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HERBIVORY & PLANT DEFENSE 207 Mattiacci, L., Dicke, M., & Posthumus, M. A. (1995). Beta-glucosidase: An elicitor of herbivore-induced plant odor that attracts host-searching parasitic wasps. Proceedings of the National Academy of Sciences, USA, 92, 2036–2040 McCloud, E. S., & Baldwin, I. T. (1997). Herbivory and caterpillar regurgitants amplify the wound induce increases in jasmonic acid but not nicotine in Nicotiana sylvestris. Planta Heidelberg, 203, 430–435. McConn, M., Creelman, R. A., Bell, E., Mullet, J. E., & Browse, J. (1997). Jasmonate is essential for insect defense in Arabidopsis. Proceeding of the National Academy of Sciences. (USA), 94, 5473–5477. Ode, P. J. (2006). Plant chemistry and natural enemy fitness: Effects on herbivore and natural enemy interactions. Annual Review of Entomology, 51, 163–85. Ohgushi, T. (2005). Indirect interaction webs: Herbivore-induced effects through trait change in plants. Annual Review of Ecological System, 36, 81–105. Pare, W. P., Alborn, T. H., & Tumlinson, H. J. (1998). Concerted biosynthesis of an insect elicitor of plant volatiles. Plant Biology, 95, 13971–13975. Pechan, T., Cohen, A., Williams, P. W., & Luthe, S. D. (2002). Insect feeding mobilizes a unique plant defense protease that disrupts the peritrophic matrix of caterpillars. Proceedings of the National Academy of Sciences, (USA), 99, 13319–13323. Pontoppidan, B., Hopkins, R., Rask, L., & Meijer, J. (2005). Differential wound induction of the myrosinase system in oilseed rape (Brassica napus) contrasting insect damage with mechanical damage. Plant Science, 168, 715–722. Price, P. W., et al. (1980). Interactions among three trophic levels: Influence of plants on interaction between insect herbivores and natural enemies. Annual Review of Ecological Systems, 11, 41–65. Rangaswami, G. (1983). Biodegradation of pesticides. Pesticide Information, 9, 55–63. Ryan, C. A. (2001). Night moves of pregnant moths. Nature, 410, 530–531. Schmelz, E. A., Alborn, H. T., Banchio, E., & Tumlinson, J. H. (2003a). Quantitative relationship between induced jasmonic acid levels and volatiles emission in Zea mays during Spodoptera exigua herbivory. Planta, 216, 665–673. Schmelz, E. A., Alborn, H. T., & Tumlinson, J. H. (2003b). Synergistic interactions between volicitin, jasmonic acid and ethylene mediate insect induced volatile emission in Zea mays. Physiologia Plantarum, 117, 403–412. Schmelz, E. A., Carroll, J. M., Leclere, S., Phipps, M. S., Meredith, J., Chourey, S. P., et al. (2006). Fragments of ATP synthase mediate plant perception of insect attack. Proceedings of the National Academy of Sciences, USA, 103, 8894–8899. Simonetti, A. J., Grez, A. A., Celis, D. L. J., & Bustamante, O. R. (2007). Herbivory and seedling performance in a fragmented temperate forest of Chile. Acta Oecologica, 32, 312–318. Stamp, N. E. (1987). Availability of resources for predators of chelone seeds and their parasitoids. American Midland Naturalist, 117, 265–279. Takabayashi, J., & Dicke, M. (1996). Plant carnivore mutalism through herbivore induced carnivore attractants. Trends in Plant Sciences, 1, 109–113. Thaler, J. S. (1999a). Induced resistance in agricultural crops: Effect of jasmonic acid on herbivory and yield in tomato plants. Environmental Entomology, 28, 30–37. Thaler, J. S. (1999b). Jasmonate inducible plant defenses causes increased parasitism of herbivores. Nature, 399, 686–687. Thaler, J. S., Farag, M. A., Parepaul, W., & Dicke, M. (2002). Jasmonate deficient plants have reduced direct and indirect defenses against herbivores. Ecology Letters, 5, 764–774. Thaler, J. S., Stout, M. J., Karban, R., & Duffey, S. S. (2001). Jasmonate mediated induced plant resistance affects a community of herbivores. Ecological Entomology, 26, 312–324. Trotter, T. R., III, Cobb, S. N., & Whitham, G. T. (2002). Herbivory, plant resistance and climate in the tree ring record: Interaction distort climatic reconstruction. Proceedings of the National Academy of Sciences (USA), 99, 10197–10202. Turlings, T. C. J. Tumlinson, J. H., & Lewis, W. J. (1990). Exploitation of herbivore induced plant odors by host-seeking parasitic wasps. Science, 250, 1251–1253. Van Kleunen, M., Ramponi, G., & Schmid, B. (2004). Effects of herbivory simulated by clipping and jasmonic acid on Solidago Canadensis. Basic and Applied Ecology, 5, 173–181. Van Poecke, R. M. P., & Dicke, M. (2004). Indirect defense of plants against herbivores using Arabidopsis thaliana as a model plant. Plant Biology, 6, 387–401.
