Cibirhiza spiculata (Apocynaceae), a remarkable new species from eastern Ethiopia

Summary  The new species Cibirhiza spiculata Thulin & Goyder, from Acacia-Commiphora bushland on sand in the Somali National Regional State (Ogaden) of Ethiopia, is described and illustrated. Its conservation status has been assessed. A molecular phylogenetic analysis confirms its placement in the tribe Fockeeae and indicates a position of the new species as sister to C. albersiana. The almost obsolete anther appendages, the outer corona with spreading lobes, as well as the pollinia with apparently single pollen grains, also support its placement in Cibirhiza. However, C. spiculata differs markedly from both previously known species of this genus (C. dhofarensis in Oman and Yemen and C. albersiana in Tanzania and Zambia) by its narrowly linear, subsessile leaves and by the inner corona lobes that are curved inwards over the gynostegium and each ending in a spinulose head.     

Four new species of Asparagus (Asparagaceae) from the Flora Zambesiaca area

Summary  Four new species of Asparagus (Asparagaceae) from the Flora Zambesiaca area are described and illustrated; the need for more collections is highlighted to assess their conservation status. Asparagus botswanicus Sebsebe is known from a single locality in Botswana; A. chimanimanensis Sebsebe occurs in Zimbabwe and Mozambique; A. richardsiae Sebsebe is known in Zambia and A. radiatus Sebsebe is from a small restricted area (Goba) in Mozambique and Umbeluzi Gorge in Swaziland.     

A revision of the genus <Emphasis Type="Italic">Podococcus</Emphasis> (<Emphasis Type="Italic">Arecaceae</Emphasis>)

Summary  A taxonomic revision of the palm genus Podococcus (Arecaceae) is presented. Two species are recognised: P. barteri, a species relatively widespread in a coastal band from Nigeria to the D. R. Congo and P. acaulis, a species previously considered conspecific to P. barteri, almost exclusively confined to Gabon. The taxonomic history, morphology, distribution and conservation status of the genus and each species are discussed     

Maytenus eritreana sp. nov. and M. addat (Loes.) comb. nov. (Celastraceae) from northern Ethiopia

The new species Maytenus eritreana Sebsebe is described from northern Ethiopia. The new combination M. addat (Loes.) Sebsebe is made; this species occurs in the central and southern highlands of Ethiopia. The distribution of the two species is mapped.     

Four new species of <Emphasis Type="Italic">Aloe</Emphasis> (Aloaceae) from Ethiopia,with notes on the ethics of describing new taxa from foreign countries

Subsequent to the treatment of the Aloaceae, with 38 species of Aloe, in the Flora of Ethiopia (Sebsebe Demissew & Gilbert 1997), four more species, Aloe bertemariae Sebsebe & Dioli (2000), A. friisii Sebsebe & M. G. Gilbert (2000), A. clarkei L. E. Newton (2002) and A. elkerriana Dioli & T. A. McCoy (2007) have been described from that country. Here four additional new species are described: Aloe benishangulana Sebsebe & Tesfaye from near Assosa, Benishangul-Gumuz in Welega floristic region; A. ghibensis Sebsebe & Friis from the Ghibe Gorge, Kefa floristic region; A. weloensis Sebsebe from near Dessie in Welo floristic region and A. welmelensis Sebsebe & Nordal along the Welmel River in Bale floristic region. The phytogeographical positions of the new species are assessed by comparison with the previously known species. Complications with the deposition of type material of A. clarkei and A. elkerriana is used to raise various issues regarding the ethics of describing new taxa from foreign countries.     

