@article {15204, title = {The weevils (Coleoptera: Curculionoidea) of the Maritime Provinces of Canada, II: new records from Nova Scotia and Prince Edward Island and regional zoogeography}, journal = {Canadian Entomologist}, volume = {139}, number = {3}, year = {2007}, month = {May-June}, pages = {397-442}, abstract = {Seventy-nine species of weevils are newly reported in Nova Scotia and 66 species are newly reported on Prince Edward Island, increasing the known provincial weevil faunas to 244 and 92 species, respectively. Thirty-six species are recorded for the first time in the Maritime Provinces; of these, Ceutorhynchus pallidactylus (Marsham), Listronotus dietzi O{\textquoteright}Brien, Corthylus columbianus Hopkins, and Orchidophilus aterrimus (Waterhouse) are recorded for the first time in Canada. Orchidophilus aterrimus has been collected only in exotic domesticated orchids and is not established in the wild. Fourteen species previously recorded on Cape Breton Island, Nova Scotia, are reported from the provincial mainland. Four species - Curculio sulcatulus (Casey), Ceutorhynchus squamatus LeConte, Tachyerges niger (Horn), and Ips calligraphus (Germar) - are removed from the faunal list of Nova Scotia, and three species - Temnocerus cyanellus (LeConte), Curculio nasicus (Say), and Cryphalus ruficollis ruficollis Hopkins - are removed from the faunal list of Prince Edward Island. The combined known weevil fauna of the Maritime Provinces now totals 290 species. The adequacy of collection effort is discussed and in Nova Scotia, where collection effort has been greatest, distribution patterns of selected groups of species are examined. Island faunas are discussed with respect to those of Prince Edward Island and Cape Breton Island. Regional biogeographic patterns of species are also discussed, including possible disjunct populations in Nova Scotia and species that may not have crossed the isthmus of Chignecto to colonize Nova Scotia. Attention is drawn to the long history of introduced species in the region and to ongoing introductions through an examination of the earliest records for the 60 introduced species found in the region}, keywords = {Ceutorhynchus pallidactylus, Ceutorhynchus squamatus, Corthylus columbianus, Cryphalus ruficollis ruficollis, Curculio nasicus, Curculio sulcatulus, Ips calligraphus, Listronotus dietzi, Orchidophilus aterrimus, Tachyerges niger, Temnocerus cyanellus}, isbn = {0008-347X}, author = {Majka, Christopher G. and Anderson, Robert S. and McCorquodale, David B.} } @article {14418, title = {The weevils (Coleoptera: Curculionoidea) of the Maritime Provinces of Canada, II: new records from Nova Scotia and Prince Edward Island and regional zoogeography}, journal = {Canadian Entomologist}, volume = {139}, number = {3}, year = {2007}, month = {May-June}, pages = {397-442}, abstract = {Seventy-nine species of weevils are newly reported in Nova Scotia and 66 species are newly reported on Prince Edward Island, increasing the known provincial weevil faunas to 244 and 92 species, respectively. Thirty-six species are recorded for the first time in the Maritime Provinces; of these, Ceutorhynchus pallidactylus (Marsham), Listronotus dietzi O{\textquoteright}Brien, Corthylus columbianus Hopkins, and Orchidophilus aterrimus (Waterhouse) are recorded for the first time in Canada. Orchidophilus aterrimus has been collected only in exotic domesticated orchids and is not established in the wild. Fourteen species previously recorded on Cape Breton Island, Nova Scotia, are reported from the provincial mainland. Four species - Curculio sulcatulus (Casey), Ceutorhynchus squamatus LeConte, Tachyerges niger (Horn), and Ips calligraphus (Germar) - are removed from the faunal list of Nova Scotia, and three species - Temnocerus cyanellus (LeConte), Curculio nasicus (Say), and Cryphalus ruficollis ruficollis Hopkins - are removed from the faunal list of Prince Edward Island. The combined known weevil fauna of the Maritime Provinces now totals 290 species. The adequacy of collection effort is discussed and in Nova Scotia, where collection effort has been greatest, distribution patterns of selected groups of species are examined. Island faunas are discussed with respect to those of Prince Edward Island and Cape Breton Island. Regional biogeographic patterns of species are also discussed, including possible disjunct populations in Nova Scotia and species that may not have crossed the isthmus of Chignecto to colonize Nova Scotia. Attention is drawn to the long history of introduced species in the region and to ongoing introductions through an examination of the earliest records for the 60 introduced species found in the region}, keywords = {Ceutorhynchus pallidactylus, Ceutorhynchus squamatus, Corthylus columbianus, Cryphalus ruficollis ruficollis, Curculio nasicus, Curculio sulcatulus, Ips calligraphus, Listronotus dietzi, Orchidophilus aterrimus, Tachyerges niger, Temnocerus cyanellus}, isbn = {0008-347X}, author = {Majka, Christopher G. and Anderson, Robert S. and McCorquodale, David B.} } @article {14030, title = {Nuevas sinonimias, revalidaciones y combinaciones (aporte a Col. Curculionidae)}, journal = {Agricultura T{\'e}cnica, Santiago de Chile}, volume = {10}, year = {1950}, note = {[stated to be published VI-1950, however article beginning on p. 43 was received for publication on 23-VIII-1950]. Orig. ref: KUSCHEL, G. (1950b). Nuevas sinonimias, revalidaciones y combinaciones (9{\textordmasculine} aporte a Col. Curculionidae). Agricultura T{\'e}cnica, Chile, 10(1): 10-21. NOTE: [stated to be published VI-1950, however article beginning on p. 43 was received for publication on 23-VIII-1950]}, pages = {10-21}, type = {Article}, abstract = {Anchodemus - Lec. (Curculionidae): [Systematics, (=, Lixellus, Lec, Anchodemus hubbardi - Lec. (Curculionidae): [Systematics].Anchonus planipennis - Chevr. (Curculionidae): [Systematics].Antarctobius (Curculionidae). Anthonomus (Curculionidae).Anthonomus chilensis - Schenkl. (Curculionidae): [Systematics].Anthonomus ornatus - Blanch. (Curculionidae): [Systematics, (=, Anthonomus redtenbacheri, Blackw., ) p. 17]. Anthonomus redtenbacheri - Blackw. (Curculionidae): [Systematics]. Baris flavipes (Curculionidae). Baris tenuis - Blanch (Curculionidae): [Systematics]. Berberidicola (Curculionidae): [Gen nov, gen. n., for, Rhyssomatus exaratus, Blanch, (type) (=, Rhyssomatus crenulatus, Blanch., Rhyssomatus ater, Phil., ), Centrinus carinatus, Phil., p. 18].Brachybaris - Faust. (Curculionidae): [Systematics]. Calandra chilensis - Phil. (Curculionidae): [Systematics]. Calandra granaria - L. (Curculionidae): [Systematics]. Calandra laevicosta - Phil. (Curculionidae): [Systematics]. Calandra oryzae - L. (Curculionidae): [Systematics, (=, Calandra chilensis, Phil., ), Calandra granaria, L., (=, Calandra laevicosta, Phil., ) p. 20]. Calvertius tuberosus - Fairm. \& Ger. (Curculionidae): [Systematics, (=, Calvertius araucariae, Sharp, ) from, Heilipus, p. 15]. Centrinus (Curculionidae). Centrinus carinatus - Phil. (Curculionidae): [Systematics]. Ceuthorrhynchus (Curculionidae). Chalcodermus lunatus - Bond. (Curculionidae): [Systematics]. Chalcodermus speculifer - Heller (Curculionidae): [Systematics, (=, Chalcodermus lunatus, Bond., ) p. 18].Chilebaris (Curculionidae): [Gen nov, gen. n., for, Baris tenuis, Blanch, (type), Baris flavipes, Phil. p. 19]. Chileudius (Curculionidae): [Gen nov, gen. n., for, Eudius varians, Blanch, p. 12]. Cholus - Boh. (Curculionidae): [Systematics]. Cholus atropunctellus (Curculionidae). Cholus dealbatus - Boh. (Curculionidae): [Systematics, (=, Cholus ornatus, Chevr., ) p. 17, Cholus atropunctellus, see, Acrotomopus, Cholus trizonatus, see, Dionychus trifasciatus]. Cholus ornatus - Chevr. (Curculionidae): [Systematics]. Cholus trizonatus - Gunth. (Curculionidae): [Systematics]. Cnemecoelus (Curculionidae). Coeliodes (Curculionidae). Conothorax - Jek. (Curculionidae): [Systematics, (=, Conocloeus, Mshl., ), Conothorax luctuosus, Lac., (=, Conothorax variabilis, Kessel, ) p. 12]. Conotrachelus aequalis - Fiedl. (Curculionidae): [Systematics]. Conotrachelus cervinus - Hust. (Curculionidae): [Systematics]. Conotrachelus glaber - Hust. (Curculionidae): [Systematics]. Conotrachelus irroratus - Fiedl. (Curculionidae): [Systematics]. Conotrachelus kirschi - Blackw. (Curculionidae): [Systematics]. Conotrachelus pullus - Fiedl. (Curculionidae): [Systematics]. Conotrachelus striatus - Hust. (Curculionidae): [Systematics]. Conotrachelus subnebulosus - Hust. (Curculionidae): [Systematics, (=, Conotrachelus irroratus, Fiedl., ), Conotrachelus cervinus, Hust., (=, Conotrachelus pullus, Fiedl., ), Conotrachelus glaber, Hust., (=, Conotrachelus aequalis, Fiedl., ), Conotrachelus striatus, Hust., (=, Conotrachelus kirschi, Blackw., ) p. 18]. Cossonus (Curculionidae). Cossonus nigropiceus (Curculionidae). Cryptorhynchus (Curculionidae). Cydianerus chevrolati - Blanch. (Curculionidae): [Systematics]. Cydianerus latruncularius - Perty (Curculionidae): [Systematics, (=, Cydianerus chevrolati, Blanch., ) p. 12]. Cylindrorhinus (Curculionidae). Cylindrorhinus angulatus - Guer. (Curculionidae): [Systematics, (=, Adioristus rubripes, Phil., Adioristus rugatus, Phil., (=, Cylindrorhinus angulatus var. scrobiculatus, Burm., )) p. 12, Cylindrorhinus griseus, Phil., (=, Adioristus apiculatus, Hust., )from, Adioristus, Cylindrorhinus denticulatus, Fairm. \& Ger., (=, Cylindrorhinus inquinatus, Lac., ), Cylindrorhinus sulcatus, Fairm., (=, Adioristus fuegianus, Berg, ), Cylindrorhinus lactifer, Burm., (=,Cylindrorhinus quadrilineatus, Bovie, ) p. 13, Cylindrorhinus costatus, Cylindrorhinus sordidus, see, Paulsenius]. Cylindrorhinus angulatus var. scrobiculatus - Burm. (Curculionidae): [Systematics].Cylindrorhinus costatus - Redt. (Curculionidae): [Systematics].Cylindrorhinus denticulatus - Fairm. \& Ger. (Curculionidae): [Systematics]. Cylindrorhinus griseus - Phil. (Curculionidae): [Systematics]. Cylindrorhinus inquinatus - Lac. (Curculionidae): [Systematics]. Cylindrorhinus lactifer - Burm. (Curculionidae): [Systematics]. Cylindrorhinus quadrilineatus - Bovie (Curculionidae): [Systematics]. Cylindrorhinus sordidus (Curculionidae). Cylindrorhinus sulcatus - Fairm. (Curculionidae): [Systematics]. Demoda kuscheli - Bond. (Curculionidae): [Systematics, a valid, Demoda sp. vittata, Casey, (=, Demoda lineata, Bond., ) p. 19]. Demoda lineata - Bond. (Curculionidae): [Systematics]. Demoda sp. vittata - Casey (Curculionidae): [Systematics]. Desiantha novica (Curculionidae). Desiantha praemorsa - Lea (Curculionidae): [Systematics]. Dionychus trifasciatus - Hust. (Curculionidae): [Systematics, (=, Cholus trizonatus, Gunth., ) p. 17]. Diplogrammus maculipes - Chevr. (Curculionidae): [Systematics, reduced to form of, Diplogrammus quadrivittatus, Ol., Diplogrammus nitidulus, Fiedl., reduced to form of, Diplogrammus amoenus, Rosensch., p. 18]. Dissopygus metalleacens - Boh. (Curculionidae): [Systematics, (=,Dissopygus oblongus, Casey, ) p. 19]. Dissopygus oblongus - Casey (Curculionidae): [Systematics]. Entimus granulatus - L. (Curculionidae): [Systematics, (=, Entimus speciosus, Er., ) p. 12].Entimus speciosus - Er. (Curculionidae): [Systematics].Erycosomus bruchi - Hust. (Curculionidae): [Systematics].Erycosomus vergarae - Reed (Curculionidae): [Systematics, (=, Erycosomus bruchi, Hust., ) from, Centrinus, p. 18].Eubulus bruchi - Hust. (Curculionidae): [Systematics].Eubulus miniatus - Boh. (Curculionidae): [Systematics, (=, Eubulus bruchi, Hust., ) from, Cryptorhynchus, p. 18]. Eucalus - Lac. (Curculionidae): [Systematics, (=, Gayella, Hust., ) p. 19].Eudius varians - Blanch (Curculionidae): [Systematics].Falklandiellus (Curculionidae): [Gen nov, gen. n., for, Falklandiussuffodens, End., (type), F. inaequalis, Champ., p. 14].Falklandius antarcticus - Stierl. (Curculionidae): [Systematics, (=, Falklandius brachyomma, Enderl., p. 14) from, Otiorhynchus, p. 11,Falklandius suffodens, Falklandius inaequalis, see, Falklandiellus].Falklandius brachyomma - Enderl. (Curculionidae): [Systematics].Falklandius inaequalis (Curculionidae). Falklandius suffodens - End. (Curculionidae): [Systematics]. Graphognathus minor - Buch. (Curculionidae): [Systematics, (=,Naupactus breviscapus, Hust., ) p. 10]. Hammatostylus argala - Er. (Curculionidae): [Systematics, (=,Hammatostylus criniger, Champ., ) p. 17]. Hammatostylus criniger - Champ. (Curculionidae): [Systematics]. Heilipus (Curculionidae). Heilipus bisignatus - Redt. (Curculionidae): [Systematics]. Heilipus concinnus - Phil. (Curculionidae): [Systematics]. Homalostylus aduncus - Er. (Curculionidae): [Systematics, (=,Homalostylus geniculatus, Hust., ) from, Sphenophorus, Homalostylus tornowi, Breth., from, Rhodobaenus, p. 20]. Homalostylus geniculatus - Hust. (Curculionidae): [Systematics]. Homalostylus tornowi - Breth. (Curculionidae): [Systematics]. Hyperodes lineaticollis - Blanch. (Curculionidae): [Systematics]. Hyperodes minutus - Blanch. (Curculionidae): [Systematics]. Hyperodes ornatipennis - Blanch. (Curculionidae): [Systematics, Hyperodes lineaticollis, Blanch., Hyperodes minutus, Blanch., from,Phytonomus, p. 14]. Hypocoeliodes ganglionus - Boh. (Curculionidae): [Systematics, from,Coeliodes, p. 19].Iphipus rudis - Boh. (Curculionidae): [Systematics]. Listroderes (Curculionidae). Listroderes angusticeps - Blanch. (Curculionidae): [Systematics]. Listroderes antarctixa - Ger. (Curculionidae): [Systematics]. Listroderes apicalis - Waterh. (Curculionidae): [Systematics, (=,Listroderes argentinensis, Hust., ), Listroderes rugipennis, Blanch., (=, Listroderes antarctixa, Ger., Listroderes katerensis, Champ., ),Listroderes vulsa, End., (=, Listroderes gibbera, End., ), Listroderes falklandica, End., (=, Listroderes bracteata, End., ), Listroderes cineraria, Blanch., (=, Listroderes liliputana, Ger., ), Listroderes tuberculifera, Blanch., (=, Listroderes binodosa, Ger., ), Listroderes delaiguei, Ger., (=, Desiantha praemorsa, Lea, ), Listroderes obliqua, Klug, Listroderes angusticeps, Blanch., varr. of, Listroderes costirostris, Schonh., Listroderes c. obliqua, (=, Listroderes difficilis, Germ., Listroderes