A novel stem-applied herbicide-capsule methodology for control of the invasive cactus Cereus uruguayanus
Leisa Bradburn A B * , Shane Campbell B , Vincent Mellor B and Victor Galea BA Queensland Department of Agriculture and Fisheries, Gatton, Qld, Australia.
B School of Agriculture and Food Sciences, The University of Queensland, Gatton, Qld, Australia.
The Rangeland Journal - https://doi.org/10.1071/RJ22022
Submitted: 1 April 2022 Accepted: 21 November 2022 Published online: 19 December 2022
© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of the Australian Rangeland Society.
Abstract
Cereus uruguayanus R.Kiesling is a naturalised, non-opuntioid cactus that has formed large and dense infestations at several locations in the northern Australian rangelands. Of the Cactoideae subfamily, it typically grows into a large, spiny, single- or multi-stemmed candelabra-shaped cactus. While not classified as a Weed of National Significance (WONS) in Australia, it is causing increasing concern, with some local governments declaring it under their local laws. Recent research has identified several herbicides that control C. uruguayanus by using a range of techniques, including basal-bark, cut-stump, foliar, and stem injection applications. Of these, stem injection is one of the recommended options where weeds grow among desirable vegetation because the risk of non-target damage is minimised. This study evaluated C. uruguayanus control using a range of encapsulated dry-formulation herbicides from BioHerbicides Australia (BHA Pty Ltd), using their novel stem-implantation system (Injecta®). In May 2018, an experiment was established in central Queensland to compare the efficacy of six encapsulated herbicides (aminopyralid + metsulfuron-methyl, clopyralid, glyphosate, hexazinone, metsulfuron-methyl, triclopyr + picloram) against an untreated control. Glyphosate was the fastest-acting herbicide, followed by aminopyralid + metsulfuron-methyl and metsulfuron-methyl, with triclopyr + picloram much slower to act. Nevertheless, all four herbicides eventually caused high mortality (≥85%). In contrast, clopyralid and hexazinone were ineffective at the applied rates. Future research is recommended to compare the cost effectiveness of this system against other techniques, particularly those used for stem-injection applications.
Keywords: cactus, capsule, Cereus uruguayanus, control, granular, herbicide, implant, invasive, night blooming cereus, Peruvian apple cactus, weed, Willows cactus.
References
Biosecurity Queensland (2022) Willows cactus night-blooming cactus Cereus uruguayanus. Available at https://www.daf.qld.gov.au/__data/assets/pdf_file/0004/1474069/willows-cactus.pdf [accessed 29 March 2022]Bureau of Meteorology (2022) Climate Data Online. Available at http://www.bom.gov.au/climate/data/index.shtml?bookmark=200 [accessed 29 March 2022]
Campbell, S, Bajwa, A, Hosking, K, Brazier, D, Mellor, V, and Perkins, M (2021). Herbicide options to control naturalised infestations of Cereus uruguayanus in rangeland environments of Australia. Plants 10, 2227.
| Herbicide options to control naturalised infestations of Cereus uruguayanus in rangeland environments of Australia.Crossref | GoogleScholarGoogle Scholar |
Central Highlands Regional Council (2015) Area Pest Management Plan 2015-2020. Available at https://www.chrc.qld.gov.au/wp-content/uploads/2016/01/ECM_826534_v10_Adopted-16-October-2015-Pest-Management-Plan.pdf [accessed 29 March 2022]
Department of Primary Industries and Regional Development (2021) Factors affecting herbicide performance. Available at https://www.agric.wa.gov.au/grains-research-development/factors-affecting-herbicide-performance?msclkid=13764482b01111ecb0d62e29d09666c5 [accessed 30 March 2022]
Forster, PI, and Schmeider, M (2000). Cereus uruguayanus (Cactaceae) and its naturalised occurrence in Queensland, Australia. Austrobaileya 5, 671–677.
