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1 June 2014 Current Status of the Biological Control Agent Neomusotima conspurcatalis (Lepidoptera: Crambidae), on Lygodium microphyllum (Polypodiales: Lygodiaceae) in Florida
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Abstract

The brown Lygodium defoliating moth, Neomusotima conspurcatalis Warren (Lepidoptera: Crambidae), was released beginning in 2008 to control Old World climbing fern, Lygodium microphyllum (Cav.) R. Br (Polypodiales: Lygodiaceae). The moth readily established in Jonathan Dickinson State Park, but at other sites populations remained at low densities or were locally extirpated. In 2012 and 2013, we recovered N. conspurcatalis populations at all original release sites except Everglades National Park and those treated with herbicide. The original releases of 4,000 or more individuals per site were entirely successful, pointing to a strategy that focuses on numbers at this target level or beyond for future releases in Florida.

Old World climbing fern, Lygodium microphyllum (Cav.) R. Br (Polypodiales: Lygodiaceae), is an invasive weed that is widespread throughout wetland and mesic habitats in south Florida, and degrades critical ecosystem services and habitats of rare and endangered species (Pemberton & Ferriter 1998; Volin et al. 2004). Old World climbing fern likely arrived in Florida through the ornamental plant trade and was first reported naturalized in Florida in 1968 (Beckner 1968). By 1978 it was found commonly throughout Martin County and has now spread to many parts of the sensitive Everglades ecosystem including the Arthur R. Marshall Loxahatchee National Wildlife Refuge, Everglades National Park and Big Cypress National Preserve (Nauman & Austin 1978; Ferriter & Pernas 2006,  www.eddMaps.org, accessed 13-IX-2013). Though various state, regional and federal agencies have sought for years to curb the spread of L. microphyllum, it continues to rapidly expand its range, which now includes much of south and central Florida and isolated points in northern Florida (e.g. Jacksonville, Daytona [ www.eddmaps.org, accessed 14-1-2014], Ferriter & Pernas 2006).

An indeterminate rachis and extensive rhizomatous growth smother native understory vegetation and act as a fire ladder carrying low-intensity fires into the canopy, which causes extensive tree death (Pemberton & Ferriter 1998). Compounding the challenge to control L. microphyllum is the strong propagule pressure from spores that travel via wind currents and arrive at isolated sites. No native herbivores exert control over the fern's growth and herbicides are difficult to apply in habitats in which L. microphyllum invades. Although herbicides and fire kill above-ground biomass, new fiddleheads rapidly re grow from the underground rhizome (Stocker et al. 2008).

In 1997, scientists from the U.S. and Australia conducted foreign exploration for biological control agents of L. microphyllum in Asia and Australia. These surveys yielded several insects and one mite that negatively impact L. microphyllum in the native range (Pemberton 1998; Goolsby et al. 2003). Of these candidates, 2 moths (Austromusotima camptozonale Yen and Neomusotima conspurcatalis Warren, Lepidoptera: Crambidae) and one leaf-galling mite (Floracarus perrepae Knihinicki & Boczek, Acariformes: Eriophyidae) were approved for release by the USDA-APHIS Technical Advisory Group (APHIS-TAG). Austromusotima camptozonale was released from 2004 until 2007 and then again from 2010 to 2012, but failed to establish despite the release of more than 160,000 adults and larvae into the field (Boughton & Pemberton 2008). Floracarus perrepae was released from 2008 until 2010 and has established within isolated patches in Martin County and Everglades National Park (Lake et al. in press).

Neomusotima conspurcatalis Warren (Lepidoptera: Crambidae) is a Lygodium specialist native to Southeast Asia and Australia. This agent readily established populations in Old World climbing fern stands after its introduction in early 2008. By Dec 2008, large larval populations were present in Jonathan Dickinson State Park and caused measurable impacts on L. microphyllum (Boughton & Pemberton 2009; Boughton unpublished data). However, two consecutive cold winters followed in 2010 and 2011 and moth populations decreased or were reportedly extirpated from previously established sites (Boughton et al. 2012a; Boughton & Pemberton 2012).

