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1.
Thomas J. Henry 《ZooKeys》2015,(490):1-156
The Renodaeus group, a monophyletic assemblage of genera within the New World orthotyline tribe Ceratocapsini, comprising eight genera, including four new ones, is defined; and 48 species are treated, including 26 described as new and 12 transferred from Ceratocapsus Reuter as new combinations. Ceratocapsidea
gen. n. is described to accommodate the new species Ceratocapsidea
bahamaensis
sp. n., from the Bahamas; Ceratocapsidea
baranowskii
sp. n., from Jamaica; Ceratocapsidea
dominicanensis
sp. n., from the Dominican Republic; Ceratocapsidea
rileyi
sp. n., from Texas; Ceratocapsidea
taeniola
sp. n., from Jamaica; Ceratocapsidea
texensis
sp. n., from Texas; Ceratocapsidea
transversa
sp. n., from Mexico (Neuvo León); and Ceratocapsidea
variabilis
sp. n., from Jamaica; and Ceratocapsus
balli Knight, comb. n., Ceratocapsus
complicatus Knight, comb. n., Ceratocapsidea
consimilis Reuter, comb. n., Ceratocapsus
fusiformis Van Duzee, comb. n. (as the type species of the genus), Ceratocapsus
nigropiceus Reuter, comb. n., and Ceratocapsus
rufistigmus Blatchley, comb. n. [and a neotype designated], Ceratocapsus
clavicornis Knight, syn. n. and Ceratocapsus
divaricatus Knight, syn. n. are treated as junior synonyms of Ceratocapsus
fusiformis Van Duzee. The genus Marininocoris Carvalho and the only included species Marinonicoris
myrmecoides Carvalho are redescribed. The genus Pilophoropsis Poppius is redescribed and revised, Renodaeus
texanus Knight, comb. n. is transferred into it and the three new species Pilophoropsis
bejeanae
sp. n., from Sonora, Mexico; Pilophoropsis
cunealis
sp. n., from Oaxaca, Mexico; Pilophoropsis
quercicola
sp. n., from Arizona, USA, are described. Pilophoropsidea
gen. n. is described to accommodate the 12 new species Pilophoropsidea
brailovskyi
sp. n., from Federal District, Mexico; Pilophoropsidea
cuneata
sp. n., from Chiapas, Mexico; Pilophoropsidea
dimidiata
sp. n., from Durango, Mexico; Pilophoropsidea
fuscata
sp. n., from Durango, Mexico and Arizona and New Mexico, USA; Pilophoropsidea
keltoni
sp. n., from Durango, Mexico; Pilophoropsidea
maxima
sp. n., from Durango, Mexico; Pilophoropsidea
pueblaensis
sp. n., from Puebla, Mexico; Pilophoropsidea
schaffneri
sp. n., from Neuvo León and San Luis Potosi, Mexico; Pilophoropsidea
serrata
sp. n., from Michoacan, Mexico; Pilophoropsidea
touchetae
sp. n., from Mexico (Puebla); Pilophoropsidea
truncata
sp. n., from Mexico (Guerrero); Pilophoropsidea
tuberculata
sp. n., from Mexico (Guerrero); and Ceratocapsus
barberi Knight, comb. n., Ceratocapsus
camelus Knight, comb. n. (as the type species of the genus), and Ceratocapsus
fascipennis Knight, comb. n.
Pilophoropsita
gen. n. is described to accommodate Pilophoropsidea
schaffneri
sp. n. from Costa Rica and Mexico (Jalisco, Nayarit, Oaxaca). The genus Renodaeus Distant is redescribed and the new species Renodaeus
mimeticus
sp. n. from Ecuador is described. The genus Zanchisme Kirkaldy is reviewed and the four known species are redescribed. Zanchismeopsidea
gen. n. is described to accommodate Zanchismeopsidea
diegoi
sp. n. from Argentina (Santiago del Estero). Provided are habitus illustrations for certain adults (Pilophoropsidea
camelus, Pilophoropsis
brachyptera Poppius, Renodaeus
mimeticus, and Zanchisme
mexicanus Carvalho & Schaffner), male and female (when available) color digital images and figures of male genitalia of all species, electron photomicrographs of diagnostic characters for selected species, and keys to the genera and their included species. The taxa treated in this paper are arranged alphabetically by genus and species. 相似文献
2.
