426 Anguillicola crassus 21 animal rights organisation 396, 423 annelid 5, 264 Anobiidae 16 Anopheles gambiae 386, 389 – labranchiae 386 Anoplophora glabripennis 17, 369 ant 13, 17, 205, 229, 230, 321, 322 anthrax 323 Anthus petrosus 388 anti-fouling 54, 246 antler 19 Aonidiella aurantii 378 Aphanomyces astaci 21 aphid 16, 227, 229, 381, 408–412 Aphis citricola 410 – gossypii 16 – spiraecola 408 Apis mellifera 230 apple maggot 375 – snail 222, 224 aquaculture 11, 33, 49–55, 63, 227, 263, 334–336, 392, 394, 422, 423 aquarium 25, 37, 249, 263 Arabidopsis thaliana 302 arachnid 5 archaeophytes 30 area of origin 14, 116 Argentine ant 13, 92, 205, 322, 335 Arrhenatherum elatius 187 arthropod 5, 11, 229, 266, 321, 322, 403, 406, 412–415 Arthurdendyus triangulates 17, 205 Arundo donax 173, 232 Arvicola terrestris 184 Ascaridia columbae 19 Asellus aquaticus 261 Asian ladybeetle 408–415 – longhorn beetle 17, 321, 369 – tapeworm 22 – tiger mosquito 12 ass 19 Asteraceae 118 asthma 337 Asworthius sidemi 19 Atlantic salmon 281 atmosphere 150, 153, 163, 168, 170–174, 199, 201, 202, 207, 218, 225, 232, 333, 367, 378 Atriplex 118 attractant 372, 384, 392 augmentative biocontrol 403, 412, 414 Aurelia 244, 245 authority 70, 396, 398, 406, 421, 422 Autographa californica 334 Avena 174 Axis axis 19 B Subject Index Bacillus thuringiensis 294, 295 backcrossing 86, 90, 277, 281 bacteria 2, 52, 84, 169, 230, 294–307 bacteriophage 296 Bactrocera xanthodes 372 Baculovirus 334 bait 282, 372, 373, 392 ballast material 15, 38, 44, 285 – water 15, 16, 33, 49–55, 63, 68–70, 241, 247, 249, 322, 353, 359, 421 barb goatgrass 334, 337 Barbary sheep 396 barrier 49–55, 112, 128, 129, 135, 137, 148, 149, 181, 193, 215, 249, 264, 283, 287, 295, 298, 370–373, 382, 422 Bassaris gonerilla 407 Batrachochytrium dendrobatidis 335 Baylisascaris procyonis 18 beaver 184, 390, 391, 394 beekeeper 37 beetle 16, 17, 23, 203, 205, 206, 321, 326, 355, 361, 369, 377, 379, 381, 403–412 Bemisia tabaci 16, 221, 227 Berberis thunbergii 232 Beroë ovata 241, 248 Bidens 118 biennial 105, 107 biodiversity 2, 6, 13, 22, 24, 29, 97, 163, 164, 188, 192, 193, 197, 202, 204, 207, 218–221, 224, 229, 230, 233, 257, 263, 269, 281, 304, 325, 385, 389, 396, 420 bioeconomic model 355 biogeochemistry 163, 164, 169, 199, 203 biogeography 1, 9, 11, 15, 107, 112, 135, 181, 182, 189, 193, 215, 244 biological control 11, 22, 23, 89, 230, 315, 321, 326, 332–335, 351, 391, 393, 403–416, 421 biophilia 1 biosafety 414 biosecurity 354, 355, 359–362 biotic resistance hypothesis 82–85, 88–91
Subject Index 427 bird 5, 22, 130–138, 203, 227, 228, 281, 282, 287, 319, 320, 326, 423 – flu 323 Bison bison 284 – bonasus 19 Bivalvia 15, 50–52, 267, 268 black cherry 35 – list 356 – wattle 224, 334–338 Blackfordia viginica 245 blackwood 221 Blatta germanica 13 – orientalis 13 boating 222, 231 Boiga irregularis 14, 224, 320 Bos taurus 19, 284 Bostrichidae 16 Bothriocephalus opsarichthydis 22 bottleneck 29, 66, 86, 87, 90, 91 Brachiacantha ursina 409 brackish 53, 63, 64 brain 133, 137 Branchiura sowerbyi 264 Branta canadensis 23 brass 368 Brassica napus 38, 298, 301 – rapa 297, 298, 301 breeding system 103, 105, 109, 117 Brevipalpus chilensis 381 Bromus 118, 174 – erectus 187 – tectorum 42, 46, 123, 230, 317, 318, 335 brook trout 280 brown rat 15 388 – tree snake 224, 320 – trout 20, 232, 281, 335, 337 brucellosis 319, 323 Bruchidae 16 brushtail possum 390 – rock wallabies 390 Bt corn 294 – transgene 301 Bucephalus polymorphus 15 buffalo 19 buffelgrass 232 Bufo marinus 320 bull trout 280 bullfrog 21, 24 burning 115, 118, 148 butterfly 174, 294, 407 byssal fibre 266 C C 4 175, 201, 207 Cactoblastis cactorum 406 caddis fly 260 Calamagrostis villosa 170 California cord grass 284 – red scale 378 Calluna vulgaris 170 Calonectris diomedea 388 CAM plant 201 Cameraria ohridella 14, 335 Campbell Island teal 388 Canada goose 23 – thistle 203 Canadian beaver 391, 394 canal 15, 49, 51, 59–71, 243, 260, 265, 268, 269, 283 cane toad 320, 321 Canis latrans 284 – lupus 19, 284 cannibalism 408 canola 42 Capillaria 19 Capobrotus 118 Capra aegagrus hircus 19, 318, 335 Capreolus capreolus 19 Carassius auratus 25 carbon 201, 228, 232, 233, 264, 304 – dioxide 198, 199–204, 225, 230, 367, 378, 381 carcinogen 377 Carcinus maenus 227, 229 Carduus nutans 169 Carex nudata 185 carnivore 134, 386 carp 230 Caspiobdella fadejewi 264 cassava mealy bug 326 Cassiopea andromeda 243, 247, 249 Castanea sativa 31 Castor canadensis 391, 394 – fiber 184 casual 30, 33, 100, 108, 113, 120 Casuarina equitesifolia 165 cat 19, 22, 284, 318, 319, 325, 389–391, 396, 397 cattle 19, 20, 42, 148, 174, 225, 229, 284, 318, 319, 325 Caulerpa racemosa 335, 337 – taxifolia 227, 231, 334, 387, 390, 391, 394
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Ecological Studies,Vol. 193 Analysi
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W. Nentwig (Ed.) Biological Invasio
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Preface Yet another book on “Biol
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Contents 1 Biological Invasions: wh
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Contents 5 Waterways as Invasion Hi
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Contents Section III Patterns of In
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Contents Section IV Ecological Impa
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Contents 16.5.1 Genetic Differentia
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Contents XVII 19.4.5 Scenario Devel
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Contents XIX 23 Pros and Cons of Bi
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XXII Contributors Buschmann, Holger
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XXIV Contributors Nentwig, Wolfgang
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1 Biological Invasions: why it Matt
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Biological Invasions: why it Matter
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Biological Invasions: why it Matter
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Section I Pathways of Biological In
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2 Pathways in Animal Invasions Wolf
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Pathways in Animal Invasions 13 Ser
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Pathways in Animal Invasions 15 and
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Pathways in Animal Invasions 17 hou
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Pathways in Animal Invasions 19 (Eq
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Pathways in Animal Invasions 21 wat
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Pathways in Animal Invasions 23 2.3
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Pathways in Animal Invasions 25 adv
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Pathways in Animal Invasions 27 Lon
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30 I. Kowarik and M. von der Lippe
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32 I. Kowarik and M. von der Lippe
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34 I. Kowarik and M. von der Lippe
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36 I. Kowarik and M. von der Lippe
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38 I. Kowarik and M. von der Lippe
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40 3.4.2.1 Adhesion to Vehicles I.