hypocrita, Hust., Desiantha novica, French), Listroderes bimaculata, Boh., (=, Listroderes lugubris, Germ., Listroderes costirostris angusticeps, Blanch., Listroderes slictica, Germ., ) p. 13, Listroderes succincta, Boh., (=, Listroderes vulgaris, Germ., ), Listroderes ovata, Boh., (=, Listroderes chalceata, Blanch., Listroderes nodifera, Boh., Listroderes tristis, Ger., ), Antarctobius, a subgen., Trachodema, a subgen. \& transferred from Rhytirhininae p. 14]. Listroderes argentinensis - Hust. (Curculionidae): [Systematics]. Listroderes bimaculata - Boh. (Curculionidae): [Systematics]. Listroderes binodosa - Ger. (Curculionidae): [Systematics]. Listroderes bracteata - End. (Curculionidae): [Systematics]. Listroderes c. obliqua (Curculionidae). Listroderes chalceata - Blanch. (Curculionidae): [Systematics]. Listroderes cineraria - Blanch. (Curculionidae): [Systematics]. Listroderes compressiventris - End. (Curculionidae): [Systematics]. Listroderes costirostris - Schonh. (Curculionidae): [Systematics]. Listroderes costirostris angusticeps - Blanch. (Curculionidae): [Systematics]. Listroderes delaiguei - Ger. (Curculionidae): [Systematics]. Listroderes difficilis - Germ. (Curculionidae): [Systematics]. Listroderes falklandica - End. (Curculionidae): [Systematics]. Listroderes gibbera - End. (Curculionidae): [Systematics]. Listroderes hypocrita - Hust. (Curculionidae): [Systematics]. Listroderes katerensis - Champ. (Curculionidae): [Systematics]. Listroderes liliputana - Ger. (Curculionidae): [Systematics]. Listroderes lugubris - Germ. (Curculionidae): [Systematics]. Listroderes nodifera - Boh. (Curculionidae): [Systematics]. Listroderes nordenskioldi - End. (Curculionidae): [Systematics]. Listroderes obliqua - Klug (Curculionidae): [Systematics]. Listroderes ovata - Boh. (Curculionidae): [Systematics]. Listroderes rugipennis - Blanch. (Curculionidae): [Systematics]. Listroderes schythei - Ger. (Curculionidae): [Systematics]. Listroderes slictica - Germ. (Curculionidae): [Systematics]. Listroderes succincta - Boh. (Curculionidae): [Systematics]. Listroderes tristis - Ger. (Curculionidae): [Systematics]. Listroderes tuberculifera - Blanch. (Curculionidae): [Systematics]. Listroderes vulgaris - Germ. (Curculionidae): [Systematics]. Listroderes vulsa - End. (Curculionidae): [Systematics]. Lixellus - Lec (Curculionidae): [Systematics]. Lixodes - Pasc. (Curculionidae): [Systematics, transferred from Erirhininae to Cholinae p. 15, Lixodes obtusus, see, Acrotomopus]. Madarellus - Casey (Curculionidae): [Systematics, (=, Willinkia, Bond., ) p. 19]. Madarus biplagiatus - Boh. (Curculionidae): [Systematics, (=, Madarus reductus, Casey, ), Madarus latus, Casey, a valid sp. p. 19]. Madarus latus - Casey (Curculionidae): [Systematics]. Madarus reductus - Casey (Curculionidae): [Systematics]. Malvinius (Curculionidae): [Gen nov, gen. n., for, Listroderes compressiventris, End., (type), Listroderes nordenskioldi, End., (=, Malvinius divaricata, End., ) transferred from Cylindrorhininae to Leptopinae p. 11]. Malvinius divaricata - End. (Curculionidae): [Systematics]. Microrhinus - Chevr. (Curculionidae): [Systematics, (=, Brachybaris, Faust., ) transferred from Pterocolinae to Baridinae p. 17].Minurophilus violaceipennis - Fairm. \& Ger. (Curculionidae): [Systematics, from, Rhynchites, p. 16].Mionarthrus (Curculionidae): [Gen nov, gen. n., for, Platyomus cinerascens, Blanch., p. 11].Naupactus breviscapus - Hust. (Curculionidae): [Systematics].Omoides variabilis (Curculionidae).Otiorhynchus (Curculionidae).Ovanius niger - Hust. (Curculionidae): [Systematics, raised to sp. (not var. of, Ovanius picipennis, Boh., ) p. 19].Ovanius picipennis - Boh. (Curculionidae): [Systematics].Paulaenius subcostata - Waterh. (Curculionidae): [Systematics, Paulaenius carinicollis, Blanch., (with, Paulaenius var. caudiculata, Fairm., ), Paulaenius percostata, Fairm. \& Ger., (=, Cylindrorhinus costatus, Redt., p. 13), Paulaenius cupreosquamosa, Ger., Paulaenius thermarum, Ger., from, Listroderes, Paulaenius sordidus, Burm., (=, Listroderes schythei, Ger., p. 13) from, Cylindrorhinus, p. 12].Paulsenius (Curculionidae).Pentarthrum affine - Woll. (Curculionidae): [Systematics].Pentarthrum castaneum - Blanch. (Curculionidae): [Systematics, (=, Cossonus nigropiceus, Phil., Pentarthrum nitidum, Woll., Pentarthrum affine, Woll., ) p. 21]. Pentarthrum nitidum - Woll. (Curculionidae): [Systematics]. Philippius insignis - Ger. (Curculionidae): [Systematics]. Philippius laesicollis - Fairm. \& Ger. (Curculionidae): [Systematics]. Philippius superbus - Reed (Curculionidae): [Systematics, (=, Philippius insignis, Ger., ), Philippius laesicollis, Fairm. \& Ger., (=, Anchonus planipennis, Chevr., ) from, Heilipus, p. 13]. Philonis crucifer - Breth. (Curculionidae): [Systematics, from, Cryptorhynchus, p. 18]. Phyllerythrurus laetus - Er. (Curculionidae): [Systematics, (=, Phyllerythrurus luteus, Hust., ) from, Sphenophorus, p. 20]. Phyllerythrurus luteus - Hust. (Curculionidae): [Systematics]. Phytonomus (Curculionidae). Platyaspistes alternans - Bruch 1914 (Curculionidae): [Systematics]. Platyaspistes alternans - Fhs. (Curculionidae): [Systematics]. Platyaspistes argentinensis (Curculionidae): [Nom nov]. Platyaspistes glaucus - Fhs. (Curculionidae): [Systematics, (=, Platyaspistes alternans, Fhs., ), Platyaspistes prasinus, Er., (=, Platyaspistes limbatus, Chevr., ), Platyaspistes marginalis, Fhs., (=, Platyaspistes validus, Chevr., ), Platyaspistes lateralis, Chevr., (=, Platyaspistes prasinus var., Fhs., ), Platyaspistes argentinensis, n. n., for, Platyaspistes alternans, Bruch 1914, Hustache 1938 p. 11]. Platyaspistes lateralis - Chevr. (Curculionidae): [Systematics]. Platyaspistes limbatus - Chevr. (Curculionidae): [Systematics]. Platyaspistes marginalis - Fhs. (Curculionidae): [Systematics]. Platyaspistes prasinus - Er. (Curculionidae): [Systematics]. Platyaspistes prasinus var. - Fhs. (Curculionidae): [Systematics]. Platyaspistes validus - Chevr. (Curculionidae): [Systematics]. Platyomus cinerascens - Blanch. (Curculionidae): [Systematics]. Polydius caelestinus - Perty (Curculionidae): [Systematics, (=, Polydius orbignyi, Chevr., ) p. 12]. Polydius orbignyi - Chevr. (Curculionidae): [Systematics]. Porteriella brevis (Curculionidae). Porteriella singularis - Hust. (Curculionidae): [Systematics]. eudhyperodes - Hust. (Curculionidae): [Systematics]. Relistrodes - Breth. (Curculionidae): [Systematics]. Rhodobaenus (Curculionidae). Rhopalomerus tenuirostris - Blanch. Curculionidae): [Systematics, (=, Anthonomus chilensis, Schenkl., ) p. 15]. Rhyephenes philippii - Fiedl. (Curculionidae): [Systematics]. Rhyephenes sulcatus - Phil. (Curculionidae): [Systematics, (=, Rhyephenes philippii, Fiedl., ) p. 18]. Rhyssomatus ater - Phil. (Curculionidae): [Systematics]. Rhyssomatus crenulatus - Blanch. (Curculionidae): [Systematics]. Rhyssomatus exaratus - Blanch (Curculionidae): [Systematics]. Scirpicola (Curculionidae): [Gen nov, gen. n., for, Sphenophorus chilensis, Blanch., (valid sp. not syn. of, Iphipus rudis, Boh., ) transferred from Amalactinae to Baridinae p. 16]. Sibinia - Germ. (Curculionidae): [Systematics, (=, Teratonychus, Bond., ), Sibinia sellatus, Boh., from, Ceuthorrhynchus, Sibinia albovittatus, Blanch., Sibinia vitticollis, Blanch., Sibinia flavipes, Blanch., from, Tychius, p. 17]. Sibinia albovittatus - Blanch. (Curculionidae): [Systematics]. Sibinia flavipes - Blanch. (Curculionidae): [Systematics]. Sibinia sellatus - Boh. (Curculionidae): [Systematics]. Sibinia vitticollis - Blanch. (Curculionidae): [Systematics]. Solenopus nitidicollis - Chevr. (Curculionidae): [Systematics]. Solenopus sexmaculatus - Ol. (Curculionidae): [Systematics, (=, Solenopus nitidicollis, Chevr., ) p. 17]. Squamamitrus - Voss (Curculionidae): [Systematics]. Stenommatus canus - Phil. (Curculionidae): [Systematics, from, Cossonus, p. 21]. Strongylopterus nitidirostris - Auriv. (Curculionidae): [Systematics]. Strongylopterus ovatus - Boh. (Curculionidae): [Systematics, (=, Strongylopterus nitidirostris, Auriv., ) p. 18]. Tartarisus griseus - Phil. (Curculionidae): [Systematics]. Tartarisus perforatipennis - Blanch. (Curculionidae): [Systematics]. Tartarisus signatipennis - Blanch. (Curculionidae): [Systematics, (=, Heilipus concinnus, Phil., Heilipus bisignatus, Redt., ), Tartarisus perforatipennis, Blanch., Tartarisus griseus, Phil., from, Heilipus, p. 15]. Testalthea versicolor - Bond. (Curculionidae): [Systematics]. Thaliabaridia (Curculionidae): [Gen nov, gen. n., for, Thaliabaris kuscheli, Bond., (type), Testalthea versicolor, Bond., p. 20]. Thaliabaris kuscheli - Bond. (Curculionidae): [Systematics]. Trachodema (Curculionidae). Trichocyphus - Hell. (Curculionidae): [Systematics, (=, Squamamitrus, Voss, ), Trichocyphus formosus, Er., (=, Amitrus nitidicollis, Voss, ) p. 11]. Trichocyphus formosus - Er. (Curculionidae): [Systematics]. Tychius (Curculionidae). Gayella - Hust. (Masaridae): [Systematics].}, keywords = {Acrotomopus, Acrotomopus atropunctellus, Acrotomopus obtusus, Adioristus, Adioristus apiculatus, Adioristus fuegianus, Adioristus rubripes, Adioristus rugatus, Aegorhinus eschscholtzi, Aegorhinus fasciatus, Aegorhinus nodipennis, Aegorhinus reticulatus, Aegorhinus strumosus, Aegorhinus subrugosus, Aegorhinus superciliosus, Aegorhinus vermicularis, Aegorhinus vitulus, Alastoropolus, Alastoropolus vitulus, Amitrus, Amitrus alutaccus, Amitrus nitidicollis, Anchodemus, Anchonus planipennis, Antarctobius, Anthonomus, Anthonomus chilensis, Anthonomus ornatus, Anthonomus redtenbacheri, Apion chilense, Apion meorrhynchum, Apion pachymerum, Apion tenebricosum, Baris flavipes, Baris tenuis, Berberidicola, Brachybaris, Calandra chilensis, Calandra laevicosta, Calvertius tuberosus, Centrinus, Centrinus carinatus, Ceuthorrhynchus, Chalcodermus lunatus, Chalcodermus speculifer, Chilebaris, Chileudius, Cholus, Cholus atropunctellus, Cholus dealbatus - Boh, Cholus ornatus, Cholus trizonatus, Cnemecoelus, Coeliodes, Conothorax, Conotrachelus aequalis, Conotrachelus cervinus, Conotrachelus glaber, Conotrachelus irroratus, Conotrachelus kirschi, Conotrachelus pullus, Conotrachelus striatus, Conotrachelus subnebulosus, Cossonus, Cossonus nigropiceus, Cryptorhynchus, Cydianerus chevrolati, Cydianerus latruncularius, Cylindrorhinus, Cylindrorhinus angulatus, Cylindrorhinus angulatus var. scrobiculatus, Cylindrorhinus costatus, Cylindrorhinus denticulatus, Cylindrorhinus griseus, Cylindrorhinus inquinatus, Cylindrorhinus lactifer, Cylindrorhinus quadrilineatus, Cylindrorhinus sordidus, Cylindrorhinus sulcatus, Demoda kuscheli, Demoda lineata, Desiantha novica, Desiantha praemorsa, Dionychus trifasciatus, Diplogrammus maculipes, Dissopygus metalleacens, Dissopygus oblongus, Entimus granulatus, Entimus speciosus, Erycosomus bruchi, Erycosomus vergarae, Eubulus bruchi, Eubulus miniatus, Eucalus, Eudius varians Falklandiellus, Falklandius antarcticus, Falklandius brachyomma, Falklandius inaequalis, Falklandius suffodens, Graphognathus minor, Hammatostylus argala, Hammatostylus criniger, Heilipus, Heilipus (Curculionidae)., Heilipus bisignatus, Heilipus concinnus, Homalostylus aduncus, Homalostylus geniculatus, Homalostylus tornowi, Hyperodes lineaticollis, Hyperodes minutus, Hyperodes ornatipennis, Hypocoeliodes ganglionus, Iphipus rudis Listroderes, Listroderes angusticeps, Listroderes antarctixa, Listroderes apicalis, Listroderes argentinensis, Listroderes bimaculata, Listroderes binodosa, Listroderes bracteata, Listroderes c. obliqua, Listroderes chalceata, Listroderes cineraria, Listroderes compressiventris, Listroderes costirostris, Listroderes costirostris angusticeps, Listroderes delaiguei, Listroderes difficilis, Listroderes falklandica, Listroderes gibbera, Listroderes hypocrita, Listroderes katerensis, Listroderes liliputana, Listroderes lugubris, Listroderes nodifera, Listroderes nordenskioldi, Listroderes obliqua, Listroderes ovata, Listroderes rugipennis, Listroderes schythei, Listroderes slictica, Listroderes succincta, Listroderes tristis, Listroderes tuberculifera, Listroderes vulgaris, Listroderes vulsa, Lixellus, Lixodes, Madarellus, Madarus biplagiatus, Madarus latus, Madarus reductus, Malvinius, Malvinius divaricata, Microrhinus, Minurophilus violaceipennis, Mionarthrus, Naupactus breviscapus, Omoides variabilis, Otiorhynchus, Ovanius niger, Ovanius picipennis, Paulaenius subcostata, Paulsenius, Pentarthrum affine, Pentarthrum castaneum, Pentarthrum nitidum, Philippius insignis, Philippius laesicollis, Philippius superbus, Philonis crucifer, Phyllerythrurus laetus, Phytonomus, Platyaspistes alternans, Platyaspistes argentinensis, Platyaspistes glaucus, Platyaspistes lateralis, Platyaspistes limbatus, Platyaspistes marginalis, Platyaspistes prasinus, Platyaspistes prasinus., Platyaspistes validus, Platyomus cinerascens, Polydius caelestinus, Polydius orbignyi, Porteriella brevis, Porteriella singularis, Pseudhyperodes, Relistrodes, Rhodobaenus, Rhopalomerus tenuirostris, Rhyephenes philippii, Rhyephenes sulcatus, Rhynchites, Rhyssomatus ater, Rhyssomatus crenulatus, Rhyssomatus exaratus, Scirpicola, Scirpicola chilensis, Sibinia, Sibinia albovittatus, Sibinia flavipes, Sibinia sellatus, Sibinia vitticollis, Sitophilus granarius, Sitophilus oryza, Solenopus nitidicollis, Solenopus sexmaculatus Squamamitrus Stenommatus canus, Strongylopterus nitidirostris, Strongylopterus ovatus, Tartarisus griseus, Tartarisus perforatipennis, Tartarisus signatipennis, Testalthea versicolor, Thaliabaridia, Thaliabaris kuscheli, Trachodema, Trichocyphus, Trichocyphus formosus, Tychius}, author = {Kuschel, G.} } @article {13936, title = {A new species of Ceutorhynchus (Coleoptera: Curculionidae: Ceutorhynchinae) from the Tatra Mountains in Slovakia}, journal = {Acta entomologica Musei Nationalis Pragae}, volume = {52}, number = {1}, year = {2012}, month = {2012}, pages = {259-265}, abstract = {A new species of the genus Ceutorhynchus Germar, 1824 from the Tatra Mountains in northern Slovakia is described as C. tatricus sp. nov. and compared with closely related and similar European species of the genus. Key to all central European species related to C. ignitus Germar, 1824 is given.