935 resultados para endemic genera
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Background and Aims It is an enduring question as to the mechanisms leading to the high diversity and the processes producing endemics with unusual morphologies in the Himalayan alpine region. In the present study, the phylogenetic relationships and origins of three such endemic genera were analysed, Dolomiaea, Diplazoptilon and Xanthopappus, all in the tribe Cardueae of Asteraceae.Methods The nuclear rDNA internal transcribed spacer (ITS) and plastid trnL-F and psbA-trnH regions of these three genera were sequenced. The same regions for other related genera in Cardueae were also sequenced or downloaded from GenBank. Phylogenetic trees were constructed from individual and combined data sets of the three types of sequences using maximum parsimony, maximum likelihood and Bayesian analyses.Key Results The phylogenetic tree obtained allowed earlier hypotheses concerning the relationships of these three endemic genera based on gross morphology to be rejected. Frolovia and Saussurea costus were deeply nested within Dolomiaea, and the strong statistical support for the Dolomiaea-Frolovia clade suggested that circumscription of Dolomiaea should be more broadly redefined. Diplazoptilon was resolved as sister to Himalaiella, and these two together are sister to Lipschitziella. The clade comprising these three genera is sister to Jurinea, and together these four genera are sister to the Dolomiaea-Frolovia clade. Xanthopappus, previously hypothesized to be closely related to Carduus, was found to be nested within a well-supported but not fully resolved Onopordum group with Alfredia, Ancathia, Lamyropappus, Olgaea, Synurus and Syreitschikovia, rather than the Cardinis group. The crude dating based on ITS sequence divergence revealed that the divergence time of Dolomiaea-Frolovia from its sister group probably occurred 13.6-12.2 million years ago (Ma), and the divergence times of the other two genera, Xanthopappus and Diplazoptilon, from their close relatives around 5.7-4.7 Ma and 2.0-1.6 Ma, respectively.Conclusions The findings provide an improved understanding of the intergeneric relationships in Cardueae. The crude calibration of lineages indicates that the uplifts of the Qiinghai -Tibetan Plateau since the Miocene might have served as a continuous stimulus for the production of these morphologically aberrant endemic elements of the Himalayan flora.
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All taxa endemic to the Qinghai-Tibet Plateau are hypothesized to have originated in situ or from immediately adjacent areas because of the relatively recent formation of the plateau since the Pliocene, followed by the large-scaled biota extinction and recession caused by the Quaternary ice sheet. However, identification of specific progenitors remains difficult for some endemics, especially some endemic genera. Nannoglottis, with about eight species endemic to this region, is one such genus. Past taxonomic treatments have suggested its relationships with four different tribes of Asteraceae. We intend to identify the closest relatives of Nannoglottis by evaluating the level of monophyly, tribal delimitation, and systematic position of the genus by using molecular data from ndhF gene, trnL-F, and ITS region sequences. We find that all sampled species of Nannoglottis are a well-defined monophyly. This supports all recent taxonomic treatments of Nannoglottis, in which all sampled species were placed in one broadly re-circumscribed genus. Nannoglottis is most closely related to the Astereae, but stands as an isolated genus as the first diverging lineage of the tribe, without close relatives. A tentative relationship was suggested for Nannoglottis and the next lineage of the tribe was based on the ITS topology, the "basal group," which consists of seven genera from the Southern Hemisphere. Such a relationship is supported by some commonly shared plesiomorphic morphological characters. Despite the very early divergence of Nannoglottis in the Astereae, the tribe must be regarded to have its origin in Southern Hemisphere rather than in Asia, because based on all morphological, molecular, biogeographical, and fossil data, the Asteraceae and its major lineages (tribes) are supposed to have originated in the former area. Long-distance dispersal using Southeast Asia as a steppingstone from Southern Hemisphere to the Qinghai-Tibet Plateau is the most likely explanation for this unusual biogeographic link of Nannoglottis. The 23-32-million-year divergence time between Nannoglottis and the other Astereae estimated by DNA sequences predated the formation of the plateau. This estimation is further favored by the fossil record of the Asteraceae and the possible time of origin of the Astereae. Nannoglottis seems to have reached the Qinghai-Tibet area in the Oligocene-Eocene and then re-diversified with the uplift of the plateau. The molecular infragenetic phylogeny of the genus identifies two distinct clades, which reject the earlier infrageneric classification based on the arrangement of the involucral bracts and the length of the ligules, but agree well with the habits and ecological preferences of its current species. The "alpine shrub" vs. "coniferous forest" divergence within Nannoglottis was estimated at about 3.4 million years ago when the plateau began its first large-scale uplifting and the coniferous vegetation began to appear. Most of the current species at the "coniferous forest" clade of the genus are estimated to have originated from 1.02 to 1.94 million years ago, when the second and third uprisings of the plateau occurred, the climate oscillated and the habitats were strongly changed. The assumed evolution, speciation diversity, and radiation of Nannoglottis based on molecular phylogeny and divergence times agree well with the known geological and paleobotanical histories of the Qinghai-Tibet Plateau. (C) 2002 Elsevier Science (USA). All rights reserved.