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Integrated Management of Arthropod
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Integrated Management of Arthropod
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PREFACE This is the last volume of
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viii CONTENTS 2.3.3. Chemical Contr
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x CONTENTS 3.4. Wildlife Benefits .
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xii CONTENTS 10 Control of Urticati
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CONTRIBUTORS Mohamed S. T. Abbas Pl
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OBITUARY NOTICE Prof. K. G. Mukerji
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Section 1 IPM IN CITRUS GROVES
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4 J.A. JACAS ET AL. decumana L.], b
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6 J.A. JACAS ET AL. tree volume. A
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8 J.A. JACAS ET AL. Table 2 continu
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10 J.A. JACAS ET AL. Table 2 contin
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14 J.A. JACAS ET AL. Table 4. Insec
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16 J.A. JACAS ET AL.
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2 MAIN ARTHROPOD PESTS OF CITRUS CU
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IPM OF CITRUS PESTS IN GREECE 31 Ta
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IPM OF CITRUS PESTS IN GREECE 33 ex
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IPM OF CITRUS PESTS IN GREECE 35 A
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IPM OF CITRUS PESTS IN GREECE 37 2.
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IPM OF CITRUS PESTS IN GREECE 39 re
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IPM OF CITRUS PESTS IN GREECE 41 mi
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IPM OF CITRUS PESTS IN GREECE 43 in
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IPM OF CITRUS PESTS IN GREECE 45 To
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IPM OF CITRUS PESTS IN GREECE 47 ca
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IPM OF CITRUS PESTS IN GREECE 49 In
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IPM OF CITRUS PESTS IN GREECE 51 oc
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IPM OF CITRUS PESTS IN GREECE 53 Re
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IPM OF CITRUS PESTS IN GREECE 55 Ka
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IPM OF CITRUS PESTS IN GREECE 57 Ne
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IPM OF CITRUS PESTS IN GREECE 59 (p
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62 J.A. JACAS & A. URBANEJA insuffi
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64 J.A. JACAS & A. URBANEJA 2. THE
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66 J.A. JACAS & A. URBANEJA Since t
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68 J.A. JACAS & A. URBANEJA because
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70 J.A. JACAS & A. URBANEJA showed
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72 J.A. JACAS & A. URBANEJA Lentere
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74 L. ZAPPALÀ etc.) that modified
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76 L. ZAPPALÀ Aonidiella aurantii
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78 L. ZAPPALÀ Although numerous na
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80 L. ZAPPALÀ depending on the mar
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82 L. ZAPPALÀ encyrtid A. citricol
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84 L. ZAPPALÀ In Italy C. phyllocn
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86 L. ZAPPALÀ Vivas, 1995; Argov,
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88 L. ZAPPALÀ the activity of the
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90 L. ZAPPALÀ yellowish-white, sle
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92 L. ZAPPALÀ Australia. Effective
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94 L. ZAPPALÀ (Hymenoptera: Apheli
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96 L. ZAPPALÀ Franco, J. C., Fortu
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98 L. ZAPPALÀ Mineo, G., & Mineo,
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100 L. ZAPPALÀ Zappalà, L., & Sis
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102 R. CAMPOS-HERRERA ET AL. chemic
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104 R. CAMPOS-HERRERA ET AL. 2. IPM
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106 R. CAMPOS-HERRERA ET AL. Hetero
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108 R. CAMPOS-HERRERA ET AL. indire
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110 R. CAMPOS-HERRERA ET AL. highes
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112 R. CAMPOS-HERRERA ET AL. infect
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114 R. CAMPOS-HERRERA ET AL. (1997)
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116 R. CAMPOS-HERRERA ET AL. endopa
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118 R. CAMPOS-HERRERA ET AL. presen
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120 R. CAMPOS-HERRERA ET AL. they p
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122 R. CAMPOS-HERRERA ET AL.