Galea VJ (2021) Stem implanted capsules. a target, efficient and sustainable method for delivery of synthetic and biological agents to plantation crops. In ‘Proceedings of the 2nd international plantation conference’. (Selangor, Malaysia)
Goulter KC, Galea VJ, Riikonen P (2018) Encapsulated dry herbicides: a novel approach for control of trees. In ‘Weed Biosecurity: Protecting our Future. Proceedings 21st Australasian weeds conference’. Sydney, NSW, Australia. pp. 247–250. (The Weed Society of New South Wales Inc.)
Hosking, JR, Conn, BJ, Lepschi, BJ, and Barker, CH (2007). Plant species first recognised as naturalised for New South Wales in 2002 and 2003, with additional comments on species recognised as naturalised in 2000–2001. Cunninghamia 10, 139–166.
Hothorn, T, Bretz, F, and Westfall, P (2008). Simultaneous inference in general parametric models. Biometrical Journal 50, 346–363.
| Simultaneous inference in general parametric models.Crossref | GoogleScholarGoogle Scholar |
Lenth RV (2022) emmeans: Estimated Marginal Means, aka Least-Squares Means. R package version 1.7.2.
Limbongan, AA, Campbell, SD, and Galea, VJ (2021). Novel encapsulated herbicide delivery mechanism: its efficacy in mimosa bush (Vachellia farnesiana) control. Plants 10, 2505.
| Novel encapsulated herbicide delivery mechanism: its efficacy in mimosa bush (Vachellia farnesiana) control.Crossref | GoogleScholarGoogle Scholar |
llifle Encyclopedia of Living Forms (2005) The Encyclopedia of Cacti: Cereus uruguayanus R.Kiesling. Available at http://www.llifle.com/Encyclopedia/CACTI/Family/Cactaceae/6507/Cereus_uruguayanus [accessed 29 March 2022]
McKenzie J, Brazier D, Owen A, Vitelli J, Mayer B (2010) Stem injection: a control technique often overlooked for exotic woody weeds. In ‘Proceedings 17th Australasian weeds conference, Council of Australasian Weed Societies (CAWS)’. Christchurch, New Zealand. pp. 459–461. (New Zealand Plant Protection Society)
O’Brien, CJ, Mellor, V, and Galea, VJ (2022). Controlling woody weed Chinese elm (Celtis sinensis Pers.) with stem-implanted herbicide capsules. Plants 11, 444.
| Controlling woody weed Chinese elm (Celtis sinensis Pers.) with stem-implanted herbicide capsules.Crossref | GoogleScholarGoogle Scholar |
Parker R (2005) Weed Management and Herbicide Performance During Drought Conditions. Available at https://pubs.extension.wsu.edu/wsu-drought-advisory-weed-management-and-herbicide-performance-during-drought-conditions [accessed 30 March 2022]
R Core Team (2022) ‘R: A language and environment for statistical computing.’ Version 4.1.3. (R Foundation for Statistical Computing: Vienna, Austria)
Vitelli, J, and Madigan, B (2011). Evaluating the efficacy of the EZ-Ject herbicide system in Queensland, Australia. The Rangeland Journal 33, 299–305.
| Evaluating the efficacy of the EZ-Ject herbicide system in Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |
Vitelli, JS, and Pitt, JL (2006). Assessment of current weed control methods relevant to the management of the biodiversity of Australian rangelands. The Rangeland Journal 28, 37–46.
| Assessment of current weed control methods relevant to the management of the biodiversity of Australian rangelands.Crossref | GoogleScholarGoogle Scholar |
Zhou, J, Tao, B, Messersmith, CG, and Nalewaja, JD (2007). Glyphosate efficacy on velvetleaf (Abutilon theophrasti) is affected by stress. Weed Science 55, 240–244.
| Glyphosate efficacy on velvetleaf (Abutilon theophrasti) is affected by stress.Crossref | GoogleScholarGoogle Scholar |