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Nineteen areas on the island of Hispaniola (Haiti and the Dominican Republic) were studied with the aim of determining the distribution pattern of the endemic flora in these areas, and their variability with altitude. The main concentration of endemic species occurs in mountains with a medium altitude and in certain mountain sites (palaeo-islands), which coincide with hotspots; a lower number of endemics are found in low-lying areas (coldspots), due to the degradation of their habitats. A total of 1,582 endemic species were studied and were distributed in 19 areas. The whole island is of outstanding interest for its richness in endemics; it has 2,050 endemic species, representing 34.16% of its total flora. The territory in the study is home to 1,284 genera of which 31 are endemic to the island, including monotypical genera such as Tortuella abietifolia Urb. & Ekman, and endemic genera such as Hottea, containing seven endemic species. The sites with the highest rate of endemics are area A16 in the central range with a total of 440 endemic species, of which 278 are exclusive to the territory; and the Sierra de Bahoruco, la Selle, La Hotte and Tibur on in area A12, where we found 699 plants of which 482 are endemic and exclusive to the area; and A13 with 173 and 129 respectively. This work highlights the exceptional floristic diversity in endemic species and genera and analyses their distribution patterns as a tool for conservation in this area of the world, whose high endemicity rate makes it one of the most significant hotspots in the Caribbean.
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苔藓是高等植物(有胚植物或陆地植物)中最原始的一类,但种类却丰富多样,其形态和生长环境的多样化程度高于蕨类和裸子植物,且对极端环境的忍耐力更强,分布范围也更广。“特有”是一个地理概念,它是相对广布而言,当一个类群的分布范围有一定的限制时即为特有现象。“东亚特有”是指分布范围主要局限于中国,朝鲜,日本和蒙古等,向北可及俄罗斯远东地区,少数可分布至中国南部相邻地区的植物类群。东亚地区主要以温带植物区系为主,但也包含一些热带植物区系成分,还因为第四纪以来受冰川活动影响较少,因此植物种类非常丰富。东亚地区也是苔藓植物的多样性中心之一,这里有较多的特有成分。在我国总共分布有苔藓植物东亚特有属35属,其中苔类5属,藓类30属。长期以来,特有成分始终引起人们的极大关注,不仅是因为其在植物地理学上的重要性,还因为特有类群中包含了孓遗类群,往往系统位置比较关键,此外,大部分特有类群对人为干扰比较敏感,对其保护就愈加重要,因为它在这个地区的消失就意味着一个类群的灭绝。 我国对苔藓植物东亚特有类群已有较好的认识,在前人知识积累的基础之上,我们期望通过分子系统学的方法,开展对东亚特有苔藓属的研究,逐步揭开特有属植物的神秘面纱,最终在系统树上找到它们各自应该属于自己的位置。 在本次研究中,我们总共得到十一个苔藓植物东亚特有属的新鲜材料。在实验室中我们对这十一个特有属叶绿体和核的六个基因(叶绿体atpB, rbcL, cp-SSU, cp-LSU 和核18S,26S rDNA)进行了测序,并在此基础之上,构建了来自苔藓植物106个属上述六个基因的联合矩阵,并对它们进行了系统学分析。本文所选十一个特有属中除三个苔类属和一个线齿藓类的属之外,其它七个特有属都属于侧蒴藓类。根据近几年的研究结果,侧蒴藓类中灰藓目被认为是起源自一次快速辐射演化,灰藓目各科之间的关系以及各科的范围都很难确定。即便本实验测序一万多bp,这一支之内的关系仍不能解决。 在以上结果的基础上,本文对线齿藓类的树发藓属(Microdendron)进行了较为详细的研究,我们用最大简约法分析了金发藓目15属,33种的18S, rbcL和trnL-F序列的联合矩阵。对树发藓属的微形态进行了电镜扫描。形态和分子数据的分析结果表明,这个特有属在属级水平是不成立的,它仅是小金发藓属的一个种。此结果支持将这个东亚特有属降为种的等级。此外,本文还对囊绒苔属(Trichocoleopsis)和新绒苔属(Neotrichocolea)的系统位置做了比较详细的研究。