Bituminaria basaltica Miniss., C. Brullo, Brullo, Giusso & Sciandr., 2013

Minissale, Pietro, Brullo, Cristian, Brullo, Salvatore, Galdo, Gianpietro Giusso Del & Sciandrello, Saverio, 2013, Bituminaria basaltica (Fabaceae), a new species from Italy, Phytotaxa 98 (1), pp. 1-15 : 2-10

publication ID

https://doi.org/ 10.11646/phytotaxa.98.1.1

persistent identifier

https://treatment.plazi.org/id/AE024956-FFD2-1B4C-FF27-72E7FAC1568C

treatment provided by

Felipe

scientific name

Bituminaria basaltica Miniss., C. Brullo, Brullo, Giusso & Sciandr.
status

sp. nov.

Bituminaria basaltica Miniss., C. Brullo, Brullo, Giusso & Sciandr. View in CoL , sp. nov. ( Figs. 1 View FIGURE 1 , 2A View FIGURE 2 , 3 View FIGURE 3 )

Species Bituminaria bituminosa similis sed foliis brevioribus, linearibus, floribus minoribus, corolla candida, calicem subaequanti vel leviter longiore, stigmate papillato, legumnibus et seminibus brevioribus differt.

Types: — ITALY. Sicily: Filicudi a Pecorini a Mare , praterie steppiche su substrati vulcanici, 38°33’36.28"N, 14°33’58.81"E, 46 m, 15 May 2012, P GoogleMaps . Minissale s.n. (holotype CAT!, isotypes CAT!, FI!) .

Habit erect or ascending perennial, with numerous rigid and striate woody stems, up to 60 cm tall, green, appressed-hirsute, no smelling of pitch. Basal leaf stipules lanceolate-ensiform, adnate to the petiole, 4–6 mm long. Basal leaves long petiolate, 50–100 mm long; leaves digitately 3-foliate, the central leaflet longer and petiolate, the lateral leaflets shorter and subsessile; leaflets rounded-elliptical to linear-lanceolate, hirsute abaxially and glabrous or subglabrous adaxially, the terminal one 11–40 x 7–15 mm, and petiole 4–12 mm long. the lateral ones 8–38 mm x 5–12 mm and petiole 1–2 mm long. Stipules of cauline 3–5 mm long; cauline leaves smaller than basal ones; petiole 40–50 mm long; leaflets linear, the terminal one 35–55 x 2–6 mm and petiole 6–8 mm long, the lateral ones 25–45 mm x 2–5 mm and petiole 1–2 mm long. Raceme subcapitate, 10–16 mm long, 6–12(–16)–flowered; bracts, upper part of peduncles and calyces, covered with white and black hairs; peduncles 100–160 mm long, longer than the leaf. Bracts 6–8 mm long, 1–3-toothed. Calyx 10–13 mm long, 10-nerved with unequal triangular-subulate teeth; tube 4–5 mm long; lower tooth 6–9 mm long; lateral teeth 4–6 mm long. Corolla 11–13 mm long, subequal to slightly longer than the calyx, purely white; standard spathulate, rounded to obtuse at the apex, 11–13 x 5–6 mm, claw slightly tinged with pale lilac; wings 10–11 mm long, with limb 2.5–3.0 mm wide; keel 7.5–8.5 mm long, with limb 1.5–1.8 mm wide, having a dark violet spot above. Staminal tube 7–8 mm long; anthers 0.5–0.6 mm long. Pistil 6–7 mm long, hairy on the ovary and lower part of the style; stigma with numerous papillae. Pod indehiscent, included in the calyx, 9–10 mm long (beak included), with corpus densely covered by setaceous hairs, 0.5–2.0 mm long, mixed to some rigid black prickles; beak flat, falcate, 5.5–6 mm long, glabrous, ciliate only at the margin. Seed adherent to pericarp, laterally compressed, subreniform, 3.5–4 x 2–2.2 mm, blackish-brown.

Seed and pod micro-morphology:— As suggested by literature, the exomorphic features of seed testa, based on scanning electron microscopy (SEM), can be used as an additional character for the identification of a given taxon ( Barthlott 1981, Koul et al. 2000, Fitsch et al. 2006, Kasem et al. 2011, Celep et al. 2012). Several studies on the seed coat micro-morphology of the legume taxa were performed by various authors ( Murthy and Sanjappa 2002, Kirkbride et al. 2003, Salimpour et al. 2007, Al-Ghamdi et al. 2010, Bacchetta & Brullo 2010, Fawzel 2011, Gandhi et al. 2011, Brullo et al. 2011a, Brullo et al. 2013), who used several characters to resolve systematic problems. In fact, seed sculptures are usually considered as a conservative and stable character, having relevant taxonomical and phylogenetic implications.

