DOCSLIB.ORG

+ Aelia Acuminata L

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

"#$%&"'(%&")#)*+ 8/95%6"7 50 %12"34 /0 %,-. Aelia acuminata L. %&'(')*+,-'./0'(*$1234'$' 5/#4'(+6 !"#$ )+78#+941':#3;<'*2 (Hemiptera: Pentatomidae) E(*=-+8>0'?@A9';BCD 2:D% E4FG 1"#$%&")#)*+ %C ?7A%B 2"#:;<= Q95 %L50P0 MNJOG%KJ2"+ 95 05058%L I'"J2=%KJ2"+ H )F>GH %&2"?W%&"XY<% "$%D%=4 A%T?*A%&V%C" R7%C -3.%S< Aelia acuminata (L.) (Hemiptera: Pentatomidae) %R7 %^ ,D A%e3D%R7%RJ<%C" $bJY%IW"4%c%](%I#_3.% 3D%d#-*+%Y% 7"4 I?JS%C _`"aA %^ I7<%1,4%M2<F$%.%Y%Z,$%\2<FA%2=%]( %C"NkA<2"G%Y%"3;%Y%:;%C _`"aA%Y%C2Y( j3.%dA(%C )aA%2=%Z,$%C i2FA%S<%B A. acuminata %R7%C 12"c%d?;%dA"D%&<N:g%2hA%RJ,c %Ii"7 8P % C2;% 12Y=% Y % v us %t Ps % p?;% Icq2% Br#?-7% .2= 5o ±8% C"A= H% 1"n:J"AS(% 2=% 1,4="J% C" R7 %^ ,4% Z"l;<% ](% -mA,#`+ %{#+N+%c A. acuminata %R7% $2G%R7%xG%Y%yz+%C"3;Y%:;%]<2Y=%R#n;"#A %^ ,;,4%JOw+%Z,$%C ;<=%"c %Q EJ2"+%Ii"7 u%Y% J"4Y2 %Y%NA %v us %S<%~#c ^,A(%I7=%c%SY2 u0P/ ± 0s /|} %Y P0oP ± 0s 8uo %BP05u ± 0s 5/u %B9088 ± 0s 558 %B|09P ± 0s soP %B}08| ± 0s s5u %{#+N+% Hc %I4<,;%NnJ,EJ%"c%C2<= _A%&Y"+%1="A%Y%N;%&<N:g%C"3;Y%:;%]<2Y= %^ =c%ZY=%Y%6Y<%R#7%C" 12G%Y%yz+%dg<NA%c%cNA%N#A %6q%Y %Q yz+ H%dmA%,#`+%`"W%Y%`"W";%N;%B Qt8SY2 H%I#_3.%,42% J";%Y% +<%N;%C"NkA<2"G %^Q SY2 |/ 0ss ± s0u}%Y |/ 0/P ± s0u8 %^ ,4%=2Y(Nc Pu 099 ± 8o 0}|%Y s08P ± 0s s9| %B8s }0 ± o0u8 0s%B 9}| ± 0s 58s 0s%t%B s5P8 ± 0s s885 %{#+N+%c %Q SY2 H%d?;%eJ%C 12Y= ^,k?#;% "n:J"AS(%J<N4%2=% 42YNG% -D%2<N)k7<%c%2="X%" ](%D%,=% A%]":;%R7%RJ<%C 12"c%d?;%=<N'<% -mA%,#`+ % #_%=NE-3i "n:J"AS(%M2YNG%B&V%C" R7%B '<N$A= L(F>JK'(+6 )I3$ [email protected] %L 6?A%1,?J; 4%+%5,! %8%+,29:;<%2%.=81<%+! ./012 *+, !"#% ( ?@ # !" %,: "T#C% .M% #(a "% !1 |. ;N/:% H!!h %H%,29 G!1<%+! 4%+ C%<; Aelia %AC%+! 4 %N#% 2% }N% 2% +`1, sa% *!% 2% "% +!% 5:;:% + 5LN#/N %R L; 5LM;NO%,"M%P! %<;%+,!#8 %,:%M%LQ .%K8( %2%5:N" %H!d;%*c2,%1;%~M% %R T4;%=s%w;N Aelia acuminata (L.) 4%AC%1;%+! /%<;%.S1 %5N"w%+,29:;<%2%.=81<%+! ./012%G;N#O%.!M%T\8 %T#;% +;,;:% U# % 2% M% *!,"M% <;% .WN % ,:% M% T4; %#(a%2%1`a%. Nd%<; %R (Carey, 1993) %L19 .%T4: %! % * (Lodos, 1981; Burlaka, 2009) % T4;% +:!X= ; %T!W:%!4;%N %2%.4%+ 5012 +wN%c2,% %! 5:;:%1; (Panizzi %1L %+!#: %,:%4%1;%UM;NO%./:N=8/%:C2 %;N %;,%+Na !C%H!d;%*5:!%2%N%AC%2:%N%+! 5:;: Alexandrov Z% G;N1;% 2 et al ., 2000; Rider, 2006) A. %4% %P N% !%.4,N %,: %R (Chi, 1988) %:,29 . % % T#;% 2 % [ and Mirzayan, 1949; Radjabi, 1998 %T#C% %Ca%! %R L"%5L!"