Bruno Massa 《ZooKeys》2015,(472):77-102
The results of the study of many specimens preserved in different European museums are reported. The tribe Terpnistrini Brunner von Wattenwyl, 1878 is resurrected. The distribution of the following species is enhanced: Pardalota
asymmetrica Karsch, 1896, Diogena
denticulata Chopard, 1954, Diogena
fausta (Burmeister, 1838), Plangiopsis
adeps Karsch, 1896, Poreuomena
sanghensis Massa, 2013 and Tylopsis
continua (Walker, 1869). Further, for their peculiar characteristics, two African representatives of the American genus Symmetropleura Brunner von Wattenwyl, 1878 are included in two new genera: Symmetrokarschia
africana (Brunner von Wattenwyl, 1878), comb. n. and Symmetroraggea
dirempta (Karsch, 1889), comb. n. A new genus and species from the Democratic Republic of Congo, Angustithorax
spiniger
gen. n., sp. n., and a new genus and species from Tanzania, Arostratum
oblitum
gen. n., sp. n. are described. Finally Melidia
claudiae
sp. n. and Atlasacris
brevipennis
sp. n. are described and compared with related species. 相似文献
3.
The New World genus Philonome Chambers, 1874 is revised. This genus comprises twelve species, seven of which are described as new: two species, Philonome
nigrescens
sp. n. and Philonome
wielgusi
sp. n., from the United States; four species, Philonome
albivittata
sp. n., Philonome
curvilineata
sp. n., Philonome
kawakitai
sp. n., and Philonome
lambdagrapha
sp. n., from French Guiana; and one species, Philonome
penerivifera
sp. n., from Brazil. Lectotypes are designated for Philonome
clemensella Chambers, 1874 and Philonome
rivifera Meyrick, 1915. Partially on evidence of their head morphology and particularly from molecular evidence, the genus Philonome, previously associated with Bucculatricidae or Lyonetiidae, is reassigned to Tineidae. A possible systematic position of Philonome within Tineidae is discussed. Eurynome Chambers, 1875, is synonymized with Argyresthia Hübner, 1825 (Argyresthiidae). Photographs of adults and illustrations of genitalia, when available, are provided for all described species of Philonome and two species previously misplaced in Philonome, Argyresthia
luteella (Chambers, 1875) and Elachista
albella (Chambers, 1877). In addition, DNA barcodes were used for the delimitation of most species. 相似文献
4.
5.
There are four species of Gymnetron in China recorded to date including Gymnetron
miyoshii Miyoshi, 1922, Gymnetron
villosipenne Roelofs, 1875, Gymnetron
auliense Reitter, 1907 and Gymnetron
vittipenne Marseul, 1876, of which the last two are new country records. The pre-imaginal stages including eggs, mature larvae and pupae of Gymnetron
miyoshii, Gymnetron
auliense and Gymnetron
vittipenne are described and illustrated. In addition, their diagnostic characters (larvae and pupae) are discussed and differentiated, and notes on some of their biological parameters are provided. Potential ecological impacts between Gymnetron weevils and their host Veronica spp. also are provided. 相似文献
6.
The Chinese species of the genera Omicrogiton Orchymont, 1919, Peratogonus Sharp, 1884 and Mircogioton Orchymont, 1937 are reviewed, diagnosed and keyed. Mircogioton and Omicrogiton are reported for the first time from China, Peratogonus for the first time for mainland China. Five species are recognized: Omicrogiton
coomani Balfour-Browne, 1939 (Guangdong, Hongkong), Omicrogiton
hainanensis
sp. n. (Hainan), Omicrogiton
roberti
sp. n. (Hainan), Mircogioton
coomani Orchymont, 1937 (Yunnan), and Peratogonus
reversus Sharp, 1884 (Guangdong, Jiangxi, Taiwan). Lectotype of Omicrogiton
coomani is designated. Mircogioton
cognitus (Malcolm, 1981), syn. n. is considered a junior subjective synonym of Mircogioton
coomani Orchymont, 1939. Species of Mircogioton and Omicrogiton inhabit decaying banana trunks, whereas Peratogonus
reversus was always collected from moist forest leaf litter. 相似文献
7.
8.
