DOCSLIB.ORG

TRICHOPTEROLOGICAL LITERATURE Please Help To

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

ZOBODAT - www.zobodat.at Zoologisch-Botanische Datenbank/Zoological-Botanical Database Digitale Literatur/Digital Literature Zeitschrift/Journal: Braueria Jahr/Year: 1998 Band/Volume: 25 Autor(en)/Author(s): Malicky Hans Artikel/Article: Trichopterological Literature 35-43 © Hans Malicky/Austria; download unter www.biologiezentrum.at 35 TRICHOPTEROLOGICAL LITERATURE 1992 Please help to complete this literature list by Barnese,L.E., Lowe,R.L. 1992 sending me reprints or references, including Effects of substrate, light, and benthic dissertations and similar papers. If you send invertebrates on algal drift in small streams. - reprints, please make sure that the complete J.NABS 11:49-59. (on Brachycentrus americanus) reference is included, that is the title of the journal, the volume, the year of publication, and Krno,I. 1992 the original page numbers. (Trichopterans of the Zitava basin). Rosalia 8:135-146. (in Slovak) 1980 Kuhara,N. 1992 Bautista,M.-l. 1980 Notes on insect fauna of the Nagahashi Naebo Contribucio a I'estudi dels Trichôpters d'Andorra. area, Otaru, central Hokkaido, Japan. No.4 - Butll.Int.Cat.Hist.Nat.(sec.Zool.) 45:89-96. Trichoptera. - Bull.Otaru Mus. 6:45-46. (Japanese) 1989 Lewis,S.E., Carroll,M.A. 1992 Caddisfly case impression from the John Day Lewis,S.E. 1989 Formation (Oligocène), north central Oregon. Bibliographic data on fossil Trichoptera from the Occ.pap.Paleobiol .St Cloud State Univ. 6(2):1-6. Upper Mesozoic and the Cenozoic of the Nearctic, Neotropical, Palearctic and Oriental Lewis,S.E., Rudolph, B.D., Kaczmarek, J.C. 1992 zoogeographical regions. - Occ.pap.Paleobiol .St Fossil Trichoptera from the Ruby River Range Cloud State Univ. 3(7):1-22. (Oligocène), near Alder, Montana. Occ.pap.Paleobiol.St Cloud State Univ. 6(3):1-9. 1990 Lewis,S.E., Heikes,P.M. 1990 1993 Entomofauna from the Emerald Creek site 1 (Miocene) near the Sunshine Mine, Benewah County, Dallai,R., Afzelius,B.A. 1993 Idaho. - Occ.pap.Paleobiol.St Cloud State Univ. Development of the accessory tubules of insect sperm flagella. - J.Submicroscopic Cytol .Pathol. 25:499-504. Lewis,S.E., Heikes,P.M. 1990 Entomofauna from the Emerald Creek site 2 Lindenberg,S. 1993 (Miocene) near Fernwood, Idaho. Application of the gut fluorescence method on the Occ.pap.Paleobiol.St Cloud State Univ. 4(15) : 1-5. littoral herbivore, Tinodes waeneri (Trichoptera), in Lake Esrom, Denmark. - Verh.lVL 25:587-592. Lewis,S.E., Heikes,P.M., Lewis,K.L. 1990 Entomofauna from the Ruby River Basin (Oligocène) Manuel,K.L., Bohart.R.M. 1993 near Alder, Montana. --Occ.pap.Paleobiol .St Cloud First report of a twisted-wing insect (Strepsiptera) State Univ. 4(8):1-15. larva in a caddisfly (Trichoptera). - Ent.News 104:139. Lewis,S.E., Heikes,P.M., Lewis,K.L. 1990 Entomofauna from the Clarkia site (P-33) (Miocene) Mey,W. 1993 near Clarkia, Idaho.- Occ.pap.Paleobiol.St Cloud Kommentiertes Verzeichnis der Köcherfliegen State Univ. 4(10):1-8. (Trichoptera) der Länder Berlin und Brandenburg, pp.135-145. - In: Gerstberger,M., Mey,W. (Hrsg.): Lewis,S.E., Heikes,P.M., Lewis,K.L. 1990 Fauna in Berlin und Brandenburg. Schmetterlinge Entomofauna from the Brick Yard site (Miocene) und Köcherfliegen. Berlin. near Spokane, . Washington.