Abstract Abstract
A new subspecies Seseli gummiferum Pall. ex Sm. subsp. ilgazense A.Duran, Ö.Çetin & M.Öztürk, subsp. nov. (Apiaceae) is described from Kastamonu province, Turkey. It was collected from the open Pinus sylvestris L. and Abies nordmanniana (Steven) É.Spach. mixed forest in the northern Anatolian region. An endemic apparently confined to the Ilgaz Mountain National Park, the new taxon is closely related to Seseli gummiferum subsp. gummiferum. Diagnostic morphological characters for closely similar taxa are discussed, and a key to the subspecies of Seseli gummiferum is presented. ITS (Internal Transcribed Spacer) region of the nuclear ribozomal DNA of closely related Seseli L. taxa and Pimpinella is used to constract phylogenetic tree by using BioEdit and Seaview Programme.
Keywords: New taxon, Seseli gummiferum, Turkey, Umbelliferae
Introduction
The Apiaceae comprise approximately 450 genera and 3700 species worldwide (Pimenov and Leonov 1993). However, the distribution of species among the genera vary, with almost half of the genera monotypic and 26% consisting of only two or three species. Sixty percent of the species in the family assign to just a few genera, which genera encompass over 20 species have been noted as polyphyletic (Spalik et al. 2004). Asian countries with the greatest biodiversity for the Apiaceae include China, Asian Turkey, Iran, Asian Russia, and Kazakhstan, with the most species given for the Chinese flora (677 species in 108 genera) (Pimenov and Leonov 2004). Turkey, with a considerably smaller geographic area, is second only to China in its diversity for the Apiaceae, with 450 species in 109 genera. There are four endemic genera in Turkey, with 140 species among 42 genera. This suggests that the Asiatic region in Turkey has the highest known species-level diversity for the Apiaceae in Asia, if not in the world (Pimenov and Leonov 2004).
Seseli L. is one of the largest genera in the Apiaceae with 125 to 140 taxa ascribed to the genus worldwide. Represented by both intraspecific and interspecific diversity, Seseli is distributed in Europe, Asia, Africa, North America and Australia (Pimenov and Leonov 2004). The first revision of Seseli in Turkey was made by Hedge and Lamond (1972), who recognized 10 infrageneric taxa. Seseli gummiferum subsp. gummiferum was reported as a new record from Turkey (Duman 2000). After that Seseli ramosissimum replaced with Seseli hartvigiii by Parolly (Parolly and Nordt 2001). Latest revision of Seseli in Turkey was made by Doğan Güner and Duman (2013). So the total number of these taxa is 13 now.
Material and methods
In 2008, during a field trip in the Black Sea region of Turkey, an unusual specimen of Seseli was collected by the authors. Study of the descriptions in Hedge and Lamond (1972), Davis et al. (1988), Duman (2000), Ball (1968), Rechinger (1987), Parolly and Nordt (2001), Shishkin (1950), Özhatay et al. (2009), Doğan Güner and Duman (2013) as well as comparison with herbarium material in GAZI, HUB, KNYA and ANK revealed that the specimens indeed represented a new taxon. In particular, the new taxon was compared with the closely similar taxa Seseli gummiferum Pall. ex Sm. subsp. gummiferum and Seseli corymbosyum Boiss. & Heldr. In the morphological description below, each numerical value is the average of ten measurements from different specimens. The abbreviations of the authors of plant names were checked from Brummitt and Powell (1992).
DNA isolation: Total DNA was obtained from 50–75 mg leaf and fruit from six different individuals. DNAs are isolated with CTAB method and after concentrations were determined by Nanodrop. Sample DNAs were diluted 25 ng/µl. Stok DNAs were kept at -86 °C.
