Prescribed burning

Fire is a tool to reduce fuel and restore ecosystems but poses a risk of peat combustion that temporally restricts managers. Studies indicate that fires may be prescribed with a water table lower than the peat surface, but are based on locations with different peat properties or assumed heat inputs. The goal of this research is to quantify peat surface heating during a passing fire and the heat required to ignite peat under lowered water tables. This study used temperature probes at two heights to quantify peat surface heating during a prescribed fire and a manipulative experiment to quantify the effects of water table recession on peat properties important for predicting ignition. The soil surface experienced 87% of the flaming heat in sawgrass dominated areas. The heat required to ignite the peat surface was significantly correlated with the water table depth. This provides managers greater opportunity for prescribing fire.

Several characteristics of butterfly communities were evaluated in seven pine flatwoods units that differed in time since the last prescribed burn (time-since-burn). Abundance, species richness and species diversity of common butterflies were dependent on plant diversity. These butterfly community characteristics and plant species diversity declined with time-since-burn. Atrytonopsis Manna loammii , a rare butterfly, was found during three different flight seasons in a unit that had been burned in July 1997, as well as a unit burned in February 1999, indicating that early recovery of recently burned units can provided suitable habitat for this rare species. Proper burn rotations and invertebrate surveys are recommended for the conservation of rare species.

The gopher tortoise (Gopherus polyphemus) is endemic to the Southeast United States, where its populations are declining primarily due to habitat loss. Gopher tortoises prefer habitats with open sunny spots for nesting and basking. Fire is a normal element in gopher tortoise habitat, and when natural fires are suppressed, habitats may become too overgrown. To maintain the open spaces, some land managers use reduction mowing of vegetation. I studied gopher tortoises in the Abacoa Greenway reserve, established to protect the tortoises in a residential area of Jupiter, Florida, and I examined how reduction mowing influences tortoise activity. I evaluated the distribution of burrows throughout the study site by flagging the burrows both before and after extensive reduction mowing took place in the greenway. Statistical comparison between new burrows found within the interior as compared to the periphery both before and after the mowing reveal a significant relationship between both variables. These results suggest that the tortoises utilize newly mowed areas as preferred substrate for new burrows.

Florida's pine flatwoods are pyrogenic ecosystems that require frequent fires to regenerate the herbaceous layer and suppress crowding vegetation. Human development has hindered these natural fires and consequently affected the herpetofauna (amphibian and reptile) species. Anthropogenic encroachment, in addition to fire suppression, has also provided ideal habitats for invasive species within native environments. Exotic species are often found in developed areas around buildings and roads, and it is likely this pattern continues into the park. This eight-month coverboard survey focuses on the effects various fires may have on herpetofauna in the area and explores the level of intrusion exotic species exhibit within the communities. Minimal differences among herpetofauna composition between transects were found. However, a convincing percentage of exotic species were found only within the first ten meters of the transects while all native species were at least 25 meters into a transect.