Thrips: Pests of Concern to China and the United States

Thrips are among the most important agricultural pests globally because of the damage inflicted by their oviposition, feeding, and ability to transmit plant viruses. Because of their invasiveness, a number of pest species are common to both China and the United States and present significant challenges to growers of a wide range of crops in both countries. Among the pest thrips common to both countries are four of the major global thrips pests, Frankliniella occidentalis (Pergande), Scirtothrips dorsalis Hood, Thrips palmi Karny, and Thrips tabaci Lindeman. This review addresses characteristics that enable thrips to be such damaging pests and how biological attributes of thrips create challenges for their management. Despite these challenges, a number of successful management tactics have been developed for various cropping systems. We discuss some of these tactics that have been developed, including the use of cultural controls, biological controls, and judicious use of insecticides that do not disrupt overall pest management programs. The exchange of this type of information will help to facilitate management of pest thrips, especially in regions where species have recently invaded. A prime example is F. occidentalis, the western flower thrips, which is native to the United States, but has recently invaded China. Therefore, management tactics developed in the United States can be adapted to China. Because further success in management of thrips requires a thorough understanding of thrips ecology, we discuss areas of future research and emphasize the importance of collaboration among different countries to enhance our overall understanding of the biology and ecology of thrips and to improve management programs for these widespread pests.

[1]  J. Shipp,et al.  Influence of plant species and plant growth stage on Frankliniella occidentalis pupation behaviour in greenhouse ornamentals , 2008 .

[2]  T. Brenneman,et al.  Tomato spotted wilt virus resistance among high and normal O/L ratio peanut cultivars with and without irrigation , 2003 .

[3]  G. Moritz,et al.  Life‐cycle variation, including female production by virgin females in Frankliniella occidentalis (Thysanoptera: Thripidae) , 2009 .

[4]  J. Davidson,et al.  The Influence of Rainfall, Evaporation and atmospheric Temperature on Fluctuations in the Size of a natural Population of Thrips imaginis (Thysanoptera). , 1948 .

[5]  L. Mound,et al.  The insect order Tysanoptera: Classification versus systematics , 2007 .

[6]  T. Butt,et al.  Fungal pathogens of thrips. , 1997 .

[7]  M. Simmonds,et al.  Relationship Between Nutritional Composition of Plant Species and Infestation Levels of Thrips , 2002, Journal of Chemical Ecology.

[8]  F. Davies,et al.  Fertiliser application affects susceptibility of chrysanthemum to western flower thrips – abundance and influence on plant growth, photosynthesis and stomatal conductance , 2005 .

[9]  J. Mo,et al.  Within-Plant Distribution of Onion Thrips (Thysanoptera: Thripidae) in Onions , 2008, Journal of economic entomology.

[10]  N. Martin,et al.  Confirmation of a pesticide-resistant strain of Western flower thrips in New Zealand , 1994 .

[11]  C. Castañé,et al.  Thrips Biology and Management , 1995, NATO ASI Series.

[12]  K. Bolckmans,et al.  Control of Bemisia tabaci and Frankliniella occidentalis in cucumber by Amblyseius swirskii , 2011, BioControl.

[13]  J. Aramburu,et al.  The occurrence in north‐east Spain of a variant of Tomato spotted wilt virus (TSWV) that breaks resistance in tomato (Lycopersicon esculentum) containing the Sw‐5 gene , 2003 .

[14]  P. Kevan,et al.  Biological control of Lygus lineolaris (Hemiptera: Miridae) and Frankliniella occidentalis (Thysanoptera: Thripidae) by Bombus impatiens (Hymenoptera: Apidae) vectored Beauveria bassiana in greenhouse sweet pepper , 2006 .

[15]  S. E. Jensen Insecticide Resistance in the Western Flower Thrips, Frankliniella occidentalis , 2000 .

[16]  D. Riley,et al.  Tactics for Management of Thrips (Thysanoptera: Thripidae) and Tomato Spotted Wilt Virus in Tomato , 2004, Journal of economic entomology.

[17]  D. Sullivan,et al.  Thrips (Thysanoptera: Thripidae) mitigation in seedling cotton using strip tillage and winter cover crops. , 2010, Pest management science.

[18]  L. Terry,et al.  Patterns of change in secondary and tertiary sex ratios of the Terebrantian thrips, Frankliniella occidentalis , 1993 .

[19]  K. Walters,et al.  Dissemination of the entomopathogenic fungi, Lecanicillium longisporum and L. muscarium, by the predatory bug, Orius laevigatus, to provide concurrent control of Myzus persicae, Frankliniella occidentalis and Bemisia tabaci , 2009 .

[20]  G. Frantz,et al.  Refuge and Cover Crop Plantings for Beneficial Insect Habitats , 1999 .