我们分别分析了一个苔类植物57属的四基因(cp-SSU, cp-LSU, atpB and rbcL)矩阵和一个苔类植物24属的九基因(cp-SSU, cp-LSU, atpB, psbA, rps4, rbcL, 18S, 26S and nad5)联合矩阵,结果显示囊绒苔属和新绒苔属互为姐妹群关系,而毛叶苔属(Ptilidium)又是它们二者的姐妹群。研究结果支持了囊绒苔属和新绒苔属组成新绒苔科(Neotrichocoleaceae),而不同于前人的观点:将上述两属放置于毛叶苔科(Ptilidiaceae)、绒苔科(Trichocoleaceae)或多囊苔科(Lepidolaenaceae)。另外值得注意的是这两个特有属和毛叶苔属组成的一支位于叶苔类(Leafy liverwort)中“Leafy I”和“Leafy II”两大支之间,但这一支确切的系统位置没有解决,仍有待于进一步研究。 除此之外,本文还利用GenBank中的数据对东亚特有属日鳞苔属(Nipponolejeunea)和耳坠苔属(Ascidiota)(未获得实验材料)进行了初步的系统学分析。结果表明传统上放在细鳞苔科的日鳞苔属与毛耳苔科的毛耳苔属(Jubula)为姐妹群关系,建议将日鳞苔属置于毛耳苔科;耳坠苔属是光萼苔科的成员,属的分类等级是合理的。 最后本文利用罚分似然法,选取多个化石作为标定点,对来自苔藓植物主要类群及其它陆地植物共115个类群5个基因(atpB, rbcL, cp-SSU, cp-LSU, 18S)的矩阵进行了分子钟的分析,初步估算11个东亚特有属的分化时间。
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利用叶绿体rbcL和atpB基因对鳞毛蕨科、叉蕨科和藤蕨科进行了系统发育重建。对鳞毛蕨科的范畴和科下划分进行了重点研究,同时基于叶绿体rps4-trnS和trnL-F序列对该科三个东亚特有属(玉龙蕨属、柳叶蕨属和鞭叶蕨属)的分类等级进行了研究,基于rbcL、atpB和accD基因重新讨论了拟贯众属的系统位置。主要内容包括: 1.鳞毛蕨科的界定及三个东亚特有属的系统位置 利用rbcL和atpB基因,探讨了鳞毛蕨类及其近缘类群的系统发育关系。取样包括了鳞毛蕨类所有主要的分类群,尤其是增加了中国和东亚地区的类群代表。两个基因片段的联合分析较好地解决了鳞毛蕨类及其近缘类群的系统发育关系。研究结果显示广义鳞毛蕨科是个多系类群,传统上置于鳞毛蕨科中的蹄盖蕨类athyrioid、球子蕨类onocleoid和叉蕨类植物tectarioid均应该从鳞毛蕨科分出而独立成科。我们的研究结果支持Smith et al.(2006)对鳞毛蕨科的重新界定,但被作者暂时置于鳞毛蕨科的三个属:大膜盖蕨属Leucostegia、肿足蕨属Hypodematium和Didymochlaena应该从鳞毛蕨科分立出去;红腺蕨属Diacalpe、毛枝蕨属Leptorumohra和黔蕨属Phanerophlebiopsis应该作为鳞毛蕨科的成员,同时被Smith et al.(2006)保留在叉蕨科的黄腺羽蕨属Pleocnemia也应该作为鳞毛蕨科成员。鳞毛蕨科下分为四个主要的分支:鳞毛蕨支dryopteroids、耳蕨支polystichoids、肋毛蕨支ctenitoids和舌蕨支elaphoglossoids。鳞毛蕨支和耳蕨支互为姐妹群,舌蕨支是其他三个分支的姐妹群。 玉龙蕨属Sorolepidium、柳叶蕨属Cyrtogonellum和鞭叶蕨属Cyrtomidictyum是鳞毛蕨科中的三个东亚特有属,这三个特有属的分类等级和系统位置在不同的分类系统中存在争议。本文对rbcL基因进行分析并结合孢子扫描电镜观察,不支持玉龙蕨属成为一个独立的属,而应该作为耳蕨属的异名。利用rbcL、atpB、trnL-F和rps4-trnS四个DNA片段对柳叶蕨属和鞭叶蕨属进行的系统学分析,支持鞭叶蕨属作为一个独立的属,并且位于整个耳蕨类植物的基部位置。柳叶蕨属同耳蕨属近缘,尤其是同耳蕨属的细裂耳蕨组Sphaenopolystichum、半开羽耳蕨组Haplopolystichum和戟叶耳蕨组Crucifilix关系较近。但是柳叶蕨属的分类等级以及与耳蕨属的属间界限尚需要进一步研究。 2.叉蕨科的分子系统学研究 对rbcL和atpB两个基因片段的单独和联合分析均表明,秦仁昌定义的叉蕨科Tectariaceae不是一个自然的单系类群。在系统发育树上,肋毛蕨属Ctenitis、轴鳞蕨属Dryopsis、节毛蕨属Lastreopsis和黄腺羽蕨属Pleocnemia与鳞毛蕨科聚在一起构成一个强支持的分支。当把上述四个属排除以后,叉蕨属Tectaria、轴鳞蕨属Ctenitopsis、地耳蕨属Quercifilix、牙蕨属Pteridrys和沙皮蕨属Hemigramma形成一个单系类群,并得到很好的支持,该单系类群同条蕨科、骨碎补科和水龙骨科形成姐妹群关系。该单系类群同目前Smith et al.(2006)对叉蕨科的定义一致。在rbcL基因单独分析中,爬树蕨属Arthropteris同叉蕨属-沙皮蕨属聚在一起,但支持率较低。 3.藤蕨科的分子系统学研究及拟贯众属的系统位置 根据对薄囊蕨类114个分类群的rbcL基因和30个代表类群的rbcL、atpB和accD基因的系统发育分析,发现传统的藤蕨科Lomariopsidaceae不是单系类群,除了藤蕨属和Thysanosoria仍然为藤蕨科成员外,藤蕨科的主要成员(实蕨属Bolbitis、网藤蕨属Lomagramma、舌蕨属Elaphoglossum和Teratophyllum)同鳞毛蕨科植物聚在一起,因此应该被归并到鳞毛蕨科。根据Smith et al.(2006)对藤蕨科的最新定义,藤蕨科包括藤蕨属Lomariopsis、肾蕨属Nephrolepis等在内的4个属。但是本文的研究不支持把肾蕨属作为藤蕨科成员,而应该作为一个独立的分类单元,即成立肾蕨科更为合适。根据我们的分析,拟贯众属Cyclopeltis既不是鳞毛蕨科也不是叉蕨科成员,而与藤蕨属Lomariopsis聚成一个强支持的姐妹群。叶片奇数一回羽状、侧生羽片以关节着生于叶轴,叶脉游离等形态特征支持两者的近缘关系。
