Abstract
Biological control is an essential component of sustainable crop management that attempts to maximize one ecosystem service—production of food and fiber—while concurrently contributing in a positive manor to other ecosystem services required for human health and wellbeing. Biological control techniques are both plant species and site specific, so efficacy of controls and specific methodologies will vary among crop species or for a single crop species over resource and climatic gradients. However, techniques to enhance food web diversity within croplands via maximizing spatial and temporal heterogeneity of these local landscapes appear to be the appropriate framework with which to attempt specific biological control techniques. Such a framework also provides an agricultural system with potential resilience to climatic extremes, emergent diseases, and other factors deleterious to food security.
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References
Alpers, J. (2004). The wicked weed of the West. Smithsonian Magazine, 35(7), 33–36.
Altieri, M. A. (1999). The ecological role of biodiversity in agroecosystems. Agriculture, Ecosystems & Environment, 74, 19–31.
Altieri, M. A., Ponti, L., & Nicholls, C. I. (2012). Soil fertility, biodiversity and pest management. In G. M. Gurr, S. D. Wratten, W. E. Snyder, & D. M. Y. Read (Eds.)., Biodiversity and Insect Pests: Key Issues for Sustainable Management (pp. 72–84). Boston: Wiley-Blackwell.
Andrews, M., Cripps, M. G., & Edwards, G. R. (2011). The potential of beneficial microorganisms in agricultural systems. Annals of Applied Biology, 160(1), 1–5.
Backman, P. A., & Sikora, R. A. (2008). Endophytes: An emerging tool for biological control. Biology Control, 46, 1–3.
Barbosa, P. (1998). Conservation Biological Control. San Diego, California, USA: Academic.
Barton, J. (2012). Predictability of pathogen host range in classical biological control of weeds: An update. Biology Control, 57, 289–305.
Blumenthal, D., Mitchell, C. E., Pyšek, P., & Jarošík, V. (2009). Synergy between pathogen release and resource availability in plant invasion. Proceedings of the National Academy of Sciences U S A, 106(19), 7899–7904.
Chapin, F. S. III, Kofinas, G. P., & Folke, C. (2009). Principles of Ecosystem Stewardship: Resilience-based Natural Resource Management in a Changing World. New York: Springer.
Chapin, F. S. III, Power, M. E., Pickett, S. T. A., Freitag, A., Reynolds, J. A., Jackson, R. B., Lodge, D. M., Duke, C., Collins, S. L., Power, A. G., & Bartuska, A. (2011). Earth stewardship: Science for action to sustain the human-earth system. Ecosphere, 2(8), art89. doi:10.1890/ES11-00166.1.
Cook, R. J., Bruckart, W. L., Coulson, J. R., Goettel, M. S., Humber, R. A., Lumsden, R. D., Maddox, J. V., McManus, M. L., Moore, L., Meyer, S. E., Quimby, P. C., Stack, J. P., & Vaughn, J. L. (1996). Safety of microorganisms intended for pest and plant disease control: A framework for scientific evaluation. Biology Control, 7, 333–351.
Davies, K. G., & Spiegel, Y. (2011). Biological Control of Plant-parasitic Nematodes, Building Coherence Between Microbial Ecology and Molecular Mechanisms. Dordrecht, Netherlands: Springer.
DeBach, P., & Rosen, D. (1991). Biological Control by Natural Enemies (2nd ed.). Cambridge: Cambridge University Press.
Denoth, M., Frid, L., & Myers, J. H. (2002). Multiple agents in biological control: Improving the odds? Biological Conservation, 24, 20–30.
Dooley, S. R., & Beckstead, J. (2010). Characterizing the interaction between a fungal seed pathogen and a deleterious rhizobacterium for biological control of cheatgrass. Biology Control, 53, 197–203.
Eilenberg, J., Hajek, A., & Lomer, C. (2001). Suggestions for unifying the terminology in biological control. Biology Control, 46, 387–400.
