A revision of Habenaria section Macroceratitae (Orchidaceae) in Brazil

Habenaria sect.Macroceratitae from Brazil is revised, and seven species are recognized:H. bractescens, H. gourlieana, H. johannensis, H. longicauda, H. macronectar, H. nabucoi, and the newly describedH. paulistana. A main feature of these species is the presence of long, separated, involute stigmatic processes.Habenaria bractescens, H. gourlieana, H. johannensis, andH. macronectar are distributed mainly from central and southeastern Brazil to southern Brazil and southern South America, whereasH. longicauda andH. nabucoi are distributed mainly from west central, southeastern and northeastern Brazil to northern South America.Habenaria paulistana is restricted to the state of São Paulo.Habenaria bradei, H. juergensii, andH. sartoroides are lectotypified, andH. kleyi is neotypified. The identity ofH. fastor is discussed andH. nabucoi is recognized as the valid name for this species. Seven other species previously placed in sect.Macroceratitae are sufficiently distinct and are removed from the section.     

Genetic affinities of the North American species of Hibiscus sect. Trionum

Study of herbarium specimens, crossing behavior, chromosome conjugation, and live populations has shown that the endemic North American species ofHibiscus sect.Trionum comprise two distinct genetic groups.Hibiscus militaris Cav. andH. coccineus Walt, crossed readily and yielded fertile Fi’s. Also,H. incanus Wendl.,H. moscheutos L., andH. lasiocarpos Cav. crossed freelyinter se, and the hybrids were all vigorous and fertile. However, crosses of these three forms with eitherH. militaris orH. coccineus gave lethal hybrids. Preliminary evidence suggests thatH. palustris L. is similar toH. moscheutos, H. incanus, andH. lasiocarpos in crossing behavior. These four forms were found to occur in distinct geographical areas. They may be considered as ecotypes of a single ecospecies.H. grandiflorus Michx. is morphologically related to this alliance, but yielded a viable fertile hybrid when crossed withH. coccineus. Further study of the affinities ofH. grandiflorus andH. palustris is in progress.     

Taxonomy of theHieracium alpinum group in the sudeten Mts., the West and the Ukrainian East Carpathians

A taxonomic revision of theHieracium alpinum group (sensu Flora Europaea) in the Sudeten Mts., the West and the Ukrainian East Carpathians is provided. Six species are distinguished in the area studied, viz.Hieracium alpinum, H. halleri, H. augusti-bayeri, H. melanocephalum, H. tubulosum, andH. schustleri. H. alpinum occurs throughout the mountain ranges studied, three other taxa are endemic to the Sudeten Mts. (H. melanocephalum, H. tubulosum, H. schustleri), one is confined to the West Carpathians (H. halleri, in addition to the Alps) and one is endemic to the Ukrainian East Carpathians (H. augusti-bayeri). A diploid cytotype (2n=18) was ascertained inH. alpinum from the Ukrainian East Carpathians and the same chromosome number was found forH. augusti-bayeri. An agamospermous mode of reproduction was confirmed for the triploid cytotype ofH. alpinum, the triploidH. melanocephalum andH. halleri and the tetraploidsH. tubulosum andH. schustleri; the diploid taxa were found to be sexual. Pollen production in diploid taxa is high and pollen grains are homogeneous in size; triploid species, as well as tetraploidH. tubulosum, do not produce polllen; tetraploidH. schustleri has pollen grains of variable size. Data on the ecology and distribution of the species are also given.     

Ground-beetles of the subgenus Cryptophonus Brandm. et Z. Brandm., genus Harpalus Latr. (Coleoptera, Carabidae)

