Syngonanthus restingensis Hensold & A.Oliveira, 2012

Syngonanthus restingensis Hensold & A.Oliveira View in CoL , sp. nov. ( Figs. 2 View FIGURE 2 , 3 View FIGURE 3 )

Herba rosulata. Folia ligulata, acuta, chartacea ascendentia, ad 22 cm longa et 9 mm lata, cacuminis pallidis membranaceis in juventute minute barbatis. Inflorescentiae 7–10; scapi ad 40 cm longi, 5–8-costati, vestiti pilis dibrachiatis. Capitula albida, demum globosa glabrata, ad 7.5 mm diametro. Bracteae involucrales capitulum haud excedentes. Bracteae florales adsunt, floribus paulo breviores. Sepala crassa, naviculares, albida; corolla membranacea lobis involutis post anthesin. Flores pistillati: Sepala in axillis longipilosa; corolla abaxialiter pilosa; appendices styli clavatae, apice papillosae demum collabentes.

Type: — BRAZIL. Rio de Janeiro: Casimiro de Abreu, Barra de São João , 5 km ao norte do Rio das Ostras, 3 September 1953 (fl), F. Segadas-Vianna et al. Restinga I-927 (holotype R!, isotypes B!, K!, F!, HUEFS!, NY!, SPF!, RB!)

Rosettes robust, from short erect, apparently unbranched stem. Roots white to cream-colored, 1.0– 1.3 mm in diameter, spongy, the cortex aerenchymatous, non-diaphragmatic, thin-walled, surrounding a persistent fibrous core ca. 0.15–0.25 mm in diameter. Leaves ca. 10–22 cm long by 5–9 mm wide, ligulate, ascending, flat, acutely narrowed to pale blunt tip; ca. 10–14-costate on lower surface, more or less smooth above; spongy mesophyll arranged in diaphragms between the vein buttresses, the leaves sometimes visibly fenestrate at least at base; in young leaves the leaf apex (hydathode) pale and achlorophyllous especially abaxially, bearded adaxially; in older leaves the marginal thickening, when present, interrupted at slightly recessed or retuse apex. Leaf pubescence mostly ephemeral and leaves glabrate, but both surfaces of developing leaves covered with short to long appressed malpighian (dibrachiate) trichomes, especially on upper surface, the persistent basal cells visible as pale punctations on mature leaves; the trichomes sometimes quite long and asymmetrical with the long arm ascending and the short tightly appressed, so that they may appear as scattered erect unicellular trichomes, especially on older leaves. Inflorescences 7–10 per rosette. Peduncle sheaths 3.5–5.5 cm long, much surpassed by leaves; the apex acute, stiffly erect, ca. 5 mm long, with minutely recurved-uncinate tip; matted-ciliate along margin, otherwise pubescent like leaves. Peduncles 19–40 cm long at flowering, often longer and decumbent after flowering, 5–8-costate, the costae pale, thin or thick, extending to peduncle apex; sparingly pubescent throughout with appressed to ascending malpighian hairs, with a dense collar of longer hairs subtending the involucre; gland-tipped hairs absent. Capitula 6.0– 7.5 mm in diameter, firm, subcoriaceous