Natural Area Weeds: Old World Climbing Fern (Lygodium microphyllum)
There are many well-known invasive plants in Florida such as melaleuca, Brazilian peppertree, and cogongrass. Each of these has been present for over 80 years and has widespread negative impacts within the State. However, a species known as Old World climbing fern has greatly increased over the last thirty years in Florida and may become the greatest invasive plant threat to Florida's natural areas. Old world climbing fern, hereafter referred to as OWCF, is an aggressive, twining fern that forms dense smothering mats over trees, shrubs, and other vegetation (Figure 1). It spreads by wind-dispersed spores and is often found in very remote areas, making containment very difficult. This publication describes the biology and ecology of this invasive plant and provides management options for both public land managers and private landowners.
How to Recognize Old World Climbing Fern
OWCF plants consist of fronds (up to 90 feet long) that spread along the ground, over shrubs, or climb by twining around other structures, such as trees and other vines (Figure 1). The rhizomes (underground stems) and rachis (main stem of the frond) are dark brown to black and wiry. Leafy branches, referred to as pinnae, develop off the rachis and are 2–5 inches long (Figure 2). Pinnae contain several pairs of either fertile or infertile leaflets known as pinnules. Fertile leaflets are fringed with tiny lobes of enrolled leaf tissue along the leaf margin that cover the reproductive tissues (Figure 3). Infertile leaflets lack these specialized reproductive structures. OWCF is closely related to Japanese climbing fern (Lygodium japonicum) but can be readily distinguished by pinnae and pinnule characteristics. Japanese climbing fern pinnae are often twice compound, and pinnules are deeply lobed and hairy on the lower surface. OWCF pinnae are once compound, and pinnules are oblong, generally unlobed, and hairless on the lower surface.
Distribution and Spread
Native to Africa, Asia, and Australia, OWCF is a newcomer to Florida that has spread at an alarming rate since its introduction. The first record in Florida was collected from a plant in cultivation at a Delray Beach nursery in 1958 (University of Florida Herbarium record). Subsequently, a collection was made from the wild in Martin County in 1960 (Florida State University Herbarium record), and two additional collections were made from the wild in Martin County in 1965 (University of Florida Herbarium record). By 1978, it was well established and had already affected native vegetation by smothering shrubby and herbaceous plants in south Florida (Nauman and Austin 1978).
New OWCF populations are found in areas far from existing populations because the fern can reproduce by wind-dispersed spores. Spores are produced year-round in south Florida, and a single fertile leaflet can produce up to 28,600 spores, with each spore capable of starting a new population at a distant location (Lott et al. 2003; Volin et al. 2004). Area coverage of the fern increased from 27,000 acres in 1993 to 122,787 acres in 2005. There are no more recent estimates of OWCF acreage than 2005. However, mapping efforts continue and new locations are frequently detected.
For many years, OWCF distribution was limited to south Florida and the most northern occurrence was Orange County (Pemberton 2003). However, occurrences now extend from the southern-most peninsula of Florida to Hernando County on the Gulf Coast and Duval County on the Atlantic Coast (EDDMapS 2016). OWCF occurrences verified by herbarium-vouchered specimens are reported by the University of South Florida Institute for Systematic Botany and can be accessed at http://www.florida.plantatlas.usf.edu (Wunderlin and Hansen 2008).
Impacts to Natural Areas
OWCF climbs into the tree canopy and competes with canopy trees and understory vegetation for light. It can completely engulf Everglade tree islands (Figure 4), pinelands, and cypress swamps, and spreads across open wetland marshes. It can kill mature trees along with their associated epiphytic orchids and bromeliads, and smother understory vegetation, preventing regeneration of the native plant community. As time progresses, a thick mat of old fern material accumulates on the ground, severely altering the habitat. When fire occurs, the fern carries fire into the tree canopy, causing greater damage and transporting fire through wet areas that otherwise present a boundary to the spread of fire. Rare plant species, such as the tropical curlygrass fern (Actinostachys pennula) and thin-leaved vanilla orchid (Vanilla mexicana), are threatened in their last remaining habitats, such as northern Everglade tree islands and coastal bay swamps. However, the highest potential for significant damage to native plant populations is in areas such as Fakahatchee Strand State Preserve, Everglades National Park, and Big Pine Key National Wildlife Refuge, where numerous rare plants occur.
Invasive Characterization and Regulatory Status
The IFAS Assessment and the Florida Exotic Pest Plant Council consider Old World climbing fern to be highly invasive within the State. Old World climbing fern is also regulated (possession, propagation, sale, and transportation) by the Florida Department of Agriculture and Consumer Services (FDACS) as a Florida Noxious Weed (5B-57.007 FAC) and by the United States Department of Agriculture (USDA) as a Federal Noxious Weed.
