ARTÍCULO

Hertia cheirifolia and H. maroccana (Asteraceae), two species endemic to North Africa: nomenclatural notes, morphology, distribution, and IUCN Red List assessments

DUILIO IAMONICO¹ & RIDHA EL MOKNI^{2, 3}

¹ University of Rome Sapienza, Department DPTA, Section Environment and Landscape, v. Flaminia 70, I-00196 Rome, Italy
² University of Monastir, Department of Pharmaceutical Sciences ‘A’, Laboratory of Botany, Cryptogamy and Plant Biology, Faculty of Pharmacy of Monastir, av. Avicenna, TN-5000 Monastir, Tunisia
³ Department of Forestry, Laboratory of Forest Ecology, National Research Institute of Rural Engineering, Water and Forests, IRESA, University of Carthage, TN-2080 Ariana, Tunisia.

ORCID iD. D. IAMONICO: https://orcid.org/0000-0001-5491-7568, R. EL MOKNI: https://orcid.org/0000-0003-3849-1039

Author for correspondence: D. Iamonico (d.iamonico@yahoo.it)

Editor: A. Susanna

ABSTRACT
Hertia cheirifolia and H. maroccana (Asteraceae), two species endemic to North Africa: nomenclatural notes, morphology, distribution, and IUCN Red List assessments.— Hertia cheirifolia and H. maroccana (Asteraceae) are endemic North African species occurring, respectively, in Algeria and Tunisia, and Morocco. Morphological descriptions, distributions, and IUCN Red List assessments are provided in the present paper. In addition, a nomenclatural study of Battandier Hertia maroccana and Linnaean Othonna cheirifolia are carried out and these two names are typified on specimens preserved, respectively, at MPU and LINN.
KEY WORDS: Africa; Algeria; Othonna; Tunisia; typification.

RESUMEN
Hertia cheirifolia y H. maroccana (Asteraceae), dos especies endémicas para áfrica del norte: notas nomenclaturales, morfología, distribución y evaluación de la lista roja según la UICN.— Hertia cheirifolia y H. maroccana (Asteraceae) son dos endemismos norteafricanos que crecen, respectivamente, en Argelia y Túnez, y en Marruecos. Presentamos en este trabajo descripciones morfológicas, distribución y categorización en la lista roja de la UICN. Además, se lleva a cabo un estudio nomenclatural de Hertia maroccana de Battandier and Othonna cheirifolia de Linneo y se tipifican ambos nombres sobre especímenes conservados, respectivamente, en MPU y LINN.
PALABRAS CLAVE: África; Argelia; Othonna; tipificación; Túnez.

CONTENIDOS

INTRODUCTIONTop

Hertia Less. (Asteraceae Bercht. & J. Presl, Senecioneae Cass., Othonninae Less. according to Pelser et al., 2007Pelser, P. B., Nordenstam, B., Kadereit, J. W. & Watson, L. E. 2007. An ITS phylogeny of tribe Senecioneae (Asteraceae) and a new delimitation of Senecio L. Taxon 56: 1077–1104. https://doi.org/10.2307/25065905) is a small genus of nine species with a disjunct distribution, i.e. north-western Africa (two species in Morocco, Algeria, and Tunisia), Middle Asia (two species in Afghanistan, Iran, and Pakistan), and Southern Africa (five species in Botswana, Namibia, and Republic of South Africa) (POWO, 2021aPOWO [Plants of the World Online] 2021a. Hertia Less. Retrieved 11 February, 2021, from http://www.plantsoftheworldonline.org/taxon/urn:lsid:ipni.org:names:9308-1).

