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We revise all the species of the genus Cholovocera Victor, 1838 (Coleoptera: Endomychidae), with descriptions, illustrations and complete synonymies, based on the examination of 1878 specimens of Cholovocera and a few beetles of other genera, collected by the senior author and from museum collections, including primary types. We recognise eight valid species, resurrecting three species from synonymy, sinking three as new junior synonyms, and describing a new species. Geographic distributions and a key for the identification of all the species are also given. Species which have been incorrectly associated with Cholovocera are listed and discussed.
The myrmecophilous Paederinae rove beetle genus Megastilicus Casey, 1889 from North America is reviewed based on museum specimens. Prior to this study, the genus was monotypic with one species Megastilicus formicarius Casey, 1889 described. Here, we provide a redescription of the genus and the type species, designate a lectotype, and provide pictures of habitus and illustrations of the aedeagus and genital segments. Additionally, we describe a new species for the genus, Megastilicus iowaensis sp. nov., include an identification key to the two species and present the distribution map of both of them, including new state records. We discuss the assignment of the genus to the subtribe Stilicina based on morphological features.
Two new species of Psammoecus Latreille, 1829 from Australia are described: Psammoecus australis sp. nov. and P. venustus sp. nov. A taxonomic revision and diagnoses for other Australian species are provided. Psammoecus obesus Grouvelle, 1919 is recorded from Australia for the first time. Two new synonyms are discovered: Psammoecus t-notatus Blackburn, 1908 = P. amoenus Grouvelle, 1912 syn. nov.; Psammoecus vittifer Blackburn, 1903 = P. concolor Grouvelle, 1919 syn. nov. A lectotype is designated for Psammoecus concolor Grouvelle, 1919.
This paper examines the described species of Cissidium and adds 77 new ones based on a study of material in the Manchester Museum, UK, the Natural History Museum, London, UK and in the possession of Dr Yoshihiro Sawada, Japan. The new taxa are: Cissidium advena sp. nov., C. amazonicum sp. nov., C. amieuense sp. nov., C. angulatum sp. nov., C. angusi sp. nov., C. apterum sp. nov., C. arcuatum sp. nov., C. aristophanousi sp. nov., C. besucheti sp. nov., C. bifoveolatum sp. nov., C. bilineatum sp. nov., C. bomjesus sp. nov., C. brachypterum sp. nov., C. ceylonicum sp. nov., C. clareae sp. nov., C. cryptophagoides sp. nov., C. davaoense sp. nov., C. deanei sp. nov., C. delicatum sp. nov., C. dewhurst sp. nov., C. dividuum sp. nov., C. dybasi sp. nov., C. eciton sp. nov., C. ecuadoriense sp. nov., C. faustum sp. nov., C. flavum sp. nov., C. franzi sp. nov., C. fraternum sp. nov., C. glabratum sp. nov., C. greensladei sp. nov., C. houailou sp. nov., C. ibicarense sp. nov., C. impressum sp. nov., C. inexspectatum sp. nov., C. insulare sp. nov., C. kolombangaricum sp. nov., C. lamington sp. nov., C. lawrencei sp. nov., C. loebli sp. nov., C. logunovi sp. nov., C. losbanos sp. nov., C. lucidulum sp. nov., C. luctuosum sp. nov., C. mahleri sp. nov., C. mindanao sp. nov., C. misellum sp. nov., C. modestum sp. nov., C. montanum sp. nov., C. murphyi sp. nov., C. mussardi sp. nov., C. noumeae sp. nov., C. obscenum sp. nov., C. obscurum sp. nov., C. obsoletum sp. nov., C. opacum sp. nov., C. orami sp. nov., C. peruviense sp. nov., C. pilosellum sp. nov., C. pinense sp. nov., C. plaumanni sp. nov., C. puncticolle sp. nov., C. riparium sp. nov., C. robustum sp. nov., C. rogeri sp. nov., C. seditiosum sp. nov., C. semicalvum sp. nov., C. similatum sp. nov., C. steeli sp. nov., C. subangulatum sp. nov., C. subfaustum sp. nov., C. sueae sp. nov., C. trangse sp. nov., C. upiense sp. nov., C. visendum sp. nov., C. waginicum sp. nov., C. werneri sp. nov. and C. yoruba sp. nov. The division of the genus is discussed and five species groups are established. The majority of the new species are the first records of Cissidium for the 28 countries represented.