}, keywords = {Ceutorhynchus, Ceutorhynchus tatricus}, isbn = {0374-1036}, author = {Kratky, Jiri} } @article {13938, title = {New weevil species in the fauna of Hungary (Coleoptera: Curculionoidea)}, journal = {Folia Entomologica Hungarica}, volume = {69}, year = {2008}, month = {2008}, pages = {185-188}, type = {Article}, abstract = {Aulacobaris cuprirostris (FABRICIUS, 1787), Barypeithes paratenex FREMUTH, 1981, Brachysomus strawinskii CMOLUCH, 1960, Ceutorhynchus varius REY, 1895, Larinus (Larinomesius) syriacus GYLLENHAL, 1835 and Melanobaris morio (BOHEMAN, 1844) and Miarus simplex SOLARI, 1947 are recorded as new for Hungarian fauna. The occurrence of Bruchela conformis (SUFFRIAN, 1845) in Hungary is confirmed.}, keywords = {Aulacobaris cuprirostris, Barypeithes paratenex, Brachysomus strawinskii, Bruchela conformis, Ceutorhynchus varius, Larinus (Larinomesius) syriacus, Melanobaris morio, Miarus simplex}, isbn = {0373-9465}, author = {Kr{\'a}tk{\'y}, J. and Podluss{\'a}ny, A.} } @article {13885, title = {A new species of the weevil genus Ceutorhynchus Germar (Coleoptera, Curculionidae) from Northeastern Yakutia and Pacific Northwest}, journal = {Trudy Russkogo Entomologicheskogo Obshchestva}, volume = {82}, year = {2011}, month = {2011}, pages = {52-56}, abstract = {A new species of the weevil genus Ceutorhynchus Germar, C. vinokurovi sp. n., with Beringian range is described.}, keywords = {Ceutorhynchus vinokurovi}, isbn = {1605-7678}, author = {Korotyaev, B.A.} } @article {13859, title = {A new alpine species of the weevil genus Ceutorhynchus from China (Coleoptera: Curculionidae)}, journal = {Zoosystematica Rossica}, volume = {16}, number = {2}, year = {2007}, month = {20 December}, pages = {253-254}, abstract = {Ceutorhynchus sphaerula sp. n. is described from China (Sichuan Province) with a set of perfectly developed morphological characters typical of the alpine and Arctic weevils.}, keywords = {Ceutorhynchus sphaerula}, isbn = {0320-9180}, author = {Korotyaev, B.A.} } @article {13520, title = {Report on weevil species collected in several regions of the Polish Western Carpathians in August 2004 (Coleoptera: Curculionoidea)}, journal = {Snudebiller}, volume = {8}, year = {2007}, month = {2007}, pages = {245-258}, abstract = {A report of a study trip into several geographical regions of the Western Carpathians which has been undertaken by participants of the 3rd International Conference of the CURCULIO Institute in Poland (Krakow and Ochotnica Gorna) in August 2004 is given. In the course of this journey 2050 specimens of weevils have been collected. They represent 214 species of the superfamily Curculionoidea (Anthribidae, Rhynchitidae, Attelabidae, Apionidae, Nanophyidae, Erirhinidae, and Curculionidae). Ranunculiphilus pseudinclemens is a new record for Poland and the Tatra Mountains, and several new weevil species for the faunas of particular regions were also found; Gorce Mountains - 16 new records, Pieniny Spiskie - 8, Pieniny Centralne - 8, and the Male Pieniny Mountains - 5 "new" species. Choragus sheppardi, Ceratapion austriacum, Oxystoma opeticum, Protapion gracilipes, Cionus ganglbaueri, Dorytomus filirostris, Ellescus scanicus, Rhynchaenus rufus, Trachystyphlus beigerae, Ceutorhynchus dubius, Ceutorhynchus lukesi, Mogulones angulicollis, Neophytobius granatus, Kyklioacalles suturatus, Graptus kaufmanni (= Alophus kaufmanni), Dodecastichus pulverulentus, Limobius borealis, Donus tesselatus, Limobius borealis, Lixus albomarginatus and Larinus sturnus are very rare weevil species in the Polish Carpathians, and many other species are rare in this area. Localities, circumstances, methods, biotopes and some characteristic plants are presented. Finally the remarkable species of the studied regions and the Western Carpathians are discussed.}, keywords = {Ceratapion austriacum, Ceutorhynchus dubius, Ceutorhynchus lukesi, Choragus sheppardi, Cionus ganglbaueri, Dodecastichus pulverulentus, Donus tesselatus, Dorytomus filirostris,, Graptus kaufmanni, Kyklioacalles suturatus, Larinus sturnus, Limobius borealis, Lixus albomarginatus, llescus scanicus, Mogulones angulicollis, Neophytobius granatus, Oxystoma opeticum, Protapion gracilipes, Rhynchaenus rufus, Trachystyphlus beigerae}, isbn = {1439-4650}, author = {Knutelski, Stanislaw and Sprick, Peter} } @article {12675, title = {Curculionid{\'e}s nouveaux de l{\textquoteright}Afrique tropicale. Deuxi{\`e}me partie (Suite).}, journal = {Annales de la Soci{\'e}t{\'e} Linn{\'e}enne de Lyon, Nouvelle S{\'e}rie, [1920]}, volume = {67}, year = {1921}, note = {Orig. ref: HUSTACHE, A. (1921b). Curculionid{\'e}s nouveaux de l{\textquoteright}Afrique tropicale. Deuxi{\`e}me partie (Suite). Annales de la Soci{\'e}t{\'e} Linn{\'e}enne de Lyon, Nouvelle S{\'e}rie, [1920], 67: 17-24.}, pages = {17-24}, keywords = {Alcidodes bifasciatus, Alcidodes castaneipennis, Alcidodes gossypii, Alcidodes tchadense, Amblyrhinus brunneus, Anoplomorpha, Anoplomorpha denticulata, Anoplomorpha fulva, Anoplomorpha maculosus, Anoplomorpha mixta, Anoplomorpha nitida, Anoplomorpha rubra, Anoplomorpha setosula, Apion burgeoni, Apion congolanum, Apoderus, Apoderus alluaudi, Apoderus flavicornis, Apoderus madegassus, Apoderus shawi, Baris alluaudi, Baris ambovombensis, Baris decorsei, Baris hovanus, Camptorrhinus perrieri, Ceuthorrhynchus dietzi, Ceuthorrhynchus intermedius, Chaerorrhinus abyssinicus, Chloebaris, Cnemogonus carinirostris, Cnemogonus cristulatus, Cnemogonus ferrugineus, Corigetus africanus, Corigetus decorsei (, Corigetus posthi, Corigetus rubripes, Cossonus alluaudi, Cossonus filiformis, Cossonus hovanus, Cossonus imerinae, Cratopus antelmei, Cryptorrhynchinae, Decorseia, Decorseia denticulata, Decorseia elegantula, Desmidophorus aequalis, Desmidophorus alboniger, Desmidophorus apicatus, Desmidophorus descarpentriesi, Desmidophorus granulipennis, Desmidophorus incaustus, Desmidophorus luteipes, Dryophthorus alluaudi, Epiphylax, Euops alluaudi, Euops longipes, Euops luteicornis, Haplocorynus excavalus, Haplocorynus regularis, Haplocorynus rugosus, Histeropus Histeropus subcostatus, Hypocoeliodes affinis, Hypocoeliodes conicus, Hypocoeliodes gibbosus, Hypocoeliodes griseus, Hypocoeliodes guyanensis, Hypocoeliodes maculatus, Hypocoeliodes melanocephalus, Hypocoeliodes monostigma, Hypocoeliodes muricatus, Hypocoeliodes nebulosus, Hypocoeliodes tessellatus, Hypocoeliodes vicinus, Ischnotrachelus micans Ithyporoidus Ithyporoidus variegutus, Ithyporus cristicollis Lagenoderus coniferus, Lagenoderus dentipennis, Lagenoderus fairmairei, Lobotrachelus dilatatus, Lobotrachelus niger, Lobotrachelus variegatus, Mecistocerus decorsei, Mecistocerus fairmairei foveifrons, Menemachus rhinonchoides, Metastrabus, Metastrabus bipunctatus, Metastrabus cardinalis, Myllocerus abyssinicus, Myllocerus bozasi, Myllocerus chevalieri, Myllocerus circumcinctus, Myllocerus congoanus, Myllocerus decorsei, Myllocerus hirtipennis, Myllocerus intermedius, Myllocerus longipilis, Myllocerus perversus, Myllocerus pharisaus, Myllocerus polylineatus, Myllocerus roseus, Myllocerus rubiginosus, Myllocerus saraenus, Myllocerus senegalensis, Myocalandra hovana, Myocalandra intermedia, Ocladius maculosus, Osphilia carinicollis, Osphilia tenuipes, Osphiliades pictidorsis, Paraboscarius, Paraboscarius griseus, Paracamptorrhinus, Paracamptorrhinus fairmairei, Paracamptorrhinus perrieri, Parasycites, Parasycites sexspilotus, Pentarthrum congoanum, Perissoderes oblongus, Phytobius mixtus, Proboscarius, Proboscarius alluaudi, Procosmopolites, Procosmopolites picirostris, Pseudobaris, Rhinoncus oblongus (, Rhynchohovanus Rhyncolus nossibianus, Salacus decorsei, Stereorhynchus simoni, Traphecorynus, Traphecorynus rubiginosus, Traphecorynus variegatus, Zyrcosoides, Zyrcosoides spinicollis}, author = {Hustache, A.} } @article {12423, title = {Nouveaux Curculionides de la faune francaise (Additif a la Faune de France: lere note)}, journal = {Entomologiste, Paris}, volume = {16}, year = {1960}, pages = {19-23}, type = {Article}, keywords = {Acalles aubei, Acalles provincialis, Acalles solarii, Apion (Perapion) schaeferi, Ceuthorrhynchus (Thamiocolus) suspectus, Rhinoncus montanus, Rhinoncus pericarpius}, author = {Hoffmann, A.} } @article {11982, title = {Mortality factors affecting the cabbage seedpod weevil, Ceutorhynchus obstrictus (Marsham), in its area of origin: A life table analysis}, journal = {Biological Control}, volume = {54}, number = {3}, year = {2010}, month = {Sep}, pages = {331-341}, abstract = {The cabbage seedpod weevil, Ceutorhynchus obstrictus (Marsham) (Coleoptera: Curculionidae), is a widely distributed invasive pest of cruciferous crops in North America. Control measures rely mostly on the application of insecticides but alternative control strategies such as classical biological control are under evaluation. To investigate the impact of parasitoids and other mortality factors on C. obstrictus populations, life table studies were conducted between 2005 and 2007 in 13 winter oilseed rape fields in Switzerland, part of the native range. Under field conditions females only realized approximately 50\% of their potential lifetime fecundity, varying between 96 and 631 eggs per individual. Total generational mortality was higher than 99.6\% in each year. Overwintering mortality of adults was the major population limiting factor, contributing approximately 50\% to the overall generational mortality of C. obstrictus, whereas factors acting on the immature stages were responsible for the remaining 50\%. Among the mortality factors of the immature stages, egg, larval and pupal mortality contributed 9-12\%, 25-28\% and 4-6\% to the generational mortality, respectively. Larval ecto-parasitism on its own accounted for 7-15\% of the generational mortality. Comparison of life table data presented here with that from North America will be invaluable for elucidating the mortality factors that regulate C. obstrictus populations in Europe, the region of origin. [copyright] 2010 Elsevier Inc. All rights reserved.}, keywords = {Ceutorhynchus obstrictus}, isbn = {1049-9644}, author = {Haye, T. and Mason, P. G. and Dosdall, L.M. and Kuhlmann, U.} } @article {11923, title = {The Beetles of the Pacific Northwest. Part V: Rhipiceroidea, Sternoxi, Phytophaga, Rhynchophora, and Lamellicornia.}, journal = {University of Washington Publications in Biology}, volume = {16}, year = {1971}, note = {[preface dated V-1971]. Orig. ref: HATCH, M. H. (1971). The Beetles of the Pacific Northwest. Part V: Rhipiceroidea, Sternoxi, Phytophaga, Rhynchophora, and Lamellicornia. University of Washington Publications in Biology, 16: xiv + 662 pp. NOTE: [preface dated V-1971]}, pages = {xiv+662pp.}, keywords = {Anthonominae, Anthonomus, Apion, Apionidae, Baridinae, Brachyrhininae, Brachyrhinini, Ceutorhynchinae, Ceutorhynchus, Ceutorhynchus (Calosirus) suturatus, Ceutorhynchus (Ceutorhynchus) bakeri, Ceutorhynchus (Ceutorhynchus) cupreus, Ceutorhynchus (Ceutorhynchus) microtuberculatus, Ceutorhynchus (Ceutorhynchus) sparsus, Cimberinae, Cimberis bihirsutus, Cimberis parvulus, Cleoninae, Cnemocyllus albus, Cnemocyllus dorothyae, Cnemocyllus makini, Cnemocyllus minutus, Cnemocyllus summeri, Cossoninae, Cryptorhynchinae, Curculionidae, Dirotognathus punctatus, Dyslobus productus, Dyslobus subtumidus, Epimechus alutaceus, Erirhininae, Eucilinus hirsutus, Eucyllus horridus, Gyrotus helianthus, Gyrotus sinuatus, Hylobiinae, Hyperodes imcompletus, Hyperodes maculatus, Hyperodes truncatus, Lechriopini, Leptopiinae, Macrorhoptus niger, Magdalis, Mecopeltus gentneri, Mecopeltus lanei, Omias erectus, Omias minor, Omias sparsus, Omias striatus, Ophryastes vittatus, Peritelini, Pseudopanscopus capizzii, Rhynchites, Rhynchophorinae, Smicronyx, Tanymecinae, Thylacitinae, Trachyphloeini, Trichapion, Tychiinae, Tychius intermixtus, Tychius maculifer, Tychius mixtus, Tychius squamosus}, author = {Hatch, M.H.} } @article {11565, title = {The biology and morphology of Entedon sylvestris (Hymenoptera: Eulophidae), a larval endoparasitoid of Ceutorhynchus sisymbrii (Coleoptera: Curculionidae)}, journal = {Journal of Hymenoptera Research}, volume = {15}, number = {2}, year = {2006}, month = {October}, pages = {232-250}, type = {Article}, abstract = {The biology and morphology of preimaginal stages of Entedon sylvestris Szelenyi (Hymenoptera: Eulophidae), are described in detail for the first time. Entedon sylvestris is a larval endoparasitoid of the seed-feeding larvae of the weevil Ceutorhynchus sisymbrii Dieckmann on the small tumbleweed mustard, Sisymbrium loeselii L. (Brassicaceae). In the Ukraine, females of E. sylvestris begin ovipositing in late May and continue to lay eggs until the beginning of July. Females of E. sylvestris parasitize weevil larvae of various instars. The parasitoid larva remains within the body of the host weevil larva until the emergence of the latter from the dried host-plant pods. The morphology of each of the three larval instars is described in detail. The moult of the parasitoid larva into the final instar, as well as pupation, takes place underground. Adults of E. sylvestris must therefore penetrate a soil layer to emerge the following spring.}, keywords = {Ceutorhynchus sisymbrii}, isbn = {1070-9428}, author = {Gumovsky, Alex V.} } @article {11156, title = {Pre-release impact assessment of two stem-boring weevils proposed as biological control agents for Alliaria petiolata}, journal = {Biological Control}, volume = {45}, number = {3}, year = {2008}, month = {June}, pages = {360-367}, type = {Article}, abstract = {Experimental studies can be useful tools to test plant responses to herbivory and to quantify the impact of potential biological control agents prior to their release. We evaluated the per-capita effect of Ceutorhynchus alliariae and C roberti, two stem-boring weevils currently being investigated as potential biological control agents for garlic mustard, Alliaria petiolata, in North America. Weevils were released at three different densities in individual and mixed-species treatments onto potted plants of A. petiolata. Damage by C roberti alone and by both weevils combined caused an increase in the numbers of inflorescences produced per plant. Although plants could compensate for low levels of damage, moderate to high levels of damage by both C alliariae and C roberti, individually and in combination, caused a decrease in plant height and a reduction in seed output per plant. The damage inflicted by both weevil species is similar so the overall impact of both species combined can be predicted by summing the impact of each species alone. Provided they are sufficiently host specific, both weevils could be released as biocontrol agents. Because reduced seed production is necessary to suppress A. petiolata populations, both species have the potential to contribute to control of A. petiolata in North America. [copyright] 2008 Elsevier Inc. All rights reserved.