As part of the ongoing studies on the tribe Senecioneae (Iamonico, 2013Iamonico, D. 2013. Lectotypification of the Linnaean name Senecio doria L. (Asteraceae). Annales Botanici Fennici 50: 71–72. https://doi.org/10.5735/085.050.0111, 2015Iamonico, D. 2015. Senecio pterophorus is an heterotypic synonym of S. grisebachii: nomenclatural study of the names, morphological notes, and chorology. Plant Biosystems 149: 728–736. https://doi.org/10.1080/11263504.2015.1057262, 2017Iamonico, D. 2017. Alien taxa of the tribe Senecioneae (Asteraceae) in Italy: a nomenclatural synopsis. Hacquetia 16: 281–292. https://doi.org/10.1515/hacq-2017-0005; Iamonico & Hjertson, 2015Iamonico, D. & Hjertson, M. 2015. Lectotypification of Linnaean names in Tussilago (Asteraceae). Botanica Serbica 39: 45–48. ; Iamonico & Managlia, 2015Iamonico, D. & Managlia, A. 2015. Lectotypification of the Bertoloni’s names in the genus Senecio L. (Asteraceae). Plant Biosystems 149: 48–53. https://doi.org/10.1080/11263504.2012.753956; El Mokni & Iamonico, 2018El Mokni, R. & Iamonico, D. 2018. Three new records of Senecioneae (Asteraceae) for the allochthonous Tunisian Flora. Flora Mediterranea 28: 385–392. https://doi.org/10.7320/FlMedit28.385; Pellegrini et al., 2018Pellegrini, E., Casolo, V., Iamonico, D., Oriolo, G., Rovere, N. & Vischi, M. 2018. Molecular study on Senecio fontanicola (S. doria group, Asteraceae) and its conservation status. Hacquetia 18: 87–95. https://doi.org/10.2478/hacq-2018-0006), we are hereby presenting a contribution regarding North African endemic species Hertia cheirifolia (L.) Kuntze and H. maroccana Batt., providing nomenclatural notes and the first IUCN assessment on their conservation status (IUCN, 2021IUCN [International Union for Conservation of Nature] 2021. The IUCN Red List of Threatened Species. Version 2020-2. Retrieved 11 February, 2021, from https://www.iucnredlist.org).

MATERIALS AND METHODSTop

The work is based on field surveys, analysis of relevant literature and examination of specimens preserved at HFLA, LINN, MPU, and P (codes according to Thiers, 2021Thiers, B. 2021. Index Herbariorum: A global directory of public herbaria and associated staff. New York Botanical Garden’s Virtual Herbarium. Retrieved 11 February, 2021, from http://sweetgum.nybg.org/ih) and in the personal collection of one of the authors (R. El Mokni) deposited in the herbaria of the Faculty of Pharmacy of Monastir and the Faculty of Sciences of Bizerta (not listed in Index Herbariorum). The morphological descriptions of the two species are amended based on both herbarium specimens and field surveys. The articles cited through the text follow the International Code of Nomenclature for algae, fungi, and plants (Turland et al., 2018Turland, N. J., Wiersema, J. H., Barrie, F. R., Greuter, W., Hawksworth, D. L., Herendeen, P. S., Knapp, S., Kusber, W.-H., Li, D.-Z., Marhold, K., May, T. W., McNeill, J., Monro, A. M., Prado, J., Price, M. J. & Smith, G. F. (Eds.) 2018. International Code of Nomenclature for algae, fungi, and plants (Shenzhen Code): adopted by the Nineteenth International Botanical Congress, Shenzhen, China, July 2017 (Regnum Vegetabile, 159). Koeltz Botanical Books, Glashütten. https://doi.org/10.12705/Code.2018, hereafter ICN).

