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Accepted manuscript

Impacts of herbicides used for control of invasive Pinus contorta on the potential for re-invasion and germination of restoration species

Published online by Cambridge University Press:  29 October 2024

Carol A Rolando
Affiliation:
Senior Scientist, Forest Ecology and Management, New Zealand Forest Research, Scion, Rotorua, New Zealand; email: carol.rolando@scionresearch.com
Fiona Fields
Affiliation:
Senior Technician, Forest Ecology and Management, New Zealand Forest Research, Scion, Rotorua, New Zealand; email: fiona.fields@scionresearch.com
Matthew B. Scott
Affiliation:
Senior Scientist, Forest Ecology and Management, New Zealand Forest Research, Scion, Christchurch, New Zealand; email: matthew.scott@scionresearch.com
Sarah Sapsford*
Affiliation:
Post-Doctoral Researcher, School of Biological Sciences, University of Canterbury, Christchurch, New Zealand. Current affiliation: DECRA Research Fellow, Harry Butler Institute, Murdoch University, Murdoch, Western Australia, 6150
Thomas S. Paul
Affiliation:
Senior Scientist, Forest Ecology and Management, New Zealand Forest Research, Scion, Rotorua, New Zealand; email: thomas.paul@scionresearch.com
*
*Corresponding author: email: Sarah.Sapsford@murdoch.edu.au
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Abstract

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Herbicides that persist in the forest litter and soil following their use for managing invasive plant species may negatively affect restoration efforts as well as minimise re-invasion via their residual phytotoxic activity. This study determined the impact of an herbicide mixture comprising triclopyr, dicamba, picloram and aminopyralid (‘TDPA’) for the control of dense infestations of a woody invader, Pinus contorta, on the germination of re-invading P. contorta and three New Zealand native species (Chionochloa rubra, Fucospora cliffortioides, and Leptospermum scoparium) used in restoration. Given the essential role of ectomycorrhizal fungi in facilitating pine re-invasion, the impact of residual herbicides present in mineral soil on the ectomycorrhizal infection of P. contorta seedling roots was also examined. Germination trials were conducted using intact forest litter-soil cores collected at 27, 112 and 480 days (after herbicide spraying) from sprayed and adjacent unsprayed dense P. contorta infestations. At the same time, mineral soil was also collected for the ectomycorrhizal infection study. Post-spray herbicide residue bound in the litter significantly decreased germination rate, root and shoot growth and survival, and also caused malformation of P. contorta seedlings. Similar results were recorded for native species germination, however, overall viability of native seed was poor resulting in low germination rates. There was no difference in levels of ectomycorrhizal infection rates of P. contorta between treatments. Results indicate residual levels of TDPA herbicide in forest floor litter negatively affect P. contorta re-invasion, native recruitment and active restoration management. Ectomycorrhizal fungi, however, are unaffected by this herbicide mixture and therefore remain a risk to facilitating re-invasion as residual herbicide declines.

Type
Research Article
Copyright
© Weed Science Society of America, 2024