco roboris-Fagetea sylvaticae Br.-Bl. & Vlieger in Vlieger 1937 and Quercetea ilicis Br.-Bl. ex A. & O. Bolòs 1950 (Bacchetta et al. 2009).
Mediterranean Wooded pasturelands
Motivation: Shade is a biotic filter and, under a novel climate, we need to consider the presence or absence of forest shade, as species are likely to respond individually only within their forest or non-forest biome, and not across biomes (Pausas and Bond in press). Mediterranean dehesas with evergreen Quercus spp., already included in the HD with the code 6310, are well known to provide high levels of biodiversity (Rossetti et al. 2015) and ecosystem services (Seddaiu et al. 2018). However, there is increasing evidence that wooded pastures belong to several phytosociological types (Bergmeier et al. 2010). Moreover, the highest diversity and area of Italian silvopastoral systems (wooded pastures, grazed woodlands) is in Sardinia (Paris et al. 2019). Therefore, we propose changing the name of the habitat to "Mediterranean wooded pasturelands" in which several subtypes can be included. As a consequence, the macrotype 63 – Sclerophyllous grazed forests should be expanded as "Wooded pasturelands", to host several habitats corresponding to the main groups proposed by Bergmeier et al. (2010): Hemiboreal and boreal wood-pastures, Nemoral old-growth wood-pastures, Nemoral scrub and coppice wood-pastures, Meridional old-growth wood-pastures = Mediterranean wooded pasturelands, Meridional scrub and coppice wood-pastures.
Macrotype: 63 - Sclerophillous grazed forests (dehesas).
Reference habitat: 6310 – Dehesas with evergreen Quercus spp.
New name proposed: Mediterranean wooded pasturelands. We recognized in Sardinia five subtypes (1–5).
Diagnostic sentence: Mediterranean wooded pasturelands with at least 20% tree cover. When at least 25% of the trees can be considered monumental, the habitat should have a priority status.
Reference list of diagnostic species: Subtype 1) wooded pasturelands dominated by evergreen Quercus spp.; subtype 2) wooded pasturelands dominated by wild olive and carob trees; subtype 3) wooded pasturelands dominated by junipers; subtype 4) wooded pasturelands dominated by deciduous oaks; subtype 5) wooded pasturelands dominated by other trees, on small areas but with high phytogeographic meaning (Acer, Celtis, Fraxinus, Ilex, Ostrya, Taxus). All these subtypes can be referred to the CORINE biotope E7.3 – Iberian wooded pasturelands (dehesa) (Lapresa et al. 2004).
Phytosociological arrangement: Subtype 1) Clematido cirrhosae-Quercenion ilicis Bacchetta, Bagella, Biondi, Farris, Filigheddu & Mossa 2004 of the alliance Fraxino orni-Quercion ilicis Biondi, Casavecchia & Gigante 2003; subtype 2) Oleo-Ceratonion siliquae Br.-Bl. ex Guinochet & Drouineau 1944 em. Rivas-Martínez 1975; subtype 3) Juniperion turbinatae Rivas-Martínez 1975 corr.; subtype 4) suballiance Paeonio corsicae-Quercenion ichnusae Bacch., Biondi, Farris, Filigheddu & Mossa 2004 corr. of the alliance Pino calabricae-Quercion congestae Brullo, Scelsi, Siracusa & Spampinato 1999; subtype 5) several alliances included in the classes Querco roboris-Fagetea sylvaticae Br.-Bl. & Vlieger in Vlieger 1937 and Quercetea ilicis Br.-Bl. ex A. & O. Bolòs 1950 (Bacchetta et al. 2009). The pasture communities are included in Echio plantaginei-Galactition tomentosae O. Bolòs & Molinier 1969 of Stellarietea mediae Tüxen, Lohmeyer & Preising ex von Rochow 1951, and Ornithogalo corsici-Trifolienion subterranei Farris, Secchi, Rosati & Filigheddu 2013 of Poetea bulbosae Rivas Goday & Rivas-Martínez in Rivas-Martínez 1978 (Farris et al. 2013b).
Dynamics and contacts: The communities included in this habitat take contact with all other communities involved in the vegetation series: annual and perennial herb communities of the Helianthemetea guttati (Br.-Bl. in Br.-Bl., Roussine & Nègre 1952) Rivas Goday & Rivas-Martínez 1963 em. Rivas-Martínez 1978, Poetea bulbosae Rivas Goday & Rivas-Martínez in Rivas-Martínez 1978, Molinio-Arrhenatheretea Tüxen 1937 and Stellarietea mediae Tüxen, Lohmeyer & Preising ex von Rochow 1951; fringe communities of Galio-Urticetea Passarge ex Kopecký 1969 and Trifolio medii-Geranietea sanguinei Müller 1962; dwarf shrub communities of Cisto-Lavanduletea Br.-Bl. in Br.-Bl., Molinier & Wagner 1940 and Rosmarinetea officinalis Rivas-Martínez, Fernández-González, Loidi, Lousã & Penas 2001; shrub communities of Rhamno-Prunetea Rivas-Goday & Borja ex Tüxen 1962 and Quercetea ilicis Br.-Bl. ex A. & O. Bolòs 1950 (Pistacio lentisci-Rhamnetalia alaterni Rivas-Martínez 1975); wood communities of Querco roboris-Fagetea sylvaticae Br.-Bl. & Vlieger in Vlieger 1937 and Quercetea ilicis Br.-Bl. ex A. & O. Bolòs 1950 (Bacchetta et al. 2009).