RESULTS AND DISCUSSIONTop

Hertia cheirifolia (L.) Kuntze

Hertia cheirifolia was validly proposed by Kuntze (1891Kuntze, O. 1891. Revision Generum Plantarum 1. C. Klincksieek, Paris.: 334) as a new combination of the Linnaean name Othonna cheirifolia. This taxon was validly published by Linnaeus (1753Linnaeus, C. 1753. Species plantarum 2. Laurentii Salvii, Holmiae.: 926) with a short diagnosis (“OTHONNA foliis lanceolatis integerrimis”) taken directly from Linnaeus (1738Linnaeus, C. 1738. Hortus Cliffortianus. Salomon Schouten, Amsterdam.: 418) and Van Royen (1740Van Royen, A. 1740. Florae Leydensis Prodromus. Samueld Luchtmans, Leiden.: 179), followed by a synonym cited from Commelin (1701Commelin, C. 1701. Horti medici amstelodamensis rariorum tam Orientalis: quàm Occidentalis Indiæ, aliarumque peregrinarum plantarum, magno studio ac labore, sumptibus Civitatis amstelodamensis, longâ annorum serie collectarum, descriptio et icones ad vivum æri incisæ 2. P. & J. Blaeu, Amstelaedami.: 147) and Ray (1704Ray, J. 1704. Historia plantarum tomus tertius qui est supplementum. Typis Mariae Clark, Londini.: 174) “Jacobaea africana frutescens, crassi & succulentis foliis”, and the provenance “Habitat in Aetiopia”. An unnamed variety “β. Aster fruticosus africanus luteus, folii tymeleae” from Ray (1704Ray, J. 1704. Historia plantarum tomus tertius qui est supplementum. Typis Mariae Clark, Londini.: 161, not “167”) was also reported. Commelin (1701Commelin, C. 1701. Horti medici amstelodamensis rariorum tam Orientalis: quàm Occidentalis Indiæ, aliarumque peregrinarum plantarum, magno studio ac labore, sumptibus Civitatis amstelodamensis, longâ annorum serie collectarum, descriptio et icones ad vivum æri incisæ 2. P. & J. Blaeu, Amstelaedami.) published an illustration (Fig. 1 “Fig. 75”, image available at https://www.biodiversitylibrary.org/item/15230#page/224/mode/1up) which is part of the original material for the Linnaean name. We traced a specimen at LINN (no. 1038.14) bearing two parts of a same plant (each one including leaves and one capitulum) and the Linnaeus’ annotations: “13 cheirifolia” and (on verso) “Calthoides fol. oblongis casus calyx Shaw Afr. 103 | ex semina D. Shaw enata Milleri”. The number “13” corresponds to the Species Plantarum number as reported by Linnaeus (1753Linnaeus, C. 1753. Species plantarum 2. Laurentii Salvii, Holmiae.: 926). Consequently, the specimen 1038.14 (LINN) is part of the original material and eligible as lectotype. No further material useful for the lectotypification purpose was found in Linnaean and Linnaean-linked herbaria (Jarvis, 2007Jarvis, C. E. 2007. Order out of Chaos: Linnaean plant names and their types. Linnean Society of London & Natural History Museum, London.).

Figure 1. Illustration of “Jacobaea africana frutescens, crassi & succulentis foliis” by Commelin (1701Commelin, C. 1701. Horti medici amstelodamensis rariorum tam Orientalis: quàm Occidentalis Indiæ, aliarumque peregrinarum plantarum, magno studio ac labore, sumptibus Civitatis amstelodamensis, longâ annorum serie collectarum, descriptio et icones ad vivum æri incisæ 2. P. & J. Blaeu, Amstelaedami.: Fig. 75). [View full size] [Descargar tamaño completo]

In conclusion, between the elements traced (Commelin’s illustration and LINN specimen), both matching the Linnaean diangosis, since herbarium specimens are better suited for typifications than illustrations due to their ability to provide useful additional characters that cannot be matched by images (Jarvis, 2007Jarvis, C. E. 2007. Order out of Chaos: Linnaean plant names and their types. Linnean Society of London & Natural History Museum, London.: 21–22), we designate the specimen 1038.14 at LINN as the lectotype of the name Othonna cheirifolia. The lectotype corresponds to the current concept of the taxon which is nowday recognized under the genus Hertia as H. cheirifolia (see e.g. Chatelain et al., 2018Chatelain, C., Medjahdi, B. & Benhouhou, S. (Eds.) 2018. Flora du Maghreb 2. Retrieved 11 February, 2021, from https://www.ville-ge.ch/cjb/flore/html/QSv2-ASTERACEAE.htm#Hertia ).

