Gadoria falukei Güemes & Mota, 2017

Güemes, Jaime & Mota, Juan F., 2017, Gadoria (Antirrhineae, Plantaginaceae): A new genus, endemic from Sierra de Gádor, Almería, Spain, Phytotaxa 298 (3), pp. 201-221 : 205-212

publication ID

https://doi.org/ 10.11646/phytotaxa.298.3.1

persistent identifier

https://treatment.plazi.org/id/03B887B9-697F-3E12-FF52-F67FFB01FF28

treatment provided by

Felipe

scientific name

Gadoria falukei Güemes & Mota
status

sp. nov.

Gadoria falukei Güemes & Mota View in CoL , sp. nov.

Brief description:—Perennial suffrutescent, densely glandular-pubescent, with homotrichous indument; glandular trichomes with 7–10 uniseriate cells form a stalk, and one spheroidal, secretory apical cell. Flowers 11–15 mm; tube 6–7 × 3–3.8 mm. Seeds 0.8–1.1 × 0.7–1 mm.

Type:— SPAIN. Almería: Dalías, Sierra de Gádor , barranco Bernal, 36º49’33.97’’N, 02º43’26.37’’W, elev. 580 m, paredones calizos con fósiles marinos (bivalvos), orientación S, zona de refugio de ganado, 12 May 2012, L. Posadas, F. Rodríguez, J. Vílchez, F. Martínez-Hernández, J. F. Mota & J. Güemes JG-4305 (holotype: VAL 208956 About VAL !; isotype: HUAL s/n!) GoogleMaps

Glandular-pubescent perennial suffrutescent herb with glandular multicellular, uniseriate, straight, patent trichomes, 0.15–1.35 mm long, formed by 7–10 cells at the stalk, and a apical, spherical secretory cell. Stems few, 12–25(33) cm long, procumbent, pendant, rigid, brittle. Leaves 2.5–3.7 × 1.1–2.3 cm, reniform to ovate-cordate, lobed, with entire lobes; petiole 9–15 mm, sulcate. Flowers with pedicels 7–9 mm long, slightly larger than the calyx, shorter than the petiole, arched, erect-patent in flower. Calyx-lobes accrescent, 5–6 × 1.5–2 mm in flower, to 7.5–8 × 4–4.5 mm in fruit, ovate, acute, glandular-pubescent. Corolla 11–15 mm long, entirely yellow, without purple veins; tube 6–7 × 3–3.8 mm, scarcely gibbous at base, the gibossity 0.5–1.5 mm, hidden by the calyx-lobes; adaxial lip with two lobes 4.5–5 mm wide and sinus 3.5–4 mm; abaxial lip with central lobe 2–2.3 mm wide, and lateral lobes 2.5–3 mm wide, sinus 3–3.5 mm; palate yellow. Capsule 8.5–9 × 7–7.5 mm, glandular-pubescent, with glandular multicellular, uniseriate, patent trichomes. Seeds 0.8–1.1 mm, dark brown.

Etymology:—The new species is dedicated to Francisco Rodríguez (Faluke), a tireless explorer from Sierra de Gádor, and an amateur botanist, who understood the rarity of those plants that hung from the walls of a cave in the Sierra.

Additional specimens examined (Paratypes):— SPAIN. Almería : Dalías , Sierra de Gádor, barranco Bernal, 36º49’33.97’’N, 02º43’26.37’’W, elev. 580 m, paredones calizos con fósiles marinos (bivalvos), orientación S, zona de refugio de ganado, 22 January 2012, L. Posadas, F. Rodríguez & J. Vílchez s/n ( VAL 206223 About VAL !) GoogleMaps ; same locality, pr. Peñón de Bernal , 36º49’33.97’’N, 02º43’26.37’’W, elev. 585 m, covacha umbrosa de materiales calizos, 05 May 2012, J. F. Mota, L. Posadas, F. Martínez-Hernández, F. Rodríguez & A. Ivorra s/n ( HUAL 25970 View Materials !) GoogleMaps .

Illustrations: Figs. 1–3 View FIGURE 1 View FIGURE 2 View FIGURE 3 .

Additional specimens examined ( Asarina procumbens ):— SPAIN. Barcelona : Montseny, pr. Santa Fe, 20 July 1994, G. Mateo ( VAL 85741 About VAL !) ; Gerona: Pau, camino entre Vilaür y las Torroelles, 42º17’8.59’’N, 03º07’5.21’’E, brecha entre bloques graníticos, 2 July 2014, J. Güemes JG-5102 ( VAL 231560 About VAL !) GoogleMaps ; Gerona : Nùria, 19 July 1983, J. Vigo & G. Mateo ( VAL 111316 About VAL !) ; Lérida: Carretera N 260 , a 2 km de Martinet, de la Seu d´Urgell a Bellver de Cerdanya , 42º22’07.74’’N, 01º39’59.06’’E, 25 April 2006, J. Güemes, P. Blasco & E. Carrió ( VAL 181277 About VAL !) GoogleMaps .

