Insect Invasions: Lessons from Biological Control of Weeds
暂无分享,去创建一个
[1] A. Himler,et al. Rapid Spread of a Bacterial Symbiont in an Invasive Whitefly Is Driven by Fitness Benefits and Female Bias , 2011, Science.
[2] Q. Paynter,et al. Understanding dispersal rates of invading weed biocontrol agents , 2011 .
[3] Anthony R. Ives,et al. Alternative stable states explain unpredictable biological control of Salvinia molesta in Kakadu , 2011, Nature.
[4] Cang Hui,et al. Relative roles of climatic suitability and anthropogenic influence in determining the pattern of spread in a global invader , 2010, Proceedings of the National Academy of Sciences.
[5] L. Elliott,et al. Biology, host specificity, release and establishment of Macaria pallidata and Leuciris fimbriaria (Lepidoptera: Geometridae), biological control agents of the weed Mimosa pigra , 2010 .
[6] S. Fowler,et al. Predicting parasitoid accumulation on biological control agents of weeds , 2010 .
[7] F. A. Dray,et al. Bottom‐up control of water hyacinth weevil populations: do the plants regulate the insects? , 2010 .
[8] B. Blossey,et al. The effects of flooding, plant traits, and predation on purple loosestrife leaf‐beetles , 2010 .
[9] Y. Buckley,et al. Disruption of an exotic mutualism can improve management of an invasive plant: varroa mite, honeybees and biological control of Scotch broom Cytisus scoparius in New Zealand , 2010 .
[10] Q. Paynter,et al. Assessing the biosecurity risk from pathogens and herbivores to indigenous plants: lessons from weed biological control , 2010, Biological Invasions.
[11] A. Boughton,et al. Stantonia pallida (Ashmead) (Hymenoptera: Braconidae) Reared from Neomusotima conspurcatalis Warren (Lepidoptera: Crambidae), a Classical Biological Control Agent of Lygodium microphyllum (Cav.) R. Br. (Polypodiales: Lygodiaceae) , 2010 .
[12] M. Forbes,et al. Parasitism of a Successful Weed Biological Control Agent, Neogalerucella calmahensis , 2009, The Canadian Entomologist.
[13] J. Cuda,et al. Effect of herbivory on growth and biomass allocation of Brazilian peppertree (Sapindales: Anacardiaceae) seedlings in the laboratory , 2009 .
[14] P. Tipping,et al. An Introduced Insect Biological Control Agent Preys on an Introduced Weed Biological Control Agent , 2009 .
[15] Tim M. Blackburn,et al. Do climate envelope models transfer? A manipulative test using dung beetle introductions , 2009, Proceedings of the Royal Society B: Biological Sciences.
[16] D. Simberloff. The Role of Propagule Pressure in Biological Invasions , 2009 .
[17] R. Forrester,et al. Impact of the biological control agent Mesoclanis polana (Tephritidae) on bitou bush (Chrysanthemoides monilifera subsp. rotundata) in eastern Australia. , 2009, Bulletin of entomological research.
[18] G. Allen,et al. Pre-adult development of Phytoseiulus persimilis on diets of Tetranychus urticae and Tetranychus lintearius: implications for the biological control of Ulex europaeus , 2009, Experimental and Applied Acarology.
[19] R. D. Klinken,et al. What limits predation rates by the specialist seed‐feeder Penthobruchus germaini on an invasive shrub? , 2008 .
[20] J. Elkinton,et al. Exploitative competition between invasive herbivores benefits a native host plant. , 2008, Ecology.
[21] A. Boughton,et al. Efforts to establish a foliage-feeding moth, Austromusotima camptozonale, against Lygodium microphyllum in Florida, considered in the light of a retrospective review of establishment success of weed biocontrol agents belonging to different arthropod taxa , 2008 .
[22] D. Kriticos,et al. Climate matching techniques to narrow the search for biological control agents , 2008 .
[23] J. Moyer,et al. Effect of nitrogen on the preference and performance of a biological control agent for an invasive plant , 2008 .
[24] L. Carvalheiro,et al. Apparent competition can compromise the safety of highly specific biocontrol agents. , 2008, Ecology letters.