Eilenberg, J., & Hokkanen, H. M. T. (2006). An Ecological and Societal Approach to Biological Control. Dordrecht, Netherlands: Springer.
Ellis, E. C., Goldewijk, K. K., Siebert, S., Lightman, D., & Ramankutty, N. (2010). Anthropogenic transformation of the biomes, 1700 to 2000. Global Ecology Biogeography, 19, 589–606.
Faria, M. R. D., & Wraight, S. P. (2007). Mycoinsecticides and Mycoacaricides: A comprehensive list with worldwide coverage and international classification of formulation types. Biology Control, 43, 237–256.
Garratt, M. P. D., Wright, D. J., & Leather, S. R. (2011). The effects of farming system and fertilizers on pests and natural enemies: A synthesis of current research. Agriculture Ecosystem Environment, 141, 261–270.
Gould, S. J. (1997). An evolutionary perspective on strengths, fallacies, and confusions in the concept of native plants. In J. Wolschke-Bulmahn (Ed.)., Nature and Ideology: Natural Garden Design in the Twentieth Century (Vol. 18, pp. 11–19). Washington, D.C.: Dumbarton Oaks Research Library and Collection.
Greenstone, M. H., Szendrei, Z., Payton, M. E., Rowley, D. L., Coudron, T. C., & Weber, D. C. (2010). Choosing natural enemies for conservation biological control: Use of the prey detectability half-life to rank key predators of Colorado potato beetle. Entomology Experiment Application, 136, 97–107.
Guo, B., Wang, Y., Sun, X., & Tang, K. (2008). Bioactive natural products from Endophytes: A review. Application Biochemical Micrology, 44(2), 153–158.
Gurr, G. M., Wratten, S. D., & Altieri, M. A. (2004). Ecological Engineering for Pest Management: Advances in Habitat Manipulation for Arthropods. Collingwood, Victoria, Australia: CSIRO Publishing.
Gurr, G. M., Wratten, S. D., Snyder, W. W., & Read, M. Y. (2012). Biodiversity and Insect Pests: Key Issues for Sustainable Management. Boston: Wiley-Blackwell.
Hajek, A. E., McManus, M. L., & Delalibera, I. (2007). A review of introductions of pathogens and nematodes for classical biological control of insects and mites. Biology Control, 41, 1–13.
Hajek, A. E., & Tobin, P. C. (2010). Micro-managing arthropod invasions: Eradication and control of invasive arthropods with microbes. Biology Invasions, 12, 2895–2912.
Harris, P., Peschken, D., & Milroy, J. (1969). The status of biological control of the weed Hypericum perforatum in British Columbia. Canadian Entomologist, 101, 1–15.
Hartley, S. E., & Gange, A. C. (2009). Impacts of plant symbiotic fungi on insect herbivores: Mutualism in a multitrophic context. Annual Review of Entomology, 54, 323–342.
Hokkanen, H. M. T., & Pimentel, D. (1989). New associations in biological control: Theory and practice. Canadian Entomologist, 95, 785–792.
Jonsson, M., Wratten, S. D., Landis, D. A., & Gurr, G. M. (2008). Recent advances in conservation biological control of arthropods by arthropods. Biological Control, 45, 172–175.
Kalischuk, A. R., Bourchier, R. S., & McClay, A. S. (2004). Post hoc assessment of an operational biocontrol program: Efficacy of the flea beetle Aphthona lacertosa Rosenhauer (Chrysomelidae: Coleoptera), an introduced biocontrol agent for leafy spurge. Bioloigy Control, 29, 418–426.
Karieva, P. (1999). Coevolutionary arms races: Is victory possible? Proceedings of the National Academy of Sciences U S A, 96, 8–10.
Knochel, D. G., & Seastedt, T. R. (2010). Field measurements of herbivory, resource limitation, and plant competition on the growth and reproduction of spotted knapweed (Centaurea stoebe). Ecology Application, 20, 1903–1912.