%H!d;%1; acuminata %.!/%!;%* (Panizzi et al. , 2000) %G9%+:!X= ;%M%T\8 %*,! % 1;2;% ,:% G;,zv!=8<% +! 4% L;% 2% 5LM;NO %2% ^L/% _,;`% ,:% G9% <;% .Ca% ! % +! T#C% H! 2; %T#C% T\8% % M % [ ^2:% 8 Z 5,! % +! 4% + !h %c,;`/ (Lodos, 1981; Javahery, 1995) %bN %.!/ %:;N ;%. !1<,;%U20O%1;%L %R T4;%Na ;N %L,;:%+N="# %+! M;Na%,:%G;N1;% d!%<;%+,!#8 %,:%4%1; %R T4; 5LQ %.Q,2NO%.M%#S"a%G!S;%,% %4%1;%+ 5,! %8 %+ 5N#a%<;%<N%2%.aN%+! %2%.;,<%G!!#/%+2,%*M RT4;%! G9%.=81<%+! ./012%TW!Q%2%.!v"1!<9 Radjabi, Z% :,W .% "g% % `# (Poaceae) % H +, $%&'%'()* R[ 2000 Z%! Z%! % 9% TQL % ^L/% _,;`% <;% 5!:;:NW% NW9% ,: A. % 4 Kustanai % + h% ,:% G!=8 ;` % i!Q% ,: *+ )(!( " #" %&' ! % .!Q% N .1!# ;NC% H!Xs" %4% 5;N% 2% 5: % +:!X= ;% T#;% +;,;: acuminata +* =) "89 ;&<"#" 5 ' 67 )6 ! "#"%&' (* ", ./"02"3 5 ' %+! 4% T#C % m kl % j1N Aelia siberica Reuter A. "L F&9I"A"L'<M;"L.5O F.GH"&;"9I "E 9>&'"?@A"B<".C %#42,%,: %R (Burov, 1962) %:;: .%#S"a%;, Aelia %AC ",T"L9U"F9VG>9BW"&'"T"M/"L&#W % acuminata %_,;`%+! 4%T#C%Lo,: %!an %*l A. acuminata %4 "L9' ]" ,9VG>9BW" \><./" &'" 9 A" >< " Z '<'" 5YG;" <& R(Burlaka, 2009) %: Samara %G!=4;%H ± "L&"F&#'"# "d c7 b!7 ",U_"aI 2&"3^5_A"%&' *( 6 %N="# A. acuminata %4%UM;NO%./:N=8/%:C2%! "fW"#"gMO"L <'"9I "E ,Y>&9;"a9A c"#",>9/#&"a9A 6! %i ;% 2% r2;% 2% U1;L #O% G;N#O% *G9% .4!Q ^ % H!!h ZMM/">h; Tischler, 1938; Z%T4;%=s% d!%,:%4%1;%T#C "n;" L9 CA'" 9I" \><./" &'" , <.O'" l>9BW" L<.I %R[ Burov, 1962; Benedek, 1971; Radjabi, 2000 "o#&'" 9O<M%" &2 I" #" a/<'.I" ,T" B<" <B#&" &2 I %<O!1:%+ 5L1LO%uXW%,:%.Ca% ! %+! .4,N %#t "9I"l>9BW "Z a .O"&<. "E .C ,C9A !"9'".@ ]"L.Cp"q#.r Hodek, Z% T4; = N/% H,o% 5!v"1!<9% ,:% 5N"w% 1; "FM9/p"h9T"9I"L.Cp"q#.r"T "Z M/"B9W"n ;"'M (+ %4 %1;%.!v"1!<9%.4!Q T81<%+ 5,! ,: %R[ 1971, 1979 *= " 9; 6* " 5I" 9 <'" T" FM/ u5v" gMO" L9 <'" B< " Z M/ %<;%yT4;%5LQ%G!# %.\!h%U# %2%M%.4!Q 5N"w% !%,: ""x> "Z M/"F'9 CA<">h;"L<.I"3MC/<'"&<. "fW"&'"a9A %1;% G;,zv!=8<% :;N ;% .{% L#a% +! ./012% .WN % C "B95"'&"fW"3oW"L 9'"&'"L< Up"9I"fW"L#9H",G>9BW (Javahery, %T4; = N/%,;N %.4,N %:,%5!v"1!<9%,:%4 "M>'B9I" q#.r" ><" B<" B#&" . " Z av9A ," F'&#W.I" <&" A R1967) 1 demography ( 6 +*"09A"3 *F&9/"3 M%"3,95O"y9 W"y9 5 z; "L< H."L9 I "Z MW"aA' I"B#& (c !) ± !)( "9I9"o<&#' "T"h9T"#"fW"3"<h"|>;"}"9;"a .O ,"y &{ "L9 I">.CG5I "Z aA< FMW 6 0#M%"&'"5"9I9"Cn"H<. "B<"MI "Z '/"a/<''9>"LB<M< aAp"#".5#"~."