- Occ.pap.Paleobiol.St Cloud State Univ. 4(11):1-16. Soshkin.D.V. 1993 Parasitic protozoans in water larvae of insects in 1991 the basin of the river Ucha near Moscow. - Parasitologija (St .Petersburg) 27:327-331 . (Russian) Krno,I. 1991 Macrozoobenthos of the Tatra lakes littoral (The High Tatras) and its affection by acidification. - 1994 Biologia (Bratislava) 46:495-508. Burkhardt.R. 1994 Krno,I. f 1991 Aspekte der ökologischen Isolation der Trichopteren Macrozoobenthos litorâlu jazier zépadnych Tatier a in den Fließgewässern des Vogelsberges. - ich odtokov. - Zbornîk prâc o tatranskom narodnom Beitr.Naturk.Osthessen 29:59-88. parku 31:217-227. Kiffney.P.M., Clements,W.H. 1994 Lewis,S.E., Heikes,P.M. 1991 Effects of heavy metals on a macroinvertebrate Fossil caddisfly cases (Trichoptera), Miocene of assemblage from a Rocky Mountain stream in eastern Washington, USA.- Occ.pap.Paleobiol.St experimental microcosms. - J.NABS 13:511-523. Cloud State Univ. 4(18):1-8. Muotka,T., Penttinen,A. 1994 Lewis,S.E., Heikes.P.M. 1991 Detecting small-scale spatial patterns in lotie Fossil caddisfly wing (Trichoptera), Miocene of predator-prey relationships: statistical methods and eastern Washington, USA.- Occ.pap.Paleobiol.St a case study. - Can. J. Fish. Aqu. Sei. 51:2210-2218. Cloud State Univ. 4(19):1-6. Regel, K.V. 1994 Lewis,S.E., Heikes,P.M. 1991 Microsomacanthus paraparvula sp.n. (Cestoda: Fossil caddisfly case (Trichoptera), Oligocène of Hymenolepididae), the parasite of diving ducks of eastern Washington, USA.- Occ.pap.Paleobiol.St Chukotka. - Parasitologija (St.Petersburg) Cloud State Univ. 4(20):1-7. 28:92-98.(Russian) (on Grensia praeterita) Lewis,S.E., Heikes,P.M. 1991 Ruiz Garcia,A. 1994 Fossil caddisfly case (Trichoptera), Oligocène of Primera cita de Rhyacophila fonticola Giudicelli, north central Oregon, U.S.A. - Occ.pap.Paleobiol.St 1984 (Trichoptera: Rhyacophilidae) en la Peninsula Cloud State Univ. 4(21):1-6. Ibérica. - Bol .Asoc.Esp.Ent. 18:105. © Hans Malicky/Austria; download unter www.biologiezentrum.at 36 Soto,J.de, Fernandez-Alaez,M., Luis-Calabuig,E., Krno, I., Sporka,F., Tirjakovâ,E., Bulânkovâ,E. Fernandez-Alaez,C. 1994 1995 Spatial and temporal distribution of the caddisfly Influence of the construction of the Turcek reser- (Trichoptera) communities of the Si I basin (NW voir on the organisms of the river bottom. - Fol. Spain). - Verh.lVL 25:1716-1722. Fac.Sei .Nat.Univ.Masaryk.Brunensis, Biol. 91:53-62. Yangdong Pan, Lowe,R.L. 1994 Kru?nik,C. 1995 Independent and interactive effects of nutrients Pohorske mladoletnice. - Proteus 57:364-365. and grazers on benthic algar community structure. Hydrobiologia 291:201-209. (on Helicopsyche MangeaudjA. 1995 boreal is) Tiempo optimo de captura de Trichoptera adultos (Insecta), utilizando trampas de luz. Yasuno,M., Hatakeyama,S. 1994 Rev.Asoc.Ci.Nat.Litoral 26:61-63. Monitoring of heavy metal pollution with freshwater invertebrates. Pp. 158-160. - ln:Salanki,J., Masteller.E.C. 1995 Jeffrey,D., Hughes, G.M. (eds. ): Biological Emergence of aquatic insects during March-April mkonitoring of the environment: a manual of 1993 from streams in the Chiricahua National methods. CAB International, Paris. 167 pp. Monument. - US Forestry Service General Tech.Rep. RM 264:586-589,665. 