to carnose, uniformly cream-colored in all parts, virtually glabrous, at least sometimes pseudoviviparous, producing viable leafy rosettes from the apex after flowering; involucres shallow, surpassed by flowers, reflexed and hidden from view in mature globose capitula; involucral bracts in ca. 3 series, the lower ovate, grading upward to oblong or oblong-spathulate, obtuse to acute, apiculate, chartaceous to coriaceous, often with a fine engraved darker (possibly greenish when fresh) midvein; glabrous or sparingly ciliate on lower margins, 1.9–2.5 mm long, 0.7–1.1 mm wide. Receptacle hemispheric, villous with pale rust-brown multicellular trichomes slightly darker than the flowers. Floral bracts present throughout capitulum, broadly linear to oblanceolate, with clasping base, the apex acute and sometimes inflexed, navicular, glabrous or sparingly ciliate below, ca. 2.0–2.2 × 0.60–0.75 mm, or 2/3–3/4 the length of the pedicellate flowers. Staminate and pistillate flowers about equal in number; staminate flowers smaller in size than pistillate but appearing equal due to the longer pedicels. Staminate flowers: Pedicels 0.35–0.55 mm. Sepals obovate to subspathulate, acute to short-acuminate, navicular, the laterals somewhat asymmetric incurved, 1.6–2.0 × 0.75–0.85 mm, free to base or nearly, chartaceous to coriaceous, glabrous. Corollas with anthophore ca. 0.6–0.75 mm, and tube ca. 1.1–1.2 mm including the triangular lobes, glabrous, membranous, the lobes involute after anthesis. Filaments adnate to basal half of corolla or somewhat less, exsert slightly past lobe tip. Anthers white, ca. 0.3 mm. Pistillodes (nectaries) present. Pistillate flowers: Pedicels 0.15–0.30 mm. Sepals broadly elliptic, acute to short-acuminate, navicular, slightly zygomorphic, (1.7–) 2.2–2.4 mm long, 1.0– 1.2 mm wide, chartaceous to coriaceous or carnose, especially thickened along the keel, glabrous, with midvein often evident. Floral axis between sepals and petals sometimes slightly elongated, up to 0.3 mm, and ringed with long trichomes. Petals broadly linear-oblanceolate, membranaceous, connate medially (sometimes ephemerally), free basally, the lobes triangular-acute to acuminate and strongly involute after anthesis, pilose externally below apex, and with a long-pilose staminodial scale at inner base. Ovary ca. 0.5 mm at anthesis, the style column 0.35–0.45 mm; the nectariferous branches ("appendages") 0.35–0.50 mm long, the glandular apex clavate-truncate and papillose at the upper margin, membranous and collapsing after anthesis; the stigmatic branches simple, ca. 0.85–0.95 mm, briefly exsert from corolla at anthesis, not surpassing sepal tips. Seeds red-brown, ovoid to ellipsoid, ca. 0.6–0.7 × 0.30–0.35 mm, with longitudinal rows of prostrate rod-like thickenings (pseudo-trichomes), which may or may not become weakly erect upon wetting.