Combining multiple analytical approaches for the identification of population structure and genetic delineation of two subspecies of the endemic Arabian burnet moth Reissita simonyi (Zygaenidae; Lepidoptera)

Habitat fragmentation and landscape topology may influence the genetic structure and connectivity between natural populations. Six microsatellite loci were used to infer the population structure of 35 populations (N = 788) of the alpine Arabian burnet moth Reissita simonyi (Lepidoptera, Zygaenidae) in Yemen and Oman. Due to the patchy distribution of larval food plants, R. simonyi is not continuously distributed throughout the studied area and the two recognized subspecies of this endemic species (Reissita s. simonyi/R. s. yemenicola) are apparently discretely distributed. All microsatellites showed prevalence of null alleles and therefore a thorough investigation of the impact of null alleles on different population genetic parameters (F _ST, inbreeding coefficients, and Population Graph topologies) is given. In general, null alleles reduced genetic covariance and independence of allele frequencies resulting in a more connected genetic topology in Population Graphs and an overestimation of pairwise F _ST values and inbreeding coefficients. Despite the presence of null alleles, Population Graphs also showed a much higher genetic connectivity within subspecies (and lower genetic differentiation (via F _ST)) than between; supporting existing taxonomic distinction. Partial Mantel tests showed that both geographical distance and altitude were highly correlated with the observed distribution of genetic structure within R. simonyi. In conclusion, we identified geographical and altitudinal distances in R. simonyi as well as an intervening desert area to be the main factors for spatial genetic structure in this species and show that the taxonomic division into two subspecies is confirmed by genetic analysis.     

Ceiba rubriflora (Malvaceae: Bombacoideae), a new species from Bahia, Brazil

Summary   Ceiba rubriflora Carv.-Sobr. & L. P. Queiroz, a new species of Malvaceae subfamily Bombacoideae from the State of Bahia, Brazil, is described and illustrated. It is considered to be endemic to calcareous outcrops in the valley of the Rio S?o Francisco, in the western region of the state. Notes on distribution, ecology and phenology are given. Relationships with related species are discussed and an addition to the key to species of Ceiba Mill. published by Gibbs & Semir (2003) are provided.     

Reconsideration of the African species <Emphasis Type="Italic">Sesbania sudanica</Emphasis> and <Emphasis Type="Italic">S. hepperi</Emphasis> (Leguminosae subfam. Papilionoideae) as to their variation in Ethiopia

Summary  Recently collected material of Sesbania (Leguminosae subfam. Papilionoideae) from western Ethiopia shows variation and character combinations not recorded in J. B. Gillett’s revision of Sesbania from Africa and tropical Arabia from 1963 and combines three taxa in his revision, S. sudanica J. B. Gillett, S. sudanica subsp. occidentalis J. B. Gillett and S. hepperi J. B. Gillett. The three taxa are therefore united into one more variable species, S. sudanica, that can still be distinguished from other Sesbania species with no or hardly any free tips on the appendages on the standard by having the style pilose or tomentose and a long sterile rostrum on a non- or only faintly torulose pod. The amended S. sudanica is distributed throughout the Sudanian woodland zone from near the Atlantic to the foothills of the Ethiopian highlands. The distribution area agrees well with the Sudanian region in Frank White’s classification of African phytochoria.     

Three new species of Acanthaceae from Ethiopia

Summary  Three new species of Acanthaceae, Lepidagathis pseudoaristata Ensermu, Acanthopale aethio-germanica Ensermu, and Rhinacanthus mucronatus Ensermu, are described from Ethiopia. The three species are illustrated and their distributions mapped. The three new species are also compared to their presumed closest relatives. L. pseudoaristata is restricted to the Bale and Sidamo Regions, A. aethio-germanica is more widely distributed in Ethiopia occurring in the Kefa, Arsi, Sidamo and Bale Regions, and R. mucronatus is a local endemic restricted to the Borana area in the Sidamo Region. The conservation status of each species is also assessed.     

Ethiopian soils harbor natural populations of rhizobia that form symbioses with common bean (<Emphasis Type="Italic">Phaseolus vulgaris</Emphasis> L.)