Hertia cheirifolia (L.) Kuntze, Revis. Gen. Pl. 1: 344. 1891

≡ Othonna cheirifolia L., Sp. Pl. 2: 926. 1753 ≡ Othonnopsis cheirifolia (L.) Benth. & Hook. f., Gen. Pl. 2(1): 451. 1873.

Lectotype (designated here): Herb. LINN no. 1038.14 (LINN [digital image]!, image of the lectotype available at http://linnean-online.org/10846).

– Othonnopsis cheirifolia (L.) Batt. & Trabut., Fl. Algérie: 447. 1888, nom. inval., isonym (Art. 6 Note 2 of ICN).

Description: Perennial herb (hemicryptophyte), 20–100 cm in height; with a fleshy stump, growing in large clumps; stem glabrous, branched (branches prostrate-ascending), highly leafy; leaves alternate, more or less fleshy, oblong-mucronate 24–58 × 06–16 mm, the lower ones cuneated at the base, the others sessile, margins scabrous entire; capitula heterogamous, solitary, 3.8–4.4 cm in diameter, on naked peduncles widened at the top; involucre campanulate, uniseriate, with bracts oblong, 13–18 × 4.4–7.2 mm, acute, scarious on both edges; receptacle flat to convex; flowers lemon-yellow, ray florets female, fertile, ligulate 24–28 × 4–6 mm arranged in a single series, disc florets tubular 14–17 × 2.1–2.3 mm, hermaphroditic or/and sterile; cypselae oblong 5–7 × 2 mm, pubescent, not or slightly ribbed, with a pappus of fine dense bristles up to 2 cm long, arranged in several rows; seeds grayish-brown in colour; central and peripheral seeds do not seem to have significant differences in lenght, whereas peripheral seeds exhibited greater large in the upper part (widely oblong vs. narrowly oblong in central seeds) 3.3–4.2 × 0.9–1.3 mm (Fig. 2).

Figure 2. Hertia cheirifolia: (A), plant (Frina-Monastir, CE-Tunisia, 25 december 2020); (B), leaves (Frina-Monastir, CE-Tunisia, 25 december 2020); (C), capitulum (Frina-Monastir, CE-Tunisia, 25 december 2020), (D), pappus (Makthar-Siliana, NW-Tunisia, 30 april 2019) (photographs: Ridha El Mokni). [View full size] [Descargar tamaño completo]

Phenology: Flowering time December–May; fruiting time February–June.

Distribution and habitat: Hertia cheirifolia occurs in the following Tunisian governorates (one observed population per locality): Gafsa (Guettar), Kasserine (Sbeitla), Monastir (Kheniss), Sidi Bouzid (Djebel Mghilla), Siliana (Sidi-Hmada and Makthar), Sousse Governorate (Sousse-South), and Zaghouan (Djebel Zaghouan). Preferential habitats are steppes, pastures, uncultivated lands, stony slopes and roadsides, where the species grows on silty-clay substrates at 5–845 m a.s.l.

Regarding Algeria, Hertia cheirifolia occurs in highlands and Saharian Atlas (central-eastern region of the country) in the provinces of Djelfa (Djelfa), Ghardaïa (Mansoura/Hassi Fehal), Laghouat (Bordj Senoussi-Sidi Makhlouf), Sétif (Rmada), Tebessa, and Batna (Oued Taga and Timgad). The species grows on silty-clay substrates in pastures, uncultivated lands, stony slopes and roadsides, at 843–1398 m a.s.l.