The seed coat of B. basaltica shows a fine and undulate reticulum bounding the single cells, which are irregularly polygonal and 2–5 µm wide. The anticlinal walls are raised, with minutely rugose-undulate tops, while the periclinal walls are flat with epidermis finely reticulate-rugose ( Fig. 4 View FIGURE 4 , A 1–2 View FIGURE 1 View FIGURE 2 ). In order to elucidate the relationships with the allied B. bituminosa , its seed testa was also examined. Actually, the seeds of B. bituminosa are well differentiated from the new species in having, apart from the size (give the measurements), coat with a reticulum always more or less irregualar, with bigger cells, 5–9 µm wide, bounding by straight to curved furrows. The anticlinal walls are incised-depressed, while the periclinal walls are weakly convex, with epidermis uniformly sulcate by curved and concentric grooves ( Fig. 4 View FIGURE 4 , B 1–2 View FIGURE 1 View FIGURE 2 ).

Other significant differences can be observed in the pod indumentum. In particular, B. basaltica has hairs basally that are 22–27 µm wide and a longitudinal furrow broadly widened at the hair base ( Fig. 4 View FIGURE 4 , A 3 View FIGURE 3 ), while in B. bituminosa hairs are 12–17 µm wide at the base and the longitudinal furrow is uniformly narrowed ( Fig. 4 View FIGURE 4 , B 3 View FIGURE 3 ).

Habitat: — Bituminaria basaltica grows on volcanic soils, at an elevation of 20– 100 m. The plant is mainly localized on dry grasslands dominated by Hyparrhenia hirta , abandoned fields and roadsides ( Fig. 5 View FIGURE 5 ) where hemichryptophytes are also abundant. From the bioclimatic viewpoint (Rivas-Martinez 2004), Filicudi falls within the Mediterranean Pluviseasonal Oceanic bioclimate, and the growing sites of B. basaltica are always south-facing with mean annual precipitations of ca. 500 mm and mean annual temperatures of 18°C (thermomediterranean upper dry bioclimatic belt).

Distribution: — Based on many field investigations carried out in the Aeolian Archipelago, B. basaltica seems to be endemic of Filicudi. No other Bituminaria species has been recorded from the other islands of this archipelago ( Lojacono-Pojero 1878, Ferro & Furnari 1968a, 1968b, 1970, Di Benedetto 1973).

Etymology: —The specific epithet refers to the bedrock of the dwelled sites, which is represented by basaltic rocks.

Phenology: —Flowering April to early June, fruiting June to August.

Conservation status: —According to De Rosa et al. (2003), the age of the oldest exposed lavas on Filicudi is about 219 ka. Filicudi with an area of 9.5 km 2 is the fifth-largest of the seven islets of the Aeolian Archipelago, which is located ca. 45 km off NE Sicily. The highest point is Monte Fossa delle Felci at 774 m of elevation. The long-lasting human exploitation, whose occurrence is dated back to the Neolithic, about 6000 years ago ( Bernabò Brea & Cavalier 1991) has heavily altered the natural vegetation. Both husbandry and coppicing led to the almost complete disappearance of woodlands suddenly replaced by crops, shrubby vegetation, dry grasslands, and abandoned fields. Therefore, the current spread of B. basaltica on the island has been likely favoured by the human disturbance, being a species rather linked to disturbed and ruderal habitats. Considering that the new species is circumscribed to a small island and that grazing and fires may significantly reduce the number of individuals, it is suggested to add B. basaltica to the Italian Red List as Vulnerable (VU). In particular, based on the IUCN criteria ( IUCN 2010), we propose to include this species in the following category: VU B2, C.

Taxonomic remarks: —According to Stirton (1981a), two morphologically well-differentiated subgenera can be recognized within the genus Bituminaria : subgen. Bituminaria , typified by B. bituminosa , and subgen. Christevenia Barneby ex Stirton (1981a: 318) typified by B. acaulis . The first-mentioned subgenus is caulescent plants with entire leaflets, racemes with axillary peduncles, bracts fused in a toothed blade, calyces ebracteolate and pods with some glabrous spinulose processes, while the last-mentioned subgenus includes acaulescent plants with denticulate leaflets, racemes with scapiform peduncles, two bracts filiform separate to the base calyces provided at the base of a linear bracteole on each side and pods with soft pubescent processes. The morphological features of B. basaltica suggest to include it into the subgen. Bituminaria , together with B. bituminosa , B. morisiana (Pignatti & Metlesics) Greuter (1986: 108) and B. flaccida (Náb.) Greuter (1986: 108) . Morphologically, B. basaltica differs from the other species of this subgenus for shape of cauline leaves, size of of raceme, flower pieces, corolla colour, pods and seeds (see Table 1).