&9W"3q.r "oW">.CT"#"0#<"A"L9 F&p"I"I. "d c= ) "9I"L< H. "y&{ I" #" FM/" 5" 9 oW" u%" 9I" y<.GH" l><M5p ZMW"aA'"I "d * *) "9I"g#'"A"L9 F&p"I"I. "9 F'9"L>& n;"o<5"#">&9; "Z MC .O ,"&<. ""9I"a % 6"Y/"&'"5 (Sxj )"Cn"H<."L9 I"."L9 ,z "> <"I "Z M/"a/<'9>"<B#&"&2 I"F'9"#"."'<. <".5"#"~."# "L9 F&p"#"n;"H<."&'",T"&2 "ZI aA< FM/"F'<'"o9G "x5 <.O'"L9.C<&9p"'&#W.I"L<.I"A9"L9 F'<'"5;.; Z'<'"&",T".5#"~. "d c7 "3#'"#"x>"5A ZMW"<. A. acuminata "A ",>9"# "E rm]",;< "."L9.C<&9p"&95"L9@v"#"5V95 ",OMB" 0#M%" 0M" ^9A<" .I" FMW aA'" I" L9 F'<' "" M5;" 9v" # " E Ro]" 9v9" ." 3 Eλ]" a5%" M/& "# Chi and Liu (1985) "\A;"T",_%#'",A"L F># "F' <'"o9G *"0#M%"&' "E T]"_"x>"L F&#'"02"# "E GRR ] TWOSEX-MSChart "&< < g."9I"3FM/"5; Chi (1988) ZaA< FM/ ".C<&9p " Z a .O" &<. " L&9W" L >;" '&" 3 (Chi, 2012) "_"&'"a5%"l>< <",;< ".",>".C<&9p">.; b.#<"'9"^9A<".I "E rm]"a5%"l>< <",;< "." ω A. acuminata # " "."oW"B<"L#.5p"I"#"'I", "A"L F&9I ! rm ( x )1 "T" L&2 I" M/" '&#W.I " E 1 lxmxe ]" 9Y; "'v"T"'I "E )7 +c ]"x>"B<".CT"a5%"l>< <",9C x!0 Goodman, ]"aA< FM/"C .O"."&'". {"B#&"B<"F.GH"A ZaA<"F.GH"a5%"L <B#&"l9T".V95I SE 1982 &)$ "#&" >.2"B<"FM/'9>"L9.C<&9p "E ]"&95"L9@v "ZE (Huang 6 "&2 I" F.GH" x>" FU< 5" 9>" ,9VG>9BW" &#.p aA<"C .>hp"y &{"&<.Y;"&9I 67777 "9I .C_;I and Chi, 2012) ",C_>B" , 5T" #" ,T" L9 ,O>#"av9/" &" I" 0 "y<.GH"L9"G"o<&#'"02"L _>9 "Z SPSS t-test ".CO&I"^95 "&'"#"'v"L I"I"T"'.5O ,"y&{"oW ZM/"g9< "&< < g."9I"# "oBW"\A;"F'9"#". '!#%E "L9 9.I"g9<"L<.I",/&#.p"y<.GH"B<"F'9 CA<"I"M<; , "T" #" ,O&p" A" p" 3n;" L9" G" L F&#'" 02 "L 9@ " Z (Knipling, 1984) " M995I" a W" x>" 0.CT ">.; ,2 " Z aA< FM/" F'<'" o9G 6" 0#M%" &'" 9I9"o<&#' "A LF&9I"_"'<. <"L<.I"9 ,O>#"><"L ><&<"}".}9H "G"o<&#' "Z aA<"B#& 66)+ "9I"g#'"A"L F&p"I"I."F&#' "_"><"y<.GH"B<"F'9 CA<"T"'<'"o9G A. acuminata ± c)7 "# = !) ± c6)7 "5;.;"I"F'9"#"."y<.GH"L9"# '/Z ,",I9>B&<"5}",9VG>9BW",T"5YG;"L<.I t = ]"a/<M"L&<' ,"y#9 ;"T"MW"aA'"I"B#& = 77) "g#'" A A. acuminata " A" L9" #" G" ,A&.I" &' "."9T"y<.GH"."02 "ZE 0.298, df = 28, P = 0.77 "G"L F&#'">.; ,2",O&p"5A".>9A"I"aU _",O&p "B#& 6= 6+) ± 7!)= " # 6* *6) ± 7() " 9I"5;.;" I" F'9" # ",A" L H." .5#" ~." >.CG5I" # " E B#& 66)+ ]" 9" # t = -0.380, df = 28, P ]"a/<M""9I"L&<' ,"y#9 ; "&'" y" 0" &2 I" "a5U2"&' " Z a/<'" <& " Ed = ]6) ZE = 0.71 "I"oW"L FMT >h;"L9 F&p"F># I"3g#'"_"l><M5p"o9B "T" MM/" C/<hO" 'M 6= " 9; *" 5I" n;" L9 CA' "I" .>O9" #&" >B<" 3MA& ," <'" oM/ a A" L H.
Recommended publications
  • The Pentatomidae, Or Stink Bugs, of Kansas with a Key to Species (Hemiptera: Heteroptera) Richard J