[21]  H. McAuslane,et al.  Within-Plant Distribution of Frankliniella species (Thysanoptera: Thripidae) and Orius insidiosus (Heteroptera: Anthocoridae) in Field Pepper , 2003 .

[22]  C. Petzoldt,et al.  Evaluation of an onion thrips pest management program for onions in New York , 1995 .

[23]  G. Walter,et al.  Host species and plant part specificity of the polyphagous onion thrips, Thrips tabaci Lindeman (Thysanoptera: Thripidae), in an Australian cotton-growing area. , 1998 .

[24]  L. Yudin,et al.  Host Range of Western Flower Thrips, Frankliniella occidentalis (Thysanoptera: Thripidae), with Special Reference to Leucaena glauca , 1986 .

[25]  D. Gonsalves,et al.  Combining transgenic and natural resistance to obtain broad resistance to tospovirus infection in tomato (Lycopersicon esculentum mill) , 2002, Molecular Breeding.

[26]  D. Jordan,et al.  Management of spotted wilt vectored by Frankliniella fusca (Thysanoptera: Thripidae) in Virginia market-type peanut. , 2005, Journal of economic entomology.

[27]  Roger Brown Effect of temperature , 1996 .

[28]  Q. Zhang,et al.  First Report of Impatiens necrotic spot virus Infecting Phalaenopsis and Dendrobium Orchids in Yunnan Province, China. , 2010, Plant disease.

[29]  A. Shelton,et al.  Impact of Insecticide Efficacy on Developing Action Thresholds for Pest Management: A Case Study of Onion Thrips (Thysanoptera: Thripidae) on Onion , 2010, Journal of economic entomology.

[30]  D. Wright,et al.  Influence of Flower Thrips on Fusarium Hardlock Severity. , 2007, Plant disease.

[31]  Z. Xu,et al.  Characterization of a New Strain of Capsicum chlorosis virus from Peanut (Arachis hypogaea L.) in China , 2007 .

[32]  R. Cannon,et al.  A review of the pest status and control options for Thrips palmi , 2007 .

[33]  S. Ekesi,et al.  Effects of temperature and photoperiod on development and oviposition of the legume flower thrips, Megalurothrips sjostedti , 1999 .

[34]  D. M. Kendall,et al.  Susceptibility of Onion Growth Stages to Onion Thrips (Thysanoptera: Thripidae) Damage and Mechanical Defoliation , 1987 .

[35]  R. Cole,et al.  Low aromatic amino acid concentrations in leaf proteins determine resistance to Frankliniella occidentalis in four vegetable crops , 1996 .

[36]  L. Mound,et al.  A south east Asian pest species newly recorded from Europe: Thrips parvispinus (Thysanoptera: Thripidae), its confused identity and potential quarantine significance. , 2000 .

[37]  D. Gent,et al.  Iris yellow spot virus: An Emerging Threat to Onion Bulb and Seed Production. , 2006, Plant disease.

[38]  S. Reitz Biology and Ecology of Flower Thrips in Relation to Tomato Spotted Wilt Virus , 2005 .

[39]  N. W. PIRIE,et al.  Biological Diversity , 1964 .

[40]  R. Ridgway,et al.  Functional and Numerical Responses of Orius insidiosus (Heteroptera: Anthocoridae) to Its Prey in Different Vegetable Crops , 1995 .

[41]  Matthew Thomas Myers Integrated management tactics for the control of cogongrass [Imperata cylindrica (L.) Beauv.] , 2008 .

[42]  L. Tavella,et al.  Colonization and predation of thrips (Thysanoptera: Thripidae) by Orius spp. (Heteroptera: Anthocoridae) in sweet pepper greenhouses in Northwest Italy , 2008 .

[43]  J. Morse,et al.  Pesticide-induced hormoligosis of citrus thrips (Thysanoptera: Thripidae) fecundity , 1991 .

[44]  J. Shapiro,et al.  Comparison of prey-derived and non-insect supplements on egg-laying of Orius insidiosus maintained on artificial diet as adults , 2004 .

[45]  Chang-Gyu Park,et al.  Parameter estimation for a temperature-dependent development model of Thrips palmi Karny (Thysanoptera: Thripidae) , 2010 .

[46]  R. Chapman,et al.  Comparison of Life History Parameters of Two Frankliniella occidentalis (Thysanoptera: Thripidae) Strains in New Zealand , 2010, Environmental entomology.

[47]  R. Pitblado Tomato Spotted Wilt Virus , 1948, Nature.

[48]  P. Slatter,et al.  Towards the development of a push-pull strategy for improving biological control of western flower thrips on chrysanthemum , 2003 .

[49]  J. Bale,et al.  Effect of temperature on development of the Western Flower Thrips, Frankliniella occidentalis (Thysanoptera: Thripidae) , 2013 .

[50]  P. Bielza,et al.  Metabolic mechanisms of insecticide resistance in the western flower thrips, Frankliniella occidentalis (Pergande). , 2005, Pest management science.