1995 Muir,D.C.G., Pastershank,G.M., Crosley,R., Alecke,C. 1995 Noton,L., Ramamoorthy,S., Brownlee,B. 1995 Trichopterenstudien im Einzugsgebiet des Ladberger Pathways of accumulation and temporal trends of Mühlenbaches (Münsterländer Tieflandbucht). PCDD/Fs in fishes downstream from a bleached Verh.Westdt.Ent.tag 1994:119-131. kraft pulp mill on the Athabasca River (Alberta). - Organohalogen Compounds 24:463-468. AndrikovicSjS., Kiss,0., Mikus.L., Vizslan,L. 1995 Adatok a Zempléni-hegység Trihoptera faunâjânak Novokshonov.V.G., lvanov,V.D., Sukacheva,I.D.1995 ismeretêhez. - Acta Acad.Agr.N.S. New Jurassic caddis flies (Insecta, Phryganeida - 21(Suppl.1):117-124. Trichoptera) from Siberia and Mongolia. Paleontol.J. 29:157-163. Bohle.H.W. 1995 Gehäuse der Köcherfliegen - Struktur, Entstehung Pan,Y., Lowe,R.L. 1995 und Funktion. - Verh.Westdt.Ent.tag 1994:143-154. The effects of hydropsychid colonization on algal response to nutrient enrichment in a small Cain,D.J., Luoma,S.N., Axtmann,E.V. 1995 Michigan stream,U.S.A. - Freshw.Biol. 33:393-400. Influence of gut content in immature aquatic insects on assessment of environmental metal Pöpperl,R., Otto,C.-J. 1995 contamination. - Can.J.Fish.Aqu.Sei. 52:2736-2746. Zur Fangbarkeit merolimni scher Insekten mittels Lichtfalle. Untersuchungen am Belauer See Camargo, J.A., Garcia de "Jalon, D. 1995 (Schleswig-Holstein). - Schr.Natwiss.Ver. Structural and trophic changes in a riverine SehIesw.-Holst. 65:25-45. macrobenthic community following impoundment for hydroelectric power generation. - J.Freshw.Ecol. Qian Rong, Sridhar, K.R., Bärlocher, F. 1995 10:311-317. Food selection in three leaf-shredding stream invertebrates. - Hydrobiologia 316:173-181. (on Camargo,J.A., LaPoint, T.W. 1995 Pycnopsyche guttifer) Fluoride toxicity to aquatic life: a proposal of safe concentrations for five species of Palearctic Regel,K.V., Kashin,V.A. 1995 freshwater invertebrates. A life cycle and fine morphology of embryonic Arch. En vironm. Con tarn. Toxicol. 29:159-163. shells of Microsomacanthus paraparvula (Cestoda: Hymenolepididae) the parasite of diving ducks in Collier,«.J., Smith,B.J. 1995 Chukotka. - Parasitologija (St.Petersburg) Sticky trapping of adult mayflies, stoneflies and 29:511-519. (on Grensia praeterita) caddisflies. alongside three contrasting stream near Hamilton, New Zealand. - NZ Nat.Sei. 22:1-9. Reusch,H., Otto,C.-J., Peters, A. 1995 Kontrol I Untersuchungen zur ökologischen Effiuzienz Gawne.B. 1995 von Sohlgleiten.- Fließgewässerrenaturierung in der Effects of feeding Agapetus species (Trichoptera) Praxis: 141-156. Niedersächs. Landesamt für on the density of epilithon in an Australian Ökologie, Hildesheim. upland stream. - Mar.Freshw.Res. 46:991-997. Ruiz Garcia,A. 1995 Gawne.B., Lake,P.S. 1995 Primera cita de Ithytrichia dovporiana Effects of microspatial complexity on a Botosaneanu, 1980 (Trichoptera: Hydroptilidae) en herbivore-epillthon interaction in an Australian la Penînsula Ibérica). - Boln.Asoc.esp.Ent. 19:203. upland stream. - Freshw.Biol. 33:557-565. (on Agapetus monticolus) Schuldt.J.A., Hershey,A.E. 1995 Effect of salmon carcass decomposition on Lake Geissen,H.-P. 1995 Superior tributary streams. - J.NABS 14:259-268. Bemerkenswerte Wasserinsekten aus dem Raum Koblenz (Insecta: Heteroptera, Ephemeroptera, Tang,J.-X., Siegfried,B.D. 1995 Diptera, Trichoptera, Planipennia). - Fauna Flora Comparative uptake of a pyrethroid and Rheinland-Pfalz 8:25-32. organophosphate insecticide by selected aquatic insects. - Bull .Environ.Cont.Tox.
Recommended publications
  • Ohio EPA Macroinvertebrate Taxonomic Level December 2019 1 Table 1. Current Taxonomic Keys and the Level of Taxonomy Routinely U