    The Pentatomidae, Or Stink Bugs, of Kansas with a Key to Species (Hemiptera: Heteroptera) Richard J

    Fort Hays State University FHSU Scholars Repository Biology Faculty Papers Biology 2012 The eP ntatomidae, or Stink Bugs, of Kansas with a key to species (Hemiptera: Heteroptera) Richard J. Packauskas Fort Hays State University, [email protected] Follow this and additional works at: http://scholars.fhsu.edu/biology_facpubs Part of the Biology Commons, and the Entomology Commons Recommended Citation Packauskas, Richard J., "The eP ntatomidae, or Stink Bugs, of Kansas with a key to species (Hemiptera: Heteroptera)" (2012). Biology Faculty Papers. 2. http://scholars.fhsu.edu/biology_facpubs/2 This Article is brought to you for free and open access by the Biology at FHSU Scholars Repository. It has been accepted for inclusion in Biology Faculty Papers by an authorized administrator of FHSU Scholars Repository. 210 THE GREAT LAKES ENTOMOLOGIST Vol. 45, Nos. 3 - 4 The Pentatomidae, or Stink Bugs, of Kansas with a key to species (Hemiptera: Heteroptera) Richard J. Packauskas1 Abstract Forty eight species of Pentatomidae are listed as occurring in the state of Kansas, nine of these are new state records. A key to all species known from the state of Kansas is given, along with some notes on new state records. ____________________ The family Pentatomidae, comprised of mainly phytophagous and a few predaceous species, is one of the largest families of Heteroptera. Some of the phytophagous species have a wide host range and this ability may make them the most economically important family among the Heteroptera (Panizzi et al. 2000). As a group, they have been found feeding on cotton, nuts, fruits, veg- etables, legumes, and grain crops (McPherson 1982, McPherson and McPherson 2000, Panizzi et al 2000).
  • A Short History Regarding the Taxonomy and Systematic Researches of Platygastroidea (Hymenoptera)

    A Short History Regarding the Taxonomy and Systematic Researches of Platygastroidea (Hymenoptera)