One new species Panesthia
guizhouensis
sp. n. and one new subspecies Panesthia
stellata
concava
ssp. n. are described and illustrated. The male of Panesthia
antennata Brunner von Wattenwyl, 1893 and its brachypterous form are described and illustrated for the first time. Panesthia
strelkovi Bey-Bienko, 1969 is redescribed and illustrated. Three known species, Panesthia
birmanica Brunner von Wattenwyl, 1893, Panesthia
sinuata Saussure, 1839 and Panesthia
angustipennis
cognata Bey-Bienko, 1969 are illustrated. In addition, a key to all species of the genus Panesthia from China is presented. 相似文献
9.
Sergei I. Golovatch 《ZooKeys》2015,(510):79-94
The diversity of Diplopoda in caves of southern China is remarkably high, often 5–6 species per cave, consisting mostly of local endemics and presumed troglobionts. These are evidently biased to just a few lineages, mainly members of the orders Chordeumatida and Callipodida, the families Cambalopsidae (Spirostreptida) and Haplodesmidae (Polydesmida) or the genera Pacidesmus, Epanerchodus and Glenniea (all Polydesmida, Polydesmidae), Trichopeltis (Polydesmida, Cryptodesmidae), Dexmoxytes (Polydesmida, Paradoxosomatidae) and Hyleoglomeris (Glomerida, Glomeridae). All these taxa, especially the Paradoxosomatidae and Cambalopsidae (usually amounting to about 60% and 10% of the total species diversity in the Oriental fauna, respectively), are moderately to highly speciose across Southeast Asia, being largely epigean. However, the epigean Diplopoda of southern China are yet badly understudied, since much of the collecting and taxonomic exploration efforts still focus on cavernicoles. The Oriental Region is the only biogeographic realm globally that harbours all 16 orders of Diplopoda, of which 14 have already been encountered in China and/or the immediately adjacent parts of Indochina. Thus, China may actually prove to support no less than 1,000 millipede species of various origins, mainly Oriental and Palaearctic. 相似文献
10.
Juan J. Morrone 《ZooKeys》2013,(273):15-71
The phylogenetic relationships of the genera of Listroderini LeConte, 1876 are analyzed based on 58 morphological characters. The genera are grouped in four clades, which are given subtribal status: Macrostyphlina new subtribe (Adioristidius, Amathynetoides, Andesianellus, Macrostyphlus, Nacodius and Puranius), Palaechthina Brinck, 1948 (Anorthorhinus, Gunodes, Haversiella, Inaccodes, Listronotus, Neopachytychius, Palaechthus, Palaechtodes, Steriphus and Tristanodes), Falklandiina new subtribe (Falklandiellus, Falklandiopsis, Falklandius, Gromilus, Lanteriella, Liparogetus, Nestrius and Telurus), and Listroderina (Acroriellus, Acrorius, Acrostomus, Antarctobius, Germainiellus, Hyperoides, Lamiarhinus, Listroderes, Methypora, Philippius, Rupanius and Trachodema). The subtribes are characterized and keys to identify them and their genera are provided. Listroderini have four main biogeographical patterns: Andean (Macrostyphlina), Andean-New Zealand (Falklandiina), Andean-Neotropical-Australian (Listroderina) and Andean-Neotropical-Australian-New Zealand-Nearctic-Tristan da Cunha-Gough islands (Palaechthina). Geographical paralogy, particularly evident in the Subantarctic subregion of the Andean region, suggests that Listroderini are an ancient Gondwanic group, in which several extinction events might have obscured relationships among the areas. 相似文献
11.
The genus Liancalus Loew is revised for the Nearctic Region. Seven species are documented from this region including two new species: Liancalus
genualis Loew, Liancalus
hydrophilus Aldrich, Liancalus
limbatus Van Duzee, Liancalus
pterodactyl
sp. n., Liancalus
querulus Osten Sacken, Liancalus
similis Aldrich, and Liancalus
sonorus
sp. n. Lectotypes are designated for the following species: Liancalus
genualis, Liancalus
hydrophilus, Liancalus
querulus, and Liancalus
similis. The species are illustrated, a key to males and females is provided, and their distributions mapped. Adults of Liancalus are some of the largest species of Dolichopodidae and commonly occur on waterfalls and vertical seeps. 相似文献
12.