    Ohio EPA Macroinvertebrate Taxonomic Level December 2019 1 Table 1. Current Taxonomic Keys and the Level of Taxonomy Routinely U

    Ohio EPA Macroinvertebrate Taxonomic Level December 2019 Table 1. Current taxonomic keys and the level of taxonomy routinely used by the Ohio EPA in streams and rivers for various macroinvertebrate taxonomic classifications. Genera that are reasonably considered to be monotypic in Ohio are also listed. Taxon Subtaxon Taxonomic Level Taxonomic Key(ies) Species Pennak 1989, Thorp & Rogers 2016 Porifera If no gemmules are present identify to family (Spongillidae). Genus Thorp & Rogers 2016 Cnidaria monotypic genera: Cordylophora caspia and Craspedacusta sowerbii Platyhelminthes Class (Turbellaria) Thorp & Rogers 2016 Nemertea Phylum (Nemertea) Thorp & Rogers 2016 Phylum (Nematomorpha) Thorp & Rogers 2016 Nematomorpha Paragordius varius monotypic genus Thorp & Rogers 2016 Genus Thorp & Rogers 2016 Ectoprocta monotypic genera: Cristatella mucedo, Hyalinella punctata, Lophopodella carteri, Paludicella articulata, Pectinatella magnifica, Pottsiella erecta Entoprocta Urnatella gracilis monotypic genus Thorp & Rogers 2016 Polychaeta Class (Polychaeta) Thorp & Rogers 2016 Annelida Oligochaeta Subclass (Oligochaeta) Thorp & Rogers 2016 Hirudinida Species Klemm 1982, Klemm et al. 2015 Anostraca Species Thorp & Rogers 2016 Species (Lynceus Laevicaudata Thorp & Rogers 2016 brachyurus) Spinicaudata Genus Thorp & Rogers 2016 Williams 1972, Thorp & Rogers Isopoda Genus 2016 Holsinger 1972, Thorp & Rogers Amphipoda Genus 2016 Gammaridae: Gammarus Species Holsinger 1972 Crustacea monotypic genera: Apocorophium lacustre, Echinogammarus ischnus, Synurella dentata Species (Taphromysis Mysida Thorp & Rogers 2016 louisianae) Crocker & Barr 1968; Jezerinac 1993, 1995; Jezerinac & Thoma 1984; Taylor 2000; Thoma et al. Cambaridae Species 2005; Thoma & Stocker 2009; Crandall & De Grave 2017; Glon et al. 2018 Species (Palaemon Pennak 1989, Palaemonidae kadiakensis) Thorp & Rogers 2016 1 Ohio EPA Macroinvertebrate Taxonomic Level December 2019 Taxon Subtaxon Taxonomic Level Taxonomic Key(ies) Informal grouping of the Arachnida Hydrachnidia Smith 2001 water mites Genus Morse et al.
  • (Trichoptera: Limnephilidae) in Western North America By

    (Trichoptera: Limnephilidae) in Western North America By

    AN ABSTRACT OF THE THESIS OF Robert W. Wisseman for the degree of Master ofScience in Entomology presented on August 6, 1987 Title: Biology and Distribution of the Dicosmoecinae (Trichoptera: Limnsphilidae) in Western North America Redacted for privacy Abstract approved: N. H. Anderson Literature and museum records have been reviewed to provide a summary on the distribution, habitat associations and biology of six western North American Dicosmoecinae genera and the single eastern North American genus, Ironoquia. Results of this survey are presented and discussed for Allocosmoecus,Amphicosmoecus and Ecclisomvia. Field studies were conducted in western Oregon on the life-histories of four species, Dicosmoecusatripes, D. failvipes, Onocosmoecus unicolor andEcclisocosmoecus scvlla. Although there are similarities between generain the general habitat requirements, the differences or variability is such that we cannot generalize to a "typical" dicosmoecine life-history strategy. A common thread for the subfamily is the association with cool, montane streams. However, within this stream category habitat associations range from semi-aquatic, through first-order specialists, to river inhabitants. In feeding habits most species are omnivorous, but they range from being primarilydetritivorous to algal grazers. The seasonal occurrence of the various life stages and voltinism patterns are also variable. Larvae show inter- and intraspecificsegregation in the utilization of food resources and microhabitatsin streams. Larval life-history patterns appear to be closely linked to seasonal regimes in stream discharge. A functional role for the various types of case architecture seen between and within species is examined. Manipulation of case architecture appears to enable efficient utilization of a changing seasonal pattern of microhabitats and food resources.
  • About the Book the Format Acknowledgments

    About the Book the Format Acknowledgments

    About the Book For more than ten years I have been working on a book on bryophyte ecology and was joined by Heinjo During, who has been very helpful in critiquing multiple versions of the chapters. But as the book progressed, the field of bryophyte ecology progressed faster. No chapter ever seemed to stay finished, hence the decision to publish online. Furthermore, rather than being a textbook, it is evolving into an encyclopedia that would be at least three volumes. Having reached the age when I could retire whenever I wanted to, I no longer needed be so concerned with the publish or perish paradigm. In keeping with the sharing nature of bryologists, and the need to educate the non-bryologists about the nature and role of bryophytes in the ecosystem, it seemed my personal goals could best be accomplished by publishing online. This has several advantages for me. I can choose the format I want, I can include lots of color images, and I can post chapters or parts of chapters as I complete them and update later if I find it important. Throughout the book I have posed questions. I have even attempt to offer hypotheses for many of these. It is my hope that these questions and hypotheses will inspire students of all ages to attempt to answer these. Some are simple and could even be done by elementary school children. Others are suitable for undergraduate projects. And some will take lifelong work or a large team of researchers around the world. Have fun with them! The Format The decision to publish Bryophyte Ecology as an ebook occurred after I had a publisher, and I am sure I have not thought of all the complexities of publishing as I complete things, rather than in the order of the planned organization.
  • ARTHROPODA Subphylum Hexapoda Protura, Springtails, Diplura, and Insects

