Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-28T03:13:46.269Z Has data issue: false hasContentIssue false

Weed Eradication—An Economic Perspective

Published online by Cambridge University Press:  20 January 2017

F. Dane Panetta*
Affiliation:
Alan Fletcher Research Station, Biosecurity Queensland, Queensland Primary Industries and Fisheries, Department of Employment, Economic Development and Innovation, PO Box 36, Sherwood, Queensland 4075, Australia
*
Corresponding author's E-mail: dane.panetta@deedi.qld.gov.au

Abstract

There has been recent interest in determining the upper limits to the feasibility of weed eradication. Although a number of disparate factors determine the success of an eradication program, ultimately eradication feasibility must be viewed in the context of the amount of investment that can be made. The latter should reflect the hazard posed by an invasion, with greater investment justified by greater threats. In simplest terms, the effort (and hence investment) to achieve weed eradication comprises the detection effort required to delimit an invasion plus the search and control effort required to prevent reproduction until extirpation occurs over the entire infested area. The difficulty of estimating the required investment at the commencement of a weed eradication program (as well as during periodic reviews) is a serious problem. Bioeconomics show promise in determining the optimal approach to managing weed invasions, notwithstanding ongoing difficulties in estimating the costs and benefits of eradication and alternative invasion management strategies. A flexible approach to the management of weed invasions is needed, allowing for the adoption of another strategy when it becomes clear that the probability of eradication is low, owing to resourcing or intractable technical issues. Whether the considerable progress that has been achieved towards eradication of the once massive witchweed invasion can be duplicated for other weeds of agricultural systems will depend to a large extent upon investment (> $250 million over 50 yr in this instance). Weeds of natural ecosystems seem destined to remain more difficult eradication targets for a variety of reasons, including higher impedance to eradication, more difficulty in valuing the benefits arising from eradication, and possibly less willingness to pay from society at large.

Type
Research
Copyright
Copyright © Weed Science Society of America 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