Eight new species of Ecuadorian Ptiliidae are described and figured: Nossidium harrietae sp. nov., Ptenidium robustum sp. nov., P. tauriforme sp. nov., P. triangulum sp. nov., Notoptenidium brunneum sp. nov., Americoptilium nigrescens sp. nov., Discheramocephalus nigerrimus sp. nov. and D. striatus sp. nov. The insects were collected by J. McClarin, 2017–2018, in the Napo Province to the southeast of the capital Quito.
The Asian species of the subfamily Thaumastodinae Champion, 1924 are reviewed. Seven new species are described: Acontosceles borneensis sp. nov., Pseudeucinetus papuanus sp. nov., Mexico ogasawaraensis sp. nov., M. baliensis sp. nov., M. papuanus sp. nov., M. palauensis sp. nov. and M. borneensis sp. nov. The genus Babalimnichus Satô, 1994 is treated as a junior synonym of the genus Mexico Spilman, 1972, and three known species of the genus Babalimnichus are transferred to Mexico, viz. M. taiwanus (Satô, 1994) comb. nov., M. masamii (Satô, 1994) comb. nov. and M. splendens (Hernando & Ribera, 2003) comb. nov. Additional specimen data are shown, and new distributional records are as follows: Acontosceles chujoi Yoshitomi & Satô, 2005 from Vietnam; A. zetteli Pütz, 2008 from Laos; Pseudeucinetus javanicus Yoshitomi & Putra, 2010 from Lombok Island; Mexico taiwanus (Satô, 1994) comb. nov. from Lutao, Lanhsu and the Yonaguni-jima Islands; and M. masamii (Satô, 1994) comb. nov. from Kume-jima. A species list of the subfamily Thaumastodinae is given, with ZooBank LSIDs. The phylogenetic relationships of the thaumastodine genera are discussed.
This paper is based on three collections of Ptiliidae from Sarawak totalling more than 2000 specimens made by staff and affiliates of the Natural History Museum, London, between March–July 1978. One new genus Niptella gen. nov with its type species Niptella gutta gen. et sp. nov. and 24 new species are described and figured: Sindosium collinsi sp. nov., Bambara hammondi sp. nov., Bambara subtortuosa sp. nov., Bambara tortuosa sp. nov., Erro brookei sp. nov., Cissidium globulum sp. nov., Cissidium longum sp. nov., Cissidium marshallae sp. nov., Cissidium pauxillum sp. nov., Cissidium subfoveolatum sp. nov., Cissidium triangulum sp. nov., Discheramocephalus nigritus sp. nov., Kuschelidium sarawakense sp. nov., Ptinella alisonae sp. nov., Acrotrichis acuta sp. nov., Acrotrichis belli sp. nov., Acrotrichis bidens sp. nov., Acrotrichis geiseri sp. nov., Acrotrichis globosa sp. nov., Acrotrichis hanskii sp. nov., Acrotrichis muluensis sp. nov., Acrotrichis plaga sp. nov., Storicricha resticula sp. nov., Storicricha umbella sp. nov. New records and information are provided for Dipentium latum Darby, 2019; Ptiliola semitaria Darby, 2018; Baeocrara minima Darby, 2019; Acrotrichis agricola Darby, 2019; Acrotrichis britteni Johnson, 1969; Acrotrichis bubalis Darby, 2019; Acrotrichis cognata (Matthews, 1877) and Acrotrichis cursitans (Nietner, 1856).