    Memoirs of the Scientific Sections of the Romanian Academy Tome XXXIV, 2011 BIOLOGY A SHORT HISTORY REGARDING THE TAXONOMY AND SYSTEMATIC RESEARCHES OF PLATYGASTROIDEA (HYMENOPTERA) O.A. POPOVICI1 and P.N. BUHL2 1 “Al.I.Cuza” University, Faculty of Biology, Bd. Carol I, nr. 11, 700506, Iasi, Romania. 2 Troldhøjvej 3, DK-3310 Ølsted, Denmark, e-mail: [email protected],dk Corresponding author: [email protected] This paper presents an overview of the most important and best-known works that were the subject of taxonomy or systematics Platygastroidea superfamily. The paper is divided into three parts. In the first part of the research surprised the early period can be placed throughout the XIXth century between Latreille and Dalla Torre. Before this period, references about platygastrids and scelionids were made by Linnaeus and Schrank, they are the ones who described the first platygastrid and scelionid respectively. In this the first period work entomologists as: Haliday, Westwood, Walker, Forster, Ashmead, Thomson, Howard, etc., the result of their work being the description of 699 scelionids species which are found quoted in Dalla Torre's catalogue. The second part of the paper is devoted to early 20th century. This vibrant work is marked by the work of two great entomologists: Kieffer and Dodd. In this period one publish the first and only global monograph of platygastrids and scelionids until now. In this monograph are twice the number of species than in Dalla Torre's catalogue which shows the magnitude of the systematic research of those moments. The third part of the paper refers to the late 20th and early 21st century.
  • Great Lakes Entomologist the Grea T Lakes E N Omo L O G Is T Published by the Michigan Entomological Society Vol

    Great Lakes Entomologist the Grea T Lakes E N Omo L O G Is T Published by the Michigan Entomological Society Vol

    The Great Lakes Entomologist THE GREA Published by the Michigan Entomological Society Vol. 45, Nos. 3 & 4 Fall/Winter 2012 Volume 45 Nos. 3 & 4 ISSN 0090-0222 T LAKES Table of Contents THE Scholar, Teacher, and Mentor: A Tribute to Dr. J. E. McPherson ..............................................i E N GREAT LAKES Dr. J. E. McPherson, Educator and Researcher Extraordinaire: Biographical Sketch and T List of Publications OMO Thomas J. Henry ..................................................................................................111 J.E. McPherson – A Career of Exemplary Service and Contributions to the Entomological ENTOMOLOGIST Society of America L O George G. Kennedy .............................................................................................124 G Mcphersonarcys, a New Genus for Pentatoma aequalis Say (Heteroptera: Pentatomidae) IS Donald B. Thomas ................................................................................................127 T The Stink Bugs (Hemiptera: Heteroptera: Pentatomidae) of Missouri Robert W. Sites, Kristin B. Simpson, and Diane L. Wood ............................................134 Tymbal Morphology and Co-occurrence of Spartina Sap-feeding Insects (Hemiptera: Auchenorrhyncha) Stephen W. Wilson ...............................................................................................164 Pentatomoidea (Hemiptera: Pentatomidae, Scutelleridae) Associated with the Dioecious Shrub Florida Rosemary, Ceratiola ericoides (Ericaceae) A. G. Wheeler, Jr. .................................................................................................183
  • Invasive Stink Bugs and Related Species (Pentatomoidea) Biology, Higher Systematics, Semiochemistry, and Management

    Invasive Stink Bugs and Related Species (Pentatomoidea) Biology, Higher Systematics, Semiochemistry, and Management

    Invasive Stink Bugs and Related Species (Pentatomoidea) Biology, Higher Systematics, Semiochemistry, and Management Edited by J. E. McPherson Front Cover photographs, clockwise from the top left: Adult of Piezodorus guildinii (Westwood), Photograph by Ted C. MacRae; Adult of Murgantia histrionica (Hahn), Photograph by C. Scott Bundy; Adult of Halyomorpha halys (Stål), Photograph by George C. Hamilton; Adult of Bagrada hilaris (Burmeister), Photograph by C. Scott Bundy; Adult of Megacopta cribraria (F.), Photograph by J. E. Eger; Mating pair of Nezara viridula (L.), Photograph by Jesus F. Esquivel. Used with permission. All rights reserved. CRC Press Taylor & Francis Group 6000 Broken Sound Parkway NW, Suite 300 Boca Raton, FL 33487-2742 © 2018 by Taylor & Francis Group, LLC CRC Press is an imprint of Taylor & Francis Group, an Informa business No claim to original U.S. Government works Printed on acid-free paper International Standard Book Number-13: 978-1-4987-1508-9 (Hardback) This book contains information obtained from authentic and highly regarded sources. Reasonable efforts have been made to publish reliable data and information, but the author and publisher cannot assume responsibility for the validity of all materi- als or the consequences of their use. The authors and publishers have attempted to trace the copyright holders of all material reproduced in this publication and apologize to copyright holders if permission to publish in this form has not been obtained. If any copyright material has not been acknowledged please write and let us know so we may rectify in any future reprint. Except as permitted under U.S. Copyright Law, no part of this book may be reprinted, reproduced, transmitted, or utilized in any form by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying, micro- filming, and recording, or in any information storage or retrieval system, without written permission from the publishers.
  • Final Project Report

