FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1988069162> ?p ?o ?g. }

• W1988069162 endingPage "50" @default.
• W1988069162 startingPage "8" @default.
• W1988069162 abstract "Abstract The scale insect tribe Iceryini (Coccoidea: Monophlebidae) is a group of relatively large and polyphagous insects found worldwide. Currently, the tribe contains about 80 named species placed in seven genera, which are diagnosed largely on features associated with egg protection. We reconstruct the phylogeny of the Iceryini on the basis of nucleotide sequence data from nuclear ribosomal (18S and D2, D3 and D10 regions of 28S) and protein‐coding (histone H3) gene regions of 40 iceryine species representing six of the seven genera and seven outgroup taxa, mostly from two other tribes of Monophlebidae. Bayesian and maximum parsimony analyses recover a monophyletic tribe and clades that correspond more to geography than to the existing morphology‐based classification. Gueriniella Fernald is sister to the rest of the Iceryini and the genera Crypticerya Cockerell, Icerya Signoret and Steatococcus Ferris are not monophyletic. Our data imply that the distinctive iceryine reproductive strategies, such as protecting eggs in a waxy ovisac or inside a marsupium, are poor indicators of relationships. On the basis of molecular relationships and the re‐examination of morphological characters, we recognize only five genera of Iceryini – Crypticerya , Echinicerya Morrison, Gigantococcus Pesson & Bielenin, Gueriniella and Icerya – and substantially revise the generic concepts of Crypticerya , Gigantococcus and Icerya. We provide a key to the genera based on adult females. We redescribe and illustrate the adult female and first‐instar nymph of the type species Crypticerya rosae (Riley & Howard), Echinicerya anomala Morrison, Gigantococcus maximus (Newstead) (adult female only), Gueriniella serratulae (Fabricius) and Icerya seychellarum (Westwood). We recognize Auloicerya Morrison as a junior synonym ( syn.n. ) of Icerya , and transfer the two Auloicerya species to Icerya as I. acaciae (Morrison & Morrison) comb.n. and I. australis Maskell comb.rev. We recognize Steatococcus and Proticerya Cockerell as junior synonyms ( syn.n. ) of Crypticerya . From Steatococcus , we transfer five species to Crypticerya [ C. mexicana Cockerell & Parrott comb.rev. , C. morrilli (Cockerell) comb.n. , C. tabernicola (Ferris) comb.n. , C. townsendi Cockerell comb.rev. , C. tuberculata (Morrison) comb.n. ], four species to Gigantococcus [ Gi. euphorbiae (Brain) comb.n. , Gi. gowdeyi (Newstead) comb.n. , Gi. madagascariensis (Mamet) comb.n. , Gi. theobromae (Newstead) comb.n. ] and three species to Icerya [ I. assamensis (Rao) comb.n. , I nudata Maskell comb.rev. , I. samaraia (Morrison) comb.n. ]. From Icerya , we transfer 14 species to Crypticerya [ C. brasiliensis (Hempel) comb.n. , C. colimensis (Cockerell) comb.n. , C. flava (Hempel) comb.n. , C. flocculosa (Hempel) comb.n. , C. genistae (Hempel) comb.n. , C. littoralis (Cockerell) comb.n. , C. luederwaldti (Hempel) comb.n. , C. minima (Morrison) comb.n. , C. montserratensis (Riley & Howard) comb.n. , C. palmeri (Riley & Howard) comb.n. , C. rileyi (Cockerell) comb.n. , C. similis (Morrison) comb.n. , C. subandina (Leonardi) comb.n. , C. zeteki (Cockerell) comb.n. ] and nine species to Gigantococcus [ Gi. alboluteus (Cockerell) comb.n. , Gi. bimaculatus (De Lotto) comb.n. , Gi. brachystegiae (Hall) comb.n. , Gi. longisetosus (Newstead) comb.n. , Gi. nigroareolatus (Newstead) comb.n. , Gi. pattersoni (Newstead) comb.n. , Gi. schoutedeni (Vayssière) comb.n. , Gi. splendidus (Lindinger) comb.n. , Gi. sulfureus (Lindinger) comb.n. ]. From Crypticerya , we transfer seven species to Icerya [ I. clauseni (Rao) comb.n. , I. jacobsoni Green comb.rev. , I. jaihind (Rao) comb.n. , I. kumari (Rao) comb.n. , I. mangiferae (Tang & Hao) comb.n. , I. natalensis (Douglas) comb.rev. , I. nuda Green comb.rev. ] and five species to Gigantococcus [ Gi. bicolor (Newstead) comb.n. , Gi. cajani (Newstead) comb.n. , Gi. caudatus (Newstead) comb.n. , Gi. ewarti (Newstead) comb.n. , Gi. rodriguesi (Castel‐Branco) comb.n. ]. Both I. hyperici (Froggatt) and Palaeococcus dymocki (Froggatt) are syn.n. of I. nudata (all previously placed in Steatococcus ). We recognize I. maynei Vayssière as a syn.n. of Gi. nigroareolatus , I. tremae Vayssière as a syn.n. of Gi. schoutedeni and I. townsendi plucheae Cockerell as a syn.n. of C. townsendi . We revalidate the species name I. crocea Green stat.reval. In addition, we transfer I. taunayi Hempel to Laurencella Foldi (Monophlebidae: Llaveiini) as L. taunayi (Hempel) comb.n. Four species, Coccus hirticornis Boyer de Fonscolombe, I. chilensis Hempel, I. insulans Hempel and I. paulista Hempel, are considered incertae sedis . We designate lectotypes for C. rosae , E. anomala and I. candida (a junior synonym of I. seychellarum ). Following this revision, we recognize 74 species of Iceryini, distributed as follows: 22 in Crypticerya , one in Echinicerya , 19 in Gigantococcus , two in Gueriniella and 30 in Icerya ." @default.