The first fossil wedge-shaped beetle (Coleoptera, Rhipiphoridae) from the middle Jurassic of China
(2017)
A new species of Ripiphoridae Gemminger & Harold, 1870, Archaeoripiphorus nuwa gen. et sp. nov., is described and illustrated from a well-preserved impression fossil from the Middle Jurassic Jiulongshan Formation collected at Daohugou Village, Shantou Township, Ningcheng County, Inner Mongolia, China, representing the oldest documented occurrence of the Ripiphoridae described from the Mesozoic era. It shares several characters belonging to two basal ripiphorid subfamilies (Pelecotominae and Ptilophorinae), but it cannot be attributed to either of them and is herein placed as Subfamily incertae sedis. An overall similarity between Archaeoripiphorus gen. nov. and Recent Pelecotominae and the occurrence of wood-boring beetles in the same Formation implies a similar parasitoid host preference in xylophagous beetles for A. nuwa gen. et sp. nov., putting a spotlight on a potential host-parasitoid relationship in the Mesozoic.
Sharon gen. nov. is here described to include Asaphes? amoenus Philippi, 1861 comb. nov. from Chile. A redescription of the species is based on the female holotype and material from different geographic locations. Candèze (1891) placed Asaphes amoenus and Parasaphes elegans in the suprageneric group Asaphites. We discuss differences between Sharon gen. nov. and Hemicrepidius Germar, 1839, where Asaphes amoenus was later placed by Blackwelder (1944). Based on morphological characters, Sharon gen. nov. appears to be related to Parasaphes Candèze, 1881, Wynarka Calder, 1986, and Tasmanelater Calder, 1996, all from Australia, suggesting Gondwanan relationships.
The ground beetle genus Cymindis is the most species rich amongst genera in the carabid subtribe Cymindidina (tribe Lebiini). Four subgenera are often recognized, i.e. Cymindis (sensu stricto) Latreille, Afrotarus Jeannel, Taridius Chaudoir and Pinacodera Schaum. Cymindis (sensu stricto) has a predominately Holarctic distribution (Hunting 2013) and includes Cymindis alutacea Wollaston, C. dohrnii Wollaston and C. anchomenoides Wollaston (the last one sometimes placed in Tarulus Bedel, either ranked as a genus or a subgenus), all three endemic to the Cape Verde Islands (Geisthardt 1988, 1996).
Distributional records of the 71 tiger beetle species and subspecies known for Argentina are given together with a key and habitus photos (Coleoptera: Cicindelidae). Brasiella (Brasiella) cuyabaensis Mandl, 1970 and Brasiella (Gaymara) rotundatodilatata (Horn, 1925) are reported as new for the fauna of Argentina. Brasiella (Brasiella) stamatovi (Sumlin, 1979) is transferred to Cylindera (Plectographa), becoming C. (P.) stamatovi (Sumlin), new combination. Cylindera (Plectographa) siccalacicola (Sumlin, 1979) is placed into synonymy under Cylindera (Plectographa) hassenteufeli (Mandl, 1960), new synonymy. A lectotype is designated for Cylindera (Plectographa) patagonica bergiana (Horn, 1895).
Multiple sources of confusion surround the identity of Ochodaeus grandiceps Fairmaire, 1897, from Sichuan, China (Coleoptera: Ochodaeidae). Herein the type specimen is illustrated to solve these taxonomic issues. Examination of the holotype indicates that the species must be transferred to the genus Nothochodaeus Nikolajev, 2005, resulting in a new combination. The genus Mimochodaeus Nikolajev, 2009, based on a misidentifi cation of O. grandiceps as its purported type species, is discussed. Finally, Cuban specimens had been treated erroneously as belonging to O. grandiceps, and so the species had remained undescribed. A new species, Parochodaeus perdidus, is described to accommodate them.