Bituminaria basaltica shows some relationship with B. bituminosa in the habit and ecological characters but it is well differentiated in several characters chiefly regarding size and shape of the leaves, inflorescences, flowers, pods, seeds and corolla colour. In fact, B. bituminosa has elliptic to lanceolate cauline leaflets, 6–22 mm wide, racemes 2–2.8 cm long, with 15–30 flowers, calyx 14–18 mm long, with teeth 7–12 mm long, corolla blue-violet, 15–20 mm long, longer than calyx, with apex emarginate, staminal tube 10–20 mm long, pistil 9–12 mm long, pods (beak included) 13–26 mm long, beak pubescent in the face, seeds 5–7 mm long ( Fig. 6 View FIGURE 6 ). Moreover, B. basaltica is similar to B. flaccida , by having very short pods (max. 10 mm), which occurs in Israel, Jordan and Sinai, but several morphological features and ecological requirements allows distinguishing the two species. Actually, B. flaccida is a typical chasmophyte, having leaflets completely hirsute, the basal ones suborbicular to obovate, 4–15 mm long, the cauline ones obovate to linear-lanceolate 8–20 mm long, racemes 17–20 mm long, 5–8-flowered, with peduncles 2–9 mm long, calyx 9–11 mm long, corolla pink, 16–18 mm long, longer than calyx, staminal tube 11–12 mm long, and pod beak 5 mm long, completely Pubescent. Lastly, even B. morisiana is markedly different from B. basaltica , mainly for the chamaephytic habit, wider leaves, bigger and many-flowered racemes, bigger floral pieces, corolla whiteviolet, pods (beak included) 18–26 mm long, and seeds 5–6 mm long.

Based on the current knowledge, B. basaltica seems to be circumscribed to Filicudi, where it is morphologically stable, showing no variability in the wild.

It is worthy to mention that the Aeolian Archipelago hosts several narrow endemics or rare species, such as Cytisus aeolicus Gussone (1834: 221) , Silene hicesiae Brullo & Signorello (1984: 141) , Centaurea aeolica Gussone ex Candolle (1838: 584) , Genista tyrrhena Valsecchi (1986:145) , Erysimum brulloi Ferro (2009: 298) , Eokochia saxicola ( Gussone 1855: 275) Freitag & G. Kadereit in Kadereit & Freitag (2011: 72), Dianthus rupicola Biv. subsp. aeolicus ( Lojacono-Pojero 1888: 163) Brullo & Minissale (2002: 539) , and Limonium minutiflorum (Guss.) Kuntze (1891: 395) . Therefore, it is possible to consider this archipelago as a micro-hotspot, characterized by very active speciation processes, which is likely a consequence of manifold constraining factors, such as harsh environmental conditions, geological history, and geographical isolation. As in the case of Eokochia saxicola , Cytisus aeolicus and Silene hicesiae , the Aeolian Archipelago probably acted as a refuge area for otherwise extinct species ( Brullo & Signorello 1984, Conte et al. 1998, Cristofolini & Conte 2002, Kadereit & Freitag 2011, Santangelo et al. 2012). The last recorded endemics confirm the peculiarity of the Mediterranean flora, not only for the high rate of narrow endemics particularly on islands or wherever mountains exceed 1500 m in altitude (cf. Pignatti et al. 1980, Greuter 1991, Médail & Quézel 1997, Thompson 2005, Guarino et al. 2005, Brullo et al. 2001, 2005, Brullo et al. 2011b) but also for the peculiar distribution patterns that make the Mediterranean island biogeography so interesting and intriguing ( Troia et al. 2012).

Finally, B. basaltica could also be an interesting species to study for its potential use as a pasture grass and forage plant, similarly to B. bituminosa which has increased in agronomical appeal during the last decade ( Méndez & Fernández 1990, Gutman et al. 2000, Sternberg et al. 2006, Walker et al. 2006, Real et al. 2009, Ventura et al. 2004, Gulumser et al. 2010, Finlayson et al. 2012). The use of B. bituminosa as forage species is well known in the Canary Islands for a long time ( Méndez 2000), where it is not cultivated but spontaneously grazed by livestock or, more frequently, collected and offered to the livestock as hay, thus removing its typical smell of bitumen which causes the refusal by animals when it is still green. In particular, B. bituminosa var. albomarginata , which occurs exclusively in Lanzarote (Canary Islands), was introduced to Australia in 2005 ( Finlayson et al. 2012), in order to experimentally evaluate it for potential release as a commercial forage crop. Its extreme drought tolerance, lower invasiveness together with its ability to produce relatively high quality feed throughout the year, is extremely interesting ( Ventura et al. 2009). Therefore, the potential use of B. basaltica as pasture grass or fodder should be worthy to be tested. In particular, its weak bitumen smell would suggest this legume as fairly good for grazing, and not being a strong colonizer, the risks of becoming a weed are rather low. This potential plant for animal husbandry confirms once more the importance and usefulness of any survey focused on biodiversity, even in areas very explored as the Mediterranean islands.

P

Museum National d' Histoire Naturelle, Paris (MNHN) - Vascular Plants

CAT

Università di Catania

FI

Natural History Museum

Kingdom

Plantae

Phylum

Tracheophyta

Class

Magnoliopsida

Order

Fabales

Family

Fabaceae

Genus

Bituminaria

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