Phenology: —Collected in flower and fruit only between mid-August and late September in Rio de Janeiro (8 specimens in 6 years), and in late October in Bahia. For both localities, these dates coincide with the approximate end of the local dry season, which is more pronounced in the northern littoral of Rio de Janeiro than in southern Bahia ( Araujo & Henriques 1984, Rivas-Martínez & Rivas-Sáenz 1996 –2009).

Habitat and distribution:— Recorded from three restinga localities from the southeastern tip of Bahia to the northern littoral of Rio de Janeiro State. The Bahia locality, Rio Pau Velho (collected 1983), is probably ca. 2 km S of Nova Viçosa. The species occurs on sandy, seasonally inundated backdune sites in herbaceous or open shrubby restinga. It may occur on Sphagnum mats (Fontella et al. 4194, Fig. 3B View FIGURE 3 ), and partially submerged in rivulets (Hatschbach 47076) .

Additional specimens examined (paratypes): — BRAZIL. Bahia: Nova Viçosa, Rio Pau Velho. Campo de restinga, junto a pequeno córrego (parcialmente mergulhada), 20 October 1983 (fl,fr), G . Hatschbach & O . Guimarães 47076 ( C!, F!, MBM, MO, NY!, Z-ZT!) . Rio de Janeiro: Rio das Ostras, 5 km ao norte do Rio das Ostras , 4 September 1953 (fl), F . Segadas-Vianna et al., Restinga I-941 ( GH!, R!); ibid, 5 September 1953 (fl), F . Segadas-Vianna et al., Restinga I-950 ( R!); Macaé, PNRJ , cerca de 2 km da lagoa Comprida , brejo de Laplacea , 22 September 1981 (fl), D. Araújo & N . Crud 4597 ( GUA!), PNRJ , Fazenda São Lázaro , 14 August 1986 (fl), Correa et al. 772 ( R!); Carapebus, PNRJ , 12 Sep 1995 (fr), V . L . C. Martins 205 ( R!), PNRJ , estrada de acesso a Fazenda São Lázaro , caminho de praia, 15 August 1996 (fr), I . M . da Silva 357 ( R!); lado esquerdo da lagoa de Carapebus , 22°13'54"S, 41°35'24"W, 10 September 2009 (fl), J GoogleMaps . Fontella et al. 4194 ( HB!, R!). PNRJ , lado esquerdo sentido Praia de Carapebus, ca. 1,5 km do Canal Macaé-Campos , sentido praia, 14 July 2011 (st), A . Oliveira et al. 268 ( R!) .

Affinities and notes on critical characters:— Syngonanthus restingensis is difficult to mistake for any other species of the genus. Its rosettes of broad ligulate ascending leaves which clearly surpass the peduncle sheaths ( Fig. 2A View FIGURE 2 ) are the largest of any rosulate species of Syngonanthus . The presence of floral bracts ( Fig. 2F View FIGURE 2 ), the conspicuous bearded hydathode at the leaf tip ( Fig. 2B View FIGURE 2 ), and the rigid, globose, often proliferous capitula borne on decumbent peduncles ( Fig. 2C View FIGURE 2 and 3C – D View FIGURE 3 ), are also distinctive characters.

As currently circumscribed ( Parra et al. 2010), Syngonanthus comprises two traditional sections, S. sect. Syngonanthus and S. sect. Carphocephalus (Körnicke) Ruhland. With its rosulate habit and membranous corollas with partially adnate staminal filaments, S. restingensis falls into the large and variable S. sect. Syngonanthus (ca. 115 species). Within this section, however, it is morphologically isolated. Of the ca. 65 rosulate species of S. sect. Syngonanthus , the vast majority have linear to setaceous, often recurving leaves less than 5 cm long and 4 mm wide, which equal or are exceeded by the peduncle sheaths. A complex of rare Brazilian Cerrado species ( Syngonanthus pulcher Ruhland et aff.) approach S. restingensis in size, with broad, ascending leaves up to 10 cm long and 7.5 mm wide, but these also are surpassed by the sheaths. While the long-leaved rosette habit found in S. restingensis is not uncommon in species of other genera, such as Leiothrix flavescens (Bongard) Ruhland , Eriocaulon magnificum Ruhland , and Paepalanthus subg. Platycaulon Martius , it is anomalous in Syngonanthus .

Syngonanthus restingensis also differs from S. pulcher and allies in several additional characters, including the presence of floral bracts, the conspicuous bearded hydathode-like structure ( Fig. 2B View FIGURE 2 ), the leaf pubescence more abundant adaxially than abaxially, the absence of glandular hairs, and the presence of hairs on the floral axis above the sepals. In addition, S. pulcher and allies are distinguished by spadiceous pellucid involucral bracts.

Similarities in floral and micro-characters suggest a closer affinity between Syngonanthus restingensis and S. longipes Gleason , a robust species of Amazonian campinarana. Syngonanthus longipes is stemdimorphic, rather than strictly rosulate, with inflorescences of terminal umbels borne on very elongate stolonlike secondary branches, arising from a primary rosette. However, its ligulate rosette leaves resemble those of S. restingensis in size and texture, with a similar bearded hydathode-like structure at the apex. Both species lack glandular hairs, and the capitulum and flower structure are also similar, including the presence of floral bracts, the rigid globose capitula, the fleshy sepals, and the pistillate flower axis pilose between the sepals and petals.

