SEARCH

SEARCH BY CITATION

References

  • Addo-Bediako, A., Chown, S.L. & Gaston, K.J. (2000) Thermal tolerance, climatic variability and latitude. Proceedings of the Royal Society of London Series, Biological Sciences, 267, 739745.
  • Ahnesjö, J. & Forsman, A. (2006) Differential habitat selection by pygmy grasshopper colour morphs; interactive effects of temperature and predator avoidance. Evolutionary Ecology, 20, 235257.
  • Bale, J.S. (2011) Harmonisation of regulations for invertebrate biocontrol agents in Europe: progress, problems and solutions. Journal of Applied Entomology, 135, 503513.
  • Benoit, J.B., Yoder, J.A., Lopez-Martinez, G. et al. (2008) Adaptations for the maintenance of water balance by three species of Antarctic mites. Polar Biology, 31, 539547.
  • Berger, D., Walters, R. & Gotthard, K. (2008) What limits insect fecundity? Body size and temperature dependent eggs maturation and oviposition in a butterfly. Functional Ecology, 22, 523529.
  • Block, W. & Convey, P. (1995) The biology, life cycle and ecophysiology of the Antarctic mite Alaskozetes antarcticus. Journal of Zoology, 236, 431449.
  • Cadogan, B.L. & Laing, J.E. (1977) A technique for rearing the predaceous mite Balaustium putmani (Acarina: Erythraeidae), with notes on its biology and life history. Canadian Entomologist, 109, 15351544.
  • Cock, M.J.W., van Lenteren, J.C., Brodeur, J. et al. (2010) Do new access and benefit sharing procedures under the Convention on Biological Diversity threaten the future of biological control? Biocontrol, 55, 199218.
  • Cohen, A.C. (1965) Maximum likelihood estimation in the Weibull distribution based on complete and on censored samples. Technometrics, 7, 579588.
  • Coombs, M.R. & Bale, J.S. (2013) Comparison of thermal activity thresholds of the spider mite predators Phytoseiulus macropilis and Phytoseiulus persimilis (Acari: Phytoseiidae). Experimental and Applied Acarology, 59, 435445.
  • Cowles, R.B. & Bogert, C.M. (1944) A preliminary study of the thermal requirements of desert reptiles. Bulletin of the American Museum of Natural History, 83, 261296.
  • Crist, T.O. & MacMahon, J.A. (1991) Foraging patterns of Pogonomyrmex occidentalis (Hymenoptera: Formicidae) in a shrub-steppe ecosystem: the roles of temperature, trunk trails, and seed resources. Environmental Entomology, 20, 265275.
  • Danks, H.V. (2002) Modification of adverse conditions by insects. Oikos, 99, 1024.
  • Deutsch, C.A., Tewksbury, J.J., Huey, R.B. et al. (2008) Impacts of climate warming on terrestrial ectotherms across latitude. Proceedings of the National Academy of Sciences of the United States of America, 105, 66686672.
  • Eckstrand, I.A. & Richardson, R.H. (1980) Comparison of some water balance characteristics in several Drosophila species which differ in habitat. Environmental Entomology, 9, 716720.
  • Glass, E.V., Yoder, J.A. & Needham, G.R. (1998) Clustering reduces water loss by adult American house dust mites Dermatophagoides farina (Acari: Pyroglyphidae). Experimental and Applied Acarology, 22, 3137.
  • Gotoh, T., Nozawa, M. & Yamaguchi, K. (2004) Prey consumption and functional response of three acarophagous species to eggs of the two-spotted spider mite in the laboratory. Applied Entomology and Zoology, 39, 97105.
  • Hatherly, I.S., Hart, A.J., Tullett, A.G. & Bale, J.S. (2005) Use of thermal data as a screen for the establishment potential of non-native biological control agents in the UK. BioControl, 50, 687698.
  • Hazell, S.P., Pedersen, B.P., Worland, M.R. et al. (2008) A method for the rapid measurement of thermal tolerance traits in studies of small insects. Physiological Entomology, 33, 389394.
  • Hazell, S.P., Groutides, C., Neve, B.P. et al. (2010) A comparison of low temperature tolerance traits between closely related aphids from the tropics, temperate zone, and Arctic. Journal of Insect Physiology, 56, 115122.
  • Hedges, B.Z., Rosselot, A.E., Tomko, P.M. et al. (2012) High temperature and dehydration tolerance of the red velvet mite, Balaustium sp. (Erythraidae), permit the exploitation of extremely hot, dry microhabitats. International Journal of Acarology, 38, 8995.
  • Heinrich, B. (1981) Insect Thermoregulation. Wiley, Hoboken, New Jersey.
  • Huey, R.B. & Kingsolver, J.G. (1989) Evolution of thermal sensitivity of ectotherm performance. Trends in Ecology & Evolution, 4, 131135.
