The Cuban Treefrog:was introduced into Florida as a stowaway on vehicles and plants in the 1920’s. As of 2013, breeding populations have been recorded as far north as Georgia. Cuban Treefrogs have larger toepads and eyes than any of the native species. Being larger in size, the Cuban Treefrog out-competes other treefrogs for resources, to the point that they are predators of Florida’s treefrogs and inhibitors of native tadpoles.
Juvenile Cuban Treefrogs can be distinguished from natives by their red eyes and hind legs with blue bones. Three-foot-long sections of 1.5 inch diameter PVC pipe can be placed in the landscape to monitor for treefrog species. Should Cubans be found, they should be reported and euthanized. For additional details visit: http://edis.ifas.ufl.edu/uw259.
Would you like to be a Citizen Scientist? You can help Dr. Steve Johnson at the University of Florida Department of Wildlife Ecology and Conservation by reporting suspected Cuban Treefrog sightings. For more information on how you can become a Citizen Scientist, visit The Cuban Treefrog Citizen Scientist Project.
For more information contact the author Sheila Dunning, UF/IFAS Extension Okaloosa County Commercial Horticulture Agent 850-689-5850.
Hydrilla (Hydrilla verticillata):
Hydrilla is a perennial submerged plant that grows in dense mats up to the surface of freshwater habitats, including ponds, lakes, springs, and rivers. Growing at the rapid rate of an inch a day and up to 25 feet long, hydrilla shades out beneficial native plants and clogs waterways, preventing flood control, boating, and fishing. In dense populations, the plant can alter oxygen levels and water chemistry and survive in a wide variety of nutrient conditions, sunlight availability, and temperatures.
Hydrilla Photo Credit: Vic Ramey, UF/IFAS Center for Aquatic and Invasive Plants.
Originating in Asia, it was introduced to Florida (likely through Tampa and Miami) in the 1950’s as part of the worldwide aquarium trade. Hydrilla has become a very expensive problem for the state. Millions are spent annually on chemical and mechanical treatment simply to maintain the plant. Adding to the problem is the fact that it is still available commercially, even though it has been placed on the US Federal Noxious Weed List. In the United States, the plant is found as far north as Connecticut and west to California and Washington.
Methods of control include mechanical harvesters and chopping machines (although fragments of hydrilla left in the water can regrow), introduced insects and fish (particularly the Chinese grass carp), aquatic herbicides, and lake drawdowns. Hydrilla is often transported from one body of water to the other by unknowing boaters moving fragments of the plant left on boats, trailers, or live wells, so learning to identify the plant and cleaning boats before leaving the ramp are helpful in prevention. Visit the Extension Hydrilla IPM site for more helpful tips.
For more information contact the author Carrie Stevenson, UF/IFAS Extension Escambia County Coastal Sustainability Agent at 850-475-5230.
Many plants and animals have been introduced to new regions for centuries, as people have discovered new lands. These transient species are known as non-natives, and can become invasive. Invasive species occur throughout the world and may blend in, be nondescript or highly attractive; they can be plant or animal; terrestrial or aquatic; they may resemble or remind the viewer of something familiar; they may be very good at adapting to our climate and conditions which is how many invasive species get their foothold in an area. And because they have not evolved alongside our native species, when introduced to areas lacking their natural predators, they can adapt and take off.
Conditions in the SE US are ripe for many invasive contenders. Some species have been intentionally introduced and other species have been accidentally introduced. Some common invasive species include red imported fire ants, Kudzu, Privet, Chinese tallow, Japanese climbing fern, Chinaberry, and cogongrass, just to name a few on the tip of the iceberg. These species are now out-of-control, and it is unlikely they will ever be eradicated from their new home.
In 2011 alone, the Department of the Interior spent more than $100 million on invasive species prevention, early detection and rapid response, control and management, research, outreach, international cooperation and habitat restoration in the US. (USFWS) This is a drop in the bucket when you consider in FY 1999-2000, nine Florida agencies spent $90.8 million on prevention, monitoring, control, and restoration efforts. It is estimated that the annual cost of invasive plants, animals and diseases in losses to Florida’s agriculture is estimated at $179 million annually (www.defenders.org).
