No Cover Image

Journal article 404 views 30 downloads

Comparing field-based management approaches for invasive Winter Heliotrope (Petasites pyrenaicus, Asteraceae)

Daniel Jones Orcid Logo, Mike Fowler Orcid Logo, Sophie Hocking, Dan Eastwood Orcid Logo

NeoBiota, Volume: 74, Pages: 171 - 187

Swansea University Authors: Mike Fowler Orcid Logo, Sophie Hocking, Dan Eastwood Orcid Logo

  • Jones_etal_2022_NeoBiota.pdf

    PDF | Version of Record

    Copyright Daniel Jones et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0)

    Download (3.71MB)

Abstract

Winter Heliotrope (Petasites pyrenaicus, previously P. fragrans), is a persistent, rhizome-forming species found throughout the Mediterranean region and North Africa and is an Invasive Alien Plant (IAP) in the UK and Ireland. P. pyrenaicus excludes native flora by forming a dense, compact canopy tha...

Full description

Published in: NeoBiota
ISSN: 1619-0033 1314-2488
Published: Pensoft Publishers 2022
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa60655
Tags: Add Tag
No Tags, Be the first to tag this record!
Abstract: Winter Heliotrope (Petasites pyrenaicus, previously P. fragrans), is a persistent, rhizome-forming species found throughout the Mediterranean region and North Africa and is an Invasive Alien Plant (IAP) in the UK and Ireland. P. pyrenaicus excludes native flora by forming a dense, compact canopy that per- sists for much of the growing season, and is often found growing in rough ground, riparian areas and along communication routes, incurring significant management costs at sites of conservation interest. Our study describes the first field-based assessment of P. pyrenaicus control treatments, testing 12 physical and/or chemical treatments in replicated 1 m2 plots over four years and one chemical treatment over three years. Treatments focused on understanding phenology and resource allocation to exploit rhizome source- sink relationships in P. pyrenaicus. Multiple-stage glyphosate- and picloram-based treatments reduced leaf canopy cover to zero (%) over time, though no treatment completely eradicated P. pyrenaicus. When designing management strategies, effective P. pyrenaicus control may be achieved by a single annual soil and/or foliar application of picloram at 1.34 kg AE ha-1 in spring, or by a single annual foliar application of glyphosate in spring at 2.16 kg AE ha-1. Control is not improved by the addition of other herbicides or physical treatment methods, underlining the importance of these herbicides for perennial invasive plant management. This work confirms the importance of considering plant phenology, resource allocation and rhizome source-sink relationships, to increase treatment efficacy and reduce the environmental impacts associated with the management of P. pyrenaicus and other invasive, rhizome forming species.
Keywords: Field trial, herbicide, Integrated Weed Management (IWM) system, invasive alien plants (IAPs), invasive non-native species (INNS), Petasites fragrans, Petasites pyrenaicus, rhizome source-sink, Winter Heliotrope
College: Faculty of Science and Engineering
Funders: OA charge covered by industrial partner (Advanced Invasives Ltd.) This work is part-funded by the European Social Fund (ESF) through the European Union’s Convergence programme administered by the Welsh Government with Swansea University and Complete Weed Control Ltd.
Start Page: 171
End Page: 187