Floral Bracts. The presence of floral bracts may be a particularly significant character, though it has never been comprehensively surveyed in Syngonanthus . The genus is unusual in possessing many species both with and without well-developed floral (receptacular) bracts subtending each flower. In most Eriocaulaceae , all flowers are bracteate. The only taxa besides Syngonanthus which lack floral bracts are the genus Comanthera L.B.Smith emend. Parra et al. (2010) , two Madagascan endemics originally described in the genus Moldenkeanthus Morat (placed by Stützel, 1987, in Paepalanthus Martius ), and two of the fifteen species of the African genus Mesanthemum Körnicke ( M. albidum Lecomte 1909 , and M. reductum Hess 1955 ). In the course of studying possible affinities of S. restingensis , we informally surveyed the occurrence of floral bracts in Syngonanthus , based on protologues, recent literature ( Parra 1998, Phillips 1997), and our own dissections of herbarium material, with the following results.

Though floral bracts are not uncommon in Syngonanthus , they are rare among the ca. 65 rosulate species of S. sect. Syngonanthus . Besides their occurrence in S. restingensis , they are known with certainty in only three cushion-forming perennials endemic to Venezuelan tepuis: S. duidae Moldenke , S. tiricensis Moldenke , and S. pakaraimensis var. rivularis (Moldenke) Hensold. (Reports of floral bracts in the descriptions of S. auripes Silveira and S. yacuambensis Moldenke were shown by our examination of types to be erroneous.) However, among the remaining ca. 50 species of S. sect. Syngonanthus , which are characterized by stemdimorphism, nearly half, like S. longipes , have floral bracts, as do at least five of the 16 species of S. sect. Carphocephalus. They also occur in the closely related genus Philodice Martius. In a recent molecular cladistic analysis ( Andrade et al. 2010), only two species of Syngonanthus s.s. were analyzed, both lacking floral bracts. These formed a clade sister to Philodice (bracts present) and distinct from Comanthera (bracts lacking), suggesting parallelism or reversal in the loss of bracts.

Hydathodes. The presence and structure of hydathodes are also not well surveyed. Hydathode-like structures, characterized by a mass of tracheids at the leaf apex, and usually associated with a discontinuous epidermis, have been occasionally and casually reported for some species of Eriocaulon L. ( Hare 1950) and Paepalanthus ( Stützel & Briechle 1990, Tissot-Squalli 1997, Hensold 1988). They are probably widespread but under-reported in the family. However the bearded, achlorophyllous, retuse leaf apex seen in S. restingensis ( Fig. 2B View FIGURE 2 ), suggests a distinctive form of hydathode, most similar to that seen in S. longipes . The minutely indented apex in both species is associated with the lack of marginal thickening (reduction in epidermal cells) at the apex. In most Syngonanthus , leaf marginal thickening is continuous to the often canaliculate, acute, and not evidently barbate apex.

Life history and reproductive biology: — Syngonanthus restingensis has robust but simple rosettes. Branching of the stem from the base to form clumps , common in many perennial species of Syngonanthus , has not been observed. However, field observations in the PNRJ have shown abundant clonal propagation by production of vegetative rosettes from the capitulum apex after flowering, i.e. pseudovivipary sensu Elmqvist & Cox (1996). As the rosettes develop, the peduncles elongate and become decumbent, depositing the plantlets on the soil where they root. These populations form regular rounded colonies ( Fig. 3A View FIGURE 3 ).

Remarkably, this clonal propagation is difficult to observe in herbarium specimens collected in flower, and even in flowering populations in the field. Normal fertile capitula and seeds are first produced, on relatively upright peduncles, and may show no signs of proliferation at the time of collection. Only two of the available flowering herbarium specimens showed early signs of vegetative proliferation from the inflorescence ( J. Fontella et al. 4194, Segadas-Vianna I-950).

