Herbicides in unexpected places: non-target impacts from tree root exudation of aminopyralid and triclopyr following basal bark treatments of invasive chokecherry (<i>Prunus padus</i>) in Alaska

Graziano, Gino; Tomco, Patrick L.; Seefeldt, Steven S.; Mulder, Christa P. H.; Redman, Zachary C.

doi:10.1017/wsc.2022.61

Cited by 3 publications

(6 citation statements)

References 19 publications

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“…Although we only tested the triclopyr acid formulation, results are in agreement with previous investigations of root exudation of the butoxyethyl ester formulation. These concluded it is limited and unlikely to result in non-target injury (Eck and McGill 2007; Graziano et al 2022; Harrington et al 2016; Kochenderfer 1999). Additionally, although not part of this study, the transfer of herbicides from target plants to non-target vegetation through interspecific root grafting is also rare and has not been observed with triclopyr (Eck and McGill 2007; Futch and Weingarten 2010; Kochenderfer et al 2006; Willoughby 1999).…”

Section: Resultsmentioning

confidence: 99%

“…We recommend the use of triclopyr for basal bark treatments when non-target injury must be avoided. However, land managers should anticipate greater triclopyr release and an elevated risk for non-target injury when performing basal bark treatments in high-density plant infestations, due to increased herbicide output (Graziano et al 2022). We recommend that future research should focus on investigating alternative mechanisms of non-target injury that remain untested for triclopyr, as well as approaches that seek to improve triclopyr herbicide stewardship in basal bark treatments.…”

Section: Root Exudation Studymentioning

confidence: 99%

“…Precipitation and flooding events can lead to herbicide wash-off from treated stems and foliage, contributing to runoff, off-target herbicide deposition, and the accumulation of herbicide residues in soil (Harrington et al 2016;Holmes and Berry 2009;Norris et al 1987;Nowak and Ballard 2005;Wilcock et al 1991). This can increase non-target plant exposure to herbicide (Graziano et al 2022;Holmes and Berry 2009). Nowak and Ballard (2005) reported a 0.5-m radius of non-target injury during basal bark treatments of triclopyr ester.…”

Section: Introductionmentioning

confidence: 99%

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Physical and physiological pathways of off-target triclopyr movement and associated non-target injury following basal bark application

Oberweger,

Enloe,

Wilson

et al. 2023

Weed Sci

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Basal bark treatment with triclopyr butoxyethyl ester is used to control woody invasive plants, including Brazilian peppertree (Schinus terebinthifolia Raddi). However, the ester formulation cannot be applied where standing water is present, which includes wetlands where S. terebinthifolia is found. In 2009, a low-volatile acid formulation of triclopyr was labeled for use in aquatic sites, which allows for basal bark applications when standing water is present. This formulation may have utility for controlling woody plants in standing water. However, anecdotal observations of injury to non-target plants following applications during periods of inundation have been reported. To address this, mesocosm studies were conducted to assess non-target injury through triclopyr root exudation or release from the surface of treated stems via flooding. Mesocosms contained S. terebinthifolia as the treated target, while sugarberry (Celtis laevigata Willd.), buttonbush (Cephalanthus occidentalis L.), and red maple (Acer rubrum L.) were included as non-targets. In the first study, the pathway of root exudation for non-target injury following triclopyr (34 g L−1) basal bark application was isolated with activated charcoal placed at the soil surface. In the second study, mesocosms were flooded to assess triclopyr release from the surface of treated stems and subsequent non-target injury. Defoliation of non-target species posttreatment was ≤8%, and triclopyr was detected at ≤5 µg L−1 in mesocosm wells when activated charcoal was present. Posttreatment non-target defoliation up to 92%, coupled with triclopyr concentrations in surface waters and wells as high as 4,637 µg L−1, indicated triclopyr movement as a result of flooding. Additionally, triclopyr non-target injury from soil activity independent of flooding was observed. These findings provide limited evidence of triclopyr root exudation but considerable evidence of triclopyr release during flooding following basal bark treatment and support a cautionary approach to basal bark application when standing water is present.