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Geological, biological, morphological, and hydrochemical data are presented for the newly discovered Moytirra vent field at 45oN. This is the only high temperature hydrothermal vent known between the Azores and Iceland, in the North Atlantic and is located on a slow to ultraslow-spreading mid-ocean ridge uniquely situated on the 300 m high fault scarp of the eastern axial wall, 3.5 km from the axial volcanic ridge crest. Furthermore, the Moytirra vent field is, unusually for tectonically controlled hydrothermal vents systems, basalt hosted and perched midway up on the median valley wall and presumably heated by an off-axis magma chamber. The Moytirra vent field consists of an alignment of four sites of venting, three actively emitting "black smoke," producing a complex of chimneys and beehive diffusers. The largest chimney is 18 m tall and vigorously venting. The vent fauna described here are the only ones documented for the North Atlantic (Azores to Reykjanes Ridge) and significantly expands our knowledge of North Atlantic biodiversity. The surfaces of the vent chimneys are occupied by aggregations of gastropods (Peltospira sp.) and populations of alvinocaridid shrimp (Mirocaris sp. with Rimicaris sp. also present). Other fauna present include bythograeid crabs (Segonzacia sp.) and zoarcid fish (Pachycara sp.), but bathymodiolin mussels and actinostolid anemones were not observed in the vent field. The discovery of the Moytirra vent field therefore expands the known latitudinal distributions of several vent-endemic genera in the north Atlantic, and reveals faunal affinities with vents south of the Azores rather than north of Iceland. © 2013. American Geophysical Union. All Rights Reserved.
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Dissertação de Mestrado, Gestão e Conservação da Natureza, 15 de Maio de 2015, Universidade dos Açores.
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The Caribbean Island Biodiversity Hotspot is the largest insular system of the New World and a priority for biodiversity conservation worldwide. The tribe Adeliae (Euphorbiaceae) has over 35 species endemic to this hotspot, representing one of the most extraordinary cases of speciation in the West Indies, involving taxa from Cuba, Hispaniola, Jamaica, and the Bahamas. These species form a monophyletic group and traditionally have been accommodated in two endemic genera: Lasiocroton and Leucocroton. A study based on: (1) scanning electron microscopy of pollen and trichomes, (2) macromorphology, and (3) molecular data, was conducted to reveal generic relationships within this group. Phylogenies were based on parsimony and Bayesian analyses of nucleotide sequences of the ITS regions of the nuclear ribosomal DNA and the non-coding chloroplast DNA spacers psbM-trnD and ycf6-pcbM. One species, Lasiocroton