Anderson, L. W. 2005. California's reaction to Caulerpa taxifolia: a model for invasive species rapid response. Biol. Invasions 7:10031016.CrossRefGoogle Scholar
Anderson, L. W. 2007. Control of invasive seaweeds. Bot. Mar 50:418437.Google Scholar
Bomford, M. and O'Brien, P. 1995. Eradication or control for vertebrate pests? Wildland Soc. Bull 23:249255.Google Scholar
Brooks, S. J., Panetta, F. D., and Sydes, T. A. 2009. Progress towards the eradication of three melastome shrub species from northern Australian rainforests. Plant Prot. Q 24:7178.Google Scholar
Buddenhagen, C. E. 2006. The successful eradication of two blackberry species Rubus megalococcus and R. adenotrichos (Rosaceae) from Santa Cruz Island, Galapagos, Ecuador. Pac. Conserv. Biol 12:272278.CrossRefGoogle Scholar
Burnett, K., Kaiser, B., Pitafi, B. A., and Roumasset, J. 2006. Prevention, eradication, and containment of invasive species: illustrations from Hawaii. Agric. Resour. Econ. Rev 35:6377.Google Scholar
Burnett, K., Kaiser, B., and Roumasset, J. 2007. Economic lessons from control efforts for an invasive species: Miconia calvescens in Hawaii. J. For. Econ 13:151167.Google Scholar
Cacho, O. J. 2006. Bioeconomics of invasive species in aquatic ecosystems. Aquacult. Econ. Manage 10:107124.Google Scholar
Cacho, O. J., Hester, S., and Spring, D. 2007. Applying search theory to determine the feasibility of eradicating an invasive population in natural environments. Aust. J. Agric. Res. Econ 51:425433.Google Scholar
Cacho, O. J., Spring, D., Pheloung, P., and Hester, S. 2006. Evaluating the feasibility of eradicating an invasion. Biol. Invasions 8:903917.Google Scholar
Cacho, O. J., Wise, R. M., Hester, S., and Sinden, J. A. 2008. Bioeconomic modeling for control of weeds in natural environments. Ecol. Econ 65:559568.Google Scholar
Cunningham, D. C., Barry, S. C., Woldendorp, G., and Burgess, M. B. 2004. A framework for prioritising sleeper weeds for eradication. Weed Technol 18:11891193.CrossRefGoogle Scholar
Dahlsten, D. L., Garcia, R., and Lorraine, H. 1989. Eradication as a pest management tool: concepts and contexts. Pages 315. In Dahlsten, D. L., Garcia, R., and Lorraine, H. Eradication of Exotic Pests. Analysis with Case Histories. New Haven, CT Yale University Press.Google Scholar
Dodd, J. 2004. Kochia [Bassia scoparia (L.) A. J. Scott] eradication program in Western Australia: a review. Pages 496499. in. Proceedings of the 14th Australian Weeds Conference. Wagga Wagga, Australia Weed Society of New South Wales.Google Scholar
Dodd, J. and Randall, R. P. 2002. Eradication of kochia [Bassia scoparia (L.) A.J. Scott, Chenopodiaceae] in Western Australia. Pages 300303. in. Proceedings of the 13th Australian Weeds Conference. Perth, Australia Plant Protection Society of Western Australia.Google Scholar
Eplee, R. E. 2001. Co-ordination of witchweed eradication in the USA. Pages 36. In Wittenberg, R. and Cock, M. J. W. Invasive Alien Species: A Toolkit of Best Prevention and Management Practices. Wallingford, UK CAB International.Google Scholar
Flint, E. and Rehkemper, C. 2002. Control and eradication of the introduced grass, Cenchrus echinatus, at Laysan Island, Central Pacific Ocean. Pages 110115. In Veitch, C. R. and Clout, M. N. Turning the Tide: The Eradication of Invasive Species. Auckland, New Zealand Invasive Species Specialist Group of the World Conservation Union (IUCN).Google Scholar
Harris, S. and Timmins, S. M. 2009. Estimating the benefit of early control of all newly naturalised plants. Science for Conservation 292. Wellington, New Zealand Department of Conservation.Google Scholar
Hulme, P. E. 2006. Beyond control: Wider implications for the management of biological invasions. J. Appl. Ecol 43:835847.CrossRefGoogle Scholar
Keller, R. P., Frang, K., and Lodge, D. M. 2008. Preventing the spread of invasive species: economic benefits of intervention guided by ecological predictions. Conserv. Biol 22:8088.Google Scholar
Long, R. L., Panetta, F. D., Steadman, K. J., Probert, R., Bekker, R., Brooks, S., and Adkins, S. W. 2008. Seed persistence in the field may be predicted by laboratory-controlled aging. Weed Sci 56:523528.Google Scholar
Mack, R. N. and Foster, S. K. 2009. Eradicating plant invaders: combining ecologically-based tactics and broad-sense strategy. Pages 3560. In Inderjit, , Management of Invasive Weeds. Netherlands Springer.Google Scholar
Mack, R. N. and Lonsdale, W. M. 2002. Eradicating invasive plants: hard-won lessons for islands. Pages 164172. In Veitch, C. R. and Clout, M. N. Turning the Tide: The Eradication of Invasive Species. Auckland, New Zealand Invasive Species Specialist Group of the World Conservation Union (IUCN).Google Scholar
Miller, I. L. and Pickering, S. E. 1988. Eradication of salvinia (Salvinia molesta) from the Adelaide River, Northern Territory. Plant Prot. Q 3:6973.Google Scholar
Myer, J-Y. 2008. Is eradication of the invasive tree miconia feasible? Lessons from 15 years of active management in French Polynesia (Pacific Islands). Pages 433. in. Proceedings of the 16th Australian Weeds Conference. Cairns, Australia Queensland Weed Society.Google Scholar