Management
Prescribed fire, flooding (water level management), biological controls, and herbicides have been investigated as tools for integrated management of OWCF (Hutchinson et al. 2006). Fire can reduce OWCF in certain habitats but can also result in colonization by other nonnative plant species (Hutchinson and Langeland 2010). Prescribed fire alone in most instances is not an acceptable management tool for OWCF (Hutchinson et al. 2006). OWCF grows in moist habitats, so water level interval and duration can affect certain life stages; however, flooding has not been found to be a predictable management method (Hutchinson et al. 2006). Since the late 1990s, when serious OWCF management efforts began, herbicides have been used to manage OWCF, and biological controls have been released and are currently being monitored.
Herbicides
Herbicide products that contain the active ingredients glyphosate, triclopyr, and metsulfuron are active against OWCF. Recent research found that repeated treatment every six months for two consecutive years resulted in a >96% reduction in OWCF cover (Hutchinson and Langeland 2015). This study also found that OWCF recovery was initially from rhizomes at 6 months after initial treatment. However, almost all OWCF recovery at 12 months after initial treatment and beyond was from spore germination. The bottom line is that an aggressive multi-year treatment approach is necessary to effectively control OWCF.
The primary herbicides used by professional land managers are aquatic labeled glyphosate and metsulfuron products. Triclopyr is increasingly used, but care must be taken to prevent potential nontarget damage to woody species. This lack of many effective control tools results in repeated use of the same herbicides for several years. This has raised concerns about resistant OWCF populations developing as a response to repeated use of glyphosate and metsulfuron (Hutchinson, MacDonald, and Langeland 2007). Use of glyphosate and metsulfuron, along with triclopyr, should be alternated when possible to minimize the potential for development of resistance.
Operationally, expansive OWCF populations are treated initially by helicopter. Small and scattered populations are spot treated, usually with a backpack sprayer or hand-held application equipment. If fronds extend up into trees where herbicide cannot be applied to all the foliage, the fronds are cut at about waist height, and herbicide is applied to the lower (rooted) portion. This is referred to operationally as a "poodle cut" due to the appearance after cutting. The growth above the cut dies from cutting alone but the lower rooted growth must be treated. Treated populations should be monitored for regrowth and retreated as necessary. Treated sites should be revisited a minimum of every 6 months if possible. During site visits, all regrowth should be treated.
Extensive OWCF populations treated by helicopter receive a glyphoste or metsulfuroncontaining herbicides. Because these treatments are usually applied over water, a product labeled for aquatic application is used. A glyphosate-containing product that contains 4 lb glyphosate acid per gal is applied at a rate of 7.5 pt per acre during the season when nontarget woody species such as cypress are dormant. A product that contains 60% active ingredient metsulfuron is applied at a rate of 1–2 oz product per acre when tolerant woody species are present. The metsulfuron-containing product Escort XP is labeled for application to sites where water is present.
Following initial aerial application, spot treatment with 3% solution of glyphosate-containing product (4 lb glyphosate acid per gal) alone or in combination with 1-2 oz of 60% metsulfuron-containing product is necessary on a one- to two-year cycle, depending on environmental conditions. While lower concentrations of glyphosate can be effective, control is more consistent using a 3% solution, an important and cost-effective consideration when treating OWCF in remote locations that are costly to access.
As an alternative, triclopyr has been shown to provide comparable activity to glyphosate for ground-based treatments. Multiple formulations including an amine and an acid are labeled for aquatic use. Recent data has indicated some enhanced triclopyr selectivity on native ferns compared to glyphosate. This is ideal, but care must be taken to prevent excessive application, which may result in non-target damage to surrounding trees. General concentrations for backpack treatment range from 0.5% to 1.5%. Higher concentrations may become problematic for surrounding woody species due to triclopyr soil activity.
Biological Control*
From 2005 to 2007, a defoliating moth, Austromusotima camptonozale (Figure 5), was released in southeast Florida as a biocontrol for OWCF fern but failed to establish in any of the release range. Another species of defoliating moth, Neomusotima conspurcatalis (Figure 6), has established from releases made in 2008 and 2009. Populations are thriving in several areas and have spread to other points beyond the initial releases. The insect has caused considerable localized brownout of OWCF in certain areas. However, the overall impact still remains very limited.