    ARTHROPODA Subphylum Hexapoda Protura, Springtails, Diplura, and Insects

    NINE Phylum ARTHROPODA SUBPHYLUM HEXAPODA Protura, springtails, Diplura, and insects ROD P. MACFARLANE, PETER A. MADDISON, IAN G. ANDREW, JOCELYN A. BERRY, PETER M. JOHNS, ROBERT J. B. HOARE, MARIE-CLAUDE LARIVIÈRE, PENELOPE GREENSLADE, ROSA C. HENDERSON, COURTenaY N. SMITHERS, RicarDO L. PALMA, JOHN B. WARD, ROBERT L. C. PILGRIM, DaVID R. TOWNS, IAN McLELLAN, DAVID A. J. TEULON, TERRY R. HITCHINGS, VICTOR F. EASTOP, NICHOLAS A. MARTIN, MURRAY J. FLETCHER, MARLON A. W. STUFKENS, PAMELA J. DALE, Daniel BURCKHARDT, THOMAS R. BUCKLEY, STEVEN A. TREWICK defining feature of the Hexapoda, as the name suggests, is six legs. Also, the body comprises a head, thorax, and abdomen. The number A of abdominal segments varies, however; there are only six in the Collembola (springtails), 9–12 in the Protura, and 10 in the Diplura, whereas in all other hexapods there are strictly 11. Insects are now regarded as comprising only those hexapods with 11 abdominal segments. Whereas crustaceans are the dominant group of arthropods in the sea, hexapods prevail on land, in numbers and biomass. Altogether, the Hexapoda constitutes the most diverse group of animals – the estimated number of described species worldwide is just over 900,000, with the beetles (order Coleoptera) comprising more than a third of these. Today, the Hexapoda is considered to contain four classes – the Insecta, and the Protura, Collembola, and Diplura. The latter three classes were formerly allied with the insect orders Archaeognatha (jumping bristletails) and Thysanura (silverfish) as the insect subclass Apterygota (‘wingless’). The Apterygota is now regarded as an artificial assemblage (Bitsch & Bitsch 2000).
  • Makrozoobentos Kao Pokazatelj Ekološkog Potencijala Umjetnih Stajaćica

    Makrozoobentos Kao Pokazatelj Ekološkog Potencijala Umjetnih Stajaćica

    Makrozoobentos kao pokazatelj ekološkog potencijala umjetnih stajaćica Vučković, Natalija Doctoral thesis / Disertacija 2021 Degree Grantor / Ustanova koja je dodijelila akademski / stručni stupanj: University of Zagreb, Faculty of Science / Sveučilište u Zagrebu, Prirodoslovno-matematički fakultet Permanent link / Trajna poveznica: https://urn.nsk.hr/urn:nbn:hr:217:251464 Rights / Prava: In copyright Download date / Datum preuzimanja: 2021-10-11 Repository / Repozitorij: Repository of Faculty of Science - University of Zagreb PRIRODOSLOVNO-MATEMATIČKI FAKULTET BIOLOŠKI ODSJEK Natalija Vučković MAKROZOOBENTOS KAO POKAZATELJ EKOLOŠKOG POTENCIJALA UMJETNIH STAJAĆICA DOKTORSKI RAD Zagreb, 2020 PRIRODOSLOVNO-MATEMATIČKI FAKULTET BIOLOŠKI ODSJEK Natalija Vučković MAKROZOOBENTOS KAO POKAZATELJ EKOLOŠKOG POTENCIJALA UMJETNIH STAJAĆICA DOKTORSKI RAD Mentor: Prof. dr. sc. Zlatko Mihaljević Zagreb, 2020 FACULTY OF SCIENCE DIVISION OF BIOLOGY Natalija Vučković MACROZOOBENTHOS AS AN INDICATOR OF THE ECOLOGICAL POTENTIAL OF CONSTRUCTED LAKE DOCTORAL DISSERTATION Supervisor: Prof. dr. sc. Zlatko Mihaljević Zagreb, 2020 Ovaj je doktorski rad izrađen na Zoologijskom zavodu Prirodoslovno- matematičkog fakulteta, pod vodstvom Prof. dr. sc. Zlatka Mihaljevića, u sklopu Sveučilišnog poslijediplomskog doktorskog studija Biologije pri Biološkom odsjeku Prirodoslovno-matematičkog fakulteta Sveučilišta u Zagrebu. MENTOR DOKTORSKE DISERTACIJE Prof. dr. sc. Zlatko Mihaljević Rođen je 21. siječnja 1966. godine u Varaždinu. Studij biologije (ekologija), upisuje 1986.
  • (Insecta, Trichoptera) of Four Adriatic Islands with a Note on Dna Barcoding