[25] Ian Kaplan,et al. Interspecific interactions in phytophagous insects revisited: a quantitative assessment of competition theory. , 2007, Ecology letters.
[26] F. Courchamp,et al. Invading parasitoids suffer no Allee effect: a manipulative field experiment. , 2007, Ecology.
[27] J. Obrycki,et al. Trophic Interactions Between Two Herbivorous Insects, Galerucella calmariensis and Myzus lythri, Feeding on Purple Loosestrife, Lythrum salicaria, and Two Insect Predators, Harmonia axyridis and Chrysoperla carnea , 2007, Journal of insect science.
[28] D. Mcfarland,et al. Nutritional quality of Hydrilla verticillata (L.f.) Royle and its effects on a fungal pathogen Mycoleptodiscus terrestris (Gerd.) Ostazeski , 2007 .
[29] J. C. Keller,et al. Seasonal Timing of Diapause Induction Limits the Effective Range of Diorhabda elongata deserticola (Coleoptera: Chrysomelidae) as a Biological Control Agent for Tamarisk (Tamarix spp.) , 2007, Environmental Entomology.
[30] H. S. Jacob,et al. Biology of Stethynium sp. (Hymenoptera: Mymaridae), a Native Parasitoid of an Introduced Weed Biological Control Agent , 2006 .
[31] John M. Drake,et al. Allee Effects, Propagule Pressure and the Probability of Establishment: Risk Analysis for Biological Invasions , 2006, Biological Invasions.
[32] W. Morris,et al. Resource‐Dependent Dispersal and the Speed of Biological Invasions , 2005, The American Naturalist.
[33] Alan Hastings,et al. Allee effects in biological invasions , 2005 .
[34] R. B. Root,et al. DISRUPTION OF WEED BIOLOGICAL CONTROL BY AN OPPORTUNISTIC MIRID PREDATOR , 2005 .
[35] T. Blackburn,et al. The role of propagule pressure in explaining species invasions. , 2005, Trends in ecology & evolution.
[36] K. Dhileepan,et al. Larval parasitism by native insects on the introduced stem-galling moth Epiblema strenuana Walker (Lepidoptera: Tortricidae) and its implications for biological control of Parthenium hysterophorus (Asteraceae) , 2005 .
[37] T. Seastedt,et al. Biological Control Insect Use of Fertilized and Unfertilized Diffuse Knapweed in a Colorado Grassland , 2005 .
[38] J. Myers,et al. Variable success of biological control of Lythrum salicaria in British Columbia , 2005, Biological Control.
[39] Caz M Taylor,et al. The spatial spread of invasions: new developments in theory and evidence , 2004 .
[40] J. Obrycki,et al. Quantitative assessment of predation of eggs and larvae of Galerucella pusilla in Iowa , 2004 .
[41] D. Landis,et al. Arthropod Predators of Galerucella calmariensis L. (Coleoptera: Chrysomelidae): An Assessment of Biotic Interference , 2004 .
[42] J. Baars,et al. Geographical range and impact of five biocontrol agents established on Lantana camara in South Africa , 2003, BioControl.
[43] M. Crawley,et al. Contrasting dynamics in the same plant–herbivore interaction , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[44] J. Baars. Geographic range, impact, and parasitism of lepidopteran species associated with the invasive weed Lantana camara in South Africa , 2003 .
[45] D. Strong,et al. Biological control of Spartina alterniflora in Willapa Bay, Washington using the planthopper Prokelisia marginata: agent specificity and early results. , 2003 .
[46] Jordi Bascompte,et al. The Allee effect, stochastic dynamics and the eradication of alien species , 2003 .
[47] C. Ferguson,et al. FIELD PARASITISM OF RHINOCYLLUS CONICUS FROELICH (COLEOPTERA: CURCULIONIDAE) BY MICROCTONUS AETHIOPOIDES LOAN (HYMENOPTERA: BRACONIDAE) IN OTAGO AND SOUTH CANTERBURY , 2002 .
[48] P. Pratt,et al. MORPHOLOGY AND LIFE HISTORY CHARACTERISTICS OF PODISUS MUCRONATUS (HETEROPTERA: PENTATOMIDAE) , 2002 .