A leaf-galling mite Floracarus perrepae (Figure 8) was released in 2007, and has since established in many locations across south Florida. The full impact of the mite is yet unclear. However, mite damage has been reported where fire has stimulated new Lygodium growth. Two additional insects are currently being tested for future releases: a defoliating moth within the same family as the two released moths and a sawfly whose larvae are heavy defoliators.
*Biological control information provided by Melissa C. Smith, PhD, research ecologist, USDA-ARS Invasive Plant Research Lab, Fort Lauderdale, FL
What You Can Do
A recent survey of public land managers indicated that considerable progress has been made in many areas. However, there is great concern over the rapid spread OWCF on private lands. If left uncontrolled, the infestations will continuously produce new spores that may re-infest public lands following intensive control efforts. Citizens who want to help protect Florida's natural areas from OWCF should become familiar with how to identify it and teach others about the problem. If you find new populations of OWCF on public property, contact the property manager or appropriate agency such as a county environmental department, Water Management District, or the Florida Fish and Wildlife Conservation Commission.
If you find OWCF on your own property, pull it up by the roots or spray it with an herbicide. Monitor and retreat if regrowth occurs. Homeowners can purchase several glyphosate-containing herbicides in small quantities from retail garden supply stores. Do not dispose of Old World climbing fern in such a way that will cause further spread.
The Central Florida Lygodium Strategy (CFLS) is a program coordinated by The Nature Conservancy to stop the northward spread of OWCF. CFLS coordinates quick and effective treatment of newly reported OWCF occurrences along a line from northern Pinellas and Pasco Counties on the west coast northeast to northern Volusia and Flagler Counties on the east coast. Funding is available to treat private lands in the northernmost extent of the plant's range in central Florida to complement treatment efforts on public conservation lands. To find out more about CFLS, visit the program's website at http://www.nature.org/centralfloridainvasives.
References
Early Detection and Distribution and Mapping System (EDDMapS). 2012. The University of Georgia—Center for Invasive Species and Ecosystem Health. Accessed December 2012. http://www.eddmaps.org.
Florida Exotic Pest Plant Council (FLEPPC). 2011. Florida Exotic Pest Plant Council's 2011 List of Invasive Plant Species. http://www.fleppc.org/list/list.htm.
Hutchinson, J. T., and K. A. Langeland. 2012. "Repeated Herbicide Application for Control of Old World Climbing Fern (Lygodium microphyllum) and the Effects on Nontarget Vegetation on Everglade Tree Islands." Invasive Plant Sci. and Manage. 5(4):477-486.
Hutchinson, J. T., and K. A. Langeland. 2010. "Monitoring of Applied Management Techniques to Control Old World Climbing Fern (Lygodium microphyllum) in Disturbed Habitat." Florida Scientist 73(3/4):262-273.
Hutchinson, J., A. Ferriter, K. Serbesof-King, K. Langeland, and L. Rodgers. 2006. "Old World Climbing Fern (Lygodium microphyllum) Management Plan for Florida." Florida Exotic Pest Plant Council. http://www.fleppc.org/Manage_Plans/Lygo_micro_plan.pdf.
Hutchinson, J. T., G. E. MacDonald, and K. A. Langeland. 2007. "The Potential for Herbicide Resistance in Nonnative Plants in Florida's Natural Areas." Nat. Areas J. 26(3):258-263.
Lott, M. S., J. C. Volin, R. W. Pemberton, and D. F. Austin. 2003. "The Reproductive Biology of the Invasive Ferns Lygodium microphyllum and L. japonicum (Schizaeaceae): Implications for Invasive Potential." American Journal of Botany 90(8):1144-1152.
Nauman, C. E., and D.F. Austin. 1978. "Spread of the Exotic Fern Lygodium microphyllum in Florida." Amer. Fern J. 68(3):65-66.
Pemberton, R. W. 2003. "Northward Range Extension in Florida of the Invasive Fern Lygodium microphyllum (Lygodiaceae)." Sida 20:1759-1761.
Volin, J. C., M. S. Lott, J. D. Muss, and D. Owen. 2004. "Predicting Rapid Invasion of the Florida Everglades by Old World Climbing Fern (Lygodium microphyllum)." Diversity and Distributions 10(5-6):439-446.
Wunderlin, R. P. 1998. Guide to the Vascular Plants of Florida. Gainesville: University of Florida Press.
Wunderlin, R. P., and B. F. Hansen. 2008. Atlas of Florida Vascular Plants. Developed by S. M. Landry and K. N. Campbell for Florida Center for Community Design and Research. Tampa: University of South Florida Institute for Systematic Botany. http://www.plantatlas.usf.edu/.