    (Insecta, Trichoptera) of Four Adriatic Islands with a Note on Dna Barcoding

    View metadata, citation and similar papers at core.ac.uk brought to you by CORE NAT. CROAT. VOL. 28 No 2 403-413 ZAGREB December 31, 2019 original scientific paper/ izvorni znanstveni rad DOI 10.20302/NC.2019.28.26 CADDISFLY FAUNA CHARACTERISTICS (INSECTA, TRICHOPTERA) OF FOUR ADRIATIC ISLANDS WITH A NOTE ON DNA BARCODING Mladen Kučinić1*, Anđela Ćukušić2, Hrvoje Plavec3, Miro Landeka4, Mladen Plantak5, Marijana Vuković6, Višnja Bukvić7, Milivoj Franjević8, Sanja Žalac9 & Gordan Lukač10 1Department of Biology (Laboratory for Entomology), Faculty of Science, University of Zagreb, Rooseveltov trg 6, 10000 Zagreb, Croatia 2Ministry of environment and energy, Radnička cesta 80/7, 10000 Zagreb, Croatia 3Grožnjanska 18, 10 000 Zagreb, Croatia 4 Marina Tartaglie 2, 10 000 Zagreb, Croatia 5Elektroprojekt d.d., Civil and Architectural Engineering Department, Water Resources, Nature and Environmental protection, Alexandera von Humboldta 4, 10000 Zagreb, Croatia 6Croatian Natural History Museum, Demetrova 1, 10000 Zagreb, Croatia 7University Hercegovina, Blajburških žrtava 100, 88000 Mostar, Bosnia and Herzegovina 8Department for forestry and wildlife management, Faculty of Forestry, Svetošimunska 25, University of Zagreb, 10000 Zagreb 9ZSC „Dr. Ivo Pevalek“, National park Plitvice Lakes, Josipa Jovića 19, 53231 Plitvička jezera, Croatia 10National park Paklenica, Dr. Franje Tuđmana 14a, 23244 Starigrad-Paklenica, Croatia Kučinić, M., Ćukušić, A., Plavec, H., Landeka, M., Plantak, M., Vuković, M., Bukvić, V., Franjević, M., Žalac, S. & Lukač, G.: Caddisfly fauna characteristics (Insecta, Trichoptera) of four Adriatic islands with a note on DNA barcoding. Nat. Croat., Vol. 28, No. 2., 403-413, 2019, Zagreb. To date, 13 species of Trichoptera from 11 genera and 8 families have been reported for the Adriatic islands of Cres, Krk, Pag and Hvar.
  • The Larva of Parasetodes Respersellus (Rambur 1841) with Notes on Its Habitat and European Distribution (Trichoptera: Leptoceridae)

    The Larva of Parasetodes Respersellus (Rambur 1841) with Notes on Its Habitat and European Distribution (Trichoptera: Leptoceridae)

    Zootaxa 3841 (4): 563–572 ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Article ZOOTAXA Copyright © 2014 Magnolia Press ISSN 1175-5334 (online edition) http://dx.doi.org/10.11646/zootaxa.3841.4.6 http://zoobank.org/urn:lsid:zoobank.org:pub:3B24BB74-8E96-442F-ABDD-A5CDA32287AC The larva of Parasetodes respersellus (Rambur 1841) with notes on its habitat and European distribution (Trichoptera: Leptoceridae) ARNOLD MÓRA1, PÉTER JUHÁSZ2, BÉLA KISS2, ZOLTÁN MÜLLER2 & KRISTÓF MÁLNÁS2 1MTA Centre for Ecological Research, Balaton Limnological Institute, Klebelsberg Kuno 3, H-8237 Tihany, Hungary 2BioAqua Pro Ltd., Soó Rezső utca 21, H-4032 Debrecen, Hungary Corresponding author: Arnold Móra, e-mail: [email protected] Abstract Two larvae collected from the River Tisza were recognized to belong to the genus Parasetodes according to the available generic description. The fact that Parasetodes respersellus is the only European/Western Palaearctic representative of the genus enabled us to describe the hitherto unknown larva of this species based on the collected specimens. Diagnostic fea- tures to distinguish the genus from other Central European genera are discussed. Possible species-specific characters are compared with those of other previously described species of the genus. Some notes on larval habitat and the European distribution of P. respersellus are given. Key words: long-horned caddisflies, larval description, morphological characters, Hungary Introduction In the family of long-horned caddisflies (Leptoceridae), Parasetodes McLachlan 1880 is a small genus, which was included in Nectopsychini by Morse (1981) and was phylogenetically clustered weakly with Leptocerina Mosely 1932 and Achoropsyche Holzenthal 1984 and possibly with Blyzophilus Andersen et al.
  • Buglife Ditches Report Vol1