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42 3.4.3 Role of Living Conveyers I
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44 I. Kowarik and M. von der Lippe
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46 I. Kowarik and M. von der Lippe
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4 Is Ballast Water a Major Dispersa
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Is Bllast Water a Major Dispersal M
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Is Bllast Water a Major Dispersal M
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Is Bllast Water a Major Dispersal M
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Is Bllast Water a Major Dispersal M
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60 B.S. Galil, S. Nehring, and V. P
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62 B.S. Galil, S. Nehring, and V. P
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64 B.S. Galil, S. Nehring, and V. P
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66 B.S. Galil, S. Nehring, and V. P
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68 B.S. Galil, S. Nehring, and V. P
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70 B.S. Galil, S. Nehring, and V. P
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72 B.S. Galil, S. Nehring, and V. P
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74 B.S. Galil, S. Nehring, and V. P
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Short Introduction Wolfgang Nentwig
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80 R.A. Hufbauer and M.E. Torchin s
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82 6.2 Hypotheses to Explain Biolog
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84 R.A. Hufbauer and M.E. Torchin e
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86 R.A. Hufbauer and M.E. Torchin l
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88 R.A. Hufbauer and M.E. Torchin (
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90 R.A. Hufbauer and M.E. Torchin i
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92 R.A. Hufbauer and M.E. Torchin h
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94 R.A. Hufbauer and M.E. Torchin B
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96 R.A. Hufbauer and M.E. Torchin T
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98 P. Pysšek and D.M. Richardson a
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100 P. Pysšek and D.M. Richardson
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102 P. Pysšek and D.M. Richardson
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104 P. Pysšek and D.M. Richardson
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106 P. Pysšek and D.M. Richardson
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108 P. Pysšek and D.M. Richardson
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110 P. Pysšek and D.M. Richardson
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112 P. Pysšek and D.M. Richardson
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114 7.3.1 Assumptions for Congeneri
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116 P. Pysšek and D.M. Richardson
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118 P. Pysšek and D.M. Richardson
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120 P. Pysšek and D.M. Richardson
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122 References P. Pysšek and D.M.
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124 P. Pysšek and D.M. Richardson
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8 Do Successful Invaders Exist? Pre
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Do Successful Invaders Exist? 129 F
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Do Successful Invaders Exist? 131 l
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Do Successful Invaders Exist? 133 T
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Do Successful Invaders Exist? 135 a
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Do Successful Invaders Exist? 137 b
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Do Successful Invaders Exist? 139 m
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Do Successful Invaders Exist? 141 R
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Short Introduction Wolfgang Nentwig
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148 M.L. Brooks ment practices desi
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150 M.L. Brooks direct additions to
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152 M.L. Brooks lerberg 1998, 2002;
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154 M.L. Brooks native plants, as d
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156 M.L. Brooks methods used to rem
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158 9.4.2 Effects of Vegetation Man
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160 M.L. Brooks potential associate
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162 M.L. Brooks Schmidt W (1989) Pl
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164 M. Scherer-Lorenzen, H. Olde Ve
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166 M. Scherer-Lorenzen, H. Olde Ve
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168 M. Scherer-Lorenzen, H. Olde Ve
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170 M. Scherer-Lorenzen, H. Olde Ve
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172 M. Scherer-Lorenzen, H. Olde Ve
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174 M. Scherer-Lorenzen, H. Olde Ve
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176 M. Scherer-Lorenzen, H. Olde Ve
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178 M. Scherer-Lorenzen, H. Olde Ve
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180 M. Scherer-Lorenzen, H. Olde Ve
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182 I. Kühn and S. Klotz who provi
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184 11.3 Case Studies on Ecosystem
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186 I. Kühn and S. Klotz fore, und
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188 I. Kühn and S. Klotz home soil
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190 I. Kühn and S. Klotz evolution
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192 I. Kühn and S. Klotz Similarly
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194 I. Kühn and S. Klotz To increa
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196 I. Kühn and S. Klotz Mack MC,
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198 W. Thuiller, D.M. Richardson, a
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200 W. Thuiller, D.M. Richardson, a
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202 W. Thuiller, D.M. Richardson, a
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204 W. Thuiller, D.M. Richardson, a
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206 W. Thuiller, D.M. Richardson, a
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208 W. Thuiller, D.M. Richardson, a