13.
All genus-group names listed in the second edition of the catalogue (1833-1836) of Dejean’s beetle collection are recorded. For each new genus-group name the originally included available species are listed and for generic names with at least one available species, the type species and the current status are given. Names available prior to the publication of Dejean’s second catalogue (1833-1836) are listed in an appendix.The following new synonymies are proposed: Cyclonotum Dejean, 1833 (= Dactylosternum Wollaston, 1854) [Hydrophilidae], Hyporhiza Dejean, 1833 (= Rhinaspis Perty, 1830) [Scarabaeidae], Aethales Dejean, 1834 (= Epitragus Latreille, 1802) [Tenebrionidae], Arctylus Dejean, 1834 (= Praocis Eschscholtz, 1829) [Tenebrionidae], Euphron Dejean, 1834 (= Derosphaerus Thomson, 1858) [Tenebrionidae], Hipomelus Dejean, 1834 (= Trachynotus Latreille, 1828) [Tenebrionidae], Pezodontus Dejean, 1834 (= Odontopezus Alluaud, 1889) [Tenebrionidae], Zygocera Dejean, 1835 (= Disternopsis Breuning, 1939) [Cerambycidae], and Physonota Chevrolat, 1836 (= Anacassis Spaeth, 1913) [Chrysomelidae]. Heterogaster pilicornis Dejean, 1835 [Cerambycidae] and Labidomera trimaculata Chevrolat, 1836 [Chrysomelidae] are placed for the first time in synonymy with Anisogaster flavicans Deyrolle, 1862 and Chrysomela clivicollis Kirby, 1837 respectively. Type species of the following genus-group taxa are proposed: Sphaeromorphus Dejean, 1833 (Sphaeromorphus humeralis Erichson, 1843) [Scarabaeidae], Adelphus Dejean, 1834 (Helops marginatus Fabricius, 1792) [Tenebrionidae], Cyrtoderes Dejean, 1834 (Tenebrio cristatus DeGeer, 1778) [Tenebrionidae], Selenepistoma Dejean, 1834 (Opatrum acutum Wiedemann, 1823) [Tenebrionidae], Charactus Dejean, 1833 (Lycus limbatus Fabricius, 1801) [Lycidae], Corynomalus Chevrolat, 1836 (Eumorphus limbatus Olivier, 1808) [Endomychidae], Hebecerus Dejean, 1835 (Acanthocinus marginicollis Boisduval, 1835) [Cerambycidae], Pterostenus Dejean, 1835 (Cerambyx abbreviatus Fabricius, 1801) [Cerambycidae], Psalicerus Dejean, 1833 (Lucanus femoratus Fabricius, 1775) [Lucanidae], and Pygolampis Dejean, 1833 (Lampyris glauca Olivier, 1790) [Lampyridae]. A new name, Neoeutrapela Bousquet and Bouchard [Tenebrionidae], is proposed for Eutrapela Dejean, 1834 (junior homonym of Eutrapela Hübner, 1809).The following generic names, made available in Dejean’s catalogue, were found to be older than currently accepted valid names: Catoxantha Dejean, 1833 over Catoxantha Solier, 1833 [Buprestidae], Pristiptera Dejean, 1833 over Pelecopselaphus Solier, 1833 [Buprestidae], Charactus Dejean, 1833 over Calopteron Laporte, 1836 [Lycidae], Cyclonotum Dejean, 1833 over Dactylosternum Wollaston, 1854 [Hydrophilidae], Ancylonycha Dejean, 1833 over Holotrichia Hope, 1837 [Scarabaeidae], Aulacium Dejean, 1833 over Mentophilus Laporte, 1840 [Scarabaeidae], Sciuropus Dejean, 1833 over Ancistrosoma Curtis, 1835 [Scarabaeidae], Sphaeromorphus Dejean, 1833 over Ceratocanthus White, 1842 [Scarabaeidae], Psalicerus Dejean, 1833 over Leptinopterus Hope, 1838 [Lucanidae], Adelphus Dejean, 1834 over Praeugena Laporte, 1840 [Tenebrionidae], Amatodes Dejean, 1834 over Oncosoma Westwood, 1843 [Tenebrionidae], Cyrtoderes Dejean, 1834 over Phligra Laporte, 