• W1988069162 created "2016-06-24" @default.
• W1988069162 creator A5006266811 @default.
• W1988069162 creator A5073257092 @default.
• W1988069162 date "2007-11-01" @default.
• W1988069162 modified "2023-10-11" @default.
• W1988069162 title "Molecular data reveal convergent reproductive strategies in iceryine scale insects (Hemiptera: Coccoidea: Monophlebidae), allowing the re-interpretation of morphology and a revised generic classification" @default.
• W1988069162 cites W1523336822 @default.
• W1988069162 cites W1538029815 @default.
• W1988069162 cites W1554412299 @default.
• W1988069162 cites W1556111130 @default.
• W1988069162 cites W1903241824 @default.
• W1988069162 cites W1935210448 @default.
• W1988069162 cites W1965693056 @default.
• W1988069162 cites W1965972566 @default.
• W1988069162 cites W1969194381 @default.
• W1988069162 cites W1977576209 @default.
• W1988069162 cites W1980538884 @default.
• W1988069162 cites W1994287949 @default.
• W1988069162 cites W1999931158 @default.
• W1988069162 cites W2025585413 @default.
• W1988069162 cites W2027880479 @default.
• W1988069162 cites W2032203702 @default.
• W1988069162 cites W2034411893 @default.
• W1988069162 cites W2035865813 @default.
• W1988069162 cites W2049890734 @default.
• W1988069162 cites W2059466542 @default.
• W1988069162 cites W2059495716 @default.
• W1988069162 cites W2060669465 @default.
• W1988069162 cites W2061823202 @default.
• W1988069162 cites W2063203281 @default.
• W1988069162 cites W2069408590 @default.
• W1988069162 cites W2072905369 @default.
• W1988069162 cites W2073348660 @default.
• W1988069162 cites W2074470256 @default.
• W1988069162 cites W2078572307 @default.
• W1988069162 cites W2084186645 @default.
• W1988069162 cites W2091085889 @default.
• W1988069162 cites W2091706152 @default.
• W1988069162 cites W2097382368 @default.
• W1988069162 cites W2097604808 @default.
• W1988069162 cites W2110873346 @default.
• W1988069162 cites W2144022528 @default.
• W1988069162 cites W2144284749 @default.
• W1988069162 cites W2144352499 @default.
• W1988069162 cites W2144817874 @default.
• W1988069162 cites W2148585820 @default.
• W1988069162 cites W2149119160 @default.
• W1988069162 cites W2156782403 @default.
• W1988069162 cites W2173510286 @default.
• W1988069162 cites W2293053531 @default.
• W1988069162 cites W2300409236 @default.
• W1988069162 cites W2315266043 @default.
• W1988069162 cites W2324167292 @default.
• W1988069162 cites W2324949014 @default.
• W1988069162 cites W2328343339 @default.
• W1988069162 cites W2489571957 @default.
• W1988069162 cites W2493802979 @default.
• W1988069162 cites W2500302886 @default.
• W1988069162 cites W2521395400 @default.
• W1988069162 cites W2551656332 @default.
• W1988069162 cites W2946355889 @default.
• W1988069162 cites W4206630795 @default.
• W1988069162 cites W4234465173 @default.
• W1988069162 cites W4241953246 @default.
• W1988069162 cites W4252458597 @default.
• W1988069162 cites W4377005215 @default.
• W1988069162 cites W4377005656 @default.
• W1988069162 cites W638475678 @default.
• W1988069162 doi "https://doi.org/10.1111/j.1365-3113.2007.00404.x" @default.
• W1988069162 hasPublicationYear "2007" @default.
• W1988069162 type Work @default.
• W1988069162 sameAs 1988069162 @default.
• W1988069162 citedByCount "35" @default.
• W1988069162 countsByYear W19880691622012 @default.
• W1988069162 countsByYear W19880691622013 @default.
• W1988069162 countsByYear W19880691622015 @default.
• W1988069162 countsByYear W19880691622017 @default.
• W1988069162 countsByYear W19880691622018 @default.
• W1988069162 countsByYear W19880691622019 @default.
• W1988069162 countsByYear W19880691622020 @default.
• W1988069162 countsByYear W19880691622021 @default.
• W1988069162 countsByYear W19880691622022 @default.
• W1988069162 crossrefType "journal-article" @default.
• W1988069162 hasAuthorship W1988069162A5006266811 @default.
• W1988069162 hasAuthorship W1988069162A5073257092 @default.
• W1988069162 hasConcept C104317684 @default.
• W1988069162 hasConcept C12326286 @default.
• W1988069162 hasConcept C144024400 @default.
• W1988069162 hasConcept C18903297 @default.
• W1988069162 hasConcept C19165224 @default.
• W1988069162 hasConcept C193252679 @default.
• W1988069162 hasConcept C26517878 @default.
• W1988069162 hasConcept C2779121571 @default.
• W1988069162 hasConcept C44465124 @default.
• W1988069162 hasConcept C55493867 @default.
• W1988069162 hasConcept C59822182 @default.
• W1988069162 hasConcept C86803240 @default.

• next