[49] R. Clerck-Floate,et al. Overwintering mortality of and host attack by the stem-boring weevil, Mecinus janthinus Germar, on Dalmatian toadflax (Linaria dalmatica (L.) Mill.) in western Canada , 2002 .
[50] W. Fagan,et al. Invasion theory and biological control , 2002 .
[51] G. Wheeler. Host plant quality factors that influence the growth and development of Oxyops vitiosa, a biological control agent of Melaleuca quinquenervia , 2001 .
[52] S. Carpenter,et al. Catastrophic shifts in ecosystems , 2001, Nature.
[53] B. Barratt,et al. Factors affecting parasitism by Microctonus aethiopoides (Hymenoptera: Braconidae) and parasitoid development in natural and novel host species. , 2001, Bulletin of entomological research.
[54] G. Wheeler. Impact of the biological control agent Hydrellia pakistanae (Diptera : Ephydridae) on the submersed aquatic weed Hydrilla verticillata (Hydrocharitaceae). , 2001 .
[55] S. Fowler,et al. Success and safety in the biological control of environmental weeds in New Zealand , 2000 .
[56] Hal Caswell,et al. DEMOGRAPHY AND DISPERSAL: CALCULATION AND SENSITIVITY ANALYSIS OF INVASION SPEED FOR STRUCTURED POPULATIONS , 2000 .
[57] S. Broughton. Review and evaluation of lantana biocontrol programs. , 2000 .
[58] F. Grevstad. Experimental Invasions Using Biological Control Introductions: The Influence of Release Size on the Chance of Population Establishment , 1999, Biological Invasions.
[59] Fritzi S. Grevstad,et al. FACTORS INFLUENCING THE CHANCE OF POPULATION ESTABLISHMENT: IMPLICATIONS FOR RELEASE STRATEGIES IN BIOCONTROL , 1999 .
[60] P. McEvoy,et al. BIOLOGICAL CONTROL OF PLANT INVADERS: REGIONAL PATTERNS, FIELD EXPERIMENTS, AND STRUCTURED POPULATION MODELS , 1999 .
[61] J. Memmott,et al. The effect of release size on the probability of establishment of biological control agents: gorse thrips (Sericothrips staphylinus) released against gorse (Ulex europaeus) in New Zealand , 1998 .
[62] G. Wheeler,et al. Fecundity and egg distribution of the herbivore Spodoptera pectinicornis as influenced by quality of the floating aquatic plant Pistia stratiotes , 1998 .
[63] J. Lawton,et al. Making mistakes when predicting shifts in species range in response to global warming , 1998, Nature.
[64] R. E. M. Fadyen. Parasitoids of the arctiid mothPareuchaetes pseudoinsulata (Lep.: Arctiidae), an introduced biocontrol agent against the weedChromolaena odorata (asteraceae), in asia and Africa , 1997, Entomophaga.
[65] W. Good,et al. Winter Cold Hardiness and Supercooling of Metzneria paucipunctella (Lepidoptera: Gelechiidae), a Moth Introduced for Biological Control of Spotted Knapweed , 1997 .
[66] W. Morris,et al. Disentangling Effects of Induced Plant Defenses and Food Quantity on Herbivores by Fitting Nonlinear Models , 1997, The American Naturalist.
[67] J. Scott,et al. Distribution, life history and host specificity of Chrysolina picturata and Chrysolina sp. B (Coleoptera: Chrysomelidae), two biological control agents for Chrysanthemoides monilifera (Compositae) , 1997 .
[68] P. Hatcher,et al. Added soil nitrogen does not allow Rumex obtusifolius to escape the effects of insect-fungus interactions , 1997 .
[69] R. Karban,et al. MITE VACCINATIONS FOR SUSTAINABLE MANAGEMENT OF SPIDER MITES IN VINEYARDS , 1997 .
[70] P. Driessche,et al. Dispersal data and the spread of invading organisms. , 1996 .
[71] M. Williamson,et al. The Varying Success of Invaders , 1996 .
[72] G. Wheeler. The Influence of Hydrilla Leaf Quality on Larval Growth and Development of the Biological Control AgentHydrellia pakistanae(Diptera: Ephydridae) , 1996 .