A third Supplement to the 1992 Catalog of the Scolytidae and Platypodidae (Coleoptera) of the World (Wood and Bright 1992) is presented. This Supplement updates the taxonomy, distribution, and biology pertaining to these families of Coleoptera from 2000 to the end of 2010. A few 2011 taxonomic references are included in order to make the nomenclature as current as possible. The format of this Supplement differs slightly from the format of the original 1992 Catalog and the two previous Supplements. Only references relating to general biology, systematics and distribution were selected to be included. Tribal arrangement follows the scheme established in the 1992 World Catalog, with additions. Each genus is listed alphabetically under the current tribe and the species are listed alphabetically under the current genus. Additional information on figures, distribution, hosts, and references relating to the above are given. The bibliography used with this Supplement lists 580 references, most published from 2000 to the end of 2010. New synonymy proposed: Phloeotribus carinatus Burgos and Equihua, 2003 (= Phloeotribus ebeneus Wood, 2007). New combinations proposed: Phloeosinus kinabaluensis Bright to Hyledius; Phloeosinus phyllocladus Bright to Hyledius.
An argument is made for the retention of the family status of the Scolytidae and Platypodidae as members of the superfamily Curculionoidea. A new subfamily and tribal arrangement is proposed: SCOLYTIDAE comprising 13 subfamilies, Hylesininae, with 12 tribes, Hyorrhynchinae, with one tribe; Scolytinae, with one tribe; Hexacolinae, with one tribe; Cylindrobrotinae, with one tribe; Scolytoplatypodinae, with one tribe; Cactopininae, with one tribe; Carphodicticinae, with one tribe; Micracidinae, with one tribe; Crypturginae, with one tribe; Ipinae, with six tribes; Cryphalinae, with one tribe and Corthylinae, with two tribes and PLATYPODIDAE comprising three subfamilies, Coptonotinae, with three tribes; Tesserocerinae, with two tribes and Platypodinae, with one tribe.
Some Neotropical Lepturini are studied: Euryptera latipennis Audinet-Serville, 1828 (type species) redescription, Strangalia dimidiate (Redtenbacher, 1868) new combination (= Strangalia melanophthisis (Berg, 1889) new combination, new synonymy, and lectotype designation), Strangalia fulvicornis (bates, 1872), new record from Argentina; Strangalia melanùra (Redtenbacher, 1868) new combination from Brazil; Strangalia rubricollis (Bates, 1870) new record from Peru. “Leptura” bonariensis Burmeister , 1865 is not a true Leptura, being exotic for Argentina and for the Neotropical fauna; the type-specimen was mislabeled as coming from Buenos Aires. Elytral patterns, posterior tarsi, antennae, 5th apparent urosternite, and elytral apices of E. lapipennis, and S. dimidiate are illustrated. A key to Argentinian genera and species is provided.
Xylotrechus rameyi, new species, (Coleoptera: Cerambycidae) is described from southern Utah. Comments on its biology including habitat, host plants and larval history are provided along with photographs of the holotype, allotype, the related species X. insignis LeConte, and the larval galleries and pupal chamber.
A checklist and classification of the species of Elateridae reported from mainland Ecuador are given. Anchastus boulardi Chassain, Cardiorhinus apicalis Golbach, Physorhinus marginatus Candèze, and P. sexnotatus Steinheil are reported from Ecuador for the first time. The recorded elaterid fauna of Ecuador is now represented by 140 species, 38 genera, and 9 subfamilies, which are low taxon richness numbers when compared to those of neighboring countries.
Thirty five Western Hemisphere species of Glaresidae (Coleoptera) are recognized. Descriptions of new species, redescriptions of those previously described, keys to groups and species, and illustrations of pertinent morphological characters are presented. Nineteen newly described species are Glaresis australis, G. bajaensis, G. bautista, G. caenulenta, G. california, G. costaricensis, G. costata, G. falli, G. dentata, G. donaldi, G. imitator, G. limbata, G. montenegro, G. paramendica, G. sabulosa, G. tumida, G. warneri, G. yanegai, and G. zacateca. Glaresis cartwrighti Gordon is recognized as a junior synonym of G. inducta Horn.