Landis, D., Wratten, S., & Gurr, G. M. (2000). Habitat management to conserve natural enemies of arthropod pests in agriculture. Annual Review of Entomology, 45, 175–201.
Lodewyckx, C., Vangronsveld, J., Porteous, F., Moore, E. R. B., Taghavi, S., Mezgeay, M., & van der Lelie, D. (2002). Endophytic bacteria and their potential applications. CRC Critical Review Plant Science, 21, 583–606.
Lord, J. C. (2005). Mechnikoff to Monsanto and beyond: The path of microbial control. The Journal of Invertebrate Pathology, 89, 19–29.
Louda, S. M., Pemberton, R. W., Johnson, M. T., & Follett, P. A. (2003). Nontarget effects—The Achilles heel of biological control? Retrospective analyses to reduce risk associated with biocontrol introductions. Annual Review of Entomology, 48, 366–396.
Martin, H., Burgess, E. P. J., Masarik, M., Kramer, K. J., Beklova, M., Adam, V., & Kizek, R. (2010). Avidin and plant biotechnology to control pests. In E. Lichtfouse (Ed.)., Genetic Engineering, Biofertilisation, Soil Quality and Organic Farming Sustainable Agriculture Reviews, (Vol. 4, pp. 1–21). Dordrecht, Netherlands: Springer. http://appius.claudius.free.fr/Download/Agribio/divers/Genetic%20Engineering,%20Biofertilisation,%20Soil%20Quality%20and%20Organic%20Farming.pdf. Accessed 9 Nov 2012.
Matson, P. A., Parton, W. J., Power, A. G., & Swift, M. J. (1997). Agricultural intensification and ecosystem properties. Science, 277, 504–509.
McEvoy, P. B., & Coombs, E. M. (2000). Why things bite back: Unintended consequences of biological weed control. In P. A. Follett & J. J. Duan (Eds.)., Nontarget Effects of Biological Control (pp. 167–194). Boston: Kluwer Academic.
McFadyen, R. E. (1998). Biological control of weeds. Annual Review Entomology, 43, 369–393.
Meehan, T. D., Werling, B. P., Landis, D. A., & Gratton, C. (2011). Agricultural landscape simplification and insecticide use in the Midwestern United States. Proceedings of the National Academy of Sciences U S A, 108, 11500–11505.
Mensah, R. K., & Sequeira, R. V. (2004). Habitat manipulation for insect pest management in cropping systems. In G. M. Gurr., S. D. Wratten, & M. A. Altieri (Eds.)., Ecological Engineering for Pest Management (pp. 187–197). Collingwood, Victoria, Australia: CSIRO Publishing.
Montgomery, D. R. (2007). Soil erosion and agricultural sustainability. Proceedings of the National Academy of Sciences U S A, 104, 13268–13272.
Muniappan, R., Reddy, G. V. P., & Raman, A. (2009). Biological Control of Tropical Weeds Using Arthropods. Cambridge: Cambridge Press.
Myers, J. H., Jackson, C., Quinn, H., White, S. R., & Cory, J. S. (2009). Successful biological control of diffuse knapweed, Centaurea diffusa, in British Columbia, Canada. Biology Control, 50, 66–72.
National Research Council (NRC) Board on Agriculture. (1996). Ecologically Based Pest Management: New Solutions for a New Century. Washington, D.C.: National Academy Press.
Pfiffner, L., & Wyss, E. (2004). Use of sown wildflower strips to enhance natural enemies of agricultural pests. In G. M. Gurr., S. D. Wratten, & M. A. Altieri (Eds.)., Ecological Engineering for Pest Management: Advances in Habitat Manipulation for Arthropods (pp. 167–188). Collingwood, Victoria, Australia: CSIRO Publishing.
Pimentel, D., Hepperly, P., Hanson, J., Douds, D., & Seidel, R. (2005). Environmental, energetic, and economic comparisons of organic and conventional farming systems. Bioscience, 55, 573–582.