ITS amplifications: ITS region of studied taxa were amplified using ITS4 (5' TCC TCC GCT TAT TGA TAT GC 3') and ITS5 (5' GGA AGG AGA AGT CGT AAC AAG 3') primers. PCR condition is 95 °C for 5 min initial denaturation, 35 cycles of 94 °C for 30 s denaturation, 50 °C for 30 s anneling, and 72 °C for 1 min extension, 72 °C for 10 min final extension.
Data collection and cluster of phylogenetic analysis: PCR products were visualised by agarose jel. The amplified fragments were sequenced using the same primers used for amplification. ITS sequences of the taxa were aligned via Bioedit and were used to construct phylogenetic trees by using Seaview.
Taxonomic treatment
Seseli gummiferum gummiferum Pall. ex Sm., Exot. Bot. [Smith] ii, 121 (1807).
Replaced synonym: Bubon rigidus Spreng., Syst. Veg. (ed. 16) [Sprengel] 1: 900 1825 [1824], nom. illeg., non Bubon rigidus (Waldst. & Kit.) Spreng. Pl. Min. Cogn. Pug. 2: 53. 1815. Type: [London] Cult. in Oxford Bot. Garden and Hort. Lady Hume.
Seseli gummiferum crithmifolium (Boiss.) P.H.Davis, Notes Roy Bot. Gard. Edinb. 21: 120 (1953).
Basionym: Seseli crithmifolium Boiss., Fl. Orient. [Boissier] 2: 962 (1872). Type: Greece, Insulae maris Aegei, Tournefort 324 (holotype P, photo!, E!).
Seseli gummiferum ilgazense
A.Duran, Ö.Çetin & M.Öztürk subsp. nov.
urn:lsid:ipni.org:names:77150275-1
Affinis Seseli gummiferum Pall. ex Sm. subsp. gummiferum sed umbellis centralibus radiis 13–21 (nec 25–30), bracteis 2–7 (nec plerumque 8–15), umbellis lateralibus radiis 7–13 (nec 15–20), ovariis glabris (nec cum pilis), fructibus glabris (nec cum pilis) differt.
Type.
TURKEY. A4 Kastamonu: Ilgaz Mountain Natural Park, Kastamonu road, from Çatören village to Büyük Hacet Hill, 6 km, in open Pinus sylvestris L. and Abies nordmanniana (Stev.) Spach. mixed forest, serpentine stony slopes, 41°06'344"N, 33°48'628"E, 1465 m, 22 August 2008, A.Duran 8135, Ö.Çetin & M.Öztürk (holotype KNYA! isotypes ANK!, GAZI!, HUB!).
Description.
Plants monocarpic, 15–30 cm tall; rootstock thickened, cylindrical, oblong, ± vertical, 8–15 mm diameter; stems 3 to 5, terete, finely ridged, mostly glabrous, sparsely puberulent above, with a developed fibrous collar 2.5–7 cm; stems mostly branching from the base, below and rarely at the middle part, green to purplish green. Basal leaves ovate to oblong-ovate, 2-pinnate, 6–20 × 3–10 cm, glabrous; ultimate segments lanceolate, linear-oblong, 5–15 × 0.5–1.5 mm, acute to acuminate; sheaths developed, distinctly widened at base, upper sheath surface sulcate, margin membranous; cauline leaves similar to basal leaves, partly reduced, amplexicaule, middle and upper portions of the stem leafless. Flowers hermaphroditic; the central umbel stout, 7–11 cm diam., equal to or longer than lateral umbels, rarely shorter, with 13 to 21 rays, 1.8–5.5 cm long, puberulent above, unequal, each central umbel with by 2 to 7 bracts; bracts lanceolate, rarely widened at base, 10–17 mm long, margin ± membranous, sometimes bifid to trifid, glabrous or puberulent; umbellules 9–15 mm diam, each comprising 55 to 70 flowers; bracteoles 15–20, connate at base, 5–8 mm long, linear- lanceolate, acuminate, entire or bifid to trifid, green to partly purple, margin distinctly membranous, especially ciliate at apex, out side glabrous to puberulent; lateral umbels 3.5–6 cm diam. with 7 to 13 rays, 1–3.5 cm long, with bracts or without. Flowers subsesile, glabrous, sepals ±purplish, broadly lanceolate, glabrous, persistent, ca. 1 mm; petals white, glabrous with deflexed apex; filament white, anther clearly purple; ovary glabrous. Fruit oblong-elliptic, 3.5–4 × 1.5–2 mm, glabrous, with 5 ribs prominent, obtuse; stylopodium short-conical; styles deflexed in fruit, distinctly purple.