Much like a cancer can spread in the body, so too, when conditions are favorable can invasive species spread across the landscape. Once established in the landscape eradication is expensive; ideally early monitoring is critical to understanding its movement and dispersal, coverage, and containment. Like cancers, early detection provides better opportunity to address the situation. Within the landscape, an aggressive invasive can impact the entire ecosystem – causing a serious imbalance; followed by a cascade of impact via unforeseen collateral damage.
Take the newest aquatic threat of Lionfish. The trophic impacts of lionfish could alter the structure of native reef fish communities and potentially hamper stock rebuilding efforts of the Snapper –Grouper Complex. Additional effects of the lionfish invasion are far-reaching and could increase coral reef ecosystem stress, threaten human health, and ultimately impact the marine aquarium industry. Control strategies for lionfish are needed to mitigate impacts.
Disturbances like new roads, land clearing, and tropical weather events (hurricanes) can all provide the opportunity for invasive species to get a foothold. So, the next time you notice a plant or animal that you don’t recognize, take a picture and report it using the “I’ve Got One!” phone app or on-line to The Early Detection & Distribution Mapping System (EDDMapS.org). You can also report to the nearest Extension Agent.
March 5th: Torpedo Grass (Panicum repens) & Hydrilla (Hydrilla verticillata)
Torpedo Grass Photo Credit: Graves Lovell, Alabama Department of Conservation & Natural Resources, www.bugwood.org
Torpedo Grass: Torpedo grass (Panicum repens) is an invasive weed that invades lawns, flowerbeds, landscapes and wetlands. Even if introduced into a small area, this weed can rapidly spread to become a monoculture and crowd out native vegetation. Its name is derived from the hard, sharp point of the rhizome that looks like a torpedo.
Native to Africa and Asia, Torpedo Grass was introduced to the United States around 1876, primarily through seed used for forage crops. The real infestation came in the early part of the 20th century when the USDA imported and distributed seed for planting pastures as forage for cattle. It proved to be inferior for use as a forage crop. Now it is found in the Gulf South from Florida to Texas and in other coastal areas around the world.
Torpedo grass is nearly impossible to completely eliminate, so management of it is not a matter of how to get rid of it completely but instead how to prevent it from taking over an area. The only way that this can be accomplished is with repeated and frequent efforts. You will have to scout regularly and any time torpedo grass is seen, promptly take action. Prevention of torpedo grass centers on removal of the entire plant, as the plant can regrow from fragments left behind in the soil. There are few control options for torpedo grass. Options will depend on its location and surrounding vegetation. For management in lawns please refer to http://edis.ifas.ufl.edu/ep387 for specific herbicide controls based predominate lawn species. For management of invasive species in natural areas, refer to http://edis.ifas.ufl.edu/wg209 for a comprehensive list of species and their controls. As always, refer to instructions on herbicide label to ensure proper usage.
For more information contact the author Brooke Saari, Sea Grant Marine Science Extension Agent, 850-689-5850.
Hydrilla:Hydrilla is a perennial submerged plant that grows in dense mats up to the surface of freshwater habitats, including ponds, lakes, springs, and rivers. Growing at the rapid rate
Hydrilla Photo Credit: Vic Ramey, UF/IFAS Center for Aquatic and Invasive Plants.
of an inch a day and up to 25 feet long, hydrilla shades out beneficial native plants and clogs waterways, preventing flood control, boating, and fishing. In dense populations, the plant can alter oxygen levels and water chemistry and survive in a wide variety of nutrient conditions, sunlight availability, and temperatures.
Originating in Asia, it was introduced to Florida (likely through Tampa and Miami) in the 1950’s as part of the worldwide aquarium trade. Hydrilla has become a very expensive problem for the state. Millions are spent annually on chemical and mechanical treatment simply to maintain the plant. Adding to the problem is the fact that it is still available commercially, even though it has been placed on the US Federal Noxious Weed List. In the United States, the plant is found as far north as Connecticut and west to California and Washington.
Methods of control include mechanical harvesters and chopping machines (although fragments of hydrilla left in the water can regrow), introduced insects and fish (particularly the Chinese grass carp), aquatic herbicides, and lake drawdowns. Hydrilla is often transported from one body of water to the other by unknowing boaters moving fragments of the plant left on boats, trailers, or live wells, so learning to identify the plant and cleaning boats before leaving the ramp are helpful in prevention. Visit the Extension Hydrilla IPM site for more helpful tips.