A taxonomic review of ten species of the subgenus Cryptophonus Brandmayr et Zetto Brandmayr, 1982, the genus Harpalus Latreille, 1802 is given. In addition to nine Palaearctic species, the Ethiopian H. agnatus Reiche, 1849 is also included in Cryptophonus. Harpalus cyrenaicus Koch, 1939, stat. n. from Libya, which was originally described as a subspecies of H. litigiosus Dejean, 1829, is treated as a distinct species. Harpalus tenebrosus Dejean, 1829 is treated as a polytypical species with two subspecies: H. t. tenebrosus (West Palaearctic) and H. t. paivanus Wollaston, 1867, stat. n. (Cabo Verde). A new substitute name H. melancholicus reicheianus nom. n. is proposed to replace the objective homonyms H. reichei Jacobson, 1907 (non Desbrochers des Loges, 1867) and H. ovalis Reiche, 1861 (non Motschulsky, 1844). Lectotypes are designated for H. tenebrosus Dejean, 1829, H. paivanus Wollaston, 1867, H. litigiosus Dejean, 1829, H. agnatus Reiche, 1849, H. fulvus Dejean, 1829, H. melancholicus Dejean, 1829, and H. ineditus Dejean, 1829. The status and diagnosis of Cryptophonus are discussed and a key to all the species of this subgenus is provided. Data on distribution of each species are provided. The following species are recorded for the first time: H. tenebrosus from Afghanistan, H. grilli Kataev, 2002 from India (Uttarhand), H. agnatus Reiche, 1849 from Tanzania, and H. fulvus Dejean, 1829 from Portugal.     

Comparison of the internal transcribed spacer region (ITS) of the ribosomal RNA genes in wild and cultivated two and six-rowed barleys (Hordeum vulgare L.)

The ITS region of the ribosomal RNA genes from two and six-rowed cultivated barley (Hordeum vulgare subsp. distichon and H. v. subsp. hexastichon, respectively), and its two and six-rowed wild relatives (H. v. subsp. spontaneum and H. v. subsp. agriocrithon, respectively) was isolated and sequenced. The entire ITS region is 598 bp in the two-rowed taxa (H. v. subsp. distichon and H. v. subsp. spontaneum) and 599 bp in the six-rowed ones (agriochriton and hexastichon). The ITS1 is 217 bp in the six-rowed barleys (H. v. subsp. agriochriton and H. v. subsp. hexastichon) and 218 bp in the two-rowed barleys (H. v. subsp. distichon and H. v. subsp. spontaneum). The 5.8S region is 163 bp in all studied H. vulgare taxa. The ITS2 region is 217 bp in the two-rowed barleys (H. v. subsp. distichon and H. v. subsp. spontaneum) and 219 bp in the six rowed ones (H. v. subsp. hexastichon and H. v. subsp. agriochriton). The ITS sequence data of the studied taxa and that of three other wild Hordeum species (H. murinum, H. marinum and H. chilense) were aligned and a phylogeny tree was reconstructed using the Lasergene Program. H. v. subsp. spontaneum was appeared as the ancestor of all other H. vulgare taxa.     

二倍体杂交种棱果沙棘双向杂交起源及其母本主要来源于中国沙棘的分子证据简

棱果沙棘为同域分布的中国沙棘和肋果沙棘同倍化自然杂交形成的。本文利用母系遗传的cpDNA trnS-G序列检测青海祁连棱果沙棘及其亲本中国沙棘和肋果沙棘同域分布的两个地区（拱北湾、八宝河滩）共93个个体的遗传关系。结果表明棱果沙棘及其亲本在拱北湾和八宝河滩分别有12个和7个单倍型,两地区的棱果沙棘都与其亲本共享单倍型,其中拱北湾棱果沙棘共36个个体中有28个与中国沙棘共享3个单倍型(H2,H4,H5),有2个个体与肋果沙棘共享单倍型(H11),八宝河滩的棱果沙棘共10个个体中有7个与中国沙棘共享一个单倍型(H4),3个与肋果沙棘共享单倍型(H7)。应用最大简约法（MP）分别对两地区的棱果沙棘及其亲本trnS-G序列构建的系统发育树中棱果沙棘的大部分个体都与中国沙棘聚在一起,另外,棱果沙棘4种特有单倍型(H3、H7、H8、H9)的6个个体在系统树上也与中国沙棘聚为一支。以上结果进一步证明了二倍体自然杂交种棱果沙棘为双向杂交起源,但其主要母本来源应为中国沙棘。     

Novelties in Hedeoma (Labiatae)

Hedeoma pilosum andH. microphyllum are described as new. The former, an endemic of western Texas, is closely related toH. pusillum andH. apiculatum; the latter is intermediate betweenH. costatum andH. nanum. H. oblongifolium var.mexicanum andH. drummondii var.crenulatum are presented as two new varieties, both of which may have originated as hybrids.Hedeoma crenulatum is proposed as a new name to replaceH. montanum (Brade) Epling & Játiva. Three new combinations are made in the genusHesperozygis, and new status is accorded to two species.     

