Estimating relative risk of within-lake aquatic plant invasion using combined measures of recreational boater movement and habitat suitability.

Marion E Wittmann,Lars W J Anderson,Christopher L Jerde,Bruce E Kendall

doi:10.7717/peerj.845

Marion E Wittmann, Lars W J Anderson + Show 2 more

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https://doi.org/10.7717/peerj.845

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Abstract

Effective monitoring, prevention and impact mitigation of nonindigenous aquatic species relies upon the ability to predict dispersal pathways and receiving habitats with the greatest risk of establishment. To examine mechanisms affecting species establishment within a large lake, we combined observations of recreational boater movements with empirical measurements of habitat suitability represented by nearshore wave energy to assess the relative risk of Eurasian watermilfoil (Myriophyllum spicatum) establishment. The model was evaluated using information from a 17 year (1995–2012) sequence of M. spicatum presence and absence monitoring. M. spicatum presence was not specifically correlated with recreational boater movements; however its establishment appears to be limited by wave action in Lake Tahoe. Of the sites in the “High” establishment risk category (n = 37), 54% had current or historical infestations, which included 8 of the 10 sites with the highest relative risk. Of the 11 sites in the “Medium” establishment risk category, 5 had current or historical M. spicatum populations. Most (76%) of the sites in the “Low” establishment risk category were observed in locations with higher wave action. Four sites that received zero boater visits from infested locations were occupied by M. spicatum. This suggests that the boater survey either represents incomplete coverage of boater movement, or other processes, such as the movement of propagules by surface currents or introductions from external sources are important to the establishment of this species. This study showed the combination of habitat specific and dispersal data in a relative risk framework can potentially reduce uncertainty in estimates of invasion risk.

Highlights

Predicting establishment for nonindigenous aquatic species (NAS) remains one of the greatest challenges for invasion ecologists yet is a key element for effective ecosystem monitoring and management
The decrease in number of sites in 2011 and 2012 relative to previous years is a result of management and/or other causes of extirpation of localized populations (K Boyd, pers. comm., 2014)
There were four sites (23% of those with infestations) where boater visitation was 0, yet populations of M. spicatum have been present in those locations for a majority of the invasion record

Summary

Introduction

Predicting establishment for nonindigenous aquatic species (NAS) remains one of the greatest challenges for invasion ecologists yet is a key element for effective ecosystem monitoring and management. Boat movement as well as dispersal through natural currents contribute to the propagation and spread of aquatic species (Mosisch & Arthington, 1998; Beletsky et al, 2007; Clarke Murray, Pakhomov & Therriault, 2011). Both fragments and established populations of invasive seaweed (Caulerpa taxifolia) have been found in greater abundances in estuaries with high rates of recreational boating compared to areas with less recreational boating (West et al, 2009). While a lot of information exists regarding the spread of species within aquatic systems, the specific relationship between human-mediated and natural dispersal of species is largely unknown

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