Distribution and IUCN red list category.
The new subspecies is known only from the type locality, with specimens collected only from Ilgaz Mountain National Park (Kastamonu province) in Turkey, where the species seems to be very rare. This area is ca. 1.5 km2, and mature individuals of the type population number approximately 125. The location is very close to the road side and near forest management. The population is going to be negatively affected from cars, trucks and people in the future. The habitat of this subspecies is clearly under threat of destruction, and therefore, the taxon should be considered (CR), according to IUCN Red List Criteria (IUCN 2001).
Habitat and ecology.
This new subspecies grows at 1450–1470 m with Lapsana communis L., Abies nordmanniana (Stev.) Spaach, Centaurea drabifolia Sm., Erysimum thyrsoideum Boiss., Pteridium aquilinum (L.) Kuhn, Sorbus umbellata (Desf.) Fritsch, Valeriana alliariifolia Adams, Eryngium giganteum M.Bieb., Bupleurum falcatum L. subsp. persicum (Boiss.) Koso-Pol., Salvia verticillata L., Teucrium chamaedrys L., Dactylis glomerata L., Asyneuma rigidum (Willd.) Grossh. subsp. rigidum.
Discussion and conclusion.
Turkey is the most complex country in the Middle East with regard to geographic structure and landforms. It’s comprised of comparatively narrow and long, variously oriented mountain chains, separated by deep valleys and also high- and medium-elevational plateaus. The geological composition and physical direction, exposure and altitude of these mountains are here largely influential not only upon the diversity of vegetation, but also on the richness of the flora (Zohary 1973). Ilgaz Mountain, which is situated in a transitional zone in central and North of Anatolia and is generally composed of serpentine, schist and volcanic rocks. The mountain is orogenically interesting, with the quite active north Anatolian fault found along the southern slopes of Ilgaz Mountain (Kuter 2008). One of the more important reasons for protecting the Ilgaz Mountain is the richness and endemism of its flora. Approximately 100 endemic plants occur within the boundaries of the National Park and the type localities of 19 endemic taxa are found on Ilgaz Mountain. Delphinium ilgazense P.H.Davis, Arabis abietina Bornmüller, Draba anatolica A.Duran & Dinç, Astragalus nabelekii Czeczott, Heracleum paphlagonicum Czeczott, Hieracium macrogonum (Zahn) P.D.Sell & C.West and Hieracium tuberculatum Freyn, Festuca ilgazensis Markgr.-Dann. are all noteworthy endemic taxa confined to the national park (Davis 1965–1985, Davis et al. 1988, Duman 2000, Duran et al. 2008).
Seseli gummiferum subsp. ilgazense is closely related to two other subspecies found in Turkey. Seseli gummiferum subsp. gummiferum is distributed in Crimea, Central Anatolia (Shishkin 1950, Ball 1968, Duman 2000). The new subspecies differs from Seseli gummiferum subsp. gummiferum, based on its glabrous fruits (not with indument), fewer central umbels, with 13 to 21 rays (not 25 to 30), fewer lateral umbels, with seven to 13 rays (not 15 to 20), as well as the bracteoles 15 to 20 (not 11 to 16) (Hedge and Lamond 1972, Duman 2000).