Pseudoviviparous proliferation occurs sporadically throughout the Eriocaulaceae ( Monteiro-Scanavacca et al. 1976) , being best developed and apparently genetically fixed in a few Paepalanthus species ( P. [unranked] Vivipari Ruhland) and especially in Leiothrix subg. Stephanophyllum (Körnicke) Ruhland. In these groups, viable plantlets are regularly produced on decumbent peduncles, as carefully studied in Leiothrix spiralis (Bongard) Ruhland ( Coelho et al. 2005, 2006), and L. flagellaris (Guillemin) Ruhland ( Figueira & Del Sarto 2007). According to Giulietti (1984), seed production is much reduced in these pseudoviviparous species.

Syngonanthus restingensis appears to be the first documented case of regular, perhaps genetically fixed, pseudoviviparous propagation in Syngonanthus . It is unusual because of the simultaneous production of abundant normal flowers and seeds, and merits further study. Pseudovivipary may also occur as an irregular response to environmental stress or fungal infection ( Elmqvist & Cox 1996). These authors suggest that it is most common in plants of higher elevations and arid environments, while a recent review of pseudovivipary in Cyperaceae of South Africa suggests association with stressful fluctuations in water level, as an adaptive response in perennial species of seasonally inundated habitats ( Gordon-Gray et al. 2009).

Phytogeography and endemism in restinga: —The isolated taxonomic position of Syngonanthus restingensis may be unusual among taxa endemic to restinga. The Brazilian restinga flora, occupying coastal plains of Quaternary age ( Scarano 2002), is usually assumed to be a product of recent colonization, primarily from adjoining Atlantic coastal forest ( Rizzini 1979), as well as campo rupestre and cerrado formations, with inadequate time for speciation to occur ( Araujo 2000). Because it is therefore expected to have few endemic species, restinga vegetation has not been treated as an urgent conservation priority ( Barbosa et al. 2004).

Nonetheless, Araujo et al. (2001) estimated that 48, or about one tenth of the definitively determined taxa in the flora of the PNRJ were endemic to restinga habitat, while a substantial number of taxa (> 20% of the total flora) were still not definitively determined. About 25 of the 48 restinga endemics were reported as endemic to the stretch between Bahia and Rio de Janeiro, similar to the distribution of S. restingensis .

Of the nine other Eriocaulaceae species found in the PNRJ ( Sano et al. 2001), most are also found in the interior of Brazil, especially in the campos rupestres of Minas Gerais and Bahia, or in wet cerrado. Paepalanthus sessiliflorus Körnicke is reported as endemic to restinga ( Araujo et al. 2001), but this species is also known from Venezuela and the interior of Brazil ( Hensold 1999; Giulietti, personal communication). Among Eriocaulaceae of the PNRJ, S. restingensis is the only species endemic to restinga, without obvious close relatives in the interior of Brazil. It may have once occupied a broader range, persisting now only in restinga.

Notes on habitat: —Within restinga Syngonanthus restingensis is known to occur in an open shrubby formation on temporarily inundated depressions among sand dunes, traditionally described as Ericaceae Scrub ( Ule 1901, Araujo & Henriques 1984), and more recently designated formação arbustiva inundável ( Montezuma & Araujo 2007). Henriques et al. (1986) report the “ Ericaceae formation” in Rio de Janeiro, in the restingas of Carapebus, Cabo Frio, and probably at one time in Rio das Ostras as well. It has also been reported from the Massambaba Protected Area west of Cabo Frio ( Araujo et al. 2009), as well as from certain restingas in the state of Espírito Santo (e.g., Pereira & Araujo 1995), but S. restingensis has not been found in inventories of these areas.

In a preliminary floristic survey of restingas in the state of Rio de Janeiro, Araujo & Henriques (1984) cited seven of ten Eriocaulaceae species occurring in Ericaceae Scrub. Of these, the species “ Syngonanthus sp. ” may represent S. restingensis , which was first collected by Araujo in 1981 (Araujo & Crud 4597), in association with the shrub Laplacea fruticosa (Schrader) Kobuski , also cited as typical of Ericaceae Scrub. In addition, the species cited as “ Syngonanthus sp. ” in the Flora of the PNRJ ( Sano et al. 2001) almost certainly represents S. restingensis ( A. Giulietti, personal communication). The voucher Araujo 5214 ( GUA), collected in 1982, was reported as growing in the shade in “ brejo de Bonnetia,” referring to B. stricta (Nees) Nees & Martius, which forms dense stands in saturated areas within Ericaceae Scrub ( Henriques et al. 1986, Montezuma & Araujo 2007).