1840 [Tenebrionidae], Euphron Dejean, 1834 over Derosphaerus Thomson, 1858 [Tenebrionidae], Pezodontus Dejean, 1834 over Odontopezus Alluaud, 1889 [Tenebrionidae], Anoplosthaeta Dejean, 1835 over Prosopocera Blanchard, 1845 [Cerambycidae], Closteromerus Dejean, 1835 over Hylomela Gahan, 1904 [Cerambycidae], Hebecerus Dejean, 1835 over Ancita Thomson, 1864 [Cerambycidae], Mastigocera Dejean, 1835over Mallonia Thomson, 1857 [Cerambycidae], Zygocera Dejean, 1835 over Disternopsis Breuning, 1939 [Cerambycidae], Australica Chevrolat, 1836 over Calomela Hope, 1840 [Chrysomelidae], Edusa Chevrolat, 1836 over Edusella Chapuis, 1874 [Chrysomelidae], Litosonycha Chevrolat, 1836 over Asphaera Duponchel and Chevrolat, 1842 [Chrysomelidae], and Pleuraulaca Chevrolat, 1836 over Iphimeis Baly, 1864 [Chrysomelidae]. In each of these cases, Reversal of Precedence (ICZN 1999: 23.9) or an applicationto the International Commission on Zoological Nomenclature will be necessary to retain usage of the younger synonyms. 相似文献
14.
African species of Oxyscelio (Hymenoptera: Platygastridae s.l.) are revised. A total of 14 species are recognized, 13 of which are described as new: Oxyscelio
absentiae Burks, sp. n., Oxyscelio
galeri Burks, sp. n., Oxyscelio
gyri Burks, sp. n., Oxyscelio
idoli Burks, sp. n., Oxyscelio
intensionis Burks, sp. n., Oxyscelio
io Burks, sp. n., Oxyscelio
kylix Burks, sp. n., Oxyscelio
lunae Burks, sp. n., Oxyscelio
nemesis Burks, sp. n., Oxyscelio
pulveris Burks, sp. n., Oxyscelio
quassus Burks, sp. n., Oxyscelio
teli Burks, sp. n. and Oxyscelio
xenii Burks, sp. n. The genus Freniger Szabó, syn. n. is recognized as part of an endemic African species group of Oxyscelio with incomplete hind wing venation, and Oxyscelio
bicolor (Szabó), comb. n. is therefore recognized as the only previously described species of Oxyscelio from Africa. The Oxyscelio
crateris and Oxyscelio
cuculli species groups, previously known from southeast Asia, are represented in Africa by seven and one species respectively. 相似文献
15.
A checklist of the 31 Chinese species of Udea is given, including the new species and new records. Udea
curvata
sp. n. and Udea
albostriata
sp. n. are described and illustrated. Udea
exigualis (Wileman, 1911), Udea
stationalis Yamanaka, 1988, Udea
prunalis (Denis & Schiffermüller, 1775), Udea
elutalis (Denis & Schiffermüller, 1775) and Udea
cyanalis (La Harpe, 1855) are newly recorded for China. 相似文献
16.
17.
The Neotropical genus Menevia Schaus, 1928 is revised to include 18 species, 11 of which are new. Two species, Menevia
ostia
comb. n. and Menevia
parostia
comb. n. are transferred from Pamea Walker, 1855 to Menevia. Four species-groups are diagnosed for the first time based on external characters and male genitalia morphology. The following new species are described: Menevia
rosea
sp. n., Menevia
torvamessoria
sp. n., Menevia
magna
sp. n., Menevia
menapia
sp. n., Menevia
mielkei
sp. n., Menevia
australis
sp. n., Menevia
vulgaris
sp. n., Menevia
franclemonti
sp. n., Menevia
vulgaricula
sp. n., Menevia
cordillera
sp. n., and Menevia
delphinus
sp. n.. A neotype is designated for Mimallo
plagiata Walker, 1855, which has since been placed in Menevia. Mimallo
saturata Walker, 1855 is interpreted to be a nomen dubium. 相似文献
18.