Seseli gummiferum subsp. ilgazense also differs from Seseli gummiferum subsp. crithmifolium (DC.) P.H.Davis, which is distributed in west and east Crete, Folegandros, Sikinos, Amargos, Karpathos, Saria and neigbouring islands in Aegean Sea. The new taxon is not so broadly distributed, endemic and found only in northern Anatolia (Ilgaz Mountain). Seseli gummiferum subsp. crithmifolium principally differs from subsp. ilgazense by its puberulent fruits, the central umbels with 20–45 rays, and the oblong leaf segments (6–) 10–30 × 2–5 mm (Ball 1968, Hedge and Lamond 1972).
Key to closely related Seseli gummiferum subspecies
1 | Fruit glabrous; the central umbel 13 to 21 rays; lateral umbels with 7 to 13 rays | subsp. ilgazense |
– | Fruit with hairs; the central umbel 22 to 70 rays; lateral umbels with 13 to 47 rays | |
2 | Basal leaves glabrous | subsp. crithmifolium |
– | Basal leaves puberulent or finely pubescent | subsp. gummiferum |
Since Morison’s (1672), Plantarum umbelliferarum, fruit morphology and anatomy have been regarded as essential to the taxonomy of Apiaceae (Drude 1898, Constance 1971, Spalik et al. 2001). Details of the fruits have been traditionally viewed as rich sources of taxonomic characters, exhibiting some, but not excessive variation in features such as fruit shape, the degree and direction of mericarp compression, modifications of the pericarp ribs (e.g. wings or spines), and the shape of mericarp commissural faces. Thus, most traditional classifications of Apiaceae have relied almost exclusively on fruit characters (Plunkett and Downie 1999, Pimenov et al. 2004). Seseli gummiferum subsp. ilgazense has some distinctive characteristics in terms of carpological features. Mericarps of Seseli gummiferum subsp. ilgazense have five large vascular bundles situated beneath the each rib. Large vittae present in mesocarp layer adjacent to the endocarp. There are also two large vittae in the commissure. Differing from Seseli gummiferum subsp. gummiferum, the new subspecies does not have short secretory ducts around vascular bundles. In addition, the vittae around the endocarp are always large and elliptical. The endosperm is round shaped. Commissure width is approximately equal to mericarp width.
Diagnostic characters of Seseli gummiferum subsp. ilgazense with the three related taxa are provided in Table 1.
Table 1.
Characters | subsp. ilgazense | subsp. gummiferum | subsp. crithmifolium | Seseli corymbosum |
---|---|---|---|---|
Stems per plant | 3 to 5 | 1 to 4 | solitary | solitary |
Stem branching | mostly below, rarely in middle portion | below the middle | above the middle | above the middle |
Central umbel rays | 13 to 21 | 25 to 30 | 22 to 45 | 30 to 70 |
Lateral umbel rays | 7 to 13 | 15 to 20 | 17 to 35 | 13 to 47 |
Bracts | 2 to 7 | mostly 8 to 15 | mostly absent, rarely up to 2 | 0 to 1 |
Bracteoles | 15 to 20 | 11 to 16 | 19 to 26 | 19 to 23 |
Petals | glabrous | glabrous | pubescent | pubescent |
Ovary | glabrous | pubescent | puberulent | pubescent |
Fruit | glabrous | pubescent | pubescent | pubescent |
Five Seseli taxa and Pimpinella were evaluated in the phylogenetic analysis. PCR amplification with ITS 4/ITS 5 primers generated bands ranging from 595 to 665 bp. Alignment of the ITS sequences was done using Bioedit. (NJ) tree were constructed using Seaview programme (Figure 6). According to NJ analyses, the taxa of Pimpinella placed in first clade. This species was used as outgroup. The second clade includes Seseli libanotis, which is found in Section Libanotis. Seseli libanotis is separated from Seseli gummiferum and Seseli petraeum by having highly wide leaf segment. The second clade incudes Seseli petraeum, Seseli corymbosum, Seseli gummiferum in sect. Seseli. Seseli petraeum is close to Seseli gummiferum. It mainly differs from Seseli gummiferum because it has free bracteol from base and main umbel shorter than lateral umbels. Seseli corymbosum (Boiss. & Heldr.) P.H.Davis which only occurs in South Anatolia, is readily distinguished from Seseli gummiferum, by its solitary stem branching above, bracts either lacking or one below the central umbel, more numerous bracteoles, 19 to 23, larger central umbels with 30 to 70 rays and the lateral umbels with 13 to 47 rays, and finally by the pubescent petals and fruits (Hedge and Lamond 1972). Although Seseli gummiferum subsp. ilgazense is closely related to Seseli gummiferum subsp. gummiferum, this taxa is treated as different subspecies.