In late 2012, land managers once again began to report large larval feeding events, known as brown outs, in areas of Loxahatchee National Wildlife Refuge, Jonathan Dickinson State Park, and Barley Barber Swamp Conservation Area (pers. com). To verify these reports and determine the current status of N. conspurcatalis populations, we re surveyed all original release sites (N = 18) from Oct 2012 to Mar 2013. Each site was searched by 2 investigators for approximately 30 min and then assigned an infestation score (0 – 5), according to the frequency of occurrence of characteristic leaf feeding damage and abundance of N. conspurcatalis. Sites where N. conspurcatalis was absent were assigned a score of 0; old signs of feeding, but no insects = 1; low densities, but insects present = 2; moderate infestation, insects present and patchy throughout the site = 3; feeding damage frequent with high moth presence = 4; and abundant populations and damage (brown outs) = 5. We then used a linear regression analysis to evaluate the relationship between release size and infestation score.

Table 1.

Release history, feeding score and date of last assessment for N. conspurcatalis. sites with (*) denote that they were sprayed with herbicide and were not used in the regression analysis. Feeding levels are scored as follows: 0, no feeding signs; 1, signs of old feeding; 2, low densities, but insects present; 3, insects present, but patchy throughout the site; 4, feeding damage frequent with high moth presence; and 5, extensive feeding damage and population explosions (brown outs). with the exception of Rodger's River in Everglades National Park and two isolated tree islands in lnwr, N. conspurcatalis established populations at all sites.

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We recovered N. conspurcatalis in or adjacent to the site at all release points except Everglades National Park (Table 1). The single release made at Everglades National Park was conducted hurriedly due to thunderstorm activity during the release (H. Cooley, pers. com). An additional release made at Corbett National Wildlife Refuge was omitted from the analysis because the L. microphyllum in the release site was treated with herbicide. We found no significant linear relationship between release size and infestation score (P = 0.06). However all releases of 4,000 or more larvae successfully established populations that persisted for at least 5 years, and at many sites, releases of 2,200 larvae were adequate to establish persistent populations.

Neomusotima conspurcatalis occupies isolated, though large, areas within the Old World climbing fern range in Florida. Currently N. conspurcatalis does not extend beyond Central Florida, but warming temperatures and fewer frost events may facilitate a northward range expansion. Notwithstanding extenuating circumstances, all populations have persisted for at least 5 years. Despite cold temperatures and the acquisition of parasitoids (Boughton et al. 2012b), our findings indicate that N. conspurcatalis and the Lygodium galling mite, Floracarus perrepae, are more widely distributed in greater abundances than previously understood (Boughton & Pemberton 2011, Lake et al. in press). Further investigations will evaluate the impact of N. conspurcatalis on L. microphyllum as well as determine the northern limits for N. conspurcatalis and future L. microphyllum control candidates.

Acknowledgments

We thank L. Jameson and C. Mason and the Arthur R. Marshall Loxahatchee National Wildlife Refuge for providing an airboat and other support to re survey release sites. We also thank L. Rodgers and other representatives of the South Florida Water Management District for ongoing support for L. microphyllum biocontrol projects. H. Cooley of Everglades National Park facilitated helicopter transportation for sites within ENP. T. Center, G. Witkus and T. Wasylik (USDA-ARS, Invasive Plant Research Laboratory) were instrumental to relocating release sites and detecting agents in the field.

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Melissa C. Smith, Ellen C. Lake, Paul D. Pratt, Anthony J. Boughton, and Robert W. Pemberton "Current Status of the Biological Control Agent Neomusotima conspurcatalis (Lepidoptera: Crambidae), on Lygodium microphyllum (Polypodiales: Lygodiaceae) in Florida," Florida Entomologist 97(2), 817-820, (1 June 2014). https://doi.org/10.1653/024.097.0268
Published: 1 June 2014
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