[51]  R. Nichols,et al.  Fusarium verticillioides (Saccardo) Nirenberg Associated with Hardlock of Cotton , 2010, Current Microbiology.

[52]  D. Liu,et al.  Investigating the Effect of Invasion Characteristics on Onion Thrips (Thysanoptera: Thripidae) Populations in Onions with a Temperature-Driven Process Model , 2009, Environmental entomology.

[53]  L. Terry Frankliniella occidentalis (Thysanoptera: Thripidae) Oviposition in Apple Buds: Role of Bloom State, Blossom Phenology, and Population Density , 1991 .

[54]  P. Trichilo,et al.  Natural Enemies of Spider Mites (Acari: Tetranychidae) on Cotton: Density Regulation or Casual Association? , 1991 .

[55]  R. Goldbach,et al.  Restricted Spread of Tomato spotted wilt virus in Thrips-Resistant Pepper. , 2003, Phytopathology.

[56]  S. Reitz,et al.  Predation by Orius insidiosus (Heteroptera: Anthocoridae) on Life Stages and Species of Frankliniella Flower Thrips (Thysanoptera: Thripidae) in Pepper Flowers , 2004 .

[57]  S. Olson,et al.  Damage to tomato fruit by the western flower thrips (Thysanoptera: Thripidae) , 1991 .

[58]  G. Walter,et al.  'Phytophagous' thrips are facultative predators of twospotted spider mites (Acari: Tetranychidae) on cotton in Australia , 1996 .

[59]  B. Thomma,et al.  Emerging viral diseases of tomato crops. , 2010, Molecular plant-microbe interactions : MPMI.

[60]  J. Kamm Environmental Influence on Reproduction, Diapause, and Morph Determination of Anaphothrips obscurus (Thysanoptera: Thripidae) , 1972 .

[61]  H. W. Simmonds,et al.  The Biological Control of the Weed Clidemia hirta , D. Don., in Fiji , 1933 .

[62]  G. DeGrandi-Hoffman,et al.  Incorporating Fruit Set Estimates with Thrips Management to Create a Decision Support System for Apples , 1988, Hortscience.

[63]  L. Terry,et al.  The spread of the western flower thrips Frankliniella occidentalis (Pergande) , 2003 .

[64]  S. Olson,et al.  Population Dynamics of Frankliniella spp. and Tomato Spotted Wilt Incidence as Influenced by Cultural Management Tactics in Tomato , 2002, Journal of economic entomology.

[65]  Ray F. Smith,et al.  The integrated control concept , 1959 .

[66]  Pringle Kl,et al.  Life history and life tables of western flower thrips, Frankliniella occidentalis (Thysanoptera: Thripidae), on English cucumbers , 1994 .

[67]  J. Tsai,et al.  Effects of host plant and temperature on growth and reproduction of Thrips palmi (Thysanoptera : Thripidae) , 1995 .

[68]  R. Jacobson,et al.  Integrated pest management (IPM) in glasshouses. , 1997 .

[69]  T. Lewis,et al.  Structure, growth and development. , 1997 .

[70]  Fan Jia-qin Survey in Nanjing and the PCR diagnosis of Frankliniella occidentalis , 2010 .

[71]  S. Olson,et al.  Predation of Frankliniella occidentalis (Thysanoptera: Thripidae) in Field Peppers by Orius insidiosus (Hemiptera: Anthocoridae) , 2000 .

[72]  N. Katis,et al.  The Efficiency by Which Thrips tabaci Populations Transmit Tomato spotted wilt virus Depends on Their Host Preference and Reproductive Strategy. , 2002, Phytopathology.

[73]  Irene Vänninen,et al.  Life history characteristics of Frankliniella occidentalis on cucumber leaves with and without supplemental food , 2003 .

[74]  F. Brinkman,et al.  Phylogenetic analysis. , 1998, Methods of biochemical analysis.

[75]  A. Kawai Control of Thrips palmi KARNY(Thysanoptera:Thripidae)by Orius spp.(Heteroptera:Anthocoridae)on Greenhouse Eggplant , 1995 .

[76]  T. Lewis,et al.  Thrips their biology, ecology and economic importance , 1975, Pedobiologia.

[77]  A. Shelton,et al.  Impact of Straw Mulch on Populations of Onion Thrips (Thysanoptera: Thripidae) in Onion , 2008, Journal of economic entomology.

[78]  Y. Hirose,et al.  Natural Enemies of Thrips palmi and Their Effectiveness in the Native Habitat, Thailand , 1993 .

[79]  Steven M. Olson,et al.  Flower nitrogen status and populations of Frankliniella occidentalis feeding on Lycopersicon esculentum , 2001 .

[80]  S. Olson,et al.  Population abundance and movement of Frankliniella species and Orius insidiosus in field pepper , 2001 .