<p>The diversity and taxonomic relationships of 83 bean-nodulating rhizobia indigenous to Ethiopian soils were characterized by PCR-RFLP of the internally transcribed spacer (ITS) region between the 16S and 23S rRNA genes, 16S rRNA gene sequence analysis, multilocus enzyme electrophoresis (MLEE), and amplified fragment-length polymorphism. The isolates fell into 13 distinct genotypes according to PCR-RFLP analysis of the ITS region. Based on MLEE, the majority of these genotypes (70%) was genetically related to the type strain of Rhizobium leguminosarum. However, from analysis of their 16S rRNA genes, the majority was placed with Rhizobium etli. Transfer and recombination of the 16S rRNA gene from presumptively introduced R. etli to local R. leguminosarum is a possible theory to explain these contrasting results. However, it seems unlikely that bean rhizobia originating from the Americas (or Europe) extensively colonized soils of Ethiopia because Rhizobium tropici, Rhizobium gallicum, and Rhizobium giardinii were not detected and only a single ineffective isolate of R. etli that originated from a remote location was identified. Therefore, Ethiopian R. leguminosarum may have acquired the determinants for nodulation of bean from a low number of introduced bean-nodulating rhizobia that either are poor competitors for nodulation of bean or that failed to survive in the Ethiopian environment. Furthermore, it may be concluded from the genetic data presented here that the evidence for separating R. leguminosarum and R. etli into two separate species is inconclusive.     

Identification of Diploid <Emphasis Type="Italic">Stylosanthes seabrana</Emphasis> Accessions from Existing Germplasm of <Emphasis Type="Italic">S. scabra</Emphasis> Utilizing Genome-Specific STS Markers and Flow Cytometry,and Their Molecular Characterization

Stylosanthes seabrana (Maass and ‘t Mannetje) (2n = 2x = 20), commonly known as Caatinga stylo, is an important tropical perennial forage legume. In nature, it largely co-exist with S. scabra, an allotetraploid (2n = 4x = 40) species, sharing a very high similarity for morphological traits like growth habit, perenniality, fruit shape and presence of small appendage at the base of the pod or loment. This makes the two species difficult to distinguish morphologically, leading to chances of contamination in respective germplasm collections. In present study, 10 S. seabrana accessions were discovered from the existing global germplasm stock of S. scabra represented by 48 diverse collections, utilizing sequence-tagged-sites (STS) genome-specific markers. All the newly identified S. seabrana accessions displayed STS phenotypes of typical diploid species. Earlier reports have conclusively indicated S. seabrana and S. viscosa as two diploid progenitors of allotetraploid S. scabra. With primer pairs SHST3F3/R3, all putative S. seabrana yielded single band of ~550 bp and S. viscosa of ~870 bp whereas both of these bands were observed in allotetraploid S. scabra. Since SHST3F3/R3 primer pairs are known to amplify single or no band with diploid and two bands with tetraploid species, the amplification patterns corroborated that all newly identified S. seabrana lines were diploid in nature. Flow cytometric measurement of DNA content of the species, along with distinguishing morphological traits such as flowering time and seedling vigour, which significantly differ from S. scabra, confirmed all identified lines as S. seabrana. These newly identified lines exhibited high level of similarity among themselves as revealed by RAPD and STS markers (>92% and 80% respectively). Along with the enrichment in genetic resources of Stylosanthes, these newly identified and characterized accessions of S. seabrana can be better exploited in breeding programs targeted to quality.     

Indigofera rubromarginata sp. nov. (Leguminosae) from southern Arabia, with a note on I. eremophila

Thulin, M. 1995. Indigofera rubromarginata sp. nov. (Leguminosae) from southern Arabia, with a note on I. eremophila. — Nord. J. Bot. 15: 519–521. Copenhagen. ISSN 0107–055X.
The new species Indigofera rubromarginata , widespread along the coast of southern Arabia in Yemen and Oman, is described and illustrated. The closely related I. eremophila , previously known only from eastern Ethiopia and Somalia, is reported also from Yemen.     

A revision of the genus Sclerosperma (Arecaceae)

Summary  A taxonomic revision of the palm genus Sclerosperma (Arecaceae) is presented. Three species are recognised: S. mannii H. Wendl., which is relatively widespread from Liberia to the Democratic Republic of Congo; S. walkeri A. Chev., which is apparently confined to the interior of Gabon and a band along the Congo River; and S. profiziana, a new species previously considered conspecific to S. mannii that is found in southwest Ghana, Congo, the Democratic Republic of Congo and Angola. The taxonomic history, morphology, distribution and conservation status of the genus and each species are discussed.     