Patricia Briones-Fourzán 《ZooKeys》2014,(457):289-311
Coexistence of closely related species may be promoted by niche differentiation or result from interspecific trade-offs in life history and ecological traits that influence relative fitness differences and contribute to competitive inequalities. Although insufficient to prove coexistence, trait comparisons provide a first step to identify functional differences between co-occurring congeneric species in relation to mechanisms of coexistence. Here, a comparative review on life history and ecological traits is presented for two pairs of co-occurring species of spiny lobsters in the genus Panulirus: Panulirus
gracilis and Panulirus
inflatus from the Eastern Central Pacific region, and Panulirus
argus and Panulirus
guttatus from the Caribbean region. Panulirus
gracilis and Panulirus
inflatus have similar larval, postlarval, and adult sizes and a similar diet, but differ in degree of habitat specialization, fecundity, and growth rate. However, little is known on behavioral traits of these two species that may influence their competitive abilities and susceptibility to predators. The more abundant information on Panulirus
argus and Panulirus
guttatus shows that these two species differ more broadly in degree of habitat specialization, larval, postlarval and adult sizes, diet, fecundity, growth rate, degree of sociality, defense mechanisms, susceptibility to predators, and chemical ecology, suggesting a greater degree of niche differentiation between Panulirus
argus and Panulirus
guttatus than between Panulirus
gracilis and Panulirus
inflatus. Whether the substantial niche differentiation and apparent interspecific trade-offs between Panulirus
argus and Panulirus
guttatus relative to Panulirus
gracilis and Panulirus
inflatus reflect an earlier divergence of the former pair of species in the evolution of the genus constitutes an intriguing hypothesis. However, whether or not post-divergence evolution of each species pair occurred in sympatry remains uncertain. 相似文献
19.
A total of 17 species of Fissocantharis Pic is recorded from Guangxi, China. Six species are described new to science, Fissocantharis
sinensomima
sp. n., Fissocantharis
sexcostata
sp. n., Fissocantharis
basilaris
sp. n., Fissocantharis
eschara
sp. n., Fissocantharis
latipalpa
sp. n. and Fissocantharis
biprojicientis
sp. n., and two previously known species are redescribed, Fissocantharis
gracilipes (Pic, 1927) and Fissocantharis
sinensis (Wittmer, 1988). These species are presented with habitus of males, abdominal sternites VIII of females and genitalia of both sexes. Fissocantharis
flavofacialis (Pic, 1926) is synonymized with Fissocantharis
angusta (Fairmaire, 1900); both were originally described in the genus Podabrus Westwood. Additionally, a key and a checklist of all the species of Fissocantharis from Guangxi are provided. 相似文献
20.
Rogério Bertani 《ZooKeys》2012,(230):1-94
Three aviculariine genera endemic to Brazil are revised. Typhochlaena C. L. Koch, 1850 is resurrected, including five species; Pachistopelma Pocock, 1901 includes two species; and Iridopelma Pocock, 1901, six species. Nine species are newly described: Typhochlaena amma
sp. n., Typhochlaena costae
sp. n., Typhochlaena curumim
sp. n., Typhochlaena paschoali
sp. n., Pachistopelma bromelicola
sp. n., Iridopelma katiae
sp. n., Iridopelma marcoi
sp. n., Iridopelma oliveirai
sp. n. and Iridopelma vanini
sp. n. Three new synonymies are established: Avicularia pulchra Mello-Leitão, 1933 and Avicularia recifiensis Struchen & Brändle, 1996 are junior synonyms of Pachistopelma rufonigrum Pocock, 1901 syn. n., and Avicularia palmicola Mello-Leitão, 1945 is a junior synonym of Iridopelma hirsutum Pocock, 1901 syn. n.
Pachistopelma concolor Caporiacco, 1947 is transferred to Tapinauchenius Ausserer, 1871, making the new combination Tapinauchenius concolor (Caporiacco, 1947)
comb. n. Lectotypes are newly designed for Pachistopelma rufonigrum Pocock, 1901 , Iridopelma hirsutum Pocock, 1901 and Pachistopelma concolor Caporiacco, 1947. Cladistic analyses using both equal and implied weights were carried out with a matrix comprising 62 characters and 38 terminal taxa. The chosen cladogram found with X-Pee-Wee and concavity 6 suggests they are monophyletic. All species are keyed and mapped and information on species habitat and area cladograms are presented. Discussion on biogeography and conservation is provided. 相似文献