[81]  W. J. Mattson,et al.  Herbivory in relation to plant nitrogen content , 1980 .

[82]  I. Vänninen,et al.  Western flower thrips feeding on pollen, and its implications for control , 2002 .

[83]  S. Reitz Biology and Ecology of the Western Flower Thrips (Thysanoptera: Thripidae): The Making of a Pest , 2009 .

[84]  K. Heinz,et al.  In vivo Rearing of Thripinema nicklewoodi (Tylenchida: Allantonematidae) and Prospects as a Biological Control Agent of Frankliniella occidentalis (Thysanoptera: Thripidae) , 2002, Journal of economic entomology.

[85]  L. Terry,et al.  Western Flower Thrips (Frankliniella Occidentalis) , 2011 .

[86]  Song Qiong-zhang Investigation on Thrips Species on Flowers in Guiyang,Guizhou Province , 2009 .

[87]  R. Groves,et al.  The Role of Weed Hosts and Tobacco Thrips, Frankliniella fusca, in the Epidemiology of Tomato spotted wilt virus. , 2002, Plant disease.

[88]  A. Loomans,et al.  Interactions with hymenopterous parasitoids and parasitic nematodes. , 1997 .

[89]  A. Shelton,et al.  Reproductive Modes in Onion Thrips (Thysanoptera: Thripidae) Populations from New York Onion Fields , 2006 .

[90]  D. A. Stacey,et al.  Temperature and the development rates of thrips: evidence for a constraint on local adaptation? , 2002 .

[91]  M. Hoddle,et al.  Molecular Identification Key for Pest Species of Scirtothrips (Thysanoptera: Thripidae) , 2006, Journal of economic entomology.

[92]  G. Wheeler,et al.  Resolving cryptic species with morphology and DNA; thrips as a potential biocontrol agent of Brazilian peppertree, with a new species and overview of Pseudophilothrips (Thysanoptera). , 2010 .

[93]  G. Messelink,et al.  Evaluation of phytoseiid predators for control of western flower thrips on greenhouse cucumber , 2006, BioControl.

[94]  Ray F. Smith,et al.  THE INTEGRATION OF CHEMICAL AND BIOLOGICAL CONTROL OF , 1959 .

[95]  L. Shipp,et al.  Dispersal of adult western flower thrips (Thysanoptera: Thripidae) in greenhouse crops , 2004, The Canadian Entomologist.

[96]  L. Mound Thysanoptera: diversity and interactions. , 2005, Annual review of entomology.

[97]  C. Webster,et al.  First report of Groundnut ringspot virus infecting tomato in south Florida. , 2010 .

[98]  J. Shipp,et al.  Factors Influencing the Use of Trap Plants for the Control of Frankliniella occidentalis (Thysanoptera: Thripidae) on Greenhouse Potted Chrysanthemum , 2006 .

[99]  L. Mound,et al.  Tospovirus transmission depends on thrips ontogeny. , 2004, Virus research.

[100]  M. Hoddle,et al.  Nuclear-Mitochondrial Barcoding Exposes the Global Pest Western Flower Thrips (Thysanoptera: Thripidae) as Two Sympatric Cryptic Species in Its Native California , 2010, Journal of economic entomology.

[101]  E. Beers,et al.  Timing of oviposition by western flower thrips (Thysanoptera: Thripidae) in apple fruit , 2007 .

[102]  P. Bielza Insecticide resistance management strategies against the western flower thrips, Frankliniella occidentalis. , 2008, Pest management science.

[103]  S. Xiao The prey preference of Orius sauteri on western flower thrips and two-spotted spider mite , 2009 .

[104]  J. Sherwood,et al.  Thrips as vectors of tospoviruses , 2002 .

[105]  K. Nguyen,et al.  Thripenema fuscum n. sp. (Tylenchida: Allantonematidae), a Parasite of the Tobacco Thrips, Frankliniella fusca (Thysanoptera). , 1998, Journal of nematology.

[106]  J. Shapiro,et al.  IMPROVED FECUNDITY IN THE PREDATOR ORIUS INSIDIOSUS (HEMIPTERA: ANTHOCORIDAE) WITH A PARTIALLY PURIFIED NUTRITIONAL FACTOR FROM AN INSECT CELL LINE , 2007 .

[107]  J. Myers,et al.  Spatial and Temporal Patterns of Dispersal of Western Flower Thrips (Thysanoptera: Thripidae) in Nectarine Orchards in British Columbia , 2001, Journal of economic entomology.

[108]  R. Kormelink,et al.  A distinct tospovirus causing necrotic streak on Alstroemeria sp. in Colombia , 2010, Archives of Virology.

[109]  L. Boiteux,et al.  Inheritance of a resistance specific to tomato spotted wilt tospovirus in Capsicum chinense ‘PI 159236’ , 2004, Euphytica.