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Section: Resultsmentioning

confidence: 99%

Section: Root Exudation Studymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Physical and physiological pathways of off-target triclopyr movement and associated non-target injury following basal bark application

Oberweger,

Enloe,

Wilson

et al. 2023

Weed Sci

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“…Likewise, triclopyr amine salt (found in Garlon 3A) has persisted in soil up to a year after treatment on silt clay loam soils [27]. Graziano et al [5] found a limited amount of non-target chokecherry damage associated with triclopyr treatments (only 5% of treatments) found in soil residue, where as, aminopyralid (residual soil active herbicide) was found in 57% of field treatments. The study also stated that non-treatment soils had greater plant dry mass compared to soils with herbicide treated trees.…”

Section: Discussionmentioning

confidence: 99%

“…Eck [3] did not observe any damage (wilting, axillary budding, chlorosis, and necrosis) to adjacent stems within treatments using triclopyr as basal bark applications (Garlon 4 ® ) or stem injection using triclopyr (amine formulation) capsules. Limited flashback damage (5% of treatments) of triclopyr ester (Garlon 4®) into non-target stems was observed by Graziano et al [5]. Turner et al [6] found that a combination of triclopyr amine (50%), water (40%), and imazapyr (10%) gave better control of more species compared to triclopyr (amine) alone in older stands.…”

Section: Introductionmentioning

confidence: 96%

Herbicide Uptake (Flashback) in Non-target Hardwood Species Within South Carolina Floodplains

Peairs,

Timilsina

2024

Preprint

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Herbicide flashback is an undesirable response that results in damage or mortality of non-target plants near chemically treated plants. In severe instances, crop trees can be injured resulting in financial loss or inability to capture management objectives. Land managers need to know the potential limitations of using triclopyr acid (50% solution in water) and what quantity can cause damage to non-target trees (trees not aimed to control via herbicide). Three naturally regenerated (previous clearcut) bottomland hardwood sites, ranging from 14–20 years of age, received partial overstory deadening using Trycera® herbicide. Residual “leave” trees experienced indirect herbicide uptake resulting in some trees either experiencing mortality or partial mortality with top die-back/epicormic branching. An increased probability of damage occurred as tree diameter decreased and the number of treated stems around non-target stems increased. American sycamore, green ash, and sweetgum were most susceptible to flashback. This study examines the unanticipated chemical effect of deadening adjacent stems surrounding residual leave trees in poorly drained soils.

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Herbicide Uptake (Flashback) in Non-Target Hardwood Species within South Carolina Floodplains

Peairs,

Timilsina

2024

Forests

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Herbicide flashback is an undesirable response that results in damage or mortality of non-target plants near chemically treated plants. In severe instances, crop trees can be injured resulting in financial loss or inability to capture management objectives. Land managers need to know the potential limitations of using triclopyr acid (50% solution in water) and what quantity can cause damage to non-target trees (trees not aimed at for control via herbicide). Three naturally regenerated (previously clearcut) bottomland hardwood sites, ranging from 14–20 years of age, received partial overstory deadening using Trycera® herbicide. Residual “leave” trees experienced indirect herbicide uptake resulting in some trees either experiencing mortality or partial mortality with top dieback/epicormic branching. An increased probability of damage occurred as tree diameter decreased and the number of treated stems around the non-target stems increased. American sycamore, green ash, and sweetgum were most susceptible to flashback. This study examines the unanticipated chemical effect of deadening adjacent stems surrounding residual leave trees in poorly drained soils.

show abstract

Herbicides in unexpected places: non-target impacts from tree root exudation of aminopyralid and triclopyr following basal bark treatments of invasive chokecherry (Prunus padus) in Alaska

Cited by 3 publications

References 19 publications

Physical and physiological pathways of off-target triclopyr movement and associated non-target injury following basal bark application

Physical and physiological pathways of off-target triclopyr movement and associated non-target injury following basal bark application

Herbicide Uptake (Flashback) in Non-target Hardwood Species Within South Carolina Floodplains

Herbicide Uptake (Flashback) in Non-Target Hardwood Species within South Carolina Floodplains

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