Conservation status: 18 populations are currently known, some of the Tunisian ones occurring in the National Park of Jebel Serj (NW Tunisia), some of the Algerians in Belezma National Park (Aurès Mountains, NE Algeria). Based on the Threats Classification Scheme by IUCN (2021IUCN [International Union for Conservation of Nature] 2021. The IUCN Red List of Threatened Species. Version 2020-2. Retrieved 11 February, 2021, from https://www.iucnredlist.org), we can highlight the following ones:

1. Residential and commercial development (1.1. Housing and urban areas) and 4. Transportation and service corridors (4.1. Roads): extensive urbanization and increasing of transportation infrastructures (roads and highways construction) cause disruption and splitting of natural habitats and populations;

7. Natural system modifications (7.1. Fire): the increase of frequency of fires in Algeria and Tunisia during the last decade facilitates the fragmentation of habitats and disrupts important processes such as gene flow;

8. Invasive species (8.1. Invasive non-native species): the success of the high naturalization of Solanum elaeagnifolium Cav. in Tunisia causes a reduction of the population of H. cheirifolia;

9. Pollution (9.3. Agricultural effluents, 9.3.3. Pesticides): intensification of agricultural activities and various types of pesticides affect the species diversity and the structure of plant communities, and reduce soils quality;

12. Other options: the lack of efficient strategies for conservation of habitats by governments, rehabilating burnt areas and increase the resilience of species populations against fire damages.

The AOO (Area of Occupancy) is 76 km², the EOO (Extent of Occurrence) is 184.81 km². Since no data are currently available to apply the conditions of the criterion B2 of IUCN (2021IUCN [International Union for Conservation of Nature] 2021. The IUCN Red List of Threatened Species. Version 2020-2. Retrieved 11 February, 2021, from https://www.iucnredlist.org), we are forced to apply only the criterion B1 and assessed Hertia cheirifolia as an Endangered species (EN).

Chromosome number: 2n = 2x = 20 (from Algerian populations; Abdelkader et al., 2020Abdelkader, O., Messaoud, R., Takia, L., Pierre, C. & Gilles, F. 2020. Chemical composition, antimicrobial activity and chromosome number of Hertia cheirifolia L. from Algeria. Acta Scientifica Naturalis 7: 31–43. https://doi.org/10.2478/asn-2020-0018: 39–40, Ounoughi et al., 2020Ounoughi, A., Ramdani, M., Lograda, T., Chalard, P. & Figueredo, G. 2020. Chemical composition, antimicrobial activity and chromosome number of Hertia cheirifolia L. from Algeria. Acta Scientifica Naturalis 7: 31–43. https://doi.org/10.2478/asn-2020-0018).

Specimina visa: Tunisia, Monastir: Monastir south-Frina, 35° 43′ 44″ N, 10° 48′ 38″ E, within the margins of olive groves, about 7 m a.s.l., 16.II.2016, El Mokni s.n. (Herb. El Mokni); ibid., 25.XII.2020, El Mokni s.n. (Herb. El Mokni); Sousse: Sousse south, 35° 47′ 16″ N, 10° 39′ 21″ E, within the margins of olive groves, about 14 m a.s.l., 23.III.2016, El Mokni s.n. (Herb. El Mokni); ibid., 25.XII.2020, El Mokni s.n. (Herb. El Mokni); in pascuis aridis, IV.1907, Pitard (MPU301782); Siliana: Sidi Hmada, 35° 57′ 38″ N, 009° 33′ 04″ E, low scrublands, about 698 m a.s.l., 8.III.2013, El Mokni s.n. (Herb. El Mokni); Makthar, 35° 51′ 45″ N, 009° 12′ 28″ E, low scrublands, about 857 m a.s.l., 30.IV.2019, El Mokni s.n. (Herb. El Mokni); Kasserine, Djebel Chambi, 12.IV.1912, Humbert s.n. (MPU034124). Algeria, Constantine: Mansourah, pentes scutagineuses, V–VI.1855, Choulette fils s.n. (MPU034072); terres argileuses au Mesloug près de Sétif, 30.III.1930, Dubuis s.n. (MPU293518); Sétif: plateaux de Sétif, 27 Mar 1912, s.c. (MPU034071); Ouergla: (without locality), 11.I.1923, Maire s.n. (MPU034132); Batna: sommet du Djebel Lazreg, massif de l’Aurès, 8.V.1949, Dubuis s.n. (MPU293504); 20 km avant Arvis, 5.V.1954, s.c. (MPU029362), Steppe prés de Mac Mahon au sud de Batna, 6.V.1963, Dubuis et Faurel s.n. (MPU293502); Djelfa: champs des céréales près de l’oued Sissoud, 25 km au N.W. de Djelfa, 5.V.1936, Dubuis s.n. (MPU293519); à 3 km Sud de Djelfa, 5.VI.1976, Cadel (MPU1184054).