    Final Project Report

    Contestant profile ▪ Contestant name: Jana Růžičková ▪ Contestant occupation: Postdoctoral fellow ▪ University / Organisation Department of Zoology and Laboratory of Ornithology Faculty of Science, Palacký University Olomouc 17. Listopadu 50, 771 46 Olomouc, Czech Republic MTA-ELTE-MTM Ecology Research Group Eötvös Loránd University, Biological Institute Pázmány Péter sétány 1/C, 1117 Budapest, Hungary ▪ Number of people in your team: 5 Project overview Title: Hrabůvka quarry: a potential refuge of rare species Contest: (Research/Community) Research Quarry name: Hrabůvka 1/3 Hrabůvka quarry: a potential refuge of rare species Jana Růžičková, Lenka Harmáčková, Michal Hykel, Ondřej Popelka & Vojtěch Taraška Abstract The main aim of this project was to conduct a biological survey in Hrabůvka quarry with an emphasis to south part of the quarry premises called Bobroviště. Specifically, this area is composed of various habitats, including forests, open soils, ruderal habitats and a sewage water body. Based on our findings, we suggest appropriate interventions or changes in management to support and enhance local biodiversity. Our results showed that species composition of plants and animals in the quarry premises is characterized mostly by common species (with only few plant taxa exception) without any specific habitat requirements. We found that the most botanically valuable habitats in Bobroviště are the forest fragment and the spring with its immediate vicinity. Since wetland habitats became valuable in the respect of climate changes in the last few years, we suggest creating new ponds and a littoral zone in the sewage water body to enhance biodiversity of this area and consequently increase water retention in the landscape. Introduction Mining areas are often perceived by the public as a scar on the landscape.
  • Perspectives in Ecological Theory and Integrated Pest Management

    Perspectives in Ecological Theory and Integrated Pest Management

    Perspectives in Ecological Theory and Integrated Pest Management Since the early days of integrated pest management a sound ecological foundation has been considered essential for the development of effective systems. From time to time, there have been attempts to evaluate the ways in which ecological theory is exploited in pest control, and to review the lessons that ecologists learn from pest management. In the last 20 years there have been many developments within the contribution of ecological theory to integrated pest management, and the objective of this book is to capture some of the new themes in both pest management and ecology that have emerged and to provide an updated assessment of the role that basic ecology plays in the development of rational and sustainable pest management practices. The major themes are examined, assessing the significance and potential impact of recent technological and conceptual developments for the future of integrated pest management. Marcos Kogan is Professor and Director Emeritus of the Integrated Plant Protection Center at Oregon State University. Paul Jepson has been Director of the Integrated Plant Protection Center at Oregon State University since 2002. Perspectives in Ecological Theory and Integrated Pest Management edited by Marcos Kogan and Paul Jepson Oregon State University cambridge university press Cambridge, New York, Melbourne, Madrid, Cape Town, Singapore, Sa˜o Paulo Cambridge University Press The Edinburgh Building, Cambridge CB2 8RU, UK Published in the United States of America by Cambridge University Press, New York www.cambridge.org Information on this title: www.cambridge.org/9780521822138 ß Cambridge University Press 2007 This publication is in copyright.
  • View the PDF File of the Tachinid Times, Issue 12

    View the PDF File of the Tachinid Times, Issue 12

    The Tachinid Times ISSUE 12 February 1999 Jim O’Hara, editor Agriculture & Agri-Food Canada, Biological Resources Program Eastern Cereal and Oilseed Research Centre C.E.F., Ottawa, Ontario, Canada, K1A 0C6 Correspondence: [email protected] The Tachinid Times began in 1988 when personal Evolution of Egg Structure in Tachinidae (by S.P. computers were gaining in popularity, yet before the Gaponov) advent of e-mail and the World Wide Web. A newsletter Using a scanning electron microscope I investigated distributed through the mail seemed like a useful the egg structure of 114 species of Tachinidae. The endeavour to foster greater awareness about the work of research was focused on the peculiarities of the egg others among researchers interested in the Tachinidae. surface and the structure of the aeropylar area. Data on Now, eleven years later, despite the speed and the method of egg-laying, the structure of the female convenience of e-mail and other advanced modes of reproductive system and the host range were also taken communication, this newsletter still seems to hold a place into consideration. Since any kind of adaptation is a in the distribution of news about the Tachinidae. If there result of evolution and every stage of ontogenesis, is sufficient interest - and submissions - over the course including the egg stage, is adapted to some specific of the next year, then another issue will appear in environmental conditions, each stage of ontogenesis February of the new millennium. As always, please send evolved more or less independently. The development of me your news for inclusion in the newsletter before the provisionary devices (coenogenetic adaptations) and their end of next January.
  • Marine Insects