trelawniensis, was transferred from the tribe into the genus Bernardia. Of the remaining species, three major monophyletic assemblages were revealed, one was restricted to limestone ares of Hispaniola and was sister to a clade with two monophyletic genera, Lasiocroton and Leucocroton. Morphological, biogeographical, and ecological data provided additional support for each of these three monophyletic assemblages. The Hispaniolan taxa were accommodated in a new genus with four species: Garciadelia. Leucocroton includes the nickel hyperaccumulating species from serpentine soils of Cuba, while the rest of the species were placed in Lasiocroton, a genus restricted to limestone areas. The geographic history of the islands as well as the phylogenetic placement of the Leucocroton-alliance, allows the research to include the historical biogeography of the alliance across the islands of the Caribbean based on a dispersal-vicariance analysis. The alliance arose on Eastern Cuba and Hispaniola, with Lasiocroton and Leucocroton diverging on Eastern Cuba according to soil type. Within Leucocroton, the analysis shows two migrations across the serpentine soils of Cuba. Additional morphological, ecological, and phylogenetic analyses support four new species in Cuba (Lasiocroton gutierrezii) and Hispaniola ( Garciadelia abbottii, G. castilloae, and G. mejiae). ^
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Doctorado en Ciencias Químicas
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Incidence of Epizootic Ulcerative Syndrome (EUS) has been recorded for the first time in freshwater fishes in the endemic area of Punjab, Pakistan. Survey of private fish farms, hatchery and natural water bodies was conducted in a radius of 14 Km from around river Ravi near Lahore (Punjab Province) Pakistan. Out Of 1628 fishes belonging to 18 genera, 517 fishes of 10 genera were found affected with EUS. The incidence of EUS in culturable fishes was higher in Cirrhina mrigala (15.4%) moderate in Catla cat/a (13.3%) and lower in Labeo rohita (5.0%). Exotic fish, Chinese carp Ctenoparyngodon idella and Hypophthalmicthys molitrix were not affected with EUS. In non-culturable fishes the incidence of EUS was highest in Channa punctatus (72.8%) moderate in by C. straitus (65.45%) and comparatively lower Puntius ticto (43.7%). A slow growing temperature sensitive Saprolegnia spp. was isolated from all of EUS infected fish species. Aeromonas spp. and Pseudomonas spp. were isolated from the diseased fishes. Ectoparasites viz. Lernaea, Argulus and Triclwdina spp. were also isolated from the skin and gills of infected fish species. The disease was more severe in water having low alkalinity (70 mg/1), hardness (75 mg/1) and low temperature of 10-12 °C.