Phenology:—Flowering: from April to June; fruiting: from May to July.

Chromosomal studies:— Chromosome number 2n = 2x = 18, with symmetrical karyotype ( A2 = 0.1) and small chromosomes of 1.1–1.7 μm ( Figure 4 View FIGURE 4 ). Based on measurements taken, the karyotypic formula is 2 M + 14m + 2sm. The arm length values, overall dimensions, type of chromosome and r-value are shown in Table 2. Homologous pairs could not be identified ; therefore, the ideogram has been prepared with all chromosomes ordered consecutively ( Figure 4 View FIGURE 4 ).

Pollen morphology:—Pollen grains prolate (P/E = 1.3), with equatorial axis 18.1 μm (16–19 μm) and polar axis 24.5 (22–25.5 μm); trizonocolporate, with perforated-tectate exine, with perforations smaller than 0.5 μm ( Figure 3 View FIGURE 3 ).

Phylogenetic analysis:—The BI and MP analysis of ITS sequences yielded similar topologies, with BI displaying higher support values ( Figure 5 View FIGURE 5 ). The BI analysis using GTR + I + G as the simplest model of DNA evolution reached equilibrium after 360,000 generations.The MP analysis rendered 400 most-parsimonious trees of 951 steps [consistency index (CI) = 0.548; retention index (RI) = 0.678]. The results are consistent with those of Vargas et al. (2004) since the tree topology of the MP and BI analysis showed the same pattern to their MP and BI trees and revealed the same six major clades ( Linaria , Gambelia , Anarrhinum , Maurandya , Chaenorhinum and Antirrhinum ) with high bootstrap (BS) and Posterior Probability (PP) values (only exception for the MP analysis with less than 75% BS support for the Chaenorhinum group).

The Maurandya group, including the genera Maurandella (A. Gray 1868: 375) Rothmaler (1943: 26) , Rhodochiton Zuccarini ex Otto & A. Dietrich (1833: 153), Lophospermum D. Don (1827: 351) , Cymbalaria Hill (1756: 113) and Asarina , is well defined with a 100% BS support and PP value of 79. This clade includes two well supported monophyletic groups: the first is composed of the two specimens of Gadoria falukei (100% BP, 100 PP); and the second group is formed by the ITS sequences of Maurandella antirrhiniflora , Rhodochiton atrosanguineum and Lophospermum erubescens (90% BP, 100 PP).

Reproductive biology:—Tests conducted in 2013, 2014 and 2015 showed similar results highlighting the high spontaneous autogamy in G. falukei . In all cases, fruit production was close to 100% and seed production to 90% ( Table 3).

Ecology and biogeography:— Gadoria falukei is a new Iberian endemic from Sierra de Gádor (Almería province), in the Gadorense district, Alpujarreño–Gadorense sector, Murcian–Almeriensian biogeographical province, in the Mediterranean region ( Rivas-Martínez 2007). The only known population of G. falukei is found in the semiarid thermomediterranean bioclimatic zone, at an elevation of about 580 m, on almost vertical rock faces and overhanging cliffs that are composed of coastal Miocene conglomerates (Vicar unit). These marine conglomerates, which transition to calcarenite of an ancient marine platform, are surrounded by Alpujarride’s dolomites that make up Bernal’s Peñon ( IGME 1983). Despite Triassic materials being predominant in the area, G. falukei lives exclusively on much more recent friable conglomerates, representing an edaphic island in the sense of Rajakaruna (2004).

Gadoria falukei inhabits a rupicolous plant community characterized by both low species richness and low vegetative cover. The most abundant species is Lafuentea rotundifolia Lagasca (1816: 19) , which is characteristic of the thermophilous alliance Cosentinio-Lafuenteion rotundifoliae A. Asensi, Molero Mesa, Pérez Raya, Rivas-Martínez & F. Valle (1990: 85), and brings together the chasmophytic and chomo-chasmophytic communities of the southeast Iberian Peninsula. Adiantum capillus-veneris Linnaeus (1753: 1096) , a pteridophyte that typically inhabits moist, seeping crevices, is also present at the locality, but its abundance is low due to limited water availability, a factor that may also explain the rarity of G. falukei . In any case, floristic composition and vegetation coverage of the rock-dwelling communities inhabited by this species is very different from the much more widespread neighboring rupicolous communities on Triassic dolomites and limestones, which are dominated by Teucrium intricatum Lange (1864: 21) and Athamanta vayredana ( Font Quer 1926: 3) C. Pardo (1981: 165) .

populations, collection voucher, GenBank accession numbers, and reference of publication data.

S

Department of Botany, Swedish Museum of Natural History

L

Nationaal Herbarium Nederland, Leiden University branch

F

Field Museum of Natural History, Botany Department

J

University of the Witwatersrand

HUAL

Universidad de Almería

A

Harvard University - Arnold Arboretum

G

Conservatoire et Jardin botaniques de la Ville de Genève

P

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

E

Royal Botanic Garden Edinburgh

M

Botanische Staatssammlung München

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