Supplementary Material
Acknowledgements
The authors express their thanks to the Scientific Investigation Projects Coordination Office of the Selçuk University (project no: 08201037) for financial support.
Appendix
Representative specimens examined (*which used for DNA samples): – Seseli corymbosum: Turkey, C3 Antalya: Akseki, Pınarbası village, S of Gidefi Mountain, A.Duran 2970 (GAZI); Akseki, Gidefi Mountain, A.Duran 1847 (GAZI); C5 Niğde; Ulukışla, between Alihoca-Maden villages, A.Duran 6078* (KNYA). – Seseli gummiferum subsp. gummiferum: Turkey, A4 Ankara: Hasanoğlan, İdris Mountain, above Adilahmet village, M.Koyuncu 16348 (GAZI); Hasanoğlan, İdris Mountain, 1500–1600 m., 14.09.2002, E.Doğan 1650* (GAZI). – Seseli gummiferum subsp. crithmifolium: Greece, Dodecanese, Karpathos, side of Kali Limni, 10 m, 21.07.1950, Davis 18010 (E). – Seseli petraeum: Turkey, Trabzon, between Araklı-Bayburt, 27.07.2002, A.Duran 6059* (KNYA). – Seseli libanotis: Turkey, Erzurum, between İspir-Ovit, 1700 m, 18.08.2013, A.Duran 9778* (KNYA).
Citation
Çetin Ö, Şeker MÖ, Duran A (2015) A new subspecies of Seseli gummiferum (Apiaceae) from Ilgaz Mountain National Park, northern Turkey. PhytoKeys 56: 99–110. doi: 10.3897/phytokeys.56.5755
References
- Ball PW. (1968) Seseli L. In: Tutin TG, Heywood VH, Burges NA, Moore DM, Valentine DH, Walters SM, Webb DA. (Eds) Flora Europaea. Vol 2, Cambridge University Press, Cambridge, 334–338. [Google Scholar]
- Brummitt RK, Powell CE. (1992) Authors of Plant Names. Royal Botanic Gardens, Kew, 736 pp. [Google Scholar]
- Constance L. (1971) History of the classification of Umbelliferae (Apiaceae). In: Heywood VH. (Ed.) The Biology and Chemistry of the Umbelliferae. Academic Press, New York, 1–8. [Google Scholar]
- Davis PH. (1965–1985) Flora of Turkey and the East Aegean Islands. Vols 1–9. Edinburgh University Press, Edinburgh, 567 pp. [Google Scholar]
- Davis PH, Mill RR, Tan T. (1988) Seseli L. In: Davis PH, Mill RR, Tan T. (Eds) Flora of Turkey and the East Aegean Islands – 11 Edinburgh University Press, Edinburgh, 150 pp. [Google Scholar]
- Doğan Güner E, Duman H. (2013) The revision of genus Seseli (Umbelliferae) in Turkey. Turkish Journal of Botany 37: 1018–1037. doi: 10.3906/bot-1302-41 [Google Scholar]
- Drude CGO. (1898) Umbelliferae. In: Engler A, Prantl K. (Eds) Die Natürlichen Pflanzenfamilien – Volume 3 Leipzig, 63–250. [Google Scholar]
- Duman H. (2000) Seseli L. In: Güner A, Özhatay N, Ekim T, Başer KHC. (Eds) Flora of Turkey and the East Aegean Islands (Suppl. 2). Edinburgh University Press, Edinburgh, 141 pp. [Google Scholar]
- Duran A, Dinç M, Martin E. (2008) A new species of Draba (Brassicaceae) from North Anatolia, Turkey. Novon 18: 464–468. doi: 10.3417/2007023 [Google Scholar]