[73] A. Stewart,et al. Interspecific competition reinstated as an important force structuring insect herbivore communities. , 1996, Trends in ecology & evolution.
[74] R. Hughes,et al. Effects of Temperature on Developmental Rate, Distribution, and Establishment of Calophasia lunula (Lepidoptera: Noctuidae), a Biocontrol Agent for Toadflax (Linaria spp) , 1995 .
[75] N. Shigesada,et al. Modeling Stratified Diffusion in Biological Invasions , 1995, The American Naturalist.
[76] B. Blossey,et al. Establishment of insect biological control agents from Europe against Lythrum salicaria in North America , 1995 .
[77] M. Hill,et al. Host-Range Extension by Native Parasitoids to Weed Biocontrol Agents Introduced to South Africa , 1995 .
[78] W. Murdoch,et al. Coexistence of Competing Parasitoid Species on a Host with a Variable Life Cycle , 1993 .
[79] Richard T. Roush,et al. Mate finding, dispersal, number released, and the success of biological control introductions , 1993 .
[80] P. Kareiva,et al. Allee Dynamics and the Spread of Invading Organisms , 1993 .
[81] C. Briggs. Competition Among Parasitoid Species on a Stage-Structured Host and Its Effect on Host Suppression , 1993, The American Naturalist.
[82] Rachel Cruttwell McFadyen,et al. Biological control against parthenium weed in Australia. , 1992 .
[83] V. C. Moran,et al. Biological control of jointed cactus, Opuntia aurantiaca (Cactaceae), in South Africa , 1991 .
[84] R. Nowierski,et al. METZNERIA PAUCIPUNCTELLA ZELLER (LEPIDOPTERA: GELECHIIDAE), A MOTH INTRODUCED AGAINST SPOTTED KNAPWEED: ITS FEEDING STRATEGY AND IMPACT ON TWO INTRODUCED UROPHORA SPP. (DIPTERA: TEPHRITIDAE) , 1991, The Canadian Entomologist.
[85] R. Sexton,et al. California almond markets and reserve strategies analyzed , 1991 .
[86] R. Karban,et al. A “Vaccination” of Willamette Spider Mites (Acari: Tetranychidae) to Prevent Large Populations of Pacific Spider Mites on Grapevines , 1990 .
[87] R. D. Goeden,et al. Parasitoids acquired byColeophora parthenica [Lepidoptera: Coleophoridae] ten years after its introduction into southern California for the biological control of Russian thistle , 1990, Entomophaga.
[88] Brian Dennis,et al. ALLEE EFFECTS: POPULATION GROWTH, CRITICAL DENSITY, AND THE CHANCE OF EXTINCTION , 1989 .
[89] J. Lawton,et al. Biocontrol of British bracken: the potential of two moths from Southern Africa , 1988 .
[90] N. Reimer. Predation on Liothrips urichi Karny (Thysanoptera: Phlaeothripidae): A Case of Biotic Interference , 1988 .
[91] I. Forno,et al. NATIVE PARASITOIDS AND PATHOGENS ATTACKING SAMEA MULTIPLICALIS GUENÉE (LEPIDOPTERA: PYRALIDAE) IN QUEENSLAND , 1987 .
[92] R. D. Goeden,et al. Introduction, Recovery, and Limited Establishment of Coleophora klimeschiella (Lepidoptera: Coleophoridae) on Russian Thistles, Salsola australis, in Southern California , 1987 .
[93] M. Crawley. The population biology of invaders , 1986 .
[94] R. Denno,et al. Crowding and host plant nutrition: environmental determinants of wing-form in Prokelisia marginata , 1985 .
[95] P. M. Room,et al. Nitrogen and establishment of a beetle for biological control of the floating weed Salvinia in Papua New Guinea , 1985 .
[96] B. P. Beirne. Avoidable obstacles to colonization in classical biological control of insects , 1985 .
[97] G. Nuessly,et al. Rodent Predation on Larvae of Coleophora parthenica (Lepidoptera: Coleophoridae), a Moth Imported for the Biological Control of Russian Thistle , 1984 .