}, keywords = {Ceutorhynchus alliariae, Ceutorhynchus roberti}, isbn = {1049-9644}, author = {Gerber, E. and Hinz, H. L. and Blossey, B.} } @article {11158, title = {Ueber vier fur Schlesien seltene oder neue Kafer}, journal = {45. Jahres-Ber. d. Schles. Gesellsch. f. vaterl. Cult.}, year = {1868}, pages = {146}, type = {Article}, abstract = {Contains notes on Ceuthorhynchus javetii (Bris.), Hydroporus geniculatus (Thorns.), Acalles pyrenoeus (Sch.), and Amphibolus striatellus (Bris.)}, keywords = {Acalles pyrenoeus, Ceuthorhynchus javetii}, author = {Gerhardt, J.} } @article {11155, title = {Interaction of specialist root and shoot herbivores of Alliaria petiolata and their impact on plant performance and reproduction}, journal = {Ecological Entomology}, volume = {32}, number = {4}, year = {2007}, month = {August}, pages = {357-365}, abstract = {1. This study explored interactions of two spatially and temporally separated weevils and their impact on Alliaria petiolata (garlic mustard) survival, growth, and reproduction at different herbivore densities. 2. The root-mining weevil Ceutorhynchus scrobicollis attacks A. petiolata rosettes from October to April, and larvae complete development in May. The shoot-mining weevil Ceutorhynchus alliariae attacks bolting plants in April/May with larvae completing development in June[long dash]July. Priority effects were expected, with early attack of C. scrobicollis affecting the later attacking C. alliariae, mediated through changes in plant growth or chemistry. 3. Attack by C. scrobicollis significantly increased plant mortality and changed plant architecture, while C. alliariae only significantly reduced plant height. Attack by C. scrobicollis also increased nitrogen content of stems. 4. Root feeding by C. scrobicollis affected the feeding niche of C. alliariae, but increased stem nitrogen content did not result in increased stem miner survival. While reduced height and stem diameters as a result of C. scrobicollis attack reduced C. alliariae attack at the stem level, attack at plant level and recruitment was unaffected. 5. Weevil density had no effect on plant performance, most likely due to strong intraspecific competition, and there were no synergistic effects between the two herbivores. 6. Overall, attack by C. scrobicollis was more detrimental to A. petiolata growth, seed output, and survival than attack by C. alliariae. Consequently, C. scrobicollis has been prioritised as a potential biocontrol agent for control of A. petiolata in North America.}, keywords = {Ceutorhynchus alliariae, Ceutorhynchus scrobicollis}, isbn = {0307-6946}, author = {Gerber, Esther and Hinz, Hariet L. and Blossey, Bernd} } @article {11154, title = {Impact of the belowground herbivore and potential biological control agent, Ceutorhynchus scrobicollis, on Alliaria petiolata performance}, journal = {Biological Control}, volume = {42}, number = {3}, year = {2007}, month = {September}, pages = {355-364}, abstract = {We studied the influence of the root-crown weevil Ceutorhynchus scrobicollis on its host plant Alliaria petiolata, a European biennial herb that is currently invading much of temperate North America. Varying timing of attack and herbivore densities in a common garden allowed to assess seasonality of plant response, density-dependence of impact, and the effect of intraspecific competition on C. scrobicollis recruitment (number of F1 generation adults emerged). Data collected in the common garden were compared with data collected at field sites. C. scrobicollis is a common weevil in Europe, frequently attaining high attack levels on its host plant. In the common garden, weevil attack decreased plant survival by up to 43\%, reduced plant height by 54\%, increased the number of shoots by up to four-fold and delayed seed ripening, but had no significant negative effect on seed production. Plants infested in spring allocated less biomass to above-ground plant parts, and remained smaller than plants attacked in autumn, indicating that the latter were able to partly compensate for weevil attack. Increasing weevil density rarely had an effect on A. petiolata performance, and did not increase F1 recruitment, suggesting strong intraspecific competition. At field sites, C. scrobicollis attack is spread over a long time period, which probably alleviates intraspecific competition. In summary, attack by the root-crown feeding weevil, C. scrobicollis, can substantially reduce growth and survival of A. petiolata. If introduced as a biological control agent into North America, C. scrobicollis is likely to decrease the fitness and competitive superiority of A. petiolata. (C) 2007 Elsevier Inc. All rights reserved.}, keywords = {Ceutorhynchus scrobicollis}, isbn = {1049-9644}, author = {Gerber, E. and Hinz, H. L. and Blossey, B.} } @article {10901, title = {The importance of space, time, and stochasticity to the demography and management of Alliaria petiolata}, journal = {Ecological Applications}, volume = {22}, number = {5}, year = {2012}, month = {Jul}, pages = {1497-1511}, abstract = {As population modeling is increasingly called upon to guide policy and management, it is important that we understand not only the central tendencies of our study systems, but the consequences of their variation in space and time as well. The invasive plant Alliaria petiolata (garlic mustard) is actively managed in the United States and is the focus of a developing biological control program. Two weevils (Coleoptera: Curculionidae: Ceutorhynchus) that reduce fecundity (C. alliariae) and rosette survival plus fecundity (C. scrobicollis) are under consideration for release pending host specificity testing. We used a demographic modeling approach to (1) quantify variability in A. petiolata growth and vital rates and (2) assess the potential for single- or multiple-agent biocontrol to suppress growth of 12 A. petiolata populations in Illinois and Michigan studied over three plant generations. We used perturbation analyses and simulation models with stochastic environments to estimate stochastic growth rates ([lambda]S) and predict the probability of successful management using either a single biocontrol agent or two agent species together. Not all populations exhibited invasive dynamics. Estimates of [lambda]S ranged from 0.78 to 2.21 across sites, while annual, deterministic growth ([lambda]) varied up to sevenfold within individual sites. Given our knowledge of the biocontrol agents, this analysis suggests that C. scrobicollis alone may control A. petiolata at up to 63\% of our study sites where [lambda]S > 1, with the combination of both agents predicted to succeed at 88\% of sites. Across sites and years, the elasticity rankings were dependent on [lambda]. Reductions of rosette survival, fecundity, or germination of new seeds are predicted to cause the greatest reduction of [lambda] in growing populations. In declining populations, transitions affecting seed bank survival have the greatest effect on [lambda]. This contrasts with past analyses that varied parameters individually in an otherwise constant matrix, which may yield unrealistic predictions by decoupling natural parameter covariances. Overall, comparisons of stochastic and deterministic growth rates illustrate how analyses of individual populations or years could misguide management or fail to characterize complex traits such as invasiveness that emerge as attributes of populations rather than species.}, keywords = {Ceutorhynchus alliariae, Ceutorhynchus scrobicollis}, isbn = {1051-0761}, author = {Evans, Jeffrey A. and Davis, Adam S. and Raghu, S. and Ragavendran, Ashok and Landis, Douglas A. and Schemske, Douglas W.} } @article {10829, title = {Screening of oilseed rape and other brassicaceous genotypes for susceptibility to Ceutorhynchus pallidactylus (Mrsh.)}, journal = {Journal of Applied Entomology}, volume = {134}, number = {6}, year = {2010}, month = {July}, pages = {542-550}, abstract = {Production of oilseed rape, Brassica napus L., is affected by various insect pests. The cabbage stem weevil, Ceutorhynchus pallidactylus (Mrsh.) (Col.: Curculionidae), is one of the most damaging pests in Northern and Central Europe that requires regular control measures. Host plant resistance is a key factor in integrated pest management systems. To evaluate a large number of genotypes for their susceptibility to infestation by C. pallidactylus, new screening techniques were developed for testing both, the amount of feeding and the number of eggs deposited by adult C. pallidactylus on accessions of Brassicaceae under controlled conditions. In no-choice screening tests, the leaf area consumed by adult cabbage stem weevil was quantified on a wide spectrum of 107 brassicaceous genotypes (B. napus, Brassica rapa L. and Brassica oleracea L. cultivars, breeding lines, resynthesized rapeseed lines and wild Brassicaceae). In comparison to feeding on the standard cultivar {\textquoteright}Express{\textquoteright}, the average leaf area consumed by C. pallidactylus on nine oilseed rape cultivars, four resynthesized rapeseed lines and five other accessions (B. oleracea, Camelina alyssum (Mill.) and Lunaria annua L.) was significantly reduced by 44-90\%. In dual-choice screening tests for the evaluation of oviposition preferences on 42 genotypes, female C. pallidactylus laid significantly fewer eggs into plants of two oilseed rape cultivars, five resynthesized rapeseeds and three accessions of B. oleracea and Brassica fruticulosa Cyrillo, respectively, than into plants of the standard cv {\textquoteright}Express{\textquoteright}. Results of both laboratory screening tests were confirmed by results of additional field testing.}, keywords = {Ceutorhynchus pallidactylus}, isbn = {0931-2048}, author = {Eickermann, M. and Ulber, B.} } @article {10809, title = {Four weevils new for the Dutch fauna (Coleoptera: Curculionidae)}, journal = {Nederlandse Faunistische Mededelingen}, volume = {29}, year = {2008}, month = {15 december}, pages = {49-60}, type = {Article}, abstract = {Four weevils are presented as new to the Dutch fauna: Pelenornus olssoni Israelson, 1972, Ceutorhynchus cakilis (Hansen, 1917), Tachyerges pseudostigma Tempere, 1982 and Trichosirocalus thalhammeri (Schultze, 1906). Distribution maps for the Netherlands arc given, and some details on their biology, taxonomic characters and European distribution.}, keywords = {Ceutorhynchus cakilis, Pelenomus olssoni, Tachyerges pseudostigma, Trichosirocalus thalhammeri}, isbn = {0169-2453}, author = {Edzes, Hommo and Heijerman, Theodoor} } @article {10763, title = {Life history, larval morphology, and nearctic distribution of Ceutorhynchus subpubescens (Coleoptera: Curculionidae)}, journal = {Annals of the Entomological Society of America}, volume = {100}, number = {2}, year = {2007}, month = {March}, pages = {178-186}, abstract = {Since the description of Ceutorhynchus subpubescens LeConte (Coleoptera: Curculionidae) >125 yr ago, very little information has been published on its biology, taxonomy, or distribution. We conducted studies in southern Alberta, Canada, to investigate aspects of its life history and host plant feeding preferences. Preimaginal life stages of C. subpubescens were described for the first time, and data were compiled on its North American distribution. Ceutorhynchus subpubescens was univoltine. Adults emerged from overwintering sites in shelterbelts in late April to early May, and first occurred on host plants in May. Eggs were laid into apical stem regions of flixweed, Descurainia sophia (L.) Webb (Brassicaceae), and hatched to larvae that mined the stems, feeding primarily on pith tissue. Three instars developed within D. sophia. When mature, the final instar bored an exit hole in the primary stem, just below the juncture of a lateral shoot. Developmental time from eggs to final instars required only 35- 45 d, an adaptation that accommodated the rapid development of D. sophia hosts. Setal numbers on the mouthparts and head capsule distinguished final instars of C. subpubescew from its sympatric congeners, Ceutorhynchus neglectus Blatchley and Ceutorhynchus obsttictus (Marsham). New distribution records for the species include Alberta, Arizona, Montana, Nebraska, New Mexico, Oregon, Saskatchewan, South Dakota, and Washington. C. subpubescew has adapted to exploit a resource-rich habitat, where larvae are free from interference from predators and parasitoids; however, its relatively rare occurrence in western North America is surprising given the abundance of its host plants.}, keywords = {Ceutorhynchus subpubescens}, isbn = {0013-8746}, author = {Dosdall, L.M. and Ulmer, B. J. and Bouchard, P.