    Marine Insects

    UC San Diego Scripps Institution of Oceanography Technical Report Title Marine Insects Permalink https://escholarship.org/uc/item/1pm1485b Author Cheng, Lanna Publication Date 1976 eScholarship.org Powered by the California Digital Library University of California Marine Insects Edited by LannaCheng Scripps Institution of Oceanography, University of California, La Jolla, Calif. 92093, U.S.A. NORTH-HOLLANDPUBLISHINGCOMPANAY, AMSTERDAM- OXFORD AMERICANELSEVIERPUBLISHINGCOMPANY , NEWYORK © North-Holland Publishing Company - 1976 All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording or otherwise,without the prior permission of the copyright owner. North-Holland ISBN: 0 7204 0581 5 American Elsevier ISBN: 0444 11213 8 PUBLISHERS: NORTH-HOLLAND PUBLISHING COMPANY - AMSTERDAM NORTH-HOLLAND PUBLISHING COMPANY LTD. - OXFORD SOLEDISTRIBUTORSFORTHEU.S.A.ANDCANADA: AMERICAN ELSEVIER PUBLISHING COMPANY, INC . 52 VANDERBILT AVENUE, NEW YORK, N.Y. 10017 Library of Congress Cataloging in Publication Data Main entry under title: Marine insects. Includes indexes. 1. Insects, Marine. I. Cheng, Lanna. QL463.M25 595.700902 76-17123 ISBN 0-444-11213-8 Preface In a book of this kind, it would be difficult to achieve a uniform treatment for each of the groups of insects discussed. The contents of each chapter generally reflect the special interests of the contributors. Some have presented a detailed taxonomic review of the families concerned; some have referred the readers to standard taxonomic works, in view of the breadth and complexity of the subject concerned, and have concentrated on ecological or physiological aspects; others have chosen to review insects of a specific set of habitats.
  • REPORT on APPLES – Fruit Pathway and Alert List

    REPORT on APPLES – Fruit Pathway and Alert List

    EU project number 613678 Strategies to develop effective, innovative and practical approaches to protect major European fruit crops from pests and pathogens Work package 1. Pathways of introduction of fruit pests and pathogens Deliverable 1.3. PART 5 - REPORT on APPLES – Fruit pathway and Alert List Partners involved: EPPO (Grousset F, Petter F, Suffert M) and JKI (Steffen K, Wilstermann A, Schrader G). This document should be cited as ‘Wistermann A, Steffen K, Grousset F, Petter F, Schrader G, Suffert M (2016) DROPSA Deliverable 1.3 Report for Apples – Fruit pathway and Alert List’. An Excel file containing supporting information is available at https://upload.eppo.int/download/107o25ccc1b2c DROPSA is funded by the European Union’s Seventh Framework Programme for research, technological development and demonstration (grant agreement no. 613678). www.dropsaproject.eu [email protected] DROPSA DELIVERABLE REPORT on Apples – Fruit pathway and Alert List 1. Introduction ................................................................................................................................................... 3 1.1 Background on apple .................................................................................................................................... 3 1.2 Data on production and trade of apple fruit ................................................................................................... 3 1.3 Pathway ‘apple fruit’ .....................................................................................................................................
  • Preempting the Arrival of the Brown Marmorated Stink Bug, Halyomorpha Halys: Biological Control Options for Australia

    Preempting the Arrival of the Brown Marmorated Stink Bug, Halyomorpha Halys: Biological Control Options for Australia