Seventy-nine Cerambycidae and two Vesperidae species not previously recorded from Bolivia are listed along with the department where they were collected, and are thus added to the known fauna. An additional 22 species from existing publications, but whose Bolivian distribution is not recorded in the 2013 version of Bezark and Monné (2013), are listed separately to assist inclusion in this important reference. These records, along with the 60 new species described (through February, 2013) since Wappes et al. (2011), brings the total number of Cerambycidae and, closely related families Disteniidae, Oxypeltidae and Vesperidae, to 1,717 species known from Bolivia. New departmental records for another 254 species are listed. Color illustrations for 80 of the 81 species newly recorded from Bolivia are provided. Among the new records for Bolivia is Lathroeus oreoderoides Thomson, 1864 previously known only from South America without exact locality, hence this is its first recorded distribution. A male of Myzomorphus Dejean, 1835 collected at the same time and locality as a female Myzomorphus amabilis (Tippmann, 1960) is likely the previously unknown male of the species. Both sexes are illustrated.
A key is provided for the twelve taxonomic groups within the genus Therates Latreille (Coleoptera: Cicindelidae). The chennelli group is reviewed here and a key to the 53 species known for this group is provided. Each species is illustrated, and a detailed description of its morphology and distributional records are provided. Therates khaoyaii, Th. pearsoni, Th. safraneki, Th. schuelei and Th. sigridgeissleri are described as new to science. Therates differens Sawada and Wiesner, 1999 is placed into synonymy under Th. concinnus Gestro, 1888. Therates tonkinensis kubani Wiesner, 1988 is placed into synonymy under Th. tonkinensis Horn, 1902 and Th. belokobylskiyi Matalin and Wiesner, 2006 is placed into synonymy under Th. haucki Moravec and Wiesner, 2001. Lectotypes are designated for Th. waagenorum Horn, 1900, Th. clavicornis Horn, 1902, Th. tonkinensis Horn, 1902 and Th. annandalei Horn, 1908. Therates baolocensis Wiesner, 1996 is elevated to species rank.
A revision of the known African species of Psammoecus is given, including redescriptions and illustrations of diagnostic characters. Extensive material from the Musée royal de l’Afrique centrale (Tervuren) is studied. Two new species are described: Psammoecus leleupi sp. nov., and Ps. luchti sp. nov. Four specific names are synonymized: Psammoecus excellens Grouvelle, 1908 = Ps. trimaculatus Motschulsky, 1858; Ps. alluaudi Grouvelle, 1912 = Ps. trimaculatus Motschulsky, 1858; Ps. longulus Grouvelle, 1878 = Ps. longicornis Schaufuss, 1872; Ps. nitescens Grouvelle, 1914 = Ps. laetulus Grouvelle, 1914. A key to the African species is provided.
The genus Erlandia (Cerambycinae: Erlandiini) was described by Aurivillius in 1904, containing a single species, Erlandia inopinata, distributed in Bolivia, Argentina, and Paraguay. Anew species, E. megacephala, from Argentina is described, and illustrated here. A key and distribution map of both species are provided, with a generic diagnosis using characters of both species.
Two new species collected in northwestern Venezuela, Macrelmis milleri aneI M. hayelwe, are described and illustrated by line drawings and scanning electron micrographs. Both species are assigned to the new species group Macrelmis milleri, and characters of the new species group are described. A key to the species of the group is given.