Ratnadass, A., Fernades, P., Avelina, J., & Habib, R. (2012). Plant species diversity for sustainable management of crop pests and diseases in agroecosystems: A review. Agronomy for Sustainable Development, 32, 273–303.
Rosenblueth, M., & Martinez-Romero, E. (2006). Bacterial endophytes and their interactions with hosts. Molecular Plant-Microbe Interactions, 19, 827–837.
Schulz, B., Boyle, C., Draeger, S., Rommert, A. K., & Krohn, K. (2002). Endophytic fungi: A source of novel biologically active secondary metabolites. Mycological Research, 106, 996–1004.
Seastedt, T. R., Suding, K. N., & LeJeune, K. D. (2005). Understanding invasions: The rise and fall of diffuse knapweed (Centaurea diffusa) in North America. In S. Inderjit (Ed.), Invasive Plants: Ecological and Agricultural Aspects (pp. 129–139). Basal, Switzerland: Birkhauser-Verlag AG.
Simon, S., Bouvier, J. C., Debras, J. F., & Sauphanor, B. (2010). Biodiversity and pest management in orchard systems: A review. Agronomy for Sustainable Development, 30, 139–152. doi: 10.1051/agro/2009013.
Smagghe, G., & Diaz, I. (2012). Arthropod-plant Interactions: Novel Insights and Approaches for IPM. Dordrecht, Netherlands: Springer.
Stirling, G. R. (2011). Biological control of plant-parasitic nematodes: An ecological perspective, a review of progress and opportunities for further research. Programm Biology Control, 11, 1–38.
Swift, M. J., Izac, A. M. N., & van Noordwijk, M. (2004). Biodiversity and ecosystem services in agricultural landscapes—Are we asking the right questions? Agriculture Ecosystem Environment, 104, 113–134.
Tikhonovich, I. A., & Provorov, N. A. (2011). Microbiology is the basis of sustainable agriculture: An opinion. Annals of Applied Biology, 159, 155–168.
Van Driesche, R. G., Carruthers, R. I., Center, T., Hoddle, M. S., Hough-Goldstein, J., Morin, L., Smith, L., Wagner, D. L., Blossey, B., Brancatini, V., Casagrande, R., Causton, C. E., Coetzee, J. A., Cuda, J., Ding, J., Fowler, S. V., Frank, J. H., Fuester, R., Goolsby, J., Grodowitz, M. et al. (2010). Classical biological control for the protection of natural ecosystems. Biological Control, 54, S2–S33. http://ag.udel.edu/enwc/research/biocontrol/pdf/Van%20Driesche%20 et%20al.%202010.pdf. Accessed 9 Aug 2012.
Van Driesche, R. G., Hoddle, M., & Center, T. (2008). Control of Pests and Weeds by Natural Enemies: An Introduction to Biological Control. Malden, Massachusetts, USA: Blackwell Publishing.
Vos, C., Geerinckx, K., Mkandawire, R., Panis, B., DeWaele, D., & Elsen, A. (2012). Arbuscular mycorrhizal fungi affect both penetration and further life stage development of root-knot nematodes in tomato. Mycorrhiza, 22, 157–163.
Whipps, J. M. (2001). Microbial interactions and biocontrol in the rhizosphere. Journal of Experiment Botany, 52, 487–511. doi:10.1093/jexbot/52.suppl_1.487.
Zimmermann, H. G., & Moran, V. C. (1991). Biological control of prickly pear, Opuntia ficus-indica (Cactaceae) in South Africa. Agriculture, Ecosystem and Environment, 37, 29–35.
Acknowledgments
The author acknowledges a series of grants from the USDA invasive plant programs that led to the author’s affirmation of the value of biological control efforts in agriculture. I thank Meredith Chedsey for her help in editing and formatting this chapter.
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Seastedt, T. (2014). Biological Control: Perspectives for Maintaining Provisioning Services in the Anthropocene. In: Pimentel, D., Peshin, R. (eds) Integrated Pest Management. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-7796-5_11
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