Mediterranean tall humid herb grasslands
Motivation: Part of the Mediterranean tall humid herb grasslands, especially in the western part of the basin, cannot be included in the presently described habitat 6420, although they share several species and have a similar physiognomic structure, ecology and distribution of the grasslands of the Molinio-Holoschoenion (=Agrostio stoloniferae-Scirpoidion holoschoeni De Foucault 2012). They are indeed differentiated by taxa, such as Hordeum bulbosum or the rare Ranunculus macrophyllus. Therefore, they are attributable to Gaudinio fragilis-Hordeion bulbosi Galàn, Deil, Haug & Vicente 1997, within the same Molinio-Arrhenatheretea Tüxen 1937 class. These communities are the habitat where a wide range of arthropods and the herpeto-avifauna live, feed and breed. Some geophytes of conservation concern in Sardinia are also frequent, such as Anacamptis laxiflora and Leucojum aestivum subsp. pulchellum. The conservation value of these grasslands has also been underlined for the Iberian and Italian peninsulas (Deil et al. 1997; Cano-Ortiz et al. 2009). The habitat 6420 is shrinking mainly due to the abandonment of traditional extensive grazing practices and/or land reclamation (Gigante and Buffa 2016). Here, we propose changing the habitat's name to ‘Mediterranean tall humid herb grasslands’ in which different alliances can be included rather than the only Molinio-Holoschoenion.
Macrotype: 64 - Semi-natural tall-herb humid meadows.
Reference habitat: 6420 - Mediterranean tall humid herb grasslands of the Molinio-Holoschoenion.
New name proposed: Mediterranean tall humid herb grasslands. We recognized in Sardinia one subtype.
Diagnostic sentence: Secondary mesophilous pastures, generally unmown, dominated by tall grasses that grow on mesotrophic, nutrient-rich soils with a good seasonal water supply (temporarily flooded in winter). They occur in the western Mediterranean, in inland hills and plains, mainly within the meso-mediterranean thermotype.
Reference list of diagnostic species: Phalaris coerulescens, Hordeum bulbosum, Anacamptis laxiflora, Ranunculus macrophyllus, Leucojum aestivum, Carex divisa, Carex otrubae, Anthoxanthum aristatum, Serapias spp., Lythrum salicaria.
Phytosociological arrangement: Gaudinio fragilis-Hordeion bulbosi.
Dynamics and contacts: The persistence of this subtype is, similarly to the rest of the habitat 6420, affected by non-intensive grazing. Without such agro-pastoral activities, these would be replaced by meso-hygrophilous shrub communities, such as the ones referable to the alliance Pruno spinosae-Rubion ulmifolii O. Bolòs 1954, in dynamic contact with deciduous forest communities dominated by Ulmus, Fraxinus and Populus spp. The subtype is in topographic contact with most of the helophytic plant communities reported for the rest of the habitat in the Italian Manual (Biondi et al. 2009). In inland Sardinian contexts, it is also often in contact with mesophilous cork-oak series on alluvial clay soils (Bacchetta et al. 2009).
Rhamnus persicifolia woodlands
Motivation: The habitat 91E0* includes alluvial, riparian and marshy woodlands dominated by Alnus spp., Fraxinus excelsior, F. oxycarpa and Salix spp. It develops on flooded alluvial soils: along the waterways in the mountain and hilly sections; in the plain or on the shores of lakes and in areas with water stagnation. It prefers a temperate macroclimate, but penetrates also into the Mediterranean, where the humidity is high. It is present in almost all Italian regions; being more frequent in the Alpine and Continental bioregions and more sporadic in the Mediterranean bioregion, where it is quite common only in Tuscany, Sardinia and Calabria. The proposed subtype, endemic to Sardinia, deserves a particular interest for the restricted distribution limited to the mountain areas of central Sardinia and for its uniqueness due to the presence of several narrow endemic plants. In Sardinia, the proposed subtype and another subtype, which includes the western Mediterranean riparian forests with Alnus glutinosa (Osmundo-Alnion glutinosae alliance defined by the Corine code 44.5; Biondi et al. 2009), would contribute characterizing the habitat 91E0* in detail, including woodlands of extreme conservation interest.
Macrotype: 91 - Forests of temperate Europe.
Reference habitat: 91E0* Alluvial forests with Alnus glutinosa and Fraxinus excelsior (Alno-Padion, Alnion incanae, Salicion albae). We recognized in Sardinia one new subtype.
Diagnostic sentence: Sardinian endemic meso-hygrophilous woodlands of the Mediterranean region dominated by Rhamnus persicifolia.
Reference list of diagnostic species: This subtype is of particular interest for the presence of many Sardinian endemic vascular plants belonging to the genus Aquilegia (A. barbaricina, A. nugorensis) as well as other rare endemics such as Rhamnus persicifolia and Ribes multiflorum subsp. sandalioticum.
Phytosociological arrangement: Pruno spinosae-Rubion ulmifolii O. Bolòs 1954.
Dynamics and contacts: As reported in the study of Sardinian woodlands dominated by Alnus glutinosa (Angius and Bacchetta 2009) and the Italian interpretation manual of the 92/43/EEC Directive Habitats (Biondi et al. 2009).