Myers, J. H., Savoie, A., and van Randen, E. 1998. Eradication and pest management. Annu. Rev. Entomol 43:471491.Google Scholar
Myers, J. H., Simberloff, D., Kuris, A. M., and Carey, J. R. 2000. Eradication revisited: dealing with exotic species. Trends Ecol. Evol 15:316320.CrossRefGoogle ScholarPubMed
Panetta, F. D. 2004. Seed banks: The bane of the weed eradicator. Pages 523526. in. Proceedings of the 14th Australian Weeds Conference. Wagga Wagga, Australia Weed Society of New South Wales.Google Scholar
Panetta, F. D. 2007. Evaluation of the performance of weed eradication programs: containment and extirpation. Divers. Distrib 13:3341.Google Scholar
Panetta, F. D. and Lawes, R. 2005. Evaluation of the performance of weed eradication programs: the delimitation of extent. Divers. Distrib 11:435442.Google Scholar
Panetta, F. D. and Lawes, R. 2007. Evaluation of the Australian branched broomrape (Orobanche ramosa) eradication program. Weed Sci 55:644651.CrossRefGoogle Scholar
Panetta, F. D. and Timmins, S. M. 2004. Evaluating the feasibility of eradication for terrestrial weed invasions. Plant Prot. Q 19:511.Google Scholar
Parkes, J. P. 2006. Eradication of vertebrate pests: are there any general lessons? 91110. In Feare, C. J. and Cowan, D. P. Advances in Vertebrate Pest Management IV. Furth, Germany Filander Verlag.Google Scholar
Parkes, J. P. and Panetta, F. D. 2009. Eradication of pests and weeds: progress and emerging issues in the 21st century. Pages 4760. In Clout, M. N. and Williams, P. A. Invasive Species Management. A Handbook of Techniques. Oxford, UK Oxford University Press.Google Scholar
Patane, K. A., Setter, S., and Graham, M. 2009. Foliar herbicides that reduce the viability of Siam weed (Chromolaena odorata) seeds located on plants at the time of application. Plant Prot. Q. In press.Google Scholar
Perrings, C. 2005. Mitigation and adaptation strategies for the control of biological invasions. Ecol. Econ 52:315325.Google Scholar
Rainbolt, R. E. and Coblenz, B. E. 1997. A different perspective on eradication of vertebrate pests. Wildland Soc. Bull 25:189191.Google Scholar
Rejmánek, M. and Pitcairn, M. J. 2002. When is eradication of exotic pest plants a realistic goal? 249253. In Veitch, C. R. and Clout, M. N. Turning the Tide: The Eradication of Invasive Species. Auckland, New Zealand Invasive Species Specialist Group of the World Conservation Union (IUCN).Google Scholar
Rudman, T. and Goninon, C. 2002. Eradication case history, Hieracium pilosella L. ssp. nigrescens (Fr.) Nägeli & Peter in Tasmania. Pages 304306. in. Proceedings of the 13th Australian Weeds Conference. Perth, Australia Plant Protection Society of Western Australia.Google Scholar
Setter, M. J. and Campbell, S. D. 2002. Impact of foliar herbicides on germination and viability of Siam weed (Chromolaena odorata) seeds located on plants at the time of application. Plant Prot. Q 17:155157.Google Scholar
Sharov, A. A. and Liebhold, A. M. 1998. Bioeconomics of managing the spread of exotic pest species with barrier zones. Ecol. Appl 8:833845.Google Scholar
Shogren, J. F. 2000. Risk reduction strategies against the ‘explosive invader’. Pages 5669. In Perrings, C., Williamson, M., and Dalmazzone, S. The Economics of Biological Invasions. Cheltenham, UK Edward Elgar.Google Scholar
Simberloff, D. 2002. Today Tiritiri Matangi, tomorrow the world! Are we aiming too low in invasives control? 412. In Veitch, C. R. and Clout, M. N. Turning the Tide: The Eradication of Invasive Species. Auckland, New Zealand Invasive Species Specialist Group of the World Conservation Union (IUCN).Google Scholar
Simberloff, D. 2003. Eradication—preventing invasions at the outset. Weed Sci 51:247253.Google Scholar
Taylor, C. M. and Hastings, A. 2004. Finding optimal control strategies for invasive species: a density-structured model for Spartina alterniflora . J. Appl. Ecol 41:10491057.Google Scholar
Thill, D. C., Zamora, D. L., and Kambitsch, D. L. 1985. Germination and viability of common crupina (Crupina vulgaris) achenes buried in the field. Weed Sci 33:344348.CrossRefGoogle Scholar
Tomley, A. J. and Panetta, F. D. 2002. Eradication of the exotic weeds Helenium amarum (Rafin) H. L. and Eupatorium serotinum Michx. from south-eastern Queensland. Pages 293296. in. Proceedings of the 13th Australian Weeds Conference. Perth, Australia Plant Protection Society of Western Australia.Google Scholar
Tye, A. 2007. Cost of rapid-response eradication of a recently introduced plant, tropical kudzu (Pueraria phaseoloides), from Santa Cruz Island, Galapagos. Plant Prot. Q 22:3334.Google Scholar
Wittenberg, R. and Cock, M. J. W. 2001. Invasive Alien Species: A Toolkit of Best Prevention and Management Practices. Wallingford, UK CAB International.Google Scholar
Woldendorp, G. and Bomford, M. 2004. Weed eradication: strategies, timeframes and costs. Canberra, Australia Bureau of Resource Sciences, Department of Agriculture, Fisheries and Forestry. 30 p.Google Scholar
Zamora, D. L., Thill, D. C., and Eplee, R. E. 1989. An eradication plan for plant invasions. Weed Technol 3:212.CrossRefGoogle Scholar