    Buglife Ditches Report Vol1

    The ecological status of ditch systems An investigation into the current status of the aquatic invertebrate and plant communities of grazing marsh ditch systems in England and Wales Technical Report Volume 1 Summary of methods and major findings C.M. Drake N.F Stewart M.A. Palmer V.L. Kindemba September 2010 Buglife – The Invertebrate Conservation Trust 1 Little whirlpool ram’s-horn snail ( Anisus vorticulus ) © Roger Key This report should be cited as: Drake, C.M, Stewart, N.F., Palmer, M.A. & Kindemba, V. L. (2010) The ecological status of ditch systems: an investigation into the current status of the aquatic invertebrate and plant communities of grazing marsh ditch systems in England and Wales. Technical Report. Buglife – The Invertebrate Conservation Trust, Peterborough. ISBN: 1-904878-98-8 2 Contents Volume 1 Acknowledgements 5 Executive summary 6 1 Introduction 8 1.1 The national context 8 1.2 Previous relevant studies 8 1.3 The core project 9 1.4 Companion projects 10 2 Overview of methods 12 2.1 Site selection 12 2.2 Survey coverage 14 2.3 Field survey methods 17 2.4 Data storage 17 2.5 Classification and evaluation techniques 19 2.6 Repeat sampling of ditches in Somerset 19 2.7 Investigation of change over time 20 3 Botanical classification of ditches 21 3.1 Methods 21 3.2 Results 22 3.3 Explanatory environmental variables and vegetation characteristics 26 3.4 Comparison with previous ditch vegetation classifications 30 3.5 Affinities with the National Vegetation Classification 32 Botanical classification of ditches: key points
  • Diversity and Ecosystem Services of Trichoptera

    Diversity and Ecosystem Services of Trichoptera

    Review Diversity and Ecosystem Services of Trichoptera John C. Morse 1,*, Paul B. Frandsen 2,3, Wolfram Graf 4 and Jessica A. Thomas 5 1 Department of Plant & Environmental Sciences, Clemson University, E-143 Poole Agricultural Center, Clemson, SC 29634-0310, USA; [email protected] 2 Department of Plant & Wildlife Sciences, Brigham Young University, 701 E University Parkway Drive, Provo, UT 84602, USA; [email protected] 3 Data Science Lab, Smithsonian Institution, 600 Maryland Ave SW, Washington, D.C. 20024, USA 4 BOKU, Institute of Hydrobiology and Aquatic Ecology Management, University of Natural Resources and Life Sciences, Gregor Mendelstr. 33, A-1180 Vienna, Austria; [email protected] 5 Department of Biology, University of York, Wentworth Way, York Y010 5DD, UK; [email protected] * Correspondence: [email protected]; Tel.: +1-864-656-5049 Received: 2 February 2019; Accepted: 12 April 2019; Published: 1 May 2019 Abstract: The holometabolous insect order Trichoptera (caddisflies) includes more known species than all of the other primarily aquatic orders of insects combined. They are distributed unevenly; with the greatest number and density occurring in the Oriental Biogeographic Region and the smallest in the East Palearctic. Ecosystem services provided by Trichoptera are also very diverse and include their essential roles in food webs, in biological monitoring of water quality, as food for fish and other predators (many of which are of human concern), and as engineers that stabilize gravel bed sediment. They are especially important in capturing and using a wide variety of nutrients in many forms, transforming them for use by other organisms in freshwaters and surrounding riparian areas.
  • Phylogeny of Endopterygote Insects, the Most Successful Lineage of Living Organisms*

    Phylogeny of Endopterygote Insects, the Most Successful Lineage of Living Organisms*

    REVIEW Eur. J. Entomol. 96: 237-253, 1999 ISSN 1210-5759 Phylogeny of endopterygote insects, the most successful lineage of living organisms* N iels P. KRISTENSEN Zoological Museum, University of Copenhagen, Universitetsparken 15, DK-2100 Copenhagen 0, Denmark; e-mail: [email protected] Key words. Insecta, Endopterygota, Holometabola, phylogeny, diversification modes, Megaloptera, Raphidioptera, Neuroptera, Coleóptera, Strepsiptera, Díptera, Mecoptera, Siphonaptera, Trichoptera, Lepidoptera, Hymenoptera Abstract. The monophyly of the Endopterygota is supported primarily by the specialized larva without external wing buds and with degradable eyes, as well as by the quiescence of the last immature (pupal) stage; a specialized morphology of the latter is not an en­ dopterygote groundplan trait. There is weak support for the basal endopterygote splitting event being between a Neuropterida + Co­ leóptera clade and a Mecopterida + Hymenoptera clade; a fully sclerotized sitophore plate in the adult is a newly recognized possible groundplan autapomorphy of the latter. The molecular evidence for a Strepsiptera + Díptera clade is differently interpreted by advo­ cates of parsimony and maximum likelihood analyses of sequence data, and the morphological evidence for the monophyly of this clade is ambiguous. The basal diversification patterns within the principal endopterygote clades (“orders”) are succinctly reviewed. The truly species-rich clades are almost consistently quite subordinate. The identification of “key innovations” promoting evolution­
  • Issue Information