[110]  C. Mollema,et al.  Variation in performance of western flower thrips populations on susceptible and partially resistant cucumber , 1997 .

[111]  T. Hance,et al.  Demographical parameters of Frankliniella occidentalis (Pergande) (Thysanoptera, Thripidae) , 1994 .

[112]  S. Hassan,et al.  Within-plant distribution of predators on chilli , 1997 .

[113]  N. Katis,et al.  Host-associated genetic differentiation in Thrips tabaci (Insecta; Thysanoptera), as determined from mtDNA sequence data , 2004, Heredity.

[114]  T. Lewis Thrips as Crop Pests , 1997 .

[115]  D. Gillespie,et al.  COMPETITION BETWEEN ORIUS TRISTICOLOR (WHITE) (HEMIPTERA: ANTHOCORIDAE) AND AMBLYSEIUS CUCUMERIS (OUDEMANS) (ACARI: PHYTOSEIIDAE) FEEDING ON FRANKLINIELLA OCCIDENTALIS (PERGANDE) (THYSANOPTERA: THRIPIDAE) , 1992, The Canadian Entomologist.

[116]  D. Riley,et al.  Does natural deposition of pine pollen affect the ovipositional behavior of Frankliniella occidentalis and Frankliniella fusca? , 2007 .

[117]  J. Shipp,et al.  Effectiveness of insecticide-treated and non-treated trap plants for the management of Frankliniella occidentalis (Thysanoptera: Thripidae) in greenhouse ornamentals. , 2007, Pest management science.

[118]  D. Boucias,et al.  Host-Parasite Biology of Thripinema fuscum (Tylenchida: Allantonematidae) and Frankliniella fusca (Thysanoptera: Thripidae). , 2005, Journal of nematology.

[119]  P. Gognalons,et al.  AN UPDATE OF THE HOST RANGE OF TOMATO SPOTTED WILT VIRUS , 2003 .

[120]  J. Myers,et al.  Sex Ratio Patterns and Population Dynamics of Western Flower Thrips (Thysanoptera: Thripidae) , 1992 .

[121]  P. Stevens,et al.  Effect of temperature on the development, longevity and oviposition of greenhouse thrips ( Heliothrips haemorhoidalis ) on lemon fruit , 2007 .

[122]  T. Leigh,et al.  Influence of Resource Quality on the Reproductive Fitness of Flower Thrips (Thysanoptera: Thripidae) , 1988 .

[123]  R. Cannon,et al.  Potential for the use of biological agents for the control of Thrips palmi (Thysanoptera: Thripidae) outbreaks , 2006 .

[124]  A. Loomans Exploration for hymenopterous parasitoids of thrips. , 2006 .

[125]  A. Dixon,et al.  Seasonal trends in the rate of population increase of Frankliniella occidentalis (Thysanoptera: Thripidae) on cucumber , 1997 .

[126]  C. Mollema,et al.  Comparative life history studies of Frankliniella occidentalis and Thrips tabaci (Thysanoptera: Thripidae) on cucumber , 1995 .

[127]  T. Murai Development and reproductive capacity of Thrips hawaiiensis (Thysanoptera: Thripidae) and its potential as a major pest. , 2001, Bulletin of entomological research.

[128]  R. Redak,et al.  CULTIVAR, FERTILIZER, AND IRRIGATION AFFECT VEGETATIVE GROWTH AND SUSCEPTIBILITY OF CHRYSANTHEMUM TO WESTERN FLOWER THRIPS , 1998 .

[129]  R. Goldbach,et al.  Transmission of tomato spotted wilt virus by Frankliniella occidentalism median acquisition and inoculation access period , 1996 .

[130]  R. Gitaitis,et al.  Phylogenetic Analysis of Iris yellow spot virus Isolates from Onion (Allium cepa) in Georgia (USA) and Peru , 2007 .

[131]  J. Mcmurtry,et al.  Imported parasite of greenhouse thrips established on California avocado , 1991 .

[132]  S. Reitz,et al.  Nutritional Manipulation of Adult Female Orius pumilio (Hemiptera: Anthocoridae) Enhances Initial Predatory Performance , 2009, Journal of economic entomology.

[133]  K. Nagai Integrated control programs for Thrips palmi on eggplants (Solanum melongena L.) in an open field. , 1991 .

[134]  J. Bethke,et al.  Pesticide use in ornamental production: what are the benefits? , 2009, Pest management science.

[135]  L. Mound Pest Thrips of the World — Visual and Molecular Identification of Pest Thrips, Cd-Rom , 2009 .

[136]  J. Funderburk,et al.  GOLDFLECK DAMAGE TO TOMATO FRUIT CAUSED BY FEEDING OF FRANKLINIELLA OCCIDENTALIS (THYSANOPTERA: THRIPIDAE) , 2006 .