The Eriocaulaceae in general are edaphic specialists on acidic, often sandy and poorly drained sites, and most species are heliophiles. Ericaceae Scrub may provide a favorable balance of sun exposure, soil moisture and soil acidity for the Eriocaulaceae typically found there. The more abundant “Clusia Scrub” formation, found on upland sites is drier, and the closed forest formations are probably too shady. Brejo herbáceo, or herbaceous marsh, may occur adjacent to Ericaceae Scrub , occupying wetter sites at lagoon margins and at the base of interdunal depressions. Three of the seven species of Eriocaulaceae described by Araujo & Henriques (1984) from Ericaceae Scrub also are reported from brejo, but this habitat suffers greater extremes of inundation, which may discourage longer-lived perennial species. Thus, it is noteworthy, from a conservation perspective, that Ericaceae Scrub has recently been suggested to be a product of historical disturbance, which, in the absence of management, may progress to forest over time ( Montezuma & Araujo 2007).

Studies of restinga vegetation in Bahia have been few compared to Rio de Janeiro and Espírito Santo. The specific habitat of the outlying northern population of S. restingensis in southern Bahia is not known, though judging from its associates (cf. Hatschbach 47073-47077 at MBM, fide Rede SpeciesLink 2011) it is probably found in a brejo -like habitat. Field study of this currently unprotected site is desirable .

Conservation status:— Syngonanthus restingensis is here assessed as Endangered ( EN), according to IUCN Red List Criteria B 1ab(ii) ( IUCN 2001).

It is known only from a narrow coastal zone no more than a few kilometers wide and about 650 km long. Within this area, it occurs in a specialized edaphically limited habitat type (Formação Arbustiva Inundável, sensu Montezuma & Araujo 2007), of characteristically patchy distribution. This vegetation type was estimated by Henriques et al. (1986) as constituting only about 9 % of the terrestrial vegetation in the approximately 6.300 ha area of Carapebus restinga which he studied, an area now falling mostly within the boundaries of the PNRJ. If generalizable to the park as a whole, this would amount to less than 1.400 ha (14 km 2) of habitat available at the largest and best protected restinga site within the species' range.

Not only is this habitat type locally fragmented, but at a regional level, the characteristics and species composition of coastal restinga vary widely, due to great differences in the width, topography and geological age of the coastal plain. The PNRJ is remarkable for its extensive coastal plain up to 10 km wide, with the oldest beach ridges dating to the Pleistocene (120,000 yrs BP), with other coastal plains in Rio de Janeiro dating only to 5,000 -3,000 yrs BP ( Scarano 2002) GoogleMaps .

The restinga flora is suffering rapid habitat destruction because of intense road, real estate development, and logging activity along the coast ( Rocha et al. 2007, Zamith & Scarano 2006). Thus unprotected areas of natural restinga vegetation are all under imminent threat, especially the accessible open shrubby formations found nearest the coast.

From the restinga of Barra de São João (Mun. Rio das Ostras) at the western edge of its range, S. restingensis has not been collected since 1953. This region is today intensely urbanized and the species may no longer occur there. In the restinga of Carapebus all recent collections have been made within the federally protected Parque Nacional da Restinga de Jurubatiba. The Bahia locality (collected 1983) is also in an unprotected area. However, the nearby Ilha de Barra Velha (100 km 2) between Nova Viçosa and Caravelas still contains well-conserved restinga where the species might be sought. It also may be expected in the intervening state of Espírito Santo though it has not appeared in numerous recent inventories (Restinga net 2011).