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124 R. CAMPOS-HERRERA ET AL. Atkins
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126 R. CAMPOS-HERRERA ET AL. Grewal
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128 R. CAMPOS-HERRERA ET AL. McCoy,
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130 R. CAMPOS-HERRERA ET AL. Wolcot
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6 INTEGRATION OF INSECT AND MITE MA
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IPM IN PECAN PRODUCTION 135 Pecan n
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IPM IN PECAN PRODUCTION 137 Weed co
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IPM IN PECAN PRODUCTION 139 hemipte
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IPM IN PECAN PRODUCTION 141 by Fusi
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IPM IN PECAN PRODUCTION 143 1989).
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IPM IN PECAN PRODUCTION 145 orchard
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IPM IN PECAN PRODUCTION 147 tree ro
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IPM IN PECAN PRODUCTION 149 3.3. So
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IPM IN PECAN PRODUCTION 151 climati
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IPM IN PECAN PRODUCTION 153 Orchard
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IPM IN PECAN PRODUCTION 155 populat
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IPM IN PECAN PRODUCTION 157 Ark, P.
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IPM IN PECAN PRODUCTION 159 Harris,
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IPM IN PECAN PRODUCTION 161 Smith,
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7 LOCUST HABITAT MONITORING AND RIS
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LOCUST REMOTE SENSING AND GIS 165 I
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LOCUST REMOTE SENSING AND GIS 167 R
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LOCUST REMOTE SENSING AND GIS 169 2
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LOCUST REMOTE SENSING AND GIS 171 G
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LOCUST REMOTE SENSING AND GIS 173 p
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LOCUST REMOTE SENSING AND GIS 175 g
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LOCUST REMOTE SENSING AND GIS 177 3
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LOCUST REMOTE SENSING AND GIS 179 a
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Page 396: LOCUST REMOTE SENSING AND GIS 183 i
Page 400: LOCUST REMOTE SENSING AND GIS 185 m
Page 404: LOCUST REMOTE SENSING AND GIS 187 S
Page 408: 8 PLANT DEFENSES AGAINST INSECT HER
Page 412: HERBIVORY & PLANT DEFENSE 191 is ex
Page 416: HERBIVORY & PLANT DEFENSE 193 Accor
Page 420: HERBIVORY & PLANT DEFENSE 195 Fall
Page 424: HERBIVORY & PLANT DEFENSE 197 nitro
Page 428: HERBIVORY & PLANT DEFENSE 199 perfo
Page 432: HERBIVORY & PLANT DEFENSE 201 Van P
Page 436: HERBIVORY & PLANT DEFENSE 203 certa
Page 440: HERBIVORY & PLANT DEFENSE 205 synth
Page 446: 208 FARHA-REHMAN ET AL. Van Poecke,
Page 450: 210 M.S.T. ABBAS The high rate of s
Page 454: 212 M.S.T. ABBAS rhinoceros but it
Page 458: 214 M.S.T. ABBAS 3.2.3. Locomotion
Page 462: 216 M.S.T. ABBAS was found to be pa
Page 466: 218 M.S.T. ABBAS sealed with moiste
Page 470: 220 M.S.T. ABBAS (Anonymous, 2001).