    insects Article Preempting the Arrival of the Brown Marmorated Stink Bug, Halyomorpha halys: Biological Control Options for Australia Valerie Caron 1,* , Tania Yonow 1, Cate Paull 2, Elijah J. Talamas 3, Gonzalo A. Avila 4 and Kim A. Hoelmer 5 1 CSIRO, Health and Biosecurity, Black Mountain, Acton, ACT 2601, Australia; [email protected] 2 CSIRO, Agriculture and Food, Dutton Park, QLD 4102, Australia; [email protected] 3 Florida Department of Agriculture and Consumer Services, Division of Plant Industry, Bureau of Entomology, Nematology and Plant Pathology, Gainesville, FL 32608, USA; [email protected] 4 The New Zealand Institute for Plant and Food Research Limited, Auckland 1025, New Zealand; [email protected] 5 USDA, Agriculture Research Service, Beneficial Insects Introduction Research Unit, Newark, DE 19713, USA; [email protected] * Correspondence: [email protected]; Tel.: +61-02-6218-3475 Simple Summary: The brown marmorated stink bug Halyomorpha halys (Stål) (Hemiptera: Pentato- midae) is native to Northeast Asia, but has become a serious invasive species in North America and Europe, causing major economic damage to crops. Halyomorpha halys has not established itself in Australia, but it has been intercepted several times at the border, therefore future incursions and establishment are likely. There are few control options for this species and biological control may be a useful management method in Australia. This study summarizes the literature on natural enemies of H. halys in its native and invaded ranges and prioritizes potential biological control agents that could be suitable for use in Australia. The results show two egg parasitoid species as the Citation: Caron, V.; Yonow, T.; Paull, best candidates: Trissolcus japonicus (Ashmead) and Trissolcus mitsukurii (Ashmead) (Hymenoptera: C.; Talamas, E.J.; Avila, G.A.; Hoelmer, Scelionidae).
  • The Importance of Vegetation Configuration in Coastal

    The Importance of Vegetation Configuration in Coastal

    Biology Department Research Group Terrestrial Ecology _____________________________________________________________________________________ THE IMPORTANCE OF VEGETATION CONFIGURATION IN COASTAL DUNES TO PRESERVE DIVERSITY OF MARRAM- ASSOCIATED INVERTEBRATES IS HABITAT CONFIGURATION A DRIVER OF DIVERSITY IN DUNES? Noëmie Van den Bon Studentnumber: 01506438 Supervisor(s): Prof. Dr. Dries Bonte Dr. Martijn Vandegehuchte Scientific tutor: Ruben Van De Walle Master’s dissertation submitted to obtain the degree of Master of Science in Biology Academic year: 2019 - 2020 © Faculty of Sciences – research group Terrestrial Ecology All rights reserved. This thesis contains confidential information and confidential research results that are property to the UGent. The contents of this master thesis may under no circumstances be made public, nor complete or partial, without the explicit and preceding permission of the UGent representative, i.e. the supervisor. The thesis may under no circumstances be copied or duplicated in any form, unless permission granted in written form. Any violation of the confidential nature of this thesis may impose irreparable damage to the UGent. In case of a dispute that may arise within the context of this declaration, the Judicial Court of Gent only is competent to be notified. 2 Table of content 1. Introduction ....................................................................................................................................... 5 1.1. The status of biodiversity and ecosystems ..........................................................................................
  • Stink Bugs (Hemiptera: Heteroptera: Pentatomidae) of Minnesota: an Annotated Checklist and New State Records Robert L

    Stink Bugs (Hemiptera: Heteroptera: Pentatomidae) of Minnesota: an Annotated Checklist and New State Records Robert L

    2014 THE GREAT LAKES ENTOMOLOGIST 171 Stink Bugs (Hemiptera: Heteroptera: Pentatomidae) of Minnesota: An Annotated Checklist and New State Records Robert L. Koch1, 3, David A. Rider2, Paul P. Tinerella2, and Walter A. Rich1 Abstract Pentatomidae have been relatively poorly documented in Minnesota. Based on literature and museum records, an annotated checklist of the Pen- tatomidae of Minnesota was created. State-level and county-level records for Minnesota and the distribution of each species in North America are provided. Fifty-one species of Pentatomidae (12 Asopinae, 37 Pentatominae, and 2 Podopi- nae) are recorded for Minnesota. Of this total, 15 species are newly recorded for the state. Knowledge of the fauna of Pentatomidae in Minnesota will be important for providing baseline data for monitoring of potential shifts in the fauna resulting from the invasions of exotic Pentatomidae. Furthermore, a list of native Pentatomidae will be necessary for monitoring non-target impacts, if clas- sical biological control is implemented for management of exotic Pentatomidae. ____________________ In the continental U.S. and Canada, the family Pentatomidae (i.e., stink bugs) comprises about 222 species (Froeschner 1988). The invasions and range expansions of several exotic Pentatomidae have brought a new level of attention to this family in North America. Recent invaders include Halyomorpha halys (Stål) (Hoebeke and Carter 2003), Bagrada hilaris (Burmeister) (Palumbo and Natwick 2010), and Agonoscelis puberula Stål (Thomas et al. 2003). Further- more, the ranges of two established exotic species, Piezodorus guildinii (West- wood) and Picromerus bidens (Linnaeus) are expanding (Tindall and Fothergill 2011, Swanson et al. 2013). Knowledge of the native and established fauna of Pentatomidae will be important for providing baseline data for monitoring changes in diversity or abundance that may occur after the invasion of exotic species.