} } @article {10760, title = {Contributions to the life history, host range, and distribution of Necremnus tidius (Hymenoptera: Eulophidae)}, journal = {Annals of the Entomological Society of America}, volume = {100}, number = {6}, year = {2007}, month = {November}, pages = {861-868}, abstract = {Field and laboratory studies investigated the preimaginal developmental time, adult emergence phenology, mating behavior, and weevil hosts of Necremnus tidius (Walker) (Hymenoptera: Eulophidae), a solitary ectoparasitoid of coleopteran larvae. In addition, changes in parasitism levels of the cabbage seedpod weevil, Ceutorhynchus obstrictus (Marsham) (Coleoptera: Curculionidae), by N. tidius were determined during 2003-2005 in commercial fields of canola (Brassica rapa L. and Brassica napus L.) in southern Alberta and Saskatchewan, Canada. Mean [plus or minus] SE developmental time from egg to adult was 18.3 [plus or minus] 0.23d for specimens reared at 21[degree]C and a photoperiod of 12:12 (L: D) h. Emergence began in late July in commercial fields near Lethbridge, AB, and 20 d later 81\% of the population bad emerged. Emergence was completed by the end of August. Mating was preceded by a complex courtship behavior with the male standing on the dorsum of the mesosoma and gaster of the female, flapping its wings without flight, leaning forward and stroking its antennae over the antennae of the female, leaning back, and repeating the sequence several times. The native weevil Ceutorhynchus neglectus Blatchley was determined to be an alternate host of N. tidius in central and northern Alberta. N. tidius was found in few commercial canola fields in 2003, but in 2004, it occurred over hundreds of thousands of hectares of canola cropland, reaching peak parasitism levels of 45\%. In 2005, N. tidius was still common, but parasitism declined relative to that observed in 2004.}, keywords = {Ceutorhynchus obstrictus}, isbn = {0013-8746}, author = {Dosdall, L.M. and Gibson, G. A. P. and Olfert, O. and Keddie, B. A. and Ulmer, B. J.} } @article {10761, title = {Responses of Chalcidoidea (Hymenoptera) parasitoids to invasion of the cabbage seedpod weevil (Coleoptera: Curculionidae) in western Canada}, journal = {Biological Invasions}, volume = {11}, number = {1}, year = {2009}, month = {January}, pages = {109-125}, abstract = {Invasion of the European weevil, Ceutorhynchus obstrictus (Marsham), was investigated through surveys of its range and population densities in Alberta and Saskatchewan from 2001 to 2005. After it was first reported in southern Alberta, C. obstrictus rapidly expanded its range and abundance. Our more recent surveys indicate that its northward expansion has slowed, but that it has continued to extend its range eastward to southcentral Saskatchewan. The distribution and abundance of parasitoids of C. obstrictus in Alberta and Saskatchewan were investigated from 2003 to 2005 by mass rearing canola pods infested with C. obstrictus larvae. Although weevil populations were not parasitized for several years immediately following its introduction to southern Alberta, a surprisingly diverse assemblage of Chalcidoidea parasitoids, comprising 12 species from four families, were recently reared from weevil-infested canola siliques in Alberta and Saskatchewan. The Chalcidoidea fauna of C. obstrictus include species with both Nearctic and Holarctic distributions, with some species having restricted host ranges and others that are more niche than taxon-specific. These Chalcidoidea species appear to have expanded their host ranges to parasitize C. obstrictus in the region. Most parasitism is attributable to Trichomalus lucidus (Walker), Chlorocytus sp., and Pteromalus sp. (Pteromalidae), and Necremnus tidius (Walker) (Eulophidae). Parasitism levels varied considerably over the three years of this study. From 2003 to 2005 increases in parasitism occurred among all four of the species dominating the parasitoid fauna of C. obstrictus, but greater increases were observed for Chlorocytus sp. and Pteromalus sp. than for T. lucidus. Parasitoid species have sometimes caused substantial levels of host mortality, although current levels are usually less than 15\% for all species combined and so are not sufficient to control weevil populations. Implementing a classical biological control program for C. obstrictus by reconstructing its European natural enemy complex is being considered, but it is still uncertain whether parasitism levels by native Chalcidoidea will increase over time since considerable year-to-year variation has been found. Parasitism levels of C. obstrictus should therefore continue to be monitored to assess whether a classical biological control program should be implemented.}, keywords = {Ceutorhynchus obstrictus}, isbn = {1387-3547}, author = {Dosdall, Lloyd M. and Gibson, Gary A. P. and Olfert, Owen O. and Mason, Peter G.} } @article {10693, title = {Beitrag uber mitteleuropaische Russelkafer (Coleoptera, Curculionidae)}, journal = {Entomologische Nachr. Dresden}, volume = {18}, year = {1975}, note = {Zoor11200019657}, pages = {65-70}, type = {Article}, keywords = {Ceutorhynchus contractus levantinus, Ceutorhynchus hassicus, Ceutorhynchus hassicus (Curculionidae)., Ceutorhynchus pseudinclemens, Lignyodes, Lignyodes bischoffi, Neosirocalus niyazii, Phytobius quadrituberculatus, Sitona ononidis}, author = {Dieckmann, L.} } @article {10519, title = {Determination of the species of Curculionoidea superfamily on alfalfa fields (Medicago sativa L.) and their distribution in Bursa Province of Turkey}, journal = {Journal of Biological \& Environmental Sciences}, volume = {4}, number = {12}, year = {2010}, month = {December}, pages = {123-131}, abstract = {This study was carried out to determine superfamily species of Curculionoidea which is living in the alfalfa areas of Bursa province of Turkey during 2004-2005. Insect samplings were collected by sweep net over a 7-12 day period, on alfalfa fields. In this study, among determined species, Hypera postica (Gyllenhal 1813), Apion pisi (Fabricius 1801), Sitona macularius (crinitus) (Marsham 1802), Sitona hispidulus (Fabricius 1777) and Sitona humeralis Stephens 1831 were recorded as important pests and widespread. The most abundance species rates were Apion pisi 85.0\%, Hypera postica 7.2\%, S. humeralis 3.4\%, S. macularis 2.1\%, S. hispidulus 1.3 \% respectively. Nonetheless Sitona lineatus (Linneaus 1758), Sitona flavescens (Marshall 1802), Ceutorhynchus pallidactylus (Marsham 1802), Ceutorhynchus anatolicus Schultze, 1900, Phyllobius sp., Protapion trifolii (Linnaeus 1768), Ceratapion gibbirostre (Gyllenhal 1813), Gymnetron rotundicolle Gyllenhal 1838 were also found in towns of Bursa province. S. flavescens, Ceutorhynchus pallidactylus, C. anatolicus, Protapion trifolii, C. gibbirostre were the first record in Bursa province.}, keywords = {Apion pisi, Ceratapion gibbirostre, Ceutorhynchus anatolicus, Ceutorhynchus pallidactylus, Gymnetron rotundicolle, Hypera postica, Phyllobius, Protapion trifolii, Sitona flavescens, Sitona hispidulus, Sitona humeralis, Sitona lineatus, Sitona macularius}, author = {Coskuncu, Kiymet Senan and Gencer, Nimet Sema} } @article {10469, title = {Ten new species of Palaearctic Ceutorhynchinae (Coleoptera Curculionidae)}, journal = {Bollettino della Societa Entomologica Italiana}, volume = {137}, number = {1}, year = {2005}, month = {gennaio-aprile}, pages = {27-44}, type = {Article}, abstract = {Ten new species of Ceutorhynchinae from the Canaries, the Mediterranean and the Middle East are described: Ceutorhynchus contusicollis n. sp. from southern Turkey, a peculiar species with unusual shape of prothorax; C. foveicaudis n. sp. from northwestern Syria close to C. leucorhamma Rosenhauer, 1856 from western Mediterranean; C. saccoi n. sp. from southern Turkey similar to the Euro-Caucasian C. subpilosus C. Brisout, 1869; C. jucundus n. sp. from the island of La Gomera a bit resembling some North American species and C. albosuturalis (Roelofs, 1875) from northeast Asia; C. romani n. sp. from southern Spain related to C. confusus Schultze, 1903 from western Asia; C. cyaneotinctus n. sp. from northern Spain and southwestern France very close to the European C. ignitus Germar, 1824; C. coeruleus n. sp. from northeastern Turkey allied to C. merkli Korotyaev, 2001 from eastern Europe and Dagestan; Prisistus graecus n. sp. from Greece related to the Armenian P. nivalis (Iablokov-Khnzorian, 1964); Thamiocolus anthracinus n. sp. from southeastern Turkey and northern Syria similar to T calcaratus (Schultze, 1901) from western Anatolia; T marci n. sp. from northwestern Anatolia related to the Caucasian T. longicornis Dieckmann, 1973.}, keywords = {Ceutorhynchus coeruleus, Ceutorhynchus contusicollis, Ceutorhynchus cyaneotinctus, Ceutorhynchus foveicaudis, Ceutorhynchus jucundus, Ceutorhynchus romani, Ceutorhynchus saccoi, Prisistus graecus, Thamiocolus anthracinus, Thamiocolus marci}, isbn = {0373-3491}, author = {Colonnelli, Enzo} } @book {10341, title = {Catalogue of Ceutorhynchinae of the world, with a key to genera (Insecta: Coleoptera: Curculionidae)}, series = {Catalogue of Ceutorhynchinae of the world, with a key to genera}, year = {2004}, pages = {1-124}, publisher = {Argania editio}, organization = {Argania editio}, keywords = {Acanthoscelidius tenebrosus, Aferonyx, Alphonsinus stigma, Andersoniolus, Andersoniolus inaequalis, Aphytobius sphaerion, Aphytobius subglobosus, Asperauleutes, Asperauleutes asperipennis, Asperauleutes tachygonoides, Atlantonyx, Auleutes asperipennis, Barioxyonyx retectus, Boragosirocalus flavitarsis, Borisauleutes, Borisauleutes arcuatus, Borisauleutes asperatus, Borisauleutes dispersus, Borisauleutes donaldi, Borisauleutes instabilis, Borisauleutes riguus, Borisauleutes subfasciatus, Borisauleutes sulcifrons, Ceutorhynchus, Ceutorhynchus assimilis, Ceutorhynchus atriculus, Ceutorhynchus aztecus, Ceutorhynchus bicollaris, Ceutorhynchus cochleariae, Ceutorhynchus erythropus, Ceutorhynchus fallax, Ceutorhynchus floridanus, Ceutorhynchus gilvirsotris, Ceutorhynchus laetus, Ceutorhynchus leprieuri, Ceutorhynchus leucorhamma, Ceutorhynchus medialis, Ceutorhynchus nanus, Ceutorhynchus obstrictus, Ceutorhynchus pandellei, Ceutorhynchus picitarsis, Ceutorhynchus puncticollis, Ceutorhynchus rapae, Ceutorhynchus scutellaris, Ceutorhynchus semirufus, Ceutorhynchus suturatus, Ceutorhynchus turbatus, Ceutorhynchus zimmermannii, Coeliodes jelineki, Coeliodes ruber, Coeliodes subfarinosus, Curculio nigrostriatus, Cyphohypurus, Cysmemoderes verrucosus, Datonychidius distinctepubens, Datonychus melanostictus, Datonychus plastus, Dieckmannius lewisi, Erythromerus, Erythromerus affinis, Erythromerus maculatus, Erythromerus melanocephalus, Erythromerus monostigma, Euauleutes, Euauleutes mexicanus, Gibbocoeliodes, Gibbocoeliodes gibbosus, Glocianus bituberculatus, Glocianus fennicus, Glocianus lethierryi, Glocianus maculaquadra, Glocianus polystriatus, Glocianus ragusae, Glocianus tshistyakovae, Hadroplantus trimaculatus, Hustacheauleutes, Hustacheauleutes bruchi, Hustacheauleutes muricatus, Hypohypurini, Hypohypurus, Indohypurus, Indozacladus asperulus, Indozacladus theresiae, Isorhynchus candidulus, Isorhynchus pudicus, Isorhynchus setiferus, Marmaropus testaceitarsis, Mesoxyonyx hispanicus, Micrelus ericae, Microplontus campestris, Microplontus molitor, Mogulones annibal, Mogulones crucifer, Mogulones gratiosus, Mogulones javetii, Mogulones larvatus, Mogulones pallidicornis, Mogulones peregrinus, Mogulones t-album, Nedyus quadrimaculatus, Neoauleutes, Neoauleutes similis, Neoglocianus gethsemaniensis, Neohypurus, Neomerus, Neomerus sexnodosus, Neoprohinus, Neoprohinus cinnamomeus, Neoxyonyx massageta, Neoxyonyx monticola, Nigrocoeliodes, Nigrocoeliodes granulatus, Parauleutes, Parauleutes albovarius, Parauleutes biolleyi, Parauleutes guadeloupensis, Parauleutes inermis, Parauleutes inspersus, Parauleutes nasalis, Parauleutes nebulosus, Parauleutes plurituberculatus, Petrocladus, Phytobius quadrituberbulatus, Prorutidosoma, Pruinomerus, Pruinomerus angulatus, Pruinomerus conicus, Pruinomerus dietzi, Pruinomerus griseus, Pruinomerus guyanensis, Pruinomerus nodicollis, Pruinomerus pulvereus, Pruinomerus squalidus, Pruinomerus subsaltans, Pruinomerus vicinus, Pseudocoeliodes rubricus, Pseudophytobius, Pseudophytobius acalloides acalloides, Rhinoncus castor, Rhinoncus pericarpius, Rhinoncus sparsetosus, Rubrauletes argentinensis, Rubrauleutes, Scleropteridius, Scleropterini, Scleropteroides hypocrita, Sudauleutes, Sudauleutes bosqi, Sulcraponius, Sulcraponius umbraculatus, Sulcraponius unguiculatus, Svetlaniolus, Thamiocolus calcaratus, Thamiocolus susannae, Trichosirocalus barnevillei, Victorinus, Whiteheadiolus, Whiteheadiolus ganglionus, Whiteheadiolus tessellatus, Xenysmoderes athleta, Xenysmoderes ciconia, Xenysmoderes conicollis, Xenysmoderes glabirostris, Xenysmoderes kryzhanovskii, Xenysmoderes longicollis, Xenysmoderes michaili, Xenysmoderes nigroclavatus}, isbn = {84-931847-6-4}, author = {Colonnelli, Enzo} } @article {10297, title = {A revised checklist of Italian Curculionoidea (Coleoptera)}, journal = {Zootaxa}, volume = {337}, year = {2003}, month = {24}, pages = {1-142}, type = {Article}, abstract = {Curculionoidea [Checklists / Revised systematic checklist / ] [Italy // Revised systematic checklist \& distribution].Curculionoidea (Polyphaga).Styphlidius corcyreus italicus - Osella 1981 (Curculionoidea): [Raisedto, Styphlidius italicus, p. 12].Styphlidius italicus - Osella 1981 (Curculionoidea): [Raised from,Styphlidius corcyreus italicus, p. 12].Acentrotypus - Alonso-Zarazaga 1990 (Apionidae): [Raised from, Apion(Acentrotypus), p. 7].Acentrotypus laevigatus - (Kirby 1808) (Apionidae): [Syn nov,Acentrotypus brunnipes (Boheman 1839), p. 9].Aizobius - Alonso-Zarazaga 1990 (Apionidae): [Raised from, Apion(Aizobius), p. 7].Apion - Herbst 1797 (Apionidae): [Removal from synonymy, Removal fromsynonymy, Aspidapion (Koestlinia) Alonso-Zarazaga 1990, p. 8,Phrissotrichum (Schilskyapion) Alonso-Zarazaga 1990, p. 8].Apion (Acentrotypus) - Alonso-Zarazaga 1990 (Apionidae): [Raised to,Acentrotypus, p. 7].Apion (Aizobius) - Alonso-Zarazaga 1990 (Apionidae): [Raised to,Aizobius, p. 7].Apion (Aspidapion) - Schilsky 1901 (Apionidae): [Raised to,Aspidapion, p. 7].Apion (Catapion) - Schilsky 1906 (Apionidae): [Raised to, Catapion, p.7].Apion (Ceratapion) - Schilsky 1901 (Apionidae): [Raised to,Ceratapion, p. 7].Apion (Cistapion) - Wagner 1924 (Apionidae): [Raised to, Cistapion, p.7].Apion (Cyanapion) - Bokor 1923 (Apionidae): [Raised to, Cyanapion, p.7].Apion (Diplapion) - Reitter 1916 (Apionidae): [Raised to, Diplapion,p. 7].Apion (Eutrichapion) - Reitter 1916 (Apionidae): [Raised to,Eutrichapion, p. 7].Apion (Exapion) - Bedel 1887 (Apionidae): [Raised to, Exapion, p. 7].Apion (Helianthemapion) - Wagner 1930 (Apionidae): [Raised to,Helianthemapion, p. 7].Apion (Hemitrichapion) - Voss 1959 (Apionidae): [Raised to,Hemitrichapion, p. 7].Apion (Holotrichapion) - Gyorffy 1956 (Apionidae): [Raised to,Holotrichapion, p. 7].Apion (Ischnopterapion) - Bokor 1923 (Apionidae): [Raised to,Ischnopterapion, p. 7].Apion (Ixapion) - Roudier \& Tempere 1973 (Apionidae): [Raised to,Ixapion, p. 7].Apion (Kalcapion) - Schilsky 1906 (Apionidae): [Raised to, Kalcapion,p. 7].Apion (Lepidapion) - Schilsky 1906 (Apionidae): [Raised to,Lepidapion, p. 7].Apion (Malvapion) - Hoffmann 1959 (Apionidae): [Raised to, Malvapion,p. 7].Apion (Melanapion) - Wagner 1930 (Apionidae): [Raised to, Melanapion,p. 7].Apion (Mesotrichapion) - Gyorffy 1956 (Apionidae): [Raised to,Mesotrichapion, p. 7].Apion (Metapion) - Schilsky 1906 (Apionidae): [Raised to, Metapion, p.7].Apion (Omphalapion) - Schilsky 1901 (Apionidae): [Raised to,Omphalapion, p. 7].Apion (Onychapion) - Schilsky 1901 (Apionidae): [Raised to,Onychapion, p. 8].Apion (Oryxolaemus) - Alonso-Zarazaga 1990 (Apionidae): [Raised to,Oryxolaemus, p. 8].Apion (Osellaeus) - Alonso-Zarazaga 1990 (Apionidae): [Raised to,Osellaeus, p. 8].Apion (Perapion) - Wagner 1907 (Apionidae): [Raised to, Perapion, p.8].Apion (Phrissotrichum) - Schilsky 1901 (Apionidae): [Raised to,Phrissotrichum, p. 8].Apion (Pirapion) - Reitter 1916 (Apionidae): [Raised to, Pirapion, p.8].Apion (Protapion) - Schilsky 1908 (Apionidae): [Raised to, Protapion,p. 8].Apion (Pseudapion) - Schilsky 1906 (Apionidae): [Raised to,Pseudapion, p. 8].Apion (Pseudoperapion) - Wagner 1930 (Apionidae): [Raised to,Pseudoperapion, p. 8].Apion (Pseudoprotapion) - Ehret 1990 (Apionidae): [Raised to,Pseudoprotapion, p. 8].Apion (Pseudostenapion) - Wagner 1930 (Apionidae): [Raised to,Pseudostenapion, p. 8].Apion (Rhopalapion) - Schilsky 1906 (Apionidae): [Raised to,Rhopalapion, p. 8].Apion (Squamapion) - Bokor 1923 (Apionidae): [Raised to, Squamapion,p. 8].Apion (Stenopterapion) - Bokor 1923 (Apionidae): [Raised to,Stenopterapion, p. 8].Apion (Synapion) - Schilsky 1902 (Apionidae): [Raised to, Synapion, p.8].Apion (Taeniapion) - Schilsky 1906 (Apionidae): [Raised to,Taeniapion, p. 8].Apion (Trichopterapion) - Wagner 1930 (Apionidae): [Raised to,Trichopterapion, p. 8].Aspidapion - Schilsky 1901 (Apionidae): [Raised from, Apion(Aspidapion), p. 7].Aspidapion (Koestlinia) - Alonso-Zarazaga 1990 (Apionidae): [Removalfrom synonymy, With Apion Herbst 1797, p. 8].Catapion - Schilsky 1906 (Apionidae): [Raised from, Apion (Catapion),p. 7].Ceratapion - Schilsky 1901 (Apionidae): [Raised from, Apion(Ceratapion), p. 7].Cistapion - Wagner 1924 (Apionidae): [Raised from, Apion (Cistapion),p. 7].Cyanapion - Bokor 1923 (Apionidae): [Raised from, Apion (Cyanapion),p. 7].Diplapion - Reitter 1916 (Apionidae): [Raised from, Apion (Diplapion),p. 7].Eutrichapion - Reitter 1916 (Apionidae): [Raised from, Apion(Eutrichapion), p. 7].Exapion - Bedel 1887 (Apionidae): [Syn nov, Raised from, Exapion(Ulapion) Ehret 1997, p. 10, Apion (Exapion), p. 7].Helianthemapion - Wagner 1930 (Apionidae): [Raised from, Apion(Helianthemapion), p. 7].Hemitrichapion - Voss 1959 (Apionidae): [Raised from, Apion(Hemitrichapion), p. 7].Holotrichapion - Gyorffy 1956 (Apionidae): [Raised from, Apion(Holotrichapion), p. 7].Ischnopterapion - Bokor 1923 (Apionidae): [Raised from, Apion(Ischnopterapion), p. 7].Ixapion - Roudier \& Tempere 1973 (Apionidae): [Raised from, Apion(Ixapion), p. 7].Kalcapion - Schilsky 1906 (Apionidae): [Raised from, Apion(Kalcapion), p. 7].Lepidapion - Schilsky 1906 (Apionidae): [Raised from, Apion(Lepidapion), p. 7].Malvapion - Hoffmann 1959 (Apionidae): [Raised from, Apion(Malvapion), p. 7].Melanapion - Wagner 1930 (Apionidae): [Raised from, Apion(Melanapion), p. 7].Melanapion (Rhodapion) - Alonso-Zarazaga 1990 (Apionidae): [Raised to,Rhodapion, p. 12].Mesotrichapion - Gyorffy 1956 (Apionidae): [Raised from, Apion(Mesotrichapion), p. 7].Metapion - Schilsky 1906 (Apionidae): [Raised from, Apion (Metapion),p. 7].Omphalapion - Schilsky 1901 (Apionidae): [Raised from, Apion(Omphalapion), p. 7].Onychapion - Schilsky 1901 (Apionidae): [Raised from, Apion(Onychapion), p. 8].Oryxolaemus - Alonso-Zarazaga 1990 (Apionidae): [Raised from, Apion(Oryxolaemus), p. 8].Osellaeus - Alonso-Zarazaga 1990 (Apionidae): [Raised from, Apion(Osellaeus), p. 8].Perapion - Wagner 1907 (Apionidae): [Raised from, Apion (Perapion), p.8].Phrissotrichum - Schilsky 1901 (Apionidae): [Raised from, Apion(Phrissotrichum), p. 8].Phrissotrichum (Schilskyapion) - Alonso-Zarazaga 1990 (Apionidae):[Removal from synonymy, With Apion Herbst 1797, p. 8].Pirapion - Reitter 1916 (Apionidae): [Raised from, Apion (Pirapion),p. 8].Protapion - Schilsky 1908 (Apionidae): [Raised from, Apion(Protapion), p. 8].Pseudapion - Schilsky 1906 (Apionidae): [Raised from, Apion(Pseudapion), p. 8].Pseudoperapion - Wagner 1930 (Apionidae): [Raised from, Apion(Pseudoperapion), p. 8].Pseudoprotapion - Ehret 1990 (Apionidae): [Raised from, Apion(Pseudoprotapion), p. 8].Pseudostenapion - Wagner 1930 (Apionidae): [Raised from, Apion(Pseudostenapion), p. 8].Rhodapion - Alonso-Zarazaga 1990 (Apionidae): [Raised from, Melanapion(Rhodapion), p. 12].Rhopalapion - Schilsky 1906 (Apionidae): [Raised from, Apion(Rhopalapion), p. 8].Squamapion - Bokor 1923 (Apionidae): [Raised from, Apion (Squamapion),p. 8].Stenopterapion - Bokor 1923 (Apionidae): [Raised from, Apion(Stenopterapion), p. 8].Synapion - Schilsky 1902 (Apionidae): [Raised from, Apion (Synapion),p. 8].Taeniapion - Schilsky 1906 (Apionidae): [Raised from, Apion(Taeniapion), p. 8].Trichopterapion - Wagner 1930 (Apionidae): [Raised from, Apion(Trichopterapion), p. 8].Amalini - Wagner 1936 (Curculionidae): [Removal from synonymy,Referred to, With Ceutorhynchini Gistel 1848, p. 9, Ceutorhynchinae,p. 9].Bagoinae - Thomson 1859 (Curculionidae): [Nomen protectum, P. 6].Ceuthorrhynchus speiseri - Schultze 1897 (Curculionidae): [Preoccupiedname replaced by, Phrydiuchus augusti, p. 11].Ceutorhynchini - Gistel 1848 (Curculionidae): [Removal from synonymy,Amalini Wagner 1936, p. 9].Ceutorhynchus pallipes - Crotch 1866 (Curculionidae): [Syn nov, Synnov, Curculio contractus Marsham 1802, p. 9, Attributable toAlonso-Zarazaga, Colonnelli \& Silfverberg, Curculio minutus Reich1797, p. 9].Ceutorhynchus talickyi - Korotyaev 1980 (Curculionidae): [Syn nov,Ceutorhynchus strejceki Dieckmann 1981, p. 9].Depresseremiarhinus dilatatus - Fabricius 1801 (Curculionidae):[Referred to, Eremiarhinus (Depresseremiarhinus), p. 10, Attributableto Meregalli].Dodecastichus consentaneus - (Boheman 1843) (Curculionidae): [Syn nov,Syn nov, Syn nov, Dodecastichus consentaneus dimorphus (Solari \&Solari 1915), p. 9, Dodecastichus consentaneus latialis (Solari \&Solari 1915), p. 9, Dodecastichus consentaneus pentricus Di Marco \&Osella 2001, p. 9, Attributable to Magnano].Dodecastichus dalmatinus - (Gyllenhal 1834) (Curculionidae): [Syn nov,Dodecastichus dalmatinus lauri (Stierlin 1861), p. 9, Attributable toMagnano].Dodecastichus mastix - (Olivier 1807) (Curculionidae): [Syn nov, Synnov, Dodecastichus mastix perlongus (Solari \& Solari 1915), p. 9,Dodecastichus mastix scabrior (Reitter 1913), p. 9, Attributable toMagnano].Dorytomus - Germar 1817 (Curculionidae): [Syn nov, Syn nov, Syn nov,Dorytomus (Chaetodorytomus) Iablokov-Khnzorian 1970, p. 9, Dorytomus(Euolamus) Reitter 1916, p. 9, Dorytomus (Olamus) Reitter 1916, p. 9].Eremiarhinus (Depresseremiarhinus) dilatatus - (Fabricius 1801)(Curculionidae): [Comb nov, Transferred from Depresseremiarhinus, p.10, Attributable to Meregalli].Eremiarhinus (Pseudorhinus) impressicollis jarrigei - (Roudier 1959)(Curculionidae): [Comb nov, Transferred from Pseudorhinus, p. 10,Attributable to Meregalli].Eremiarhinus (Pseudorhinus) impressicollis luciae - (Ragusa 1883)(Curculionidae): [Comb nov, Transferred from Pseudorhinus, p. 10,Attributable to Meregalli].Eremiarhinus (Pseudorhinus) impressicollis peninsularis - (Solari1940) (Curculionidae): [Comb nov, Transferred from Pseudorhinus, p.10, Attributable to Meregalli].Eremiarhinus (Pseudorhinus) laesirostris - (Fairmaire 1859)(Curculionidae): [Comb nov, Transferred from Pseudorhinus, p. 10,Attributable to Meregalli].Heliomeneini - Gistel 1848 (Curculionidae): [Nomen oblitum, P. 7].Hyperinae - Marseul 1863 (Curculionidae): [Junior synonym, OfPhytonominae Gistel 1848, p. 6].Larinus ursus - (Fabricius 1792) (Curculionidae): [Syn nov, Syn nov,Larinus carinirostris Gyllenhal 1837, p. 10, Larinus genei Boheman1843, p. 10].Lixini - Schoenherr 1823 (Curculionidae): [Syn nov, RhinocylliniLacordaire 1863, p. 10].Lyprinae - Gistel 1848 (Curculionidae): [Nomen oblitum, P. 7].Magdalidini - Pascoe 1870 (Curculionidae): [Nomen protectum, P. 7].Metacinops rhinomacer - Kraatz 1862 (Curculionidae): [Syn nov,Metacinops calabrus Stierlin 1892, p. 10].Microplontus nigrovittatus - (Schultze 1901) (Curculionidae): [Synnov, Ceuthorhynchus subfasciatus Chevrolat 1860, p. 10].Mogulones aubei - (Boheman 1845) (Curculionidae): [Removal fromsynonymy, With Mogulones t-album (Gyllenhal 1837), p. 10].Mogulones t-album - (Gyllenhal 1837) (Curculionidae): [Removal fromsynonymy, Mogulones aubei (Boheman 1845), p. 10].Otiorhynchus (Pesolanus) - Pesarini 2001 (Curculionidae): [Spelling,P. 10].Otiorhynchus (Presolanus) - Pesarini 2001 (Curculionidae): [Spelling,P. 10].Otiorhynchus amicalis cenomanus - Colonnelli \& Magnano 2003(Curculionidae): [Nom nov, For Otiorhynchus amicalis lessinicus(Osella 1983), p. 10].Otiorhynchus amicalis lessinicus - (Osella 1983) (Curculionidae):[Preoccupied name replaced by, Otiorhynchus amicalis cenomanusColonnelli \& Magnano 2003, p. 10].Otiorhynchus anophthalmoides istriensis - (Solari 1955)(Curculionidae): [Preoccupied name replaced by, Otiorhynchusanophthalmoides omeros, p. 10].Otiorhynchus anophthalmoides omeros (Curculionidae): [Nom nov, ForOtiorhynchus anophthalmoides istriensis (Solari 1955), p. 10].Otiorhynchus anthracinus - (Scopoli 1763) (Curculionidae): [Syn nov,Otiorhynchus calabrus Stierlin 1880, p. 11, Attributable to Magnano].Otiorhynchus armadillo - (Rossi 1792) (Curculionidae): [Syn nov,Otiorhynchus halbherri Stierlin 1890, p. 11, Attributable to Magnano].Otiorhynchus carinatus - (Osella 1983) (Curculionidae): [Preoccupiedname replaced by, Otiorhynchus serradae Colonnelli \& Magnano 2003, p.11].Otiorhynchus clibbianus - Colonnelli \& Magnano 2003 (Curculionidae):[Nom nov, For Otiorhynchus judicariensis (Osella 1983), p. 11].Otiorhynchus cornicinus - Stierlin 1861 (Curculionidae): [Syn nov,Curculio laevigatus Fabricius 1792, p. 11].Otiorhynchus fortis - Rosenhauer 1847 (Curculionidae): [Syn nov,Otiorhynchus fortis valarsae Reitter 1913, p. 11, Attributable toMagnano].Otiorhynchus judicariensis - (Osella 1983) (Curculionidae):[Preoccupied name replaced by, Otiorhynchus clibbianus Colonnelli \&Magnano 2003, p. 11].Otiorhynchus nocturnus peetzi - Franz 1938 (Curculionidae):[Emendation, P. 11, Attributable to Magnano].Otiorhynchus nocturnus peezi - Franz 1938 (Curculionidae):[Emendation, P. 11, Attributable to Magnano].Otiorhynchus nodosus - (Mueller 1764) (Curculionidae): [Syn nov, Synnov, Otiorhynchus nodosus comosellus Boheman 1843, p. 11, Attributableto Colonnelli \& Magnano, Otiorhynchus nodosus gobanzi Gredler 1868, p.11, Attributable to Colonnelli \& Magnano].Otiorhynchus pupillatus - Gyllenhal 1834 (Curculionidae): [Syn nov,Syn nov, Otiorhynchus pupillatus angustipennis Stierlin 1883, p. 11,Attributable to Magnano, Otiorhynchus venetus Solari 1947, p. 11,Attributable to Magnano].Otiorhynchus serradae - Colonnelli \& Magnano 2003 (Curculionidae):[Nom nov, For Otiorhynchus carinatus (Osella 1983), p. 11].Otiorhynchus strigirostris - Boheman 1843 (Curculionidae): [Syn nov,Syn nov, Otiorhynchus aterrimus Di Marco \& Osella 2002, p. 11,Attributable to Magnano \& Colonnelli, Otiorhynchus calvus Fiori 1899,p. 11, Attributable to Magnano \& Colonnelli].Otiorhynchus sulcatus - (Fabricius 1775) (Curculionidae): [Syn nov,Otiorhynchus linearis Stierlin 1861, p. 11, Attributable to Magnano].Phrydiuchus augusti (Curculionidae): [Nom nov, For Ceuthorrhynchusspeiseri Schultze 1897, p. 11].Phyllobius italicus - Solari \& Solari 1903 (Curculionidae): [Raisedfrom, Phyllobius pyri italicus, p. 11, Attributable to Colonnelli \&Magnano, Fossil].Phyllobius maculicornis - Germar 1824 (Curculionidae): [Syn nov,Phyllobius maculicornis lucanus Solari \& Solari 1903, p. 11, Fossil].Phyllobius pyri - (Linnaeus 1758) (Curculionidae): [Syn nov,Phyllobius vespertinus (Fabricius 1792), p. 11, Attributable toColonnelli \& Magnano, Fossil].Phyllobius pyri italicus - Solari \& Solari 1903 (Curculionidae):[Raised to, Phyllobius italicus, p. 11, Attributable to Colonnelli \&Magnano, Fossil].Phyllobius pyri reicheidius - Desbrochers 1873 (Curculionidae):[Raised to, Phyllobius reicheidius, p. 11, Attributable to Colonnelli\& Magnano, Fossil].Phyllobius reicheidius - Desbrochers 1873 (Curculionidae): [Raisedfrom, Phyllobius pyri reicheidius, p. 11, Attributable to Colonnelli \&Magnano, Fossil].Phytonominae - Gistel 1848 (Curculionidae): [Senior synonym, OfHyperinae Marseul 1863, p. 6].Polydrusus (Chaerodrys) - Jacquelin du Val 1854 (Curculionidae): [Synnov, Polydrusus (Metadrosus) Schilsky 1910, p. 11, Attributable toColonnelli \& Magnano].Polydrusus (Eudipnus) - Thomson 1859 (Curculionidae): [Syn nov, Synnov, Polydrusus (Chrysoyphis) Gozis 1882, p. 12, Attributable toColonnelli \& Magnano, Polydrusus (Thomsoneonymus) Desbrochers 1902, p.12, Attributable to Colonnelli \& Magnano].Polydrusus (Eurodrusus) - Korotyaev \& Meleshko 1997 (Curculionidae):[Syn nov, Polydrusus (Neoeustolus) Alonso-Zarazaga \& Lyal 1999, p. 12,Attributable to Magnano]. Polydrusus armipes - Brulle 1832 (Curculionidae): [Syn nov, Polydrusus armipes faillae Desbrochers 1859, p. 12]. Pseudomyllocerus invreae invreae - (Solari 1948) (Curculionidae): [Syn nov, Curculio cinerascens Fabricius 1792, p. 12]. Pseudorhinus impressicollis jarrigei - Roudier 1959 (Curculionidae): [Referred to, Eremiarhinus (Pseudorhinus), p. 10, Attributable to Meregalli]. Pseudorhinus impressicollis luciae - Ragusa 1883 (Curculionidae): [Referred to, Eremiarhinus (Pseudorhinus), p. 10, Attributable to Meregalli]. Pseudorhinus impressicollis peninsularis - Solari 1940 (Curculionidae): [Referred to, Eremiarhinus (Pseudorhinus), p. 10, Attributable to Meregalli]. Pseudorhinus laesirostris - Fairmaire 1859 (Curculionidae): [Referred to, Eremiarhinus (Pseudorhinus), p. 10, Attributable to Meregalli]. Rhythirrinini - Marseul 1863 (Curculionidae): [Nomen protectum, P. 7]. Scardamyctini - Gistel 1848 (Curculionidae): [Nomen oblitum, P. 7]. Zacladus - Reitter 1916 (Curculionidae): [Syn nov, Syn nov, Syn nov, Syn nov, Zacladus (Amurocladus) Korotyaev 1997, p. 12, Zacladus (Angarocladus) Korotyaev 1997, p. 12, Zacladus (Gobicladus) Korotyaev 1997, p. 12, Zacladus (Scythocladus) Korotyaev 1997, p. 12].