[137]  L. Jensen,et al.  The influence of orchard ground cover and introduced green lacewings on spring populations of western flower thrips in apple orchards , 1999 .

[138]  H. Costa,et al.  Effects of ultraviolet-absorbing greenhouse plastic films on flight behavior of Bemisia argentifolii (Homoptera : Aleyrodidae) and Frankliniella occidentalis (Thysanoptera : Thripidae) , 1999 .

[139]  R. Berger,et al.  Population dynamics of Frankliniella species (Thysanoptera: Thripidae) thrips and progress of spotted wilt in tomato fields , 1995 .

[140]  B. Tabashnik,et al.  Biochemical preadaptations, founder events, and the evolution of resistance in Arthropods , 1996 .

[141]  L. Childs Two Species of Thrips Injurious to Apples in the Pacific Northwest1 , 1927 .

[142]  D. Paini,et al.  Competitive exclusion of a worldwide invasive pest by a native. Quantifying competition between two phytophagous insects on two host plant species. , 2008, The Journal of animal ecology.

[143]  G. Moritz,et al.  First Detection of Wolbachia in Arrhenotokous Populations of Thrips Species (Thysanoptera: Thripidae and Phlaeothripidae) and Its Role in Reproduction , 2008, Environmental entomology.

[144]  Tong‐Xian Liu,et al.  Thrips (Thysanoptera: Thripidae) on Cotton in the Lower Rio Grande Valley of Texas: Species Composition, Seasonal Abundance, Damage, and Control , 2009 .

[145]  I. Pearsall Damage to Nectarines by the Western Flower Thrips (Thysanoptera: Thripidae) in the Interior of British Columbia, Canada , 2000, Journal of Economic Entomology.

[146]  Shiro Nakao Life Cycle and Wing Polymorphism of Composite Thrips, Microcephalothrips abdominalis (Crawford). , 1999 .

[147]  L. Bauer,et al.  Field-Cage Methodology for Evaluating Climatic Suitability for Introduced Wood-Borer Parasitoids: Preliminary Results from the Emerald Ash Borer System , 2011, Journal of insect science.

[148]  D. Paini,et al.  Annual Cycles of Frankliniella spp. (Thysanoptera: Thripidae) Thrips Abundance on North Florida Uncultivated Reproductive Hosts: Predicting Possible Sources of Pest Outbreaks , 2008 .

[149]  S. Tanksley,et al.  CONVENTIONAL BREEDING: HOST-PLANT RESISTANCE AND THE USE OF MOLECULAR MARKERS TO DEVELOP RESISTANCE TO TOMATO SPOT WILT VIRUS IN VEGETABLES , 1996 .

[150]  T. Paine,et al.  Western Flower Thrips (Thysanoptera: Thripidae) Resistance to Insecticides in Coastal California Greenhouses , 1992 .

[151]  F. R. Wylie,et al.  Integrated pest management (IPM). , 2012 .

[152]  M. Hoddle,et al.  Invasion biology of thrips. , 2006, Annual review of entomology.

[153]  A. Whitfield,et al.  Tospovirus-thrips interactions. , 2005, Annual review of phytopathology.

[154]  D. Boucias,et al.  The impact of a parasitic nematode, Thripinema fuscum, on the feeding behavior and vector competence of Frankliniella fusca , 2009 .

[155]  J. Marois,et al.  Integrated Management of Tomato Spotted Wilt on Field-Grown Tomatoes. , 2004, Plant disease.

[156]  L. Mound,et al.  Thysanoptera as Phytophagous Opportunists , 1995 .

[157]  K. Dewettinck,et al.  Nutritional value of brine shrimp cysts as a factitious food for Orius laevigatus (Heteroptera: Anthocoridae) , 2005 .

[158]  D. Teulon,et al.  Distribution of western (Glasshouse strain) and intonsa flower thrips in New Zealand , 2005 .

[159]  R. Jain,et al.  Global status of tospovirus epidemics in diverse cropping systems: successes achieved and challenges ahead. , 2009, Virus research.

[160]  C. C. Childers,et al.  Feeding and oviposition injuries to plants. , 1997 .

[161]  O. Macdonald Susceptibility of western flower thrips, Frankliniella occidentalis (Pergande) to fumigation with methyl bromide , 1993 .

[162]  Roger A. C. Jones,et al.  Selection of resistance breaking strains of tomato spotted wilt tospovirus , 1998 .

[163]  W. Kirk Pollen-feeding in thrips (Insecta: Thysanoptera) , 2009 .

[164]  H. Ishida,et al.  Effects of temperature and photoperiod on development and oviposition of Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae). , 2003 .

[165]  Todd A. Ugine,et al.  Development of a novel bioassay for estimation of median lethal concentrations (LC50) and doses (LD50) of the entomopathogenic fungus Beauveria bassiana, against western flower thrips, Frankliniella occidentalis. , 2005, Journal of invertebrate pathology.