Five new species of anilline ground beetles (Carabidae: Trechinae: Bembidiini) are described from the Appalachian Mountains and Piedmont Plateau of eastern United States. Two species, Anillinus unicoi n. sp. (from the Unicoi Mountains, North Carolina) and A. carltoni n. sp. (from the Great Smoky Mountains, North Carolina/Tennessee), inhabit the crests of adjacent mountain ranges, and share similarities with A. moseleyae Sokolov and Carlton. These three comprise a high-altitude group of species in the region. The third species A. chilhowee n. sp. is one of the smallest representatives of the loweae-group of species. It differs from its relatives in characters of male genitalia and inhabits the isolated Chilhowee Mountain ridge between Ocoee and Hiwassee Rivers (Polk County, Tennessee). The fourth and fifth species possess complex arrays of spines on the internal sac of the aedeagus, similar to A. valentinei (Jeannel) from caves of Alabama. In the case of A. smokiensis n. sp. (Gregory Cave, Great Smoky Mountains National Park, Tennessee), the aedeagal similarity suggests a close relationship with A. valentinei. Anillinus chandleri n. sp. from the Piedmont Plateau (Sumter National Forest, South Carolina) is similar to A. cornelli Sokolov and Carlton, also described from the Carolina Piedmont region. Keys are provided for the new species, where possible.
An additional 137 species and two tribes are added to the cerambycid fauna of Bolivia while 12 species are deleted. This brings the total number of species known from Bolivia to 1,561. Comments and statistics regarding the growth of knowledge on the Bolivian Cerambycid fauna and species endemicity are included.
This is a preliminary inventory of Coleoptera, Lucanoidea, Scarabaeoidea found up to now in Vendée (France). The supposed status of each of these species (frequency and distribution …) is mentioned within the scope of our present knowledge.
An updated checklist of the Cerambycidae of Costa Rica is presented. This new version includes 1,071 species and subspecies in 429 genera, 69 tribes, and six subfamilies. Of these, 181 are new country records and 136 species are known only from Costa Rica. In addition, provincial distribution data are provided for each species. The checklist supports a wealth of scientific literature in many other groups of flora and fauna indicating Costa Rica has high species richness of cerambycid beetles.
Wie schon in den vergangenen Jahren fand auch in diesem Jahr wieder ein praxisorientierter Workshop im Anschluss an die COLEO‑ Jahreshauptversammlung in der Urdenbacher Kämpe bei Monheim statt. Im Mittelpunkt des diesjährigen Workshops standen Fragen, Tipps und Hilfestellungen aus der praktischen Coleopterologie. Intention und Ziel war es, jungen Kollegen und Neueinsteigern Hilfen in diesen allgemeinen und grundlegenden Fragen geben.
Colydium elongatum FABRICIUS 1787, weitere Funde aus Nordrhein : (Insecta, Coleoptera, Colydiidae)
(2003)
Nachdem Colydium elongatum erstmalig in Nordrhein nachgewiesen und publiziert wurde (REIßMANN 2002), konnte die Art erstmalig auch linksrheinisch nachgewiesen werden. Während der Ausarbeitung dieser Anmerkungen erfuhr der Verfasser, dass die Art schon am 2. Juni 1991 in den Niederlanden bei Epen im Bovenste Bosch unter der Rinde einer toten Eiche von Oscar VORST gefunden und als Erstnachweis für die Niederlande auch publiziert wurde (VORST 1994). Das lässt vermuten, dass C. elongatum über die Niederlande nach Nordrhein einwandert.
Ausführlich werden die Wirtspflanzenbindungen von Acalles poneli Stüben 2000 auf Tenerife (Teno Mts.) beschrieben. Nicht Euphorbia obtusifolia Poir., wie bisher angenommen, sondern Euphorbia balsamifera Ait. und Euphorbia atropurpurea (Brouss.) W.&B. sind die Fraß- und Entwicklungspflanzen von Acalles poneli. Dabei gilt es für die Imagines eine hohe Hürde zu nehmen: die insektentoxisch wirkenden Milchsäfte der Euphorbiaceae („Vermeidungsstrategie“). Die erfolgreiche Zucht von Acalles poneli an Euphorbia atropurpurea, der Wirtspflanze der „ersten Wahl“, wird vorgestellt, und die unterschiedlichen Umweltparameter während der verschiedenen Larvalstadien werden mit den tatsächlichen Habitatstrukturen auf Tenerife verglichen. Das Ergebnis: Nicht so sehr das Vorhandensein der Wirtspflanze Euphorbia atropurpurea an sich ist entscheidend, sondern die Möglichkeit des raschen Wechsels von extrem feuchten zu extrem trockenen Habitatstrukturen („Wechselhabitate“) während der Metamorphose sind für Acalles poneli und für den Zeitpunkt der Eiablage ausschlaggebend! Abschließend werden erstmalig die Eier und Larven von Acalles poneli beschrieben.