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210 W. Thuiller, D.M. Richardson, a
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Section IV Ecological Impact of Bio
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216 Section IV · Short Introductio
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218 H. Charles and J.S. Dukes proce
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220 H. Charles and J.S. Dukes can i
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222 H. Charles and J.S. Dukes Table
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224 H. Charles and J.S. Dukes tem p
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226 H. Charles and J.S. Dukes speci
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228 H. Charles and J.S. Dukes Table
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230 H. Charles and J.S. Dukes these
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232 H. Charles and J.S. Dukes (Micr
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234 H. Charles and J.S. Dukes ogist
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236 H. Charles and J.S. Dukes Geesi
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14 Biological Invasions by Marine J
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Biological Invasions by Marine Jell
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Biological Invasions by Marine Jell
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Biological Invasions by Marine Jell
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Biological Invasions by Marine Jell
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Biological Invasions by Marine Jell
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Biological Invasions by Marine Jell
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Biological Invasions by Marine Jell
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Biological Invasions by Marine Jell
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258 B. Baur and S. Schmidlin al. 20
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260 B. Baur and S. Schmidlin (Grand
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262 B. Baur and S. Schmidlin and C.
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264 B. Baur and S. Schmidlin others
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266 B. Baur and S. Schmidlin presen
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268 B. Baur and S. Schmidlin Straye
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270 References B. Baur and S. Schmi
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272 B. Baur and S. Schmidlin Riccia
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16 Hybridization and Introgression
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Hybridization and Introgression Bet
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Hybridization and Introgression Bet
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Hybridization and Introgression Bet
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Hybridization and Introgression Bet
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Hybridization and Introgression Bet
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Hybridization and Introgression Bet
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Hybridization and Introgression Bet
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Hybridization and Introgression Bet
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17 Genetically Modified Organisms a
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Genetically Modified Organisms as I
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Genetically Modified Organisms as I
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Genetically Modified Organisms as I
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Genetically Modified Organisms as I
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Genetically Modified Organisms as I
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Genetically Modified Organisms as I
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Genetically Modified Organisms as I
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Genetically Modified Organisms as I
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Section V Economy and Socio-Economy
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18 Plant, Animal, and Microbe Invas
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Plant,Animal, and Microbe Invasive
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Plant,Animal, and Microbe Invasive
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Plant,Animal, and Microbe Invasive
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Plant,Animal, and Microbe Invasive
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Plant,Animal, and Microbe Invasive
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Plant,Animal, and Microbe Invasive
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Plant,Animal, and Microbe Invasive
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19 Socio-Economic Impact and Assess
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Socio-Economic Impact and Assessmen
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Socio-Economic Impact and Assessmen
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Socio-Economic Impact and Assessmen
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Socio-Economic Impact and Assessmen
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Socio-Economic Impact and Assessmen
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Socio-Economic Impact and Assessmen
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Socio-Economic Impact and Assessmen
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Socio-Economic Impact and Assessmen
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Short Introduction Wolfgang Nentwig
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354 J. Touza, K. Dehnen-Schmutz, an
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356 J. Touza, K. Dehnen-Schmutz, an
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358 J. Touza, K. Dehnen-Schmutz, an
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360 J. Touza, K. Dehnen-Schmutz, an
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362 J. Touza, K. Dehnen-Schmutz, an
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364 J. Touza, K. Dehnen-Schmutz, an
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366 J. Touza, K. Dehnen-Schmutz, an
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368 G. J. Hallman thought to be due
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370 G. J. Hallman (WTO), and, there
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372 G. J. Hallman literature to des
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- Page 433 and 434: Subject Index 431 fallow deer 19 fa
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