Phenotypic,genomic and phylogenetic characteristics of rhizobia isolated from root nodules of <Emphasis Type="Italic">Robinia pseudoacacia</Emphasis> (black locust) growing in Poland and Japan

Rhizobial strains, rescued from the root nodules of Robinia pseudoacacia growing in Japan and Poland, were characterized for the phenotypic properties, genomic diversity as well as phylogeny and compared with the reference strains representing different species and genera of nodule bacteria. They had a moderately slow growth rate, a low tolerance to antibiotics, a moderate resistance to NaCl and produced acid in yeast mannitol agar. Cluster analysis based on the phenotypic features divided all bacteria involved in this study into four phena, comprising: (1) Rhizobium sp. + Sinorhizobium sp., (2) Bradyrhizobium sp., (3) R. pseudoacacia microsymbionts + Mesorhizobium sp., and (4) Rhizobium galegae strains at similarity coefficient of 74%. R. pseudoacacia nodule isolates and Mesorhizobium species were placed on a single branch clearly distinct from other rhizobium genera lineages. Strains representing R. pseudoacacia microsymbionts shared 98–99% 16S rDNA sequence identity with Mesorhizobium species and in 16S rDNA phylogenetic tree all these bacteria formed common cluster. The rhizobia tested are genomically heterogeneous as indicated by the AFLP (Amplified Fragment Length Polymorphism) method. The bacteria studied exhibited high degree of specificity for nodulation. Nitrogenase structural genes in these strains were located on 771–961 kb megaplasmids. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

The genus Iphiona (Compositae-Inuleae)

The genus Iphiona Cass. emend. A. Anderb. (Compositae-Inuleae-Inulinae) is revised and considerably amended. The former genera Grantia Boiss. (= Perralde-riopsis Rauschert) and Hirschia Baker are included as well as the major part of Iphiona Cass. s.str. and the species Inula grantioides Boiss., and Pulicaria phillipsiae S. Moore. Five new combinations are made: I. anthemidifolia (Baker) A. Anderb., I. arachnoidea (Boiss.) A. Anderb., I. grantioides (Boiss.) A. Anderb., I. phillipsiae (S. Moore) A. Anderb., and I. senecionoides (Baker) A. Anderb. The new species I. teretifolia A. Anderb. is described. A discussion of the phylogeny of the group and a cladogram, involving reticulation, of the Iphiona species are presented. The 11 species are distributed in Egypt, Israel, Jordan, Sudan, Ethiopia, Somalia, Saudi Arabia, Peoples Democratic Republic Yemen, Oman, Iran and Pakistan.     

Polyscias (Araliaceae) not Brucea (Simaroubaceae) is native to the Arabian Peninsula

It is shown that the single record of the genus Brucea J. F. Mill. (Simaroubaceae) from Yemen in the Arabian Peninsula (Wood 2886), identified as Brucea antidysenterica J. F. Mill., is based on a misidentification. The specimen is actually Polyscias fulva (Hiern) Harms in the Araliaceae, a genus and species not previously recorded from the Peninsula although a common pioneer tree of submontane forest in neighbouring continental Africa.     

禾本科燕麦属植物的地理分布

为探讨燕麦属(Avena L.)植物的地理分布,通过野外调查及查阅标本和文献资料,对燕麦属植物的地理分布进行整理和研究。结果表明,燕麦属植物约有29种,主要分布在欧洲、地中海地区、北非、西亚、东亚和美洲。中国有4种,分布于华北、西北、西南各省(区)的高海拔地区。燕麦属下分7个组,分别是多年生燕麦组[sect.Avenotrichon(Holub)Baum]、偏凸燕麦组(sect.Ventricosa Baum)、耕地燕麦组(sect.Agraria Baum)、软果燕麦组(sect.Tenuicarpa Baum)、埃塞俄比亚燕麦组(sect.Ethiopica Baum)、厚果燕麦组(sect.Pachycarpa Baum)和真燕麦组(sect.Avena)。其中,埃塞俄比亚燕麦组分布在埃塞俄比亚、沙特阿拉伯、也门,其他6个组分布在欧洲、地中海、西北非洲、西亚、东亚和美洲地区。地中海、西北非洲、西亚地区分布有除埃塞俄比亚燕麦组之外的所有6个组,因此推断该地区可能是燕麦属的现代分布中心和多样性中心,而燕麦属的起源地尚需确证。