Als Ergebnis eines aufwendigen, aber erfolgreichen Kreuzungsexperimentes von Acalles aeonii Wollaston 1864 x Acalles bodegensis Stüben 2000 wird folgende Synonymie endgültig bewiesen: Acalles aeonii Wollaston 1864 = Acalles bodegensis Stüben 2000 syn. nov. Zucht und Kreuzung der genannten Arten werden über zahlreiche Generationen hinweg an der Entwicklungspflanze Aeonium holochrysum W. & B. detailliert beschrieben und die Ergebnisse diskutiert. Mit einer ausführlichen Diskussion zur Notwendigkeit von Kreuzungsexperimenten in der taxonomisch-systematischen Forschung.
Zwischen den Jahren 1999 und 2002 wurden am Heimberg bei Schloßböckelheim, Mittlere Nahe / Rheinland Pfalz auf ausgewählten Flächen coleoptereologische Bestandserhebungen durchgeführt. Im Untersuchungszeitraum wurden 1191 Käferarten nachgewiesen. 203 Arten sind in der Roten Liste aufgeführt. Für die Rheinprovinz konnten 8 Spezies neu nachgewiesen werden. 51 Arten wurden erstmals für das Nahegebiet festgestellt.
Am Kaiserstuhl bei Freiburg in Südwestdeutschland fand ich im Oktober 1999 die hauptsächlich asiatisch verbreitete Epuraea ocularis FAIRMAIRE; es ist die erste Meldung dieser Art aus Deutschland. Die ähnliche pantropische Art E. luteola ERICHSON breitet sich ebenfalls in Südeuropa aus und könnte auch nach Deutschland vordringen. Zur Identifizierung von E. ocularis und E. luteola wird die Bestimmungstabelle der mitteleuropäischen Epuraea-Arten (SPORNRAFT 1963) ergänzt.
Engerlinge, die Larven der Scarabaeidae (Coleoptera), gehören weltweit zu den wichtigsten Bodenschädlingen und ihre Bedeutung scheint zuzunehmen. Wirksame, aber umweltschädigende und gesundheitsgefährdende Insektizide wurden verboten. In gewissen Regionen oder für bestimmte Indikationen waren nie welche bewilligt und im biologischen Anbau standen keine Bekämpfungsmittel zur Verfügung. Aus diesen Gründen wurde die Entwicklung von Mykoinsektiziden gegen Ende des letzten Jahrhunderts forciert. Heute stehen in der Schweiz zwei Produkte zur Verfügung: Ein Produkt basierend auf Beauveria brongniartii (Sacc.) Petch (Ascomycetes, Clavicipitaceae) zur Bekämpfung der Maikäfer (Melolontha melolontha L.)-Engerlinge und ein anderes basierend auf Metarhizium ansiopliae (Metschn.) Sorokin (Ascomycetes, Nectriaceae) zur Bekämpfung der Engerlinge des Juni- und des Gartenlaubkäfers [Amphimallon solostiale L., A. majale (Razoum.), Phyllopertha horticola L.]. Ersteres ist seit seiner Markteinführung 1991 zum Mittel der Wahl geworden, rund 2500 ha wurden bis heute damit behandelt (Keller, 2000a, 2004). Die Erfahrungen zeigen, dass besonderes Augenmerk auf die Qualität des Produktes und die Applikation sowie auf den Applikationszeitpunkt gelegt werden muss. Mit genetischen Markern stehen wirksame Hilfsmittel zum Studium der Ausbreitung, der Persistenz und der Nebenwirkungen zur Verfügung (Enkerli et al. 2001). Bei der Anwendung von M. anisopliae bestehen noch wenige Praxiserfahrungen. Das Produkt wurde bisher vorwiegend auf Golfplätzen eingesetzt. Über Langzeitwirkungen, die im Falle der Blastosporenanwendung von B. brongniartii gut dokumentiert sind (Keller, 2004), liegen erst wenige Daten vor. In den letzten Jahren wurden vermehrt Engerlingsschäden beobachtet, die durch zwei oder mehr Arten von Engerlingen verursacht werden. Wenn Maikäfer-Engerlinge beteiligt sind, stellt sich das Problem, dass zwei Pilzarten zur Bekämpfung eingesetzt werden müssen. Zur Zeit laufen Untersuchungen in solchen Schadgebieten, die Aufschluss geben werden über die wirksamste Art der Behandlung und über mögliche Interaktionen zwischen den Pilzen. In diesem Beitrag werden die neuesten Untersuchungsergebnisse vorgestellt.