  • Hughes, G.E., Bale, J.S. & Sterk, G. (2009) Thermal biology and establishment potential in temperate climates of the predatory mired Nesidiocoris tenuis. BioControl, 54, 785795.
  • Hughes, G.E., Alford, L., Sterk, G. & Bale, J.S. (2010a) Thermal activity thresholds of the predatory mirid Nesidiocoris tenuis: implications for its efficacy as a biological control agent. BioControl, 55, 493501.
  • Hughes, G.E., Owen, E., Sterk, G. & Bale, J.S. (2010b) Thermal activity thresholds of the parasitic wasp Lysiphlebus testaceipes and its aphid prey: implications for the efficacy of biological control. Physiological Entomology, 35, 373378.
  • Jumbam, K.R., Jackson, S., Terblanche, J.S. et al. (2008) Acclimation effects on critical and lethal limits of workers of the Argentine ant, Linepithema humile. Journal of Insect Physiology, 54, 10081014.
  • van Lenteren, J.C. (2011) The state of commercial augmentative biological control: plenty of natural enemies, but a frustrating lack of uptake. BioControl, 57, 120.
  • van Lenteren, J.C. & Bueno, V.H.P. (2003) Augmentative biological control of arthropods in Latin America. BioControl, 48, 123139.
  • van Lenteren, J.C., Loomans, A.J.M. (2006) Environmental risk assessment: methods for comprehensive evaluation and quick scan. Environmental Impact of Invertebrates for Biological Control of Arthropods: Methods, Risk Assessment (ed. by F. Bigler, D. Babendreier and U. Kuhlmann), pp. 254272. CAB International, U.K.
  • van Lenteren, J.C., Babendreier, D., Bigler, F. et al. (2003) Environmental risk assessment of exotic natural species used in inundative biological control. BioControl, 48, 338.
  • van Lenteren, J.C., Cock, M.J.W., Brodeur, J. et al. (2011) Will the convention on biological diversity put an end to biological control? Revista Brasileira de Entomologia, 55, 15.
  • Lockwood, J.A. & Story, R.N. (1986) Adaptive functions of nymphal aggregation in the southern green stink bug Nezara viridula (L.) (Hemiptera: Pentatomidae). Environmental Entomology, 15, 739749.
  • Mąkol, J., Arijs, Y. & Wäckers, F. (2012) A new species of Balaustium von Heyden, 1826 (Acari: Actinotrichida, Erythraeidae) from Spain. Zootaxa, 3178, 121.
  • McClay, A.S. & Balciunas, J.K. (2005) The role of pre-release efficacy assessment in selecting classical biological control agents for weeds – applying the Anna Karenina principle. Biological Control, 35, 197207.
  • Mellanby, K. (1939) Low temperature and insect activity. Proceedings of the Royal Society of London Series B, Biological Sciences, 127, 473487.
  • Pilkington, L.J., Messelink, G., van Lenteren, J.C. & Le Mottee, K. (2010) ‘Protected biological control’ – biological pest management in the greenhouse industry. Biological Control, 52, 216220.
  • Piyaphongkul, J. (2013) Effects of thermal stress on the brown planthopper Nilparvata lugens (Stal). PhD Thesis, University of Birmingham.
  • Piyaphongkul, J., Pritchard, J. & Bale, J. (2012) Can tropical insects stand the heat? A case study with the brown planthopper Nilaparvata lugens (Stål). PLoS One, 7, e29409.
  • Ribiero, P.L., Camacho, A. & Navas, C.A. (2012) Considerations for assessing maximum critical temperatures in small ectothermic animals: insights from leaf-cutting ants. PLoS One, 7, e32083.
  • Tullett, A.G., Hart, A.J., Worland, M.R. & Bale, J.S. (2004) Assessing the effects of low temperature on the establishment potential in Britain of the non-native biological control agent Eretmocerus eremicus. Physiological Entomology, 29, 363371.
  • Veerman, A. (1992) Diapause in phytoseiid mites: a review. Experimental and Applied Acarology, 14, 160.
  • Wapshere, A.J. (1974) A strategy for evaluating the safety of organisms for biological weed control. Annals of Applied Biology, 77, 201211.
  • Yoder, J.A., Benoit, J.B., Rellinger, E.J. et al. (2006) Structure and function of the urnulae in Balaustium sp. (Parasitengona: erythraeidae) featuring secretion of a defensive allomone and alarm pheromone. International Journal of Acarology, 32, 312.
  • Yoder, J.A., Mowrey, D.D., Rellinger, E.J. et al. (2007) Detection of the mite alarm pheromone neryl formate in the velvet mite, Balaustium sp. (Parasitengona: Erythraeidae). International Journal of Acarology, 33, 7378.
  • Yoder, J.A., Condon, M.R., Hart, C.E. et al. (2010) Use of an alarm pheromone against ants for gaining access to aphid/scale prey by the red velvet mite Balaustium sp. (Erythraeidae) in a honeydew-rich environment. Journal of Experimental Biology, 213, 386392.