Mono- and sesquiterpenoids from Hydrocotyle and Centella species

Hydrocotyle sibthorpioides, H. maritima and Centella asiatica were investigated for their ter- penoid constituents. The major component of H. sibthorpioides and H. maritima is trans- β-farnesene. The latter species also elaborates α-terpinene and thymol methyl ether in respectable amount. The sesquiterpenoid constitution of C. asiatica is rather similar to H. maritima. Possible allelopathy between H. sibthorpioides and a liverwort is suggested.     

Four New Species of the Genus Hemicriconemoides (Nematoda:Criconematidae)

Four new species of the genus Hemicriconemoides (H. californianus n.sp., H. taiwanensis n.sp., H. annulatus n. sp., and H. nitida n.sp.) are described. The range of total length of H. mangiferae is increased on the basis of specimens collected in Israel, Observations on H. mangiferae and H. litchi support the validity of H. litchi as distinct from H. mangiferae.     

Phylogenetic Relationships Based on Ribosomal DNA Data for Four Species of Cyst Nematodes from Italy and One from Syria

Phylogenetic analysis of new ribosomal DNA (rDNA) data for Heterodera mediterranea, H. hordecalis, H. carotae, and H. fici from Italy and H. ciceri from Syria, along with published data for other species, showed high bootstrap support for the following relationships: (((((H. carotae H. cruciferae) H. goettingiana) (((H. trifolii H. ciceri) H. mediterranea) ((H. avenae H. latipons) H. fici))) (Cactodera betulae H. hordecalis)) (Globodera rostochiensis G. pallida)). The rDNA sequence data were for the two internal transcribed spacers (ITS1 and ITS2) plus the 5.8S gene between them. These inferred relationships support the classic ''''Goettingiana Group'''' of H. carotae, H. cruciferae, and H. goettingiana. A clade comprised of Cactodera betulae and H. hordecalis is only distantly related to the other species in the analysis.     

Halichoeres bleekeri (steindachner & döderlein), a valid japanese species of labrid fish, distinct fromH. tenuispinis (günther) from china

Halichoeres bleekeri (Steindachner &; Döderlein, 1887), previously regarded as a junior synonym ofH. tenuispinis (Günther), is a valid species. It is distinct fromH. tenuispinis in nearly always having 13 instead of 14 pectoral rays. 11–15 instead of 7–11 suborbital pores, longer dorsal soft rays (1.95–2.3 in head length vs 2.25–2.4 fortenuispinis). and some features of color such as the absence of a dark spot at the upper base of the caudal fin of the female.H. tremebundus Jordan and Snyder, 1902 is a synonym ofH. bleekeri based on the female form, andArtisia festiva de Beaufort is a synonym ofH. tenuispinis, also described from the female phase,H. bleekeri is known from Korea and in Japan from Tokyo to the Izu Islands.H. tenuispinis is recorded from Hong Kong and Xiamen. China, and Taiwan. Records ofH. tenuispinis from the Philippines by Fowler and Bean (1928) represent misidentifications ofH. papilionaceus (Valenciennes).     

New species of avian Hepatozoon (Apicomplexa: Haemogregarinidae) and a re-description of Hepatozoon neophrontis (Todd & Wohlbach, 1912) Wenyon, 1926

Seven new species of avian Hepatozoon, H. lanis, H. malacotinus, H. numidis, H. pittae, H. estrildus, H. sylvae and H. zosteropis, respectively, are described from the Laniinae, Malaconotinae, Numidinae, Pittidae, Poephilinae, Sylviinae and Zosteropidae. Hepatozoon adiei Hoare, 1924 is synonymised with Hepatozoon neophrontis (Todd &; Wolbach, 1912) Wenyon, 1926 from the Accipitridae and H. neophrontis re-described. Four species of Hepatozoon described by de Beaurepaire Aragão from Brazil are reviewed and Hepatozoon tanagrae (de Beaurepaire Aragão, 1911) Hoare, 1924 is synonymised with H. rhamphocoeli (de Beaurepaire Aragão, 1911) Hoare 1924 and H. brachyspizae (de Beaurepaire Aragão) Hoare, 1924 with H. paroariae (de Beaurepaire Aragão, 1911) Hoare, 1924. Illustrations and measurements for Hepatozoon albatrossi Peirce &; Prince, 1980, H. atticorae (de Beaurepaire Aragão, 1911) Hoare, 1924 and H. parus Bennett &; Peirce, 1989 are also presented to complete the review of the known avian species. The value of some potential morphological characteristics for distinguishing species of Hepatozoon is discussed.     