Gewöhnliche Ausschnitte unserer Kulturlandschaft sind oft schlechter untersucht als unter Schutz stehende Landschaftsbestandteile. So war z.B. die Artenausstattung mancher Naturwälder eher bekannt als die Artenausstattung der umliegenden Nutzwälder. Durch die Initiativen und Forschungsprojekte u.a. von Ammer & al. (1995) wurde dann deutlich, dass auch Nutzwälder einen wertvollen Beitrag zur Artenvielfalt leisten können. Bei der Erforschung der Nutzwälder sind jedoch Kiefernforste nach wie vor vernachlässigt worden. Nur Arbeiten von Möller (2000) und Möller & Jakobitz (2003) in Brandenburg stellten hier wichtige Schritte dar, neuerdings ergänzt durch z.B. Reike & al. (2005). Im Folgenden werden neu ausgewertete Daten aus einem vom BMBF geförderten Forschungsprojekt vorgestellt, in dem sehr umfassende Grunderhebungen der in genutzten Kiefernforsten Brandenburgs vorkommenden Arthropoden durchgeführt wurden (Schulz & al. 2004, Majunke & al. 2005). Die folgenden Auswertungen konzentrieren sich auf die Artendiversität der an Kiefern (Pinus sylvestris L.) erfassten Käfer in Kiefernreinbeständen und auf die stratenspezifische Verteilung.
Organisms are complex entities whose study has necessitated an increasingly reductionistic stance in modern biology (CAPLAN 1987). As a consequence, biology as a science has been split up into numerous sub-disciplines. However, this extremely reductionistic philosophy must not be taken as marking the endpoint of biological research but should be reappraised as the beginning of a new integrative approach encompassing the entire organism (SAUER 1992). This view has been promoted since the second half of the 20th century with the rise of new disciplines such as ecophysiology and ethoecology. Moreover, in morphology, an integrative approach with regard to the form and function of organisms in their relationship to the external environment is becoming increasingly important (e.g. KARR & JAMES 1975, MOTTA & KOTRSCHAL 1992, REILLY & WAINWRIGHT 1994).
Über das Eiablage Verhalten und die Faktoren, welche die Eiablage begünstigen, ist bei den meisten der fast 20000 Tenebrioniden nichts bekannt. Lediglich bei einigen wirtschaftlich wichtigen Arten gibt es dazu Untersuchungen (JAKOBS & RENNER 1988). Als eine der wasserärmsten Wüsten der Welt ist die Namib reich an endemischen Coleopteren – insbesondere 320 Tenebrionidaearten (HOLM & DE MEILLON 1996). Langzeituntersuchungen an Tenebrioniden (HENSCHEL 1994, HENSCHEL et al. 1998) legen die Vermutung nahe, dass Schwankungen der Populationen auf unterschiedliche Reproduktionsstrategien zurückzuführen sind. Klimatische Ereignisse, die der Namib Feuchtigkeit zuführen, sind für Entwicklung und Reproduktion besonders beachtenswert (NICOLSON 1990).