For more information contact the author Carrie Stevenson, Coastal Sustainability Agent at 850-475-5230.
Lawn care service providers applying fertilizer to Florida landscapes are now required to complete best management training. Photo credit: UF IFAS
Fertilizer becomes a problem in the environment when either too much is applied or it is used at the incorrect rate or wrong time. Rain or irrigation water can move these nutrients (remember, fertilizer is mostly composed of nitrogen, potassium, and phosphorus) off target, leaching them into the soil and groundwater or running off into surface waters.
Once in a creek, lake, river, or bay, this fertilizer intended to improve growth of turf or landscape plants instead fuels the growth of algae. In certain conditions this causes eutrophication, an overabundance of algae growth which gives water bodies a green, scum-covered appearance. As this plant material eventually breaks down, it uses up oxygen in the waters below, reducing the amount available for fish and other aquatic species. These scenarios can lead to fish kills and reduced water quality.
A body of water receiving excess nutrients can turn green and unhealthy from too much algae growth. Photo Credit: UF IFAS FFL program
The new legislation encourages professional lawn care staff to take a day-long course covering these concepts, and additional topics such as irrigation, pest management, and proper landscaping practices. The course, offered online and in every UF IFAS Extension office, prepares the audience for the test and certification, and gives useful tips and information for their everyday work.
Several counties, most recently Escambia, have passed local ordinances echoing the requirement to have this license when seeking a business tax certification to operate a lawn care service (providing fertilizer) in the county. In addition, local ordinances typically have a “prohibited application period,” which may involve a particular time of the year or weather condition. The ordinances also restrict blowing or sweeping lawn debris into storm drains, which can cause the same water quality problems as excess fertilizer. Visit the GI-BMP website to learn more about the program, and if you, friends, or neighbors use a professional lawn care service to fertilize your lawn, be sure to ask for proof of their fertilizer license.
Swamps provide valuable filtration for surface water
Recent rains have left water standing on some panhandle Florida real estate which has been dry for several years. Ponds, natural and dug, are brimming with water reflecting the generous outpouring from the slow and wet weather system which passed listlessly over the area.
The rainwater excess is also filling the natural low points known as swamps or wetlands.
A swamp is defined as a forested wetland. Some occur along the floodplain of rivers, where they are dependent upon surplus flow from upstream and local runoff.
Other swamps appear adjacent to ponds in shallow depressions which fill during wet periods. Their landscape is covered by aquatic vegetation or trees and plants which tolerate periodical inundation.
Historically, swamps have an image problem. Legend has all sorts of unsavory creatures, degenerates, and ghosts inhabiting the locale waiting for the unsuspecting traveler.
Even the proper British used the term as a pejorative to describe Francis Marion during the American Revolution. The Swamp Fox engaged in guerilla warfare against the conventional forces and hid in the swamps to avoid capture.
Economically, these watery regions have had very low values. Their only significance was as site for trapping, hunting or for logging in dry years.
Medically, swamps were seen as a quick and painful way to the grave. There were all those creatures which could inflict pain; leeches, snakes, gators and the like.
Then there was disease. As an example, the term Malaria originated from the swamps of southern Europe where it meant bad air in medieval Italian. The mosquito connection was unknown until the early 20th Century.
Hollywood piled on the problem with a series of swamp monster movies. One, “The Creature from the Black Lagoon” was partially filmed at Wakulla Springs in the panhandle.
Reality, as is often the case, is quite different than the initial perception. Even the term swamp has fallen out of favor in some circles, being replaced with wetlands.
Swamps or wetlands serve a variety of functions in north Florida. Possibly the most critical is as a filtration system for the water table.
Excess rain is held in these shallow depressions and allowed to percolate or filter slowly through the soil. The screening effect of the soil and subsoil layers along with the slow progression cleanses the water of numerous impurities from the surface.
Without the holding capacity of local swamp, most rainwater would end up in streams and rivers. In addition to being a loss for the water table, the excess water would cloud waterways with a glut of surface debris and nutrients.