Hertia maroccana Maire

Maire (1931Maire, R. 1931. Contribution à l’étude de le Flora de l’Afrique du Nord. Bulletin de la Société d’Histoire Naturelle de l’Afrique du Nord 22: 275–330.: 298) reported “Hertia maroccana (Batt.) Maire, comb. nov. [combination nova] — Othonnopsis maroccana Batt. Bull. Soc. Hist. Nat. Afr. Nord., 12, 1921, p. 8” so proposing a nomenclatural change of a Battandier’s name. Battandier (1921Battandier, J. A., 1921. Exploration botanique dans la Haute Moulouya. Bulletin de la Société d’Histoire Naturelle de l’Afrique du Nord 12: 6–11.: 8) described a new species from “L’Oued” (currently Ouled Said l’Oued, a locality of Morocco included in the administrative province of Béni Mellal, region Béni Mellal-Khénifra) providing both a diagnosis and a description. He provided two names for this taxon, i.e. Hertia maroccana and Othonnopsis maroccana (both the epithets were reported as “marocana”). According to the Art. 36.3 of ICN, these two Battandier’s binomials should be considered as “alternative names”. The same Article states: “When, on or after 1 January 1953, two or more different names based on the same type are accepted simultaneously for the same taxon by the same author and accepted as alternatives by that author in the same publication ..., none of them, if new, is validly published”. Consequently, since Battandier published the names Hertia maroccana and Othonnopsis maroccana in 1921, they were validly published (see also Ex. 11 of the Art. 36.3 of ICN). Maire’s name is to be considered as invalid from the nomenclatural point of view (isonym, Art. 6.3 Note 2 of ICN). Note that only a few online databases of plant names (i.e. IPNI, 2021IPNI [The International Plant Names Index] 2021. Hertia maroccana Batt. Retrieved 11 February, 2021, from https://www.ipni.org/n/213872-1 and POWO, 2021bPOWO [Plants of the World Online] 2021b. Hertia maroccana Batt. Retrieved 11 February, 2021, from http://powo.science.kew.org/taxon/213872-1 ) correctly reported the name as “Hertia maroccana Batt.” whereas many others [e.g. Tela Botanica, 2021Tela Botanica 2021. Hertia maroccana (Batt.) Maire. Tela Botanica. Flore électronique. Flores en ligne, France métropolitaine. Retrieved 11 February, 2021, from https://www.tela-botanica.org/bdtfx-nn-85460-nomenclature ; SANBI, 2012SANBI [South African National Biodiversity Institute] 2012. Hertia maroccana (Batt.) Maire. African Plant Database. Retrieved 11 February, 2021, from https://www.ville-ge.ch/musinfo/bd/cjb/africa/details.php?langue=an&id=137833; CWG, 2021CWG [Compositae Working Group] 2021. Global Compositae Database. Hertia maroccana (Batt.) Maire. Retrieved 11 February, 2021, from https://compositae.org/aphia.php?p=taxdetails&id=1101994 ; GBIF, 2021GBIF [Global Biodiversity Information Facility] 2021. Hertia maroccana (Batt.) Maire. Retrieved 11 February, 2021, from https://www.gbif.org/species/3098874 ; Tropicos, 2021Tropicos 2021. Hertia maroccana (Batt.) Maire. Retrieved 11 February, 2021, from https://www.tropicos.org/name/100389613] wrongly accepted the Maire’s comination as valid.