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Milula, a monotypic genus endemic to the Qinghai-Tibetan Plateau, was found to be nested deeply within Allium by the molecular phylogeny despite the aberrant morphology. It remains unknown what had contributed to the rapid evolution of morphology and origin of this exceptional species. In contrast to a previous report of its karyotypes with 2n = 16 = 8M+8SM (2SAT), similar to most species of Allium, a rather different karyotype, 2n = 20 = 4M +10SM+6T (2SAT), was found in examined 31 individuals from 6 populations of M. spicata distributed in the central Tibet. Karyotypes of 7 Allium species occurring in the Qinghai-Tibetan Plateau were further reported. The basic number x = 8 was confirmed for all of them and their karyotypes consist mainly of metacentric and submetacentric chromosomes with rare subterminal and terminal chromosomes. The karyotype of M. spicata is distinctly different from that of most Allium species occurring in the plateau through a complete comparison of all available species in this region and adjacent areas. However, the same chromosome number and similar karyotypic structure were found in A. fasciculatum of Sect. Bromatorrhiza, indicating a possible close relationship between them. But this similarity is contradictory to the preliminary molecular phylogenetic analysis that Milula was closely related to A. cyathophorum of Sect. Bromatorrhiza with x=8, but the other species with x=10 and 11 in this section were clearly placed in the other clade. We therefore suggested that the paralleling evolution from x=8 to x=9, 10 and 11 with increasing asymmetry of karyotype possibly due to the chromosomal Robertsonian translocation might occur separately in the two recognized phylogenetic lineages of Allium. In addition to aneuploidy and following change of the chromosomal structures, the habitat isolation due to the recent uplift of the Qinghai-Tibetan Plateau and the Quaternary climatic oscillation, plays a greater role in origin of Milula and other endemic species (genera) with aberrant morphology from their progenitors.
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Nylandtia (Polygalaceae) is a small South African genus of two or more species distributed mainly in the Cape region. Previous studies based on anatomical, morphological and molecular data have already revealed a close relationship between Nylandtia and Muraltia, a genus of 117 species that is nearly endemic to South Africa. New evidence from molecular studies of family Polygalaceae and genus Muraltia shows that Nylandtia is derived from genus Muraltia, and is nested in Muraltia subgenus Psiloclada. These results have prompted a morphological re-evaluation of the genera Nylandtia and Muraltia, supporting the conclusion that the two species of Nylandtia currently recognized, N. spinosa and N. scoparia, should be included in subgenus Psiloclada within the genus Muraltia. Only one nomenclatural change is necessary: Muraltia spinosa (L.) E Forest & J. C. Manning, comb. nov.
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Morocco is characterized by high vascular plant diversity with an estimated 4200 species and subspecies of which 22% are endemic. This study presents an updated list of the endemic species in the Moroccan flora following the classification of APG III, including comments on their geographical distribution and ecoregions. The endemic flora contains 879 species and subspecies in 55 families and 287 genera. Three new combinations are proposed. The High Atlas, Middle Atlas and the Rif mountains are the three richest floristic regions for endemic species, but the endemics are not restricted to these floristic regions only. Conservation efforts are therefore necessary in both the Mediteranean and Saharan ecoregions to preserve the biodiversity and botanical richness of Morocco. In this updated checklist we propose a new combination (Verbascum demnatensis) and a new name (Verbascum hamidoui) in the genus Verbascum (Scrophulariaceae).