- Hedge IC, Lamond JM. (1972) Seseli L. In: Davis PH. (Ed.) Flora of Turkey and the East Aegean Islands – Volume 4 Edinburgh University Press, Edinburgh, 367–372. [Google Scholar]
- IUCN (2001) IUCN red list categories, ver. 3.1. IUCN Species Survival Commission. [Google Scholar]
- Kuter N. (2008) Ilgaz Dağı milli Parkının orman peyzajı ve estetiği açısından değerlendirilmesi. Süleyman Demirel Üniversitesi Orman Fakültesi Dergisi 1: 36–47. [Google Scholar]
- Morison R. (1672) Plantarum umbelliferarum distributio nova. Oxford. [Google Scholar]
- Özhatay N, Kültür Ş, Aslan S. (2009) Check-list of Additional Taxa to the Supplement Flora of Turkey, IV. Turkish Journal of Botany 33: 191–226. [Google Scholar]
- Parolly G, Nordt B. (2001) Seseli hartvigii (Apiaceae), a new name for S. ramosissimum Hartvig & Strid., with carpological and ecological notes on this species. Willdenowia 31: 87–93. doi: 10.3372/wi.31.31107 [Google Scholar]
- Pimenov MG, Valiejo-Roman CM, Terentieva EI, Samigullin TH, Mozaffarian V. (2004) Enigmatic genus Haussknechtia (Umbelliferae): systematic relationships based on molecular and carpological data. Nordic Journal of Botany 24(5): 555–565. doi: 10.1111/j.1756-1051.2004.tb01640.x [Google Scholar]
- Pimenov MG, Leonov MV. (2004) The Asian Umbelliferae biodiversity database (ASIUM) with particular reference to South-West Asian taxa. Turkish Journal of Botany 28: 139–145. [Google Scholar]
- Pimenov MG, Leonov MV. (1993) Seseli L. The genera of the Umbelliferae: a nomenclature. Kew Royal Botanic Gardens, Kew. [Google Scholar]
- Plunkett GM, Downie SR. (1999) Major lineages within Apiaceae subfamily Apioideae: A comparison of chloroplast restriction site and DNA sequence data. American Journal of Botany 86: 1014–1026. doi: 10.2307/2656619 [PubMed] [Google Scholar]
- Rechinger KH. (1987) Umbelliferae. Flora Iranica. Akademische Druck-u., Verlagsanstalt, Graz-Austria, 347–349. [Google Scholar]
- Shishkin BK. (1950) Seseli L. In: Shishkin BK. (Ed.) Flora of the USSR, Vol. 16, Izdatel’stvo Akademii Nauk SSSR, Moskva-Leningrad, 349–378. [translated from Russian, Israel Prog. Sci. Transl., 1973, Jerusalem] [Google Scholar]
- Spalik K, Wojewódzka A, Downie SR. (2001) The evolution of fruit in Scandiceae subtribe Scandicinae (Apiaceae). Canadian Journal of Botany 79: 1358–1374. doi: 10.1139/cjb-79-11-1358 [Google Scholar]
- Spalik K, Reduron J-P, Downie SR. (2004) The phylogenetic position of Peucedanum sensu lato and allied genera and their placement in tribe Selineae (Apiaceae, subfamily Apioideae). Plant Systematics and Evolution 243: 189–210. doi: 10.1007/s00606-003-0066-2 [Google Scholar]
- Zohary M. (1973) Geobotanical foundations of the Middle East, Vol. 1 Gustav Fischer, City. [Google Scholar]
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