Ocracoke nature, flora & fauna

From the archives: Invasive phragmites–the “uncommon” common reed

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Phragmites in fall along Southpoint Road. Photo by C. Leinbach

Upate: The Know Your Park citizen science program on efforts to stop the spread of phragmites sponsored by The National Park Service Outer Banks Group scheduled for 7 p.m. Monday, Feb, 23, in the Ocracoke Community Center has been canceled due to weather-related travel concerns.
This article written by Pat Garber provides detailed information about phragmites  that was published in the Ocracoke Observer in May of 2013.

Driving along the winding lanes that border marshlands in eastern North Carolina, one might notice a tall, lovely grass, its feather-like tassels rustling gently as it sways in the breeze. It looks natural in its wetland setting, as if it has always been there; and in fact it has lived here for thousands of years. Something, however, is different. A century ago the reed would have been part of a complex ecosystem comprised of many plant species, supporting a wide variety of animal life. Today it most likely dominates its habitat, forming a mono-culture that is unnatural and uninviting for many of the animals that live in the marsh. The reed now acts as an invasive rather than a native species, destroying other natives and creating a vista that is nearly barren of other life forms.

Phragmites australis, otherwise known as common reed, is a species of wetland grass usually found in low-lying areas where there is a large amount of water in the soil and ample sunlight. It can grow from three to thirteen feet high, reaching its maximum height between the ages of five and eight years. It has cane-like stems, large feathery plumes, and an extensive root system of thick, white, leathery rhizomes which may be close to the surface or buried deep in the substrate. Its flowers are arranged along the canes in spikelets with tufts of silky hairlike fibers. A perennial, it spreads through seed dispersal and by branching rhizomes, which can break off and re-root. According to Clemson University professor Jack M. Whelston, the rhizomes produce monotypic stands of clones which are genetically identical, and which can exist for over a thousand years. The common reed is one of the most widely distributed flowering plants in the world, growing naturally on most of the continents and now throughout the continental United States, barring Alaska, and in Canada. Why and how it changed its behavior in the United States from that of an uncommon native marsh resident to that of a non-native, monopolistic invasive has puzzled scientists for years.

Some fifty thousand species of non-native plants and animals have been documented living in the United States, some introduced on purpose, others by accident. Some, such as dandelions and Queen Anne’s-lace, often referred to as exotics, can co-exist with native species without doing any real harm. Others, labeled as invasives, can wipe out native species and destroy whole ecosystems. Examples are the Japanese vine kudzu, found in the south-east; zebra mussels, which are devastating the Great Lakes; and Burmese pythons, now proliferating in the Everglades of Florida. Invasive species have been responsible for massive die-offs of elm, chestnut, and other native trees. It is estimated that the economic cost of invasive species in this country is 120 billion dollars a year, and Phragmites australis is now included.

Recent research has come up with some answers to the mystery of the “un-common” common reed in America. According to the North Carolina Forest Service and a report put out by the NC Department of Transportation, “Invasive Exotic Plants of North Carolina,” genetic testing shows that there are native and non-native haplotypes (family lineages) of Phragmites australis growing in our coastal marshes. It is the non-native plants that are overtaking wetland ecosystems. They probably arrived accidentally in the late 18th or early 19th centuries, perhaps in the ballast of ships coming from Europe. Once here, they began spreading out across the continent, displacing the native Phragmites australis and other native grasses, and forming mono-cultures where there had been healthy ecosystems. They are presently moving into the Great Plains, where they threaten to alter important habitat for several endangered species of birds.

Through genetic research scientists have identified as many as eleven haplotypes or strains of Phragmites australis—including communis, americanis and austalis, which may help to explain the deviant behavior. The invasive, European variety of Phragmites australis is far more common now in North Carolina than the native plants. They can be found growing in tidal and non-tidal brackish and saltwater marshes, along river edges, on the shores of lakes and ponds, in disturbed areas and pristine sites. They are especially common in roadside ditches. Described by Dr. Whelston as “ecosystem engineers,” they can alter entire aquatic ecosystems as they spread, reducing the productivity of fish, shellfish, birds, and other wildlife. They do provide shade, some food and nesting sites for a limited number of species.

The European strain of these plants is grown commercially in Europe and used for thatching, livestock feed, and cellulose production. Ironically, European Phragmites australis are in decline in their original territory, causing concern because of their economic value.

It is difficult to distinguish the non-native from the native reeds without genetic testing, but generally, large stands of phragmites, such as one often sees growing along roadsides, can be assumed to be European invasives. Phragmites may also be confused with the native “giant cordgrass” (Spartina cynosuroides.)

Eliminating or controlling non-native phragmites is now a priority with North Carolina’s wetland management organizations and many environmental groups, but the job is difficult and labor intensive. Attempts to eradicate it have included burning, cutting, draining, flooding, disking, mowing, and the use of insect pests and herbicides. Some of these methods have worked in the short term, but were ineffective over the long run. J.L. Boone, PhD in Ecology, wrote in 1987 that he had had some success in using a three-prong method which included manual cutting, burning, and the covering the area with sheets of clear plastic for 70 to 120 days.

The use of the herbicide Glyphosate, labeled for use in aquatic sites, has been found to be somewhat effective. Using herbicides in wetlands, however, presents an environmental risk, so must be done with great care. The North Carolina Forest Service has had success treating the reeds with Glyphosate in late summer and early fall, followed by prescribed burns and successive treatments for several more years. It is imperative, they stress, to follow up with monitoring to prevent the reeds from re-invading.

As always, the first step in addressing an environmental concern is identifying the problem and preventing its spreading. The invasive haplotype of Phragmites australis already had a head start before it was identified as what it was, but now, as scientists learn more about it and how to remove it, perhaps North Carolina’s wetlands can be spared the worst of its effects.