According to HUH Index of botanists (2013HUH Index of botanists 2013. Index of botanists. Harward University Herbaria & Libraries. Retrieved 11 February, 2021, from https://kiki.huh.harvard.edu/databases/botanist_search.php?mode=details&id=198 ), Battandier’s collection is mainly preserved at MPU and AL. A specimen was found at MPU (barcode MPU008063) that bears a plant and the original annotation “110 | Ansegmir | Dans le roches granitiques | 10-4-1920”. Both the locality (Ansegmir) and the habitat (“roches granitiques” = granitic rocks) match the information reported in Battandier’s (1921Battandier, J. A., 1921. Exploration botanique dans la Haute Moulouya. Bulletin de la Société d’Histoire Naturelle de l’Afrique du Nord 12: 6–11.) protologue. Also, the date of collection (year 1920) precedes the year of Battandier’s publication (1921Battandier, J. A., 1921. Exploration botanique dans la Haute Moulouya. Bulletin de la Société d’Histoire Naturelle de l’Afrique du Nord 12: 6–11.). Furthermore, we traced a specimen at P (barcode P00084023) which bears a plant that is part of the “HERBIER BATTANDIER” as reported in the printed label. All things considered the specimens MPU008063 and P00084023 can be considered as part of the original material. These two specimens match the description and diagnosis by Battandier (1921Battandier, J. A., 1921. Exploration botanique dans la Haute Moulouya. Bulletin de la Société d’Histoire Naturelle de l’Afrique du Nord 12: 6–11.) and are both eligible as lectotypes. The specimen MPU008063 is designated as the lectotype of the names Hertia maroccana, and therefore P00084023 is an isolectotype. Both specimens correspond to the current concept of the name (see e.g. Fennane et al., 2014Fennane, M., Ibn Tattou, M., Mathez, J., Ouyahya, A. & El Oualidi, J. (Eds.) 2014. Flore Pratique du Maroc. Manuel de détermitation des plantes vasculaires 3 (Trav. Inst. Sci. Univ. Mohammed V, Sér. Bot. 3). Rabat Institut Scientifique & Université Mohammed V-Agdal, Rabat.).

Hertia maroccana Batt., Bull. Soc. Hist. Nat. Afrique N. 12: 8. 1921 (“marocana”)

≡ Othonnopsis maroccana Batt., Bull. Soc. Hist. Nat. Afrique N. 12: 8. 1921 (“marocana”) (alternative name, valid according to the Art. 36.3 of ICN) ≡ Othonna maroccana (Batt.) C. Jeffrey, Kew Bull. 47(1): 99. 1992

Lectotype (designated here): Morocco, Béni Mellal-Khénifra, Béni Mellal, Ouled Said L’Oued (Ansegmir in the original label), Dans les roches granitiques, 10 April 1920, Nain s.n. (MPU008063[digital image]!, image of the lectotype available at https://herbier.umontpellier.fr/zoomify/zoomify.php?fichier=MPU008063); isolectotype at P (P00084023[digital image]!, image available at http://mediaphoto.mnhn.fr/media/1442334940557ze8CMgduUOzfGimZ?fbclid=IwAR2-6Pzcl6Ak--p6M80iKQEk6JA3mpP3Dn0H1YolfcerqW_9ArKgoXG-3cY).

– Hertia maroccana (Batt.) Maire, Bull. Soc. Hist. Nat. Afrique N. 22: 298. 1931, nom. inval., isonym (Art. 6 Note2 of ICN).

Description: Perennial herb (phanaerophyte), up to 100 cm in height; very branched from the base; stems and twigs glabrous, dense, dark and highly leafy; leaves alternate sessile, fleshy, linear 20–40(–60) × 2–5 mm, with denticulate margins; capitula heterogamous, numerous, axillary and terminal, on not protruding peduncles, slightly widened at the top; involucre campanulate, uniseriate, with bracts oblong acute, scarious on both edges; receptacle flat to convex; flowers lemon-yellow, ray florets female, fertile, ligulate 23–26 × 3.6–4.0 mm arranged in a single series, disc florets tubular 12–14 × 1.8–2.0 mm, with sterile ovary; cypselae oblong 5–6 × 2.0 mm, very hairy, with a pappus of scabrous bristles (Fig. 3).