It is true mosquitos favor the still swamp waters, but so do many birds, fish and animals. Swamp rookeries are the nesting home for many wading birds. Mosquito larvae are an important link in the food chain which supports much of the life in the swamp, and beyond.
Even some of the swamp’s most ostracized residents, snakes, have an important part to play in the overall environmental balance. These reptiles control the population of many destructive insects and rodents.
To learn more about the importance of Panhandle Florida’s swamps and wetland, contact your UF/IFAS Extension Office.
Those who have lived in the Panhandle area for many years will remember the days when our local bayous were places people water skied, kids learned to swim, and fishermen brought home plenty of speckled trout. But today we see little of this. Water quality within our bayous has declined to a point that the general public is concerned about recreation within them and most use them as access to larger bodies of water where they can enjoy water activities.
What Happened?
The mouth of Bayou Grande near Navy Point; a popular recreation location
Those who lived here when things were better say they first noticed problems when new roads and subdivisions were built in the 1950’s. Decline in water clarity was one of the first things they noticed. This was followed by a loss of submerged grasses, fish kills, and an increase in health advisories due to high levels of bacteria. These new subdivisions cleared much of the native vegetation in the neighborhoods and along the water front. The loss of vegetation and new roads allowed for more runoff to reach the bayous. Much of this runoff was in the form of leaf litter, twigs, animal waste, and maybe even carcasses of dead creatures. Once reaching the water these organics are broken down by bacteria into forms of nitrogen and phosphorus that can be utilized by aquatic plants and phytoplankton. This increase in plants will produce more oxygen, but they also consume oxygen in the evening. The high demand for oxygen in the evening can cause dissolved oxygen levels to decline to a point where aquatic life begins stressing; we now say the water is hypoxic. To add to the problem people began to have the desire for lawns of non-native grasses which require fertilizer and watering; thus increasing the nutrient load on the system and an increase in hypoxia. This eutrophication process was a major contributor to the fish kills that the bayous were experiencing.
In addition to nutrients, animal waste could be found in the stormwater. Animal waste can contain pathogensthat could be a serious risk to public health. Scientists monitor the concentration of these pathogenic bacteria by using a group of indicator bacteria called fecal coliformbacteria. High levels of these fecal coliforms indicate that a potential health risk could be present and the Escambia County Health Departmentwould issue a health advisory for that body of water. A study showed that the concentration of fecal coliforms increased in areas where coastal development increased, connecting them to stormwater problems.
So What Can We Do?
Marine Science Academy students from Washington High School measuring chlorophyll in Bayou Texar; photo: Ed Bauer
We will probably never be able to get the bayous back to the state they were in before the development boom of the mid-20th century but there are few things we can do.
First, the reason the nutrients and fecal coliforms increased was an increase in runoff. This increase was due to road construction and loss of vegetation. We cannot do much about the roads but we can rethink how we landscape our yards and waterfront property.
The Florida Friendly Yards Programis one that helps residents with selecting plants and landscaping features that require little or no fertilizer or water. This not only reduces the runoff but saves the homeowner money. Rain barrels and rain gardens are also methods that can both reduce water runoff and save money. For more information on this program you can contact Carrie Stevenson at the Escambia County ExtensionOffice; 850-475-5230 or ctsteven@ufl.edu.
Shoreline vegetation can be restored through the Living Shoreline Program. In this program the Florida Department of Environmental Protection works with the homeowner on designing a shoreline marsh and/or oyster reef project. Living Shorelines utilize plants that remove much of the nutrients found in runoff and oysters are known to filter 50 gallons of water per day, reducing turbidity typically caused by runoff. Not only do Living Shorelines reduce nutrient runoff, they also reduce erosion caused by wave energy. For more information on Living Shorelines contact Beth Fugate at beth.l.fugate@dep.state.fl.us.
Planting a Living Shoreline on Bayou Texar in Pensacola; photo: Florida Department of Environmental Protection
A third program that can help bring back the bayou is the Clean Marina / Vessel Program. This program is through the Florida Department of Environmental Protection. For more information contact Jeanne Williams at Jeanne.Williams@dep.state.fl.us.
We hope you will consider using one of these programs to help improve the water quality within our bayous. If you are interested in having a presentation on these programs contact Rick O’Connor at the Escambia County Extension Office; 850-475-5230 or roc1@ufl.edu.
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