Page 474: 222 M.S.T. ABBAS marked weevils wer
Page 478: 224 M.S.T. ABBAS from that of males
Page 482: 226 M.S.T. ABBAS those 3 isolates,
Page 486: 228 M.S.T. ABBAS and wire screen. T
Page 490: 230 M.S.T. ABBAS while H. bacteriop
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232 M.S.T. ABBAS Georgis, R. (1990)
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10 CONTROL OF URTICATING LEPIDOPTER
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AERIAL BT TREATMENTS 237 The main s
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AERIAL BT TREATMENTS 239 skin injec
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AERIAL BT TREATMENTS 241 Africa, or
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AERIAL BT TREATMENTS 243 Further la
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AERIAL BT TREATMENTS 245 Martin, J.
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Section 3 MITES BIOLOGICAL CONTROL
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250 L.P.S. VAN DER GEEST reproducti
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252 L.P.S. VAN DER GEEST midgut of
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254 L.P.S. VAN DER GEEST glands (On
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256 L.P.S. VAN DER GEEST related to
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258 L.P.S. VAN DER GEEST obligate i
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260 L.P.S. VAN DER GEEST Eotetranyc
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262 L.P.S. VAN DER GEEST number, st
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264 L.P.S. VAN DER GEEST The presen
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266 L.P.S. VAN DER GEEST Table 2 Co
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268 L.P.S. VAN DER GEEST twospotted
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270 L.P.S. VAN DER GEEST that the f
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272 L.P.S. VAN DER GEEST the surviv
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274 L.P.S. VAN DER GEEST Table 3. H
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278 L.P.S. VAN DER GEEST death of t
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280 L.P.S. VAN DER GEEST Several at
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282 L.P.S. VAN DER GEEST Figure 9.
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284 L.P.S. VAN DER GEEST of whitefl
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286 L.P.S. VAN DER GEEST fusion of
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290 L.P.S. VAN DER GEEST The phylum
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292 L.P.S. VAN DER GEEST 75% after
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294 L.P.S. VAN DER GEEST life span,
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296 L.P.S. VAN DER GEEST identifica
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298 L.P.S. VAN DER GEEST From the o
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300 L.P.S. VAN DER GEEST measures a
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302 L.P.S. VAN DER GEEST Chen, Y.,
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304 L.P.S. VAN DER GEEST James, D.
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306 L.P.S. VAN DER GEEST Oduor, G.
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308 L.P.S. VAN DER GEEST Speare, A.
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12 IPM STRATEGIES THROUGH SPECIALIS
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PREDATORY MITES IN IPM 313 Among na
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PREDATORY MITES IN IPM 315 antagoni
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PREDATORY MITES IN IPM 317 of sex a
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PREDATORY MITES IN IPM 319 Table 2
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PREDATORY MITES IN IPM 321 effect w
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PREDATORY MITES IN IPM 323 Castagno
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PREDATORY MITES IN IPM 325 Schausbe
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328 INDEX 237, 238, 241, 268, 269,
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330 INDEX Asaphes vulgaris, 46 Asap
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332 INDEX Btk spore, 243 Btk, 240-2
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334 INDEX Citrus aurantifolia, 3 Ci
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336 INDEX 254, 255, 267-269, 292, 2
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338 INDEX Dodine, 141, 142 Dorsal d
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340 INDEX Eulophidae, 20, 38, 43, 4
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342 INDEX 216, 249, 250, 260, 261,
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344 INDEX Hibernation, 47 Hickory s
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346 INDEX Iphiseius (Amblyseius) de
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348 INDEX Louisiana, 82 Lufenuron,
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350 INDEX Moisture, 146-148, 150, 1
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352 INDEX Nymphal distribution, 164
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354 INDEX Pecan trees, 134, 136, 14
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356 INDEX Pnigalio agraules, 85 Pni
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358 INDEX Regression model, 271 Reg
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360 INDEX Sethoxydim, 137, 144, 152
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362 INDEX Sunlight, 39, 90, 167, 25
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364 INDEX Trichlorfon, 21, 22, 24,
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366 INDEX Winter, 32, 51, 237, 241
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