Figure 3. Hertia maroccana: (A), population (Boudnib, Morocco); (B), leaves (Tazougart, Morocco); (C), capitulum (Tazougart, Morocco); (D), pappus (Kadoussa, Morocco) (photographs: Claude Lemmel, 10 june 2018). [View full size] [Descargar tamaño completo]

Phenology: Flowering time December–April; fruiting time February–May.

Distribution and habitat: Hertia maroccana occurs in two Maroccan regions, i.e. Béni Mellal-Khénifra (Errachidia Province) with six populations, and Drâa-Tafilalet region [Midlet (seven populations), Béni Mellal (one population), and Azilal provinces (three populations)]. Preferential habitats are: steppes, rocky places, stony slopes, and xerophilous pastures in mountains of north-eastern of the country. The species grows on silty or sandy-loam substrates within calcareous soils that are generally not very evolved and often stony, at 1005–1806 m a.s.l.

Conservation status: Fennane (2017Fennane, M. 2017. Eléments pour un Livre rouge de la flore vasculaire du Maroc 3. Asteraceae (version 1, avril 2017). Tela-Botanica. Retrieved 11 February, 2021, from https://www.tela-botanica.org/2017/05/article8066: 25) assessed Hertia maroccana as Least Concern (LC). Eighteen populations are currently known. Some of these populations occur in the Haut Atlas Oriental National Park (eastern High Atlas Mountains, CE-Morocco). According to the Classification Scheme proposed by IUCN (2021IUCN [International Union for Conservation of Nature] 2021. The IUCN Red List of Threatened Species. Version 2020-2. Retrieved 11 February, 2021, from https://www.iucnredlist.org), threats are represented by: (A) increase of urban areas and roads [coded in IUCN (2021IUCN [International Union for Conservation of Nature] 2021. The IUCN Red List of Threatened Species. Version 2020-2. Retrieved 11 February, 2021, from https://www.iucnredlist.org) as 1. Residential and commercial development (1.1. Housing and urban areas) and 4. Transportation and service corridors (4.1. Roads)], which cause disruption and splitting of natural habitats and populations; (B) intensification of agricultural activities and use of pesticides [coded as 9. Pollution (9.3 Agricultural effluents; 9.3.3. Pesticides)] which affects the species diversity and the structure of plant communities and reduce soils quality.

The AOO is 92 km², the EOO is 29.97 km². Since no data are currently available to apply the conditions of the criterion B2 of IUCN (2021IUCN [International Union for Conservation of Nature] 2021. The IUCN Red List of Threatened Species. Version 2020-2. Retrieved 11 February, 2021, from https://www.iucnredlist.org), we are forced to apply only the criterion B1 and assessed Hertia maroccana as a Critically Endangered species (CR).

Chromosome number: 2n = 2x = 20 (Vogt & Oberprieler, 2012Vogt, R. & Oberprieler, C. 2012. Chromosome numbers of North African phanerogams. X. Plants collected during Iter Mediterraneum V of OPTIMA. Annalen des Naturhistorischen Museums in Wien, Serie B 113: 193–121. : 202).

Representative specimens examined: Morocco, Drâa-Tafilalet, Midelt, Haut Atlas Oriental: entre Midlet et Riels Env aux Aït Labbès, 1550 m, 17.II.1951, Guinet et Sauvage s.n. (MPU331475); à 31 kms SE de Midlet (1 km S du Tizi-n-Tal-hhempt), 3.IV.1977, Cadel s.n. (MPU1184058); à 4 kms E de Midelt, 31.I.1984, Cadel (MPU1184053); Tinghir, Boumalne du Dadès, 5.IV:1963, Cadel s.n. (MPU1184056); à 18 kms amont de Boumalne du Dadès, 1.IV.1970, Cadel s.n. (MPU1184059).

ACKNOWLEDGEMENTSTop

Thanks are due to Directors and Curators of all quoted herbaria for their support during our visits or loan of specimens/photograph. We also thanks to Claude Lemmel (Boudenib, Morocco) for the permission to reproduce his pictures of Hertia maroccana.

REFERENCESTop