[166]  C. A. Robertson,et al.  A simple multigeneration phenology model: Application to Scirtothrips citri (Thysanoptera: Thripidae) prediction on California oranges , 1989 .

[167]  S. Reitz SEASONAL AND WITHIN PLANT DISTRIBUTION OF FRANKLINIELLA THRIPS (THYSANOPTERA: THRIPIDAE) IN NORTH FLORIDA TOMATOES , 2002 .

[168]  K. Russell,et al.  Compatibility of Beauveria bassiana (Balsamo) Vuillemin with Amblyseius cucumeris Oudemans (Acarina: Phytoseiidae) to Control Frankliniella occidentalis Pergande (Thysanoptera: Thripidae) on Cucumber Plants , 2001 .

[169]  J. Funderburk Management of the Western Flower Thrips (Thysanoptera: Thripidae) in Fruiting Vegetables , 2009 .

[170]  S. Olson,et al.  Variation within and between Frankliniella Thrips Species in Host Plant Utilization , 2011, Journal of insect science.

[171]  S. Adkins Tomato spotted wilt virus-positive steps towards negative success. , 2000, Molecular plant pathology.

[172]  J. L. Shipp,et al.  Influence of temperature and vapor pressure deficit on the rate of predation by the predatory mite, Amblyseius cucumeris, on Frankliniella occidentalis , 1996 .

[173]  A. Tatara Effect of Temperature and Host Plant on the Development, Fertility and Longevity of Scirtothrips dorsalis HOOD (Thysanoptera: Thripidae) , 1994 .

[174]  R. Goldbach,et al.  Distinct feeding behavior between sexes of Frankliniella occidentalis results in higher scar production and lower tospovirus transmission by females , 1998 .

[175]  J W Todd,et al.  Epidemiology and management of tomato spotted wilt in peanut. , 2003, Annual review of phytopathology.

[176]  Screening winter-sown onion entries for Iris yellow spot virus tolerance. , 2009 .

[177]  J. Bald,et al.  Investigations on " Spotted Wilt " of Tomatoes. , 1930 .

[178]  J. Lublinkhof,et al.  Development and reproductive capacity of Frankliniella occidentalis (Thysanoptera: Thripidae) reared at three temperatures. , 1977 .

[179]  Y. Zhang,et al.  Influence of Humidity and Greenhouse Microclimate on the Efficacy of Beauveria bassiana (Balsamo) for Control of Greenhouse Arthropod Pests , 2003 .

[180]  Todd A. Ugine,et al.  Acquisition of lethal doses of Beauveria bassiana conidia by western flower thrips, Frankliniella occidentalis, exposed to foliar spray residues of formulated and unformulated conidia. , 2005, Journal of invertebrate pathology.

[181]  Ian Denholm,et al.  Challenges with managing insecticide resistance in agricultural pests, exemplisfied by the whitefly Bemisia tabaci , 1998 .

[182]  R. Goldbach,et al.  Tomato spotted wilt tospovirus ingestion by first instar larvae of Frankliniella occidentalis is a prerequisite for transmission. , 1996 .

[183]  A. Culbreath,et al.  Response of Peanut, Pepper, Tobacco, and Tomato Cultivars to Two Biologically Distinct Isolates of Tomato spotted wilt virus. , 2006, Plant disease.

[184]  W. Hunter,et al.  Analysis of mouthpart movements during feeding of Frankliniella occidentalis (pergande) and F. schultzei trybom (Thysanoptera : Thripidae) , 1989 .

[185]  M. G. Stephenson,et al.  Management of Tomato spotted wilt virus in Flue-Cured Tobacco with Acibenzolar-S-Methyl and Imidacloprid. , 2001, Plant disease.

[186]  D. Wright,et al.  ARTHROPOD MANAGEMENT AND APPLIED ECOLOGY Species Of Thrips Associated With Cotton Flowers , 2007 .

[187]  G. Boivin,et al.  Effect of Thrips tabaci (Thysanoptera: Thripidae) on Yellow Onion Yields and Economic Thresholds for Its Management , 1995 .

[188]  Marshall W. Johnson Population trends of a newly introduced species, Thrips palmi (Thysanoptera: Thripidae), on commercial watermelon plantings in Hawaii. , 1986 .

[189]  H. Brødsgaard Coloured sticky traps for Frankliniella occidentalis (Pergande) (Thysanoptera, Thripidae) in glasshouses , 1989 .

[190]  G. W. Bohn,et al.  Varietial Resistance in Onions to Thrips , 1979 .

[191]  A. Watt,et al.  From the deployment of transgenic plants to domiciles for bumble bees – Agricultural and Forest Entomology in 2000 , 2001 .

[192]  L. Shipp,et al.  Dispersal of Adult Western Flower Thrips (Thysanoptera: Thripidae) on Chrysanthemum Plants: Impact of Feeding-Induced Senescence of Inflorescences , 2003 .