[98] Y. Iwasa,et al. Niche Overlap of Parasitoids in Host-Parasitoid Systems: Its Consequence to Single Versus Multiple Introduction Controversy in Biological Control , 1984 .
[99] A. Wapshere. Discovery and testing of a climatically adapted strain ofLongitarsus jacobaeae [Col.: Chrysomelidae] for Australia , 1983, Entomophaga.
[100] J. Myers,et al. Plant nitrogen and fluctuations of insect populations: A test with the cinnabar moth—tansy ragwort system , 1981, Oecologia.
[101] Robert M. May,et al. The Dynamics of Multiparasitoid-Host Interactions , 1981, The American Naturalist.
[102] W. J. Mattson,et al. Herbivory in relation to plant nitrogen content , 1980 .
[103] L. Ehler,et al. Rate of Establishment of Natural Enemies in Classical Biological Control , 1979 .
[104] C. Huffaker,et al. A Ten-Year Study of Vegetational Changes Associated with Biological Control of Klamath Weed. , 1959 .
[105] R. Jooris,et al. Potential impact of genome exclusion by alien species in the hybridogenetic water frogs (Pelophylax esculentus complex) , 2009, Biological Invasions.
[106] Andrew M. Liebhold,et al. Population ecology of insect invasions and their management. , 2008, Annual review of entomology.
[107] D. Ward,et al. Biological Control Agents: Can They Tell Us Anything About the Establishment of Unwanted Alien Species? , 2006 .
[108] Peter C. Ellsworth,et al. Post-release evaluation of biological control of Bemisia tabaci biotype "B" in the USA and the development of predictive tools to guide introductions for other countries , 2005 .
[109] J. Memmott,et al. The effect of propagule size on the invasion of an alien insect , 2005 .
[110] R. D. Klinken,et al. Evidence from a gelechiid leaf-tier on mesquite (Mimosaceae: Prosopis) that semi-concealed Lepidopteran biological control agents may not be at risk from parasitism in Australian rangelands , 2005 .
[111] B. Croft,et al. Predation by phytoseiid mites on Tetranychus lintearius (Acari: Tetranychidae), an established weed biological control agent of gorse (Ulex europaeus) , 2003 .
[112] R. D. Klinken,et al. Targeting biological control across diverse landscapes: the release, establishment, and early success of two insects on mesquite (Prosopis spp.) insects in Australian rangelands , 2003 .
[113] R. Haack. Intercepted Scolytidae (Coleoptera) at U.S. ports of Entry: 1985–2000 , 2001 .
[114] Peter B. McEvoy,et al. Why Things Bite Back: Unintended Consequences of Biological Weed Control , 2000 .
[115] O. Kindvall. Dispersal in a metapopulation of the bush cricket, Metrioptera bicolor (Orthoptera: Tettigoniidae) , 1999 .
[116] C. Pieterse,et al. Systemic resistance induced by rhizosphere bacteria. , 1998, Annual review of phytopathology.
[117] G. Wheeler. Growth and Development of the Biological Control AgentBagous hydrillaeas Influenced by Hydrilla (Hydrilla verticillata) Stem Quality , 1997 .
[118] J. R. Ott,et al. Interspecific interactions in phytophagous insects : competition reexamined and resurrected , 1995 .
[119] L. Kuniata. Importation and establishment of Heteropsylla spinulosa (Homoptera; Psyllidae) for the biological control of Mimosa invisa in Papua New Guinea , 1994 .
[120] R. Karban,et al. Vaccinating grapevines against spider mites , 1991 .
[121] M. Julien,et al. Vigorous plants suffer most from herbivores: latitude, nitrogen and biological control of the weed Salvinia molesta , 1989 .
[122] Daniel Goodman,et al. Viable Populations for Conservation: The demography of chance extinction , 1987 .
[123] S. Louda,et al. Biotic Interference with Insects Imported for Weed Control , 1976 .
[124] C. A. Tauber,et al. Insect Seasonality: Diapause Maintenance, Termination, and Postdiapause Development , 1976 .
[125] A. Wapshere. The regions of infestation of wool by Noogoora burr (Xanthium strumarium), their climates and the biological control of the weed , 1974 .