    Issue Information

    Systematic Entomology (2017), 42, 240–266 DOI: 10.1111/syen.12209 Molecular phylogeny of Sericostomatoidea (Trichoptera) with the establishment of three new families KJELL ARNE JOHANSON1, TOBIAS MALM1 andMARIANNE ESPELAND2 1Department of Zoology, Swedish Museum of Natural History, Stockholm, Sweden and 2Arthropoda Department, Zoological Research Museum Alexander Koenig, Bonn, Germany Abstract. We inferred the phylogenetic relationships among 58 genera of Sericostom- atoidea, representing all previously accepted families as well as genera that were not placed in established families. The analyses were based on five fragments of the protein coding genes carbamoylphosphate synthetase (CPSase of CAD), isocitrate dehydroge- nase (IDH), Elongation factor 1a (EF-1a), RNA polymerase II (POL II) and cytochrome oxidase I (COI). The data set was analysed using Bayesian methods with a mixed model, raxml, and parsimony. The various methods generated slightly different results regarding relationships among families, but the shared results comprise support for: (i) a monophyletic Sericostomatoidea; (ii) a paraphyletic Parasericostoma due to inclusion of Myotrichia murina, leading to synonymization of Myotrichia with Parasericostoma; (iii) a polyphyletic Sericostomatidae, which is divided into two families, Sericostom- atidae sensu stricto and Parasericostomatidae fam.n.; (iv) a polyphyletic Helicophidae which is divided into Helicophidae sensu stricto and Heloccabucidae fam.n.; (v) hypoth- esized phylogenetic placement of the former incerta sedis genera Ngoya, Seselpsyche and Karomana; (vi) a paraphyletic Costora (Conoesucidae) that should be divided into several genera after more careful examination of morphological data; (vii) reinstatement of Gyrocarisa as a valid genus within Petrothrincidae. A third family, Ceylanopsychi- dae fam.n., is established based on morphological characters alone. A hypothesis of the relationship among 14 of the 15 families in the superfamily is presented.
  • Bibliographia Trichopterorum

    Bibliographia Trichopterorum

    Entry numbers checked/adjusted: 23/10/12 Bibliographia Trichopterorum Volume 4 1991-2000 (Preliminary) ©Andrew P.Nimmo 106-29 Ave NW, EDMONTON, Alberta, Canada T6J 4H6 e-mail: [email protected] [As at 25/3/14] 2 LITERATURE CITATIONS [*indicates that I have a copy of the paper in question] 0001 Anon. 1993. Studies on the structure and function of river ecosystems of the Far East, 2. Rep. on work supported by Japan Soc. Promot. Sci. 1992. 82 pp. TN. 0002 * . 1994. Gunter Brückerman. 19.12.1960 12.2.1994. Braueria 21:7. [Photo only]. 0003 . 1994. New kind of fly discovered in Man.[itoba]. Eco Briefs, Edmonton Journal. Sept. 4. 0004 . 1997. Caddis biodiversity. Weta 20:40-41. ZRan 134-03000625 & 00002404. 0005 . 1997. Rote Liste gefahrdeter Tiere und Pflanzen des Burgenlandes. BFB-Ber. 87: 1-33. ZRan 135-02001470. 0006 1998. Floods have their benefits. Current Sci., Weekly Reader Corp. 84(1):12. 0007 . 1999. Short reports. Taxa new to Finland, new provincial records and deletions from the fauna of Finland. Ent. Fenn. 10:1-5. ZRan 136-02000496. 0008 . 2000. Entomology report. Sandnats 22(3):10-12, 20. ZRan 137-09000211. 0009 . 2000. Short reports. Ent. Fenn. 11:1-4. ZRan 136-03000823. 0010 * . 2000. Nattsländor - Trichoptera. pp 285-296. In: Rödlistade arter i Sverige 2000. The 2000 Red List of Swedish species. ed. U.Gärdenfors. ArtDatabanken, SLU, Uppsala. ISBN 91 88506 23 1 0011 Aagaard, K., J.O.Solem, T.Nost, & O.Hanssen. 1997. The macrobenthos of the pristine stre- am, Skiftesaa, Haeylandet, Norway. Hydrobiologia 348:81-94.