[193]  Zhao Xi-li Invaded Insect Pest—Frankliniella occidentalis First Reported in Shandong Province , 2007 .

[194]  Oepp Eppo Scirtothrips aurantii, Scirtothrips cirti, Scirtothrips dorsalis , 2005 .

[195]  S. Tsuda Localization of Tomato spotted wilt tospovirus in larvae and pupae of the insect vector Thrips setosus , 1996 .

[196]  G. Fitch,et al.  Apple pollen as a supplemental food for the western flower thrips, Frankliniella occidentalis: response of individuals and populations , 2005 .

[197]  M. Brownbridge Prospects for Mycopathogens in Thrips Management , 1995 .

[198]  M. Parrella,et al.  Integrated pest management (IPM) in field crops. , 1997 .

[199]  E. Woltering,et al.  Enhanced fumigant toxicity of p-cymene against Frankliniella occidentalis by simultaneous application of elevated levels of carbon dioxide. , 2002, Pest management science.

[200]  P. Coley,et al.  Nitrogen content and expansion rate of young leaves of rain forest species: implications for herbivory , 1991 .

[201]  D. Paini,et al.  Reproduction of Four Thrips Species (Thysanoptera: Thripidae) on Uncultivated Hosts , 2007 .

[202]  Eric R. Pianka,et al.  On r- and K-Selection , 1970, The American Naturalist.

[203]  Zhi Jun Life table for experimental population of Frankliniella occidentalis feeding on leguminous vegetables , 2010 .

[204]  J. Paz,et al.  A predictive model for spotted wilt epidemics in peanut based on local weather conditions and the tomato spotted wilt virus risk index. , 2008, Phytopathology.

[205]  Vivek Kumar,et al.  Biological response of chilli thrips, Scirtothrips dorsalis Hood (Thysanoptera: Thripidae), to various regimes of chemical and biorational insecticides. , 2010 .

[206]  M. Fuchs,et al.  Evaluation of Onion Cultivars for Resistance to Onion Thrips (Thysanoptera: Thripidae) and Iris Yellow Spot Virus , 2010, Journal of economic entomology.

[207]  S. Olson,et al.  Spinetoram Is Compatible with the Key Natural Enemy of Frankliniella Species Thrips in Pepper , 2007 .

[208]  W. F. Tjallingii,et al.  Characterisation of the feeding behaviour of western flower thrips in terms of electrical penetration graph (EPG) waveforms. , 2003, Journal of insect physiology.

[209]  T. Lewis,et al.  A new look at thrips (Thysanoptera) mouthparts, their action and effects of feeding on plant tissue , 1984 .

[210]  A. Culbreath,et al.  Dynamics of Spring Tobacco Thrips (Thysanoptera: Thripidae) Populations: Implications for Tomato Spotted Wilt Virus Management , 2002 .

[211]  S. Reitz Comparative Bionomics of Frankliniella occidentalis and Frankliniella tritici , 2008 .

[212]  晴喜 片山 ミカンキイロアザミウマFrankliniella occidentalis (PERGANDE)の発育と産卵に対する温度の影響 , 1997 .

[213]  Q. Fang,et al.  Characterization of tomato zonate spot virus, a new tospovirus in China , 2008, Archives of Virology.

[214]  J. Shipp,et al.  Influence of Temperature and Vapor Pressure Deficit on Survival of the Predatory Mite Amblyseius cucumeris (Acari: Phytoseiidae) , 1997 .

[215]  T. Leigh,et al.  Predation on Spider Mite Eggs by the Western Flower Thrips, Frankliniella occidentalis (Thysanoptera: Thripidae), an Opportunist in a Cotton Agroecosystem , 1986 .

[216]  H. Poehling,et al.  The edaphic phase in the ontogenesis of Frankliniella occidentalis and comparison of Hypoaspis miles and Hypoaspis aculeifer as predators of soil-dwelling thrips stages , 2004 .

[217]  E. Mitcham,et al.  Ethyl Formate As a Postharvest Fumigant for Selected Pests of Table Grapes , 2007, Journal of economic entomology.

[218]  A. Enkegaard,et al.  Prey preference of Orius sauteri between Western Flower Thrips and spider mites , 2009 .

[219]  D. Nestel,et al.  Ultraviolet-Deficient Greenhouse Environment Affects Whitefly Attraction and Flight-Behavior , 2001 .

[220]  X. Y. Wu,et al.  Occurrence and seasonal pattern of western flower thrips, Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) in Yunnan Province , 2009 .

[221]  D. Gorbet,et al.  Infection of Frankliniella fusca (Thysanoptera: Thripidae) in Peanut by the Parasitic Nematode Thripinema fuscum (Tylenchidae: Allantonematidae) , 2002 .