}, keywords = {Acentrotypus, Acentrotypus laevigatus, Aizobius sedi, Amalini, Apion, Aspidapion, Aspidapion (Koestlinia), Bagoinae, Catapion, Ceratapion, Ceutorhynchini, Ceutorhynchus pallipes, Ceutorhynchus talickyi, Cistapion, Curculionoidea, Cyanapion, Diplapion, Dodecastichus consentaneus, Dodecastichus dalmatinus, Dodecastichus mastix, Dorytomus, Eremiarhinus (Depresseremiarhinus) dilatatus -, Eremiarhinus (Pseudorhinus) impressicollis jarrigei, Eremiarhinus (Pseudorhinus) impressicollis luciae, Eremiarhinus (Pseudorhinus) impressicollis peninsularis, Eremiarhinus (Pseudorhinus) laesirostris, Eutrichapion, Exapion, Helianthemapion, Hemitrichapion, Holotrichapion, Ischnopterapion, Ixapion, Kalcapion, Larinus ursus, Lepidapion, Lixini, Magdalidini, Malvapion, Melanapion, Melanapion (Rhodapion), Mesotrichapion, Metapion, Microplontus nigrovittatu, Mogulones aubei, Mogulones t-album, Omphalapion, Onychapion, Oryxolaemus, Osellaeus, Otiorhynchus amicalis cenomanus, Otiorhynchus anophthalmoides omeros, Otiorhynchus anthracinus, Otiorhynchus armadillo, Otiorhynchus clibbianus, Otiorhynchus cornicinus, Otiorhynchus fortis, Otiorhynchus nocturnus, Otiorhynchus nodosus, Otiorhynchus pupillatus, Otiorhynchus serradae, Otiorhynchus strigirostris, Otiorhynchus sulcatus, Perapion, Phrissotrichum, Phrissotrichum (Schilskyapion), Phrydiuchus augusti, Phyllobius italicus, Phyllobius maculicornis, Phyllobius pyri, Phyllobius reicheidius, Phytonominae, Pirapion, Polydrusus (Chaerodrys), Polydrusus (Eudipnus), Polydrusus (Eurodrusus), Polydrusus armipes, Protapion, Pseudapion, Pseudomyllocerus invreae invreae, Pseudoperapion, Pseudoprotapion, Pseudorhinus laesirostris, Pseudostenapion, Rhodapion, Rhopalapion, Rhythirrinini, Scardamyctini, Squamapion, Stenopterapion, Styphlidius italicus, Synapion, Taeniapion, Trichopterapion, Zacladus}, isbn = {1175-5326}, author = {Colonnelli, Enzo} } @article {10170, title = {Systematic and synonymic notes on Ceutorhynchinae, with lectotype and neotype designations, and descriptions of three new genera (Coleoptera, Curculionidae)}, journal = {Fragmenta Entomologica}, volume = {30}, number = {1}, year = {1998}, pages = {105-175}, type = {Article}, abstract = {Study of types and literature survey led to the discovery of 75 new synonymies and 65 new combinations. Neotypes are designated for 14 spp. as are lectotype/paralectotype designations or validations for 61 spp. Precise dates of publication of Ceutorhynchus angustus Dieckmann and Smreczynski, 1972; and that of Microplontus fairmairii (C. Brisout, 1881) are given. The authorship of: Ceutorhynchus sophiae Gyllenhal, 1837; Glocianus rotundatus (Kraatz, 1868); Rhinoncus perpendicularis form lysholmi (Schultze, 1901) are rectified. The taxonomy of Microplontus subfasciatus (Chevrolat) and of Mogulones crux (Stephens, 1831) is discussed. The current wrong spellings of Datonychus arquata (Herbst) and of Microplontus fairmairii (C. Brisout, 1881) are corrected. A selection among the alternative original spellings of Acallodes saltoides Dietz, 1896, Barioxyonyx Hustache, 1931, Ceutorhynchus erythropus (Dietz, 1896), Paroxyonyx Hustache, 1931, Pelenomus scoliasus (Dietz, 1896), Perioxyonyx Hustache, 1931, Theodorinus hispanicus Colonnelli, 1995 and Xenysmoderes infuscatus (Korotyaev, 1989) is made. Amalus alpinus Hampe, 1897 is designated as the type species of Brachiodontus Schultze, 1897; Curculio inconspectus (Herbst, 1795) is selected as the type species of Cryptoris Billberg, 1820. The following species, whose types are lost, are considered nomina dubia: Isorhynchus candidulus (Gyllenhal), Isorhynchus squamiger (Gyllenhal), Micrelus polliger (Gyllenhal) and Rhinoncus sparsesetosus Gyllenhal. The following names are revived from synonymy: Ceutorhynchus typhae (Herbst, 1795); Microplontus chrysanthemi (Gyllenhal, 1827); and Pelenomus commari (Panzer, 1794). New names are Ceutorhynchus primevus for Ceutorhynchus obliquus B. Forster; 1891 not LeConte, 1876; and Indozacladus cajani for Ceutorhynchus asperulus Faust, 1898 not Boheman, 1845.}, keywords = {Acallodes saltoides, Amicroplontus arcuatus, Aoxyonyx, Auleutes epilobii ., Barioxyonyx, Brachiodontus, Brevicoeliodes, Ceuthorhynchideus minimus, Ceuthorhynchidius porcellus, Ceuthorrhynchus cingulatus, Ceuthorrhynchus gibbicollis, Ceuthorrhynchus pudicus, Ceuthorrhynchus sainteclairei, Ceutorhynchinae, Ceutorhynchus, Ceutorhynchus abchasicus var. tyli, Ceutorhynchus albicans, Ceutorhynchus assimilis var. major, Ceutorhynchus carnifrons, Ceutorhynchus chalibaeus, Ceutorhynchus cochleariae, Ceutorhynchus contractus, Ceutorhynchus distans, Ceutorhynchus erythropus, Ceutorhynchus fallax, Ceutorhynchus gallorhenanus, Ceutorhynchus granipennis, Ceutorhynchus granulicollis, Ceutorhynchus grenieri, Ceutorhynchus griseus, Ceutorhynchus ilvensis, Ceutorhynchus insecabilis, Ceutorhynchus kaufmanni, Ceutorhynchus minutus, Ceutorhynchus moguntiacus, Ceutorhynchus nanus, Ceutorhynchus nigrostriatus, Ceutorhynchus obesulus, Ceutorhynchus pandellei, Ceutorhynchus picitarsis, Ceutorhynchus pictus, Ceutorhynchus primevus, Ceutorhynchus quadripunctatus, Ceutorhynchus quercicola var. erythropterus., Ceutorhynchus rudissimus, Ceutorhynchus sardeanensis, Ceutorhynchus sardeanensis diversirostris, Ceutorhynchus sartus, Ceutorhynchus sophiae, Ceutorhynchus stachydis, Ceutorhynchus striatellus, Ceutorhynchus tibialis, Ceutorhynchus timidus, Ceutorhynchus typhae, Cidnorrhinus fausti, Coeliodes ilicis, Coeliodes johannita, Coeliodes pudicus, Coeliodes rana, Coeliodes ruber, Coeliodes serratulae, Coeliodes transversealbofasciatus, Coeliodinus, Coeliodinus subrubicundus, Curculio arquata, Curculio brassicae, Curculio cardui, Curculio cruciger, Curculio grypus, Curculio invasor, Curculio maculaalba, Curculio obstrictus, Curculio punctulum, Curculio rubicundus, Curculio rugulosus, Curculio subrufus, Curculio terminatus, Datonychus arquata, Dieckmannius sexnotatus, Glocianus, Glocianus bituberculatus, Glocianus moelleri, Glocianus rudissimus, Hirtegrius, Hirtegrius setosus, Hypohypurus testaceirostris, Indozacladus cajani, Isorhynchus, Isorhynchus candidulus, Isorhynchus carinifrons, Isorhynchus porcellus, Isorhynchus squamiger, Lioxyonyx, Lioxyonyx glabirostris, Micrelus, Micrelus humilis, Micrelus polliger, Micrelus rhusii, Micrelus rinicae, Micrelus usambaricus, Microplontus fairmairii, Microplontus rugulosus, Mogulones abbreviatulus, Mogulones borraginis, Mogulones fausti, Mogulones geographicus, Mogulones javetii, Mogulones pallidicornis, Nedyus quadrimaculatus, Neoglocianus maculaalba, Neophytobius, Notegrius, Oplitoxyonyx stigma, Oprohinus libanoticus, Oreorrhynchaeus hispanicus, Parethelcus pollinarius, Paroxyonyx, Pelenomus commari, Pelenomus scoliasus, Perigasteromimus mixtus, Perigasteromimus tetracanthus, Perigasteromimus., Perioxyonyx, Phytobius leucogaster, Phytobius mixtus, Phytobius paraguayanus, Prisistus (Austroceutorhynchus), Prisistus (Ranunculiphilus), Prisistus luteitarsis, Pseudocoeliodes rubricus, Ranunculiphilus -, Ranunculiphilus (Austroceutorhynchus), Rhinoncus, Rhinoncus seniculus, Rhinoncus sparsesetosus, Rhinoncus stigma, Rhynchaenus crenatus, Rhynchaenus guttalis, Rhynchaenus nebulosus, Rhynchaenus olivaceus, Rhynchaenus paroculus, Rhynchaenus variegatulus, Rutidosoma globulus, Sirocalodes lineolaalba, Sirocalodes quercicola -, Sirocalodes sericans, Sirocalodes siculus, Stenocarus ruficornis, Thamiocolus, Thamiocolus fausti, Thamiocolus schneideri, Theodorinus hispanicus, Trichosirocalus barnevillei, Xenysmoderes helferi, Xenysmoderes infuscatus, Zacladus geranii}, isbn = {0429-288X}, author = {Colonnelli, Enzo} } @article {10163, title = {Curculionidae Ceutorrhynchinae from the Canaries and Macaronesia (Coleoptera)}, journal = {Vieraea}, volume = {18}, year = {1990}, month = {Junio}, pages = {317-337}, type = {Article}, keywords = {Ceutorhynchinae, Ceutorhynchus (Ceutorhynchus) obstrictus, Mogulones pseudopollinarius biondii, Mogulones pseudopollinarius pseudopollinarius, Parethelcus, Parethelcus nesicola, Stenocarus ruficornis, Thamiocolus wollastoni}, isbn = {0210-945X}, author = {Colonnelli, E.} } @article {10159, title = {Note sul gruppo di Ceutorhynchus (s. str.) nanus Gyllenhal, 1837 con descrizione di due nuove specie (Coleoptera, Curculionidae)}, journal = {Fragmenta Entomologica}, volume = {20}, number = {1}, year = {1987}, pages = {79-96}, type = {Article}, abstract = {New distribution and collection data for some species of Ceutorhynchus nanus group are given. C. gracilis Dieckm. et Smrecz. is considered a valid species and not a subspecies of C. nanus (status novus). C. nanoides n. sp. from the high mountains of Abruzzes (Central Italy) and from Northwestern Italy (Friuli) is described; the new species is very closely related to C. korotyaevi Colonn. from Gruzia and Krasnodar region (SE European part of Russia), from which it differs for the body broader, more rounded elytral sides, more convex upper surface and female antenna inserted behind of mid-point of rostrum; the specimens from Abruzzes were collected on Alyssum montanum L. while those from Friuli were founded on A. petraeum L. which very likely are the true host plants. It also described C. dieckmannianus n. sp. from Northern Greece (Mount Smolikas), closely related to the European C. angustus Dieckm. et Smrecz. but differing from the latter for the stouter legs, shorter tarsus and female rostrum similar in shape and in length to the male one; all the types were collected on Iberis cfr. sempervirens L. On the same plant were found in Greece (Katara) some specimens of C. karamani Muller, 1921; this are the first data on ecology of this species. A checklist and a key to the 15 species of the group is also provided.}, keywords = {Ceutorhynchus, Ceutorhynchus dieckmannianus, Ceutorhynchus gracilis, Ceutorhynchus nanoides, Ceutorhynchus nanus}, isbn = {0429-288X}, author = {Colonnelli, E.} } @article {10147, title = {Nuove specie Paleartiche di Ceutorhynchinae (Coleoptera, Curculionidae)}, journal = {Fragmenta Entomologica}, volume = {20}, number = {1}, year = {1987}, pages = {97-127}, type = {Article}, abstract = {The following new species of Ceutorhynchinae are described: Ceutorhynchus (s. str.) bifidus n. sp. from Central Italy and C. (s. str.) sodalis n. sp. from Northwestern Caucasus, both related to C. roberti Gyllenhal; C. (s. str.) alliaricola n. sp. from Central and Northern Italy, belonging to the C. pleurostigma (Marsham) group; C. (s. str.) oculatus n. sp. from Turkey, closely related to C. inaffectatus Gyllenhal; C. (s. str.) pinguis n. sp. from Central Italy, somewhat similar to C. nematorrhinus Khnzorian; C. (Prisistus) fritillariae n. sp. from Turkey, related to C. rhodopensis Dieckmann; Mogulones audisioi, from Turkey closely allied to M. akbesianus (Pic); M. lodosianus n. sp. from Turkey similar to the species of M. geographicus (Goeze) group; Boragosirocalus clavarius n. sp. from Turkey, related with B. flavitarsis (Reitter). The species of Ceutorhynchus (s. str.) roberti Gyllenhal group and those of the genus Boragosirocalus Dieckmann are keyed. Ceutorhynchus (Prisistus) humeralis hustachei Hoffmann, 1963 from Algeria is newly placed in synonymy of C. obsoletus Germar, 1824. Data on larval development of Ceutorhynchus (Prisitus) fritillariae n. sp. are also provided.}, keywords = {Boragosirocalus, Boragosirocalus clavarius, Ceutorhynchus, Ceutorhynchus (Ceutorhynchus) alliaricola, Ceutorhynchus (Ceutorhynchus) bifidus, Ceutorhynchus (Ceutorhynchus) oculatus, Ceutorhynchus (Ceutorhynchus) pinguis, Ceutorhynchus (Ceutorhynchus) sodalis, Ceutorhynchus (Prisistus) fritillariae, Ceutorhynchus obsoletus, Ceutorhynchus roberti group, Mogulones, Mogulones audisioi, Mogulones lodosianus}, isbn = {0429-288X}, author = {Colonnelli, E.} } @article {10094, title = {Osservazioni sulla nomenclatura e sulla posizione sistematica di alcune entita Olartiche di Ceutorhynchinae}, journal = {Fragmenta Entomologica}, volume = {15}, number = {1}, year = {1979}, pages = {209-232}, type = {Article}, abstract = {New names proposed are: Trichosirocalus (= Ceuthorhynchidius auct. nec Jacquelin du Val); Ceutorhynchus lecontei (= C. convexicollis Leconte, 1876, nec Gyllenhal, 1837); C. lecontei var. insecabilis (= C. atomus Dietz, 1896, nec Boheman, 1845); C. sleeperi (= C. squamulosus Sleeper, 1957, nec C. Brisout, 1869); C. williami (= C. ovalis Dietz, 1896, nec Marsham, 1802). New synonyms are: Neosirocalus Wagner, 1944 (= Ceuthorhynchidius Jacq. du Val, 1854); Sirocalodes Wagner, 1938, a nomen nudum (= Sirocalodes Voss, 1958); and Ceutorhynchus raffrayanus Colonn., 1976 (= C. pantellarianus Hoffm., 1964, a valid species). The synonymy of Thamiocolus interstinctus (Gyll.) and Ceutorhynchus lepidus Gyll. is rectified by priority law. New combinations are Homorosoma sulcipennis (Leconte) and Rutidosoma (s.s.t.) decipiens (Leconte), both hitherto placed in Ceutorhynchus Germ. All known Cidnorhinus Thoms., including Cidnorhinus flavicaudis comb. nov. (Boh.) and C. vitiosus comb. nov. (Dietz), hitherto listed under Coeliodes Schh., are keyed. Ceutorhynchus tescorum Fall and Ceuthorhynchidius wickhami Champ belong to Sirocalodes Voss. [S. tescorum and S. wickhami comb. nov.] Ceutorhynchus tyli Roubal, C. filirostris (Rtt.) and C. biskrensis Pic are regarded as valid species; C. squamifer Schultze, 1899 is newly placed in synonymy with C. biskrensis Pic, 1896. Ceutorhynchus (s.s.t.) downiei sp. nov. from Indiana [USA] is described; the new species is not closely related with any other Holartic Ceutorhynchus. SCLEROPTEROIDES gen. nov. (type-species: Ceutorrhynchidius hypocrita Hust., from Japan) differs from Scleropterus Schoenh. for the humeral calli developed and for the dentate femora. ODONTOCOELIODES gen. nov. is described; it differs from the closely related Coeliodes Schh. for the unusual shape of the fore tibia, for the slender tarsal segments and for the edentate tarsal claws. The type-species is Coeliodes dentimanus Rtt. from central Asia. PARACOELIODES gen. nov.