H(Tla) system: Identification of two new loci,H-31 andH-32, and alleles

Skin and tumor grafting experiments performed on F₁ hybrid mice indicate that theH(Tla) histocompatibility system is composed of at least two genetic loci,H(Tla-1) andH(Tla-2), and that one of these loci,H(Tla-1), has at least three alleles. We suggest thatH(Tla-1) andH(Tla-2) be renamedH-31 andH-32, respectively.     

A review of flying fishes of the subgenus Hirundichthys (Genus Hirundichthys, Exocoetidae). Part 2. Nerito-oceanic species: H. oxycephalus, H. affinis

The second part of the review of the subgenus Hirundichthys s.str. dealt with two nerito-oceanic species of the subgenus which have weakly pronounced “mirror” on the pectoral fins: H. oxycephalus and H. affinis. The validity of H. coromandelensis (Hornell, 1923) as a subspecies of H. oxycephalus is restored. A comparison of local populations showed that H. oxycephalus is a polytypic species and forms three subspecies: nominative H. oxycephalus oxycephalus from the Western Pacific and Eastern Indian Ocean, H. oxycephalus coromandelensis from the Arabian Sea, Bay of Bengal and adjoining waters of the Indian Ocean, and known by the only specimen from the waters of New Guinea H. oxycephalus frereensis ssp.n. Populations of H. affinis from the Western and Eastern Atlantic differ in the color of pectoral fins. Maps showing the geographical distribution of species and subspecies in the World Ocean are drawn up. A key for identification of species and subspecies belonging to the subgenus is proposed.     

Effect ofpH on the formation of Compounds II and III of horseradish peroxidase

The formation of Compounds II and III of horseradish peroxidase from Compound I and potassium ferrocyanide and from Compound II and excess hydrogen peroxide, respectively, was studied as a function ofpH at 25°C and a constant ionic strength of 0.11. The yield of Compound II obtained increases progressively with increase inpH; a mixture of Compounds I and II is produced at acidicpH. Pure Compound III is obtained at allpH values, but the highest yield is obtained atpH values between 6.0 and 7.0. The yield of p-670, formed when Compound III is allowed to stand for 60 min, decreases with increase inpH, while the decay of Compound III also decreases with increase inpH. Therefore p-670 is the decay product of Compound III.     

Palynological investigations on some Hypericum taxa (Hypericaceae) growing naturally in Turkey

This study examined the detailed pollen morphological structures of sixteen Hypericum taxa (four endemic, twelve non endemic) including eight sections showing the natural distribution in Turkey: H. sect. Ascyreia (H. calycinum L.), H. sect. Heterophyllum (H. heterophyllum Vent.), H. Sect. Taeniocarpium (Hypericum confertum Choisy subsp. confertum, H. venustum Fenzl, H. linaroides Bosse), H. sect. Drosocarpium (H. montbretii Spach, H. bithynicum Boiss.), H. sect. Crossophyllum (H. adenotrichum Spach, H. orientale L.), H. sect. Olympia (H. olympicum L. subsp. olympicum), H. sect. Origanifolia (H. origanifolium Willd., H. avicularifolium Jaub and Spach subsp. depilatum (Freyn and Bornm.) Robson var. depilatum, H. avicularifolium Jaub. and Spach subsp. byzantinum) and H. sect. Hypericum (H. tetrapterum Fries, H. perforatum L., H. triquetrifolium Tura). These taxa were studied under light microscope and scanning electron microscope for the first time. Of the taxa studied, H. tetrapterum has the smallest pollen grains (on average 15.85–17.20 × 15.45–16.05 μm); and H. olympicum subsp. olympicum the largest grains (on average 22.90–23.10 × 21.40–22.10 μm). The pollen grains of 15 taxa are subprolate and one taxon is prolate-spheroidal. The regular pollen grains of all 16 taxa are 3-zonocolporate. Ornamentation is microreticulate; lumina regularly spaced in eight taxa, tectum perforatum; tectal perforations regularly spaced in seven taxa and tectum perforatum; and tectal perforations grouped together in one taxon. Endoaperture is cruciform porus, with short lateral and meridional extensions in ten taxa, cruciform porus, transversally elongated, with very small lateral extensions in one taxon and lalongate colpus in five taxa. Basic pollen types are ten taxa in type X, five taxa in type IV and one taxon in type II.