}, keywords = {Amalorhinoncus, Anthypurinus, Anthypurinus basicornis, Anthypurinus biimpressus, Anthypurinus kaszabi, Anthypurinus transversus, Anthypurus, Aphytobius, Ceuthorrhynchidius, Ceuthorrhynchidius hypocrita, Ceutorhynchinae, Ceutorhynchus (Ceutorhynchus) downiei, Ceutorhynchus abchasicus, Ceutorhynchus abchasicus var. tyli, Ceutorhynchus assimilis var. biskrensis, Ceutorhynchus biimpressus, Ceutorhynchus biskrensis, Ceutorhynchus campestris, Ceutorhynchus cochleariae var. filirostris, Ceutorhynchus convexicollis, Ceutorhynchus convexicollis var. atomus, Ceutorhynchus decipiens, Ceutorhynchus farsetarium, Ceutorhynchus filirostris, Ceutorhynchus geographicus grisescens, Ceutorhynchus insecabilis, Ceutorhynchus lecontei, Ceutorhynchus lepidus, Ceutorhynchus ovalis, Ceutorhynchus pantellarianus, Ceutorhynchus raffrayanus, Ceutorhynchus sleeperi, Ceutorhynchus squamifer, Ceutorhynchus squamulosus, Ceutorhynchus sulcipennis, Ceutorhynchus tyli, Ceutorhynchus viridipennis pantellarianus, Ceutorhynchus williami, Cidnorrhinus, Cidnorrhinus flavicaudis, Cidnorrhinus vitiosus, Coeliodes conformis, Coeliodes dentimanus, Coeliodes flavicaudis, Coeliodes vitiosus, Hemiphytobius, Homorosoma, Homorosoma sulcipennis, Neosirocalus, Odontocoeliodes, Rhinoncus, Rutidosoma decipiens, Scleropteroides, Sirocalodes, Thamiocolus interstinctus, Thamiocolus pubicollis, Trichosirocalus}, isbn = {0429-288X}, author = {Colonnelli, E.} } @article {9850, title = {Cold hardiness and overwintering survival of the cabbage seedpod weevil, Ceutorhynchus obstrictus}, journal = {Entomologia Experimentalis Et Applicata}, volume = {133}, number = {3}, year = {2009}, month = {December}, pages = {223-231}, abstract = {The cabbage seedpod weevil, Ceutorhynchus obstrictus (Marsham) (Coleoptera: Curculionidae), is a serious pest of brassicaceous crops in temperate regions and a chronic member of the pest complex that attacks canola in Canada. We conducted several laboratory and field experiments to quantify winter survival and its role in the population dynamics of this insect. We estimated the supercooling point of the weevil at -7 [degree]C and its survival over 8 weeks decreased significantly at -5 [degree]C relative to 5 [degree]C, but extending the overwintering period at 5 [degree]C to 18.5 weeks had no effect on mortality. Cumulative sub-freezing degrees estimated from air temperature, and especially from soil temperature, were highly correlated with weevil survival. Our linear regression model predicted poor survival of the weevils in typical winters in northern Alberta. Our results indicate that if milder winters prevail, as predicted by global warming, there is potential for the weevils to establish and become a serious pest in northern canola-growing regions of Canada.}, keywords = {Ceutorhynchus obstrictus}, isbn = {0013-8703}, author = {Carcamo, Hector A. and Herle, Carolyn E. and Otani, Jennifer and McGinn, Sean M.} } @article {9849, title = {Effect of Insect Herbivory on the Architecture and Seed Production of Canola, Brassica napus L}, journal = {Journal of Entomological Science}, volume = {47}, number = {1}, year = {2012}, month = {Jan}, pages = {44-55}, abstract = {Several native Lygus spp. (Hemiptera: Miridae) feed on buds, flowers and immature seeds of canola. These plant resources are also exploited by a recent alien pest now established in southern Alberta, Canada: the cabbage seedpod weevil, Ceutorhynchus obstrictus (Marsham) (Coleoptera: Curculionidae). A caged study was conducted with Brassica napus L. in 2000 and 2002 to determine if various combinations and densities of lygus and seedpod weevils (0, 10 + 10, 20 of either, 20 + 20, 40 + 40, individuals per cage) affected yield and its components such as number of branches, pods and seed weight. Under severely dry conditions, cages with the intermediate (20 + 20) and high (40 + 40) insect combinations had lower grain yield as well as number of racemes and pods per raceme relative to control cages with no insects added. Under more humid conditions in 2002, similar results were observed but the damage by the cabbage seedpod weevil at 20 adults per cage was more apparent than in 2000. These results suggest that in most years the weevil is a more serious pest than lygus bugs but low combined densities do not decrease yield. Furthermore, in southern Alberta at low or moderate densities, these late-season pests do not appear to stimulate plants to overcompensate. There was no indication of competition between these two insects.}, keywords = {Ceutorhynchus obstrictus}, isbn = {0749-8004}, author = {Carcamo, H. A.} } @article {9404, title = {Plant Nutrients and the Spatiotemporal Distribution Dynamics of Ceutorhynchus obstrictus (Coleoptera: Curculionidae) and Its Parasitoids}, journal = {Environmental Entomology}, volume = {39}, number = {4}, year = {2010}, month = {Aug}, pages = {1195-1205}, abstract = {The cabbage seedpod weevil, Ceutorhynchus obstrictus (Marsham), is an alien invasive pest of canola, Brassiere napus L., in North America. Field populations of both adults and larvae are known to be aggregated in their distributions, but the causal mechanism for this clustering is not understood. We investigated the hypothesis that spatial distributions of C obstrictus adults, larvae, and their parasitoids were directly or indirectly related to host plant quality as indicated by leaf tissue nutrient contents. During the years of 2005 and 2007, these insect populations were sampled in a grid pattern in three commercial fields of B. napus located near Lethbridge, Alberta, Canada. Leaf samples were collected from plants in each grid plot and analyzed for nutrient contents Spatial patterns and associations among the collected variables were analyzed using Spatial Analysis by Distance IndicEs software We observed significant spatial associations among C obstrictus adults, larvae, and parasitoids The distributions of C obstrictus adults and larvae were correlated with several plant nutrients, most notably nitrogen and sulfur Evidence was found for a possible nitrogen-sulfur interaction in which ovipositioning C obstrictus females appeared to prefer plants with high levels of sulfur and low levels of nitrogen. Spatial tracking of C obstrictus larvae by its parasitoids was evident in only one field, and this appeared related to comparatively low parasitoid populations in two of the three fields The associations between C obstrictus and plant nutrients may have possible applications in fertility management, trap cropping, and precision insecticide application technology.}, keywords = {Ceutorhynchus obstrictus}, isbn = {0046-225X}, author = {Blake, A. J. and Dosdall, L.M. and Keddie, B. A.} } @article {9232, title = {A review of the species of Mesopolobus (Chalcidoidea: Pteromalidae) associated with Ceutorhynchus (Coleoptera: Curculionidae) host-species of European origin}, journal = {Bulletin of Entomological Research}, volume = {97}, number = {4}, year = {2007}, month = {August}, pages = {387-397}, abstract = {Four species of Mesopolobus Westwood were reared as parasitoids of Ceutorhynchinae hosts in Europe during surveys in 2000-2004. An illustrated key is given to differentiate the four species, M. gemellus Baur \& Muller sp. n., M. incultus (Walker), M. morys (Walker) and M. trasullus (Walker), plus M. moryoides Gibson, a parasitoid of the cabbage seedpod weevil, Ceutorhynchus obstrictus (Marsham), in North America. Pteromalus clavicornis Walker is recognized as a junior synonym of M. incultus syn. n., and Pteromalus berecynthos Walker (also a junior synonym of M. incultus) is considered a correct original spelling. For Disema pallipes Forster (a junior synonym of Mesopolobus morys), a lectotype is designated. Mesopolobus morys is for the first time accurately associated with the seed weevil Ceutorhynchus turbatus (Schultze), a potential agent for classical biological control, of hoary cress, Lepidium draba L. (Brassicaceae), in North America. Mesopolobus gemellus is associated with another seed weevil, Ceutorhynchus typhae (= C.floralis) (Herbst), in pods of shepherd{\textquoteright}s purse, Capsella bursa-pastoris (L.) Medik. (Brassicaceae). Implications of the host-parasitoid associations are discussed relative to the introduction of species to North America for classical biological control of the cabbage seedpod weevil.}, keywords = {Ceutorhynchus obstrictus}, isbn = {0007-4853}, author = {Baur, H. and Muller, F. J. and Gibson, G. A. P. and Mason, P. G. and Kuhlmann, U.} } @article {8555, title = {The parasitoid communities associated with an invasive canola pest, Ceutorhynchus obstrictus (Coleoptera: Curculionidae), in Ontario and Quebec, Canada}, journal = {Canadian Entomologist}, volume = {143}, number = {5}, year = {2011}, month = {Sep}, pages = {524-537}, abstract = {Surveys were conducted to determine the parasitoid communities associated with the cabbage seedpod weevil, Ceutorhynchus obstrictus (Marsham), an important invasive pest of canola in Ontario and Quebec, Canada. More than 18 species of Chalcidoidea (Hymenoptera) were associated with this pest through mass rearings from canola siliques. In southwestern Ontario, the most abundant species were a species of Chlorocytus Graham (23.6\%-48.6\%), Lyrcus perdubius (Girault) (0\%-53\%), L. maculatus (Gahan) (2.8\%-14.7\%), and species of Pteromalus Swederus (0.6\%-23.1\%) (Pteromalidae). In contrast, the most abundant species in Quebec were Trichomalus lucidus (Walker) (Pteromalidae) (33.3\%-56.4\%), unidentified Eulophidae (2.1\%-39.1\%), Mesopolobus gemellus Baur and Muller (Pteromalidae) (1.3\%-21.4\%), and Necremnus tidius (Walker) (Eulophidae) (11.5\%-19.3\%). In the Ottawa, Ontario, area, parasitoids were first recovered in 2008, and Trichomalus perfectus (Walker) (Pteromalidae), M. gemellus, and species of Pteromalus were most prevalent. Mesopolobus gemellus and T perfectus are reported in North America for the first time. Although existing communities appear to provide substantial parasitism (e.g., 6.3\%-26.3\% in 2006), species composition varies among years and differs from that in other regions in North America. Thus, parasitism levels and parasitoid communities of the cabbage seedpod weevil should be monitored to assess whether these will increase or there is a need to introduce more host-specific species from Europe that could provide greater mortality.}, keywords = {Ceutorhynchus obstrictus}, isbn = {0008-347X}, author = {Mason, P. G. and Miall, J. H. and Bouchard, P. and Gillespie, D. R. and Broadbent, A. B. and Gibson, G. A. P.} } @article {6728, title = {New data on the distribution of some weevil species (Coleoptera, Curculionidae) in Poland}, journal = {Wiadomosci Entomologiczne}, volume = {14}, number = {4}, year = {1995}, note = {Nowe dane o rozmieszczeniu niektorych gatunkow ryjkowcow (Coleoptera, Curculionidae) w Polsce.}, pages = {219-226}, type = {Article}, keywords = {Acalles misellus, Ceutorhynchus sisymbrii, Mogulones t-album}, isbn = {0138-0737}, author = {Szypula, Jerzy and Wanat, Marek} } @article {5730, title = {The effect of fertilisers on the pests of oilseed rape}, journal = {Journal of Food Agriculture \& Environment}, volume = {9}, number = {2}, year = {2011}, month = {Apr}, pages = {428-430}, abstract = {The consumption of petroleum products in Croatia and the rest of the world has been increasing. It is expected that the consumption of motor fuels will rise because of the rapid development of transportation, whereas the consumption of fuel for heating will decrease. One alternative to mineral fuels is biodiesel produced from various plant oils, beef suet and used cooking oils. The most important raw materials for the production of biodiesel are oilseed rape (82.82\% of the total) and sunflowers (12.50\%). As the areas of land devoted to oilseed rape and other crops for the production of biodiesel expand, so do the problems of protecting these crops from diseases, pests and weeds and discouraging pest resistance to pesticides. Fertiliser application is of great importance to achieve high yields. The objective of this research was to determine the effect of various quantities of fertiliser on the population density and abundance of the weevils Ceutorhynchus napi Gyllenhal, 1837, Ceutorhynchus pallidactylus Marsham, 1802 (Coleoptera: Curculionidae) and Meligethes aeneus (Fabricius, 1775) (Coleoptera: Nitidulidae) on oilseed rape. The experiment was performed using the Triangle variety of oilseed rape at the Vinokovscak site (Varazdin, Croatia) in 2008. Fertiliser (nutrient KAN) was applied to the fields in three different quantities: 150 (lower quantity), 200 (optimum quantity) and 250 (higher quantity) kg ha-1 During the vegetation period, two visual inspections of the oilseed rape plants were made. Four samples were collected from each of the ten plants in each experimental field. The plants were dissected, and the number of perforations, the lengths of corridors and the numbers of C. napi and C. pallidactylus larvae were recorded. The results showed that there were significant correlations between pest attack and the differing quantities of fertiliser; pest abundance increased with the amount of fertiliser applied. The data obtained show the need to analyse the total amount of nitrogen in the soil and to use fertiliser that corresponds to the actual concentration of nitrogen in the soil and to the nitrogen needs of the plant being sown.}, keywords = {Ceutorhynchus napi, Ceutorhynchus pallidactylus}, isbn = {1459-0255; 1459-0263}, author = {Culjak, Tanja Gotlin and Grubisic, Dinka and Juran, Ivan} }