Definition: Percentage cover of all (native) species in the ground layer.
Background: The native herbaceous groundcover is an important part of the habitat needs of
many species of wildlife found in southern open pine ecosystems.
Definition: Advance longleaf pine regeneration cover is 5-15% of stand. Includes grass stage or
regeneration < 2” DBH (Longleaf Partnership Council 2014).
Background: This metric has gone through extensive review and was adopted as part of the
longleaf pine maintenance class definitions by the Longleaf Partnership Council (Longleaf
Partnership Council 2014).
Definition: Native warm season grass cover is also called cover of pryrophytic graminoids which include
grasses and grass-like plants. This metric is the percent cover of native warm season grasses and other
perennial graminoids that are maintained by periodic fire. These are the native grasses and grass-like
plants (mostly native warm season grasses) which are natural groundcover in southern open pine
stands. For open longleaf pine woodlands in Florida, these include wiregrass (Aristida stricta),
pineywoods dropseed (Sporobolus junceus), Florida dropseed (Sporobolus floridanus), Chapman's
beaksedge (Rhynchospora chapmanii), cutover muhly (Muhlenbergia capillaris var. trichopodes),
toothache grass (Ctenium aromaticum), little bluestem (Schizachyrum scoparium) and Florida toothache
grass (Ctenium floridanum). However, switchgrass (Panicum virgatum) is not included, as it can become
so dominant that other grasses, legumes and small bare ground areas are crowded out. Some typical
wide ranging southern native warm season grasses of Dry & Mesic Longleaf Pine Woodlands include
splitbeard bluestem (Andropogon ternarius), Elliott's bluestem (Andropogon gyrans var. gyrans),
broomsedge bluestem (Andropogon virginicus), pineywoods dropseed (Sporobolus junceus), rough
dropseed (Sporobolus clandestinus), little bluestem (Schizachyrium scoparium), slender little bluestem
(Schizachyrium tenerum), Indiangrass (Sorghastrum nutans), slender Indiangrass (Sorghastrum elliottii),
and lopsided Indiangrass (Sorghastrum secundum). In the Wet Longleaf & Slash Pine Flatwoods &
Savannas, Carolina wiregrass or pineland threeawn (Aristida stricta) or Southern wiregrass or Beyrich's
threeawn (Aristida beyrichiana) often dominates, but toothache grass (Ctenium aromaticum), cutover
muhly (Muhlenbergia expansa), little bluestem (Schizachyrium scoparium), Florida dropseed (Sporobolus
floridanus), Carolina dropseed (Sporobolus pinetorum), wireleaf dropseed (Sporobolus teretifolius),
chalky bluestem (Andropogon capillipes), other bluestems (Andropogon spp.), or other grasses may also
dominate. In the Ozarks and Ouachitas (Interior Highlands), native warm season grasses include little
bluestem (Schizachyrum scoparium), big bluestem (Andropogon gerardii), Indian grass (Sorghastrum
nutans), bearded shorthusk (Brachyelytrum erectum), Elliott’s bluestem (Andropogon gyrans), blackseed
speargrass (Piptochaetium avenaceum), composite dropseed (Sporobolus compositus), and other
grasses (Blaney et al. 2015, Farrington 2010, Nelson 1985). In open shortleaf pine woodlands in northern
Mississippi, native warm season grasses include little bluestem (Schizachyrum scoparium), Bosc’s
witchgrass (Dichanthelium boscii) and broomsedge (Andropogon virginicus) (Brewer et al. 2015,
Maynard and Brewer 2013).
Background:
Grasses and grass-like plants provide much of the fine fuels which allow frequent low
intensity fire to occur in southern open pine ecosystems (Kirkman et al. 2004). Fires are an important
natural disturbance and process which helps maintain longleaf pine ecosystems. Native grasses and
grass-like plants which provide the fine fuels in southern open pine are called pyrophytic graminoids.
These are mostly native perennial warm season grasses, which can resprout fairly quickly following fire
during the growing season. Native warm season grasses use the four Carbon, C4 pathway in
photosythesis (not the more common three Carbon C3 pathway used by cool season grasses) and
generally are associated with prairies and open woodlands. The C4 pathway is more efficient for
photosynthesis in warmer temperatures (Edwards et al. 2010). For most southern open pine
ecosystems, there is broad overlap between native warm season grasses (using the C4 pathway), and the
plants measured in this metric, which have been called pyrophytic graminoids. Areas with good cover of
native warm season grasses can be foraging areas for gopher tortoise (Hinderliter 2014), nesting and
feeding areas for Bachman’s sparrow, and bobwhite quail (McIntyre 2012, Richardson 2014a), and
100
habitat for the eastern diamondback rattlesnake (NatureServe 2015). This metric has been useful in
other assessments (FNAI and FFS 2014, NatureServe 2011). Maintenance condition class for herbaceous
cover in longleaf pine woodlands is considered to be herbaceous cover >35% with native pyrogenic
species present in stand (Longleaf Partnership Council 2014).
Definition: Invasive plant presence/distribution. Describes the extent and distribution of invasive exotic
plants within or along the perimeter of the polygon; includes only Florida EPPC category I and II listed
species. http://www.fleppc.org/list/list.htm
Background: Invasive exotic species are a major threat to biological integrity in a wide variety of
ecosystems (Miller 2003). These species can out compete the native species, alter ecological functions
(Bryson and Carter 1993, Lippincott 2000) and contribute to decline in biological integrity. For wetlands,
NatureServe has used cover of invasive nonnative plants for rapid ecological integrity assessment
(Faber-Langendoen et al. 2015). NatureServe’s categories are excellent if absent or < 1% cover, good if
sporadic or 1-3% cover, fair if somewhat abundant with 4-10% cover, between fair and poor if abundant
with 11-30% cover, and poor if very abundant with >30% cover of invasive nonnative plants (FaberLangendoen
et al. 2015). Less than or equal to 1% cover of invasive exotic plant species or ongoing
progress towards this indicates maintenance condition for longleaf pine woodlands (Longleaf
Partnership Council 2014). The Florida Exotic Pest Plant Council reviews and updates their list of invasive
exotic plants every two years. The distributions within Florida are listed for north, central, and south
Florida (FLEPPC 2015). For areas outside of Florida, refer to those invasive exotic species listed for north
Florida. Exotic subtropical grasses are a particular threat to longleaf pine ecosystems. Tallow tree
(Triadica sebifera) and cogongrass (Imperata cylindrica) are threats to Wet Longleaf & Slash Pine
Flatwoods & Savannas (Brewer 2008, Wang et al. 2011). Cogongrass is also a threat to other longleaf
pine ecosystems. Japanese stiltgrass (Microstegium vimineum) and Japanese honeysuckle (Lonicera
japonica) are threats during restoration of open woodlands in northern Mississippi, such as the Dry &
Mesic Hilly Pine Woodlands (Brewer, Abbott and Moyer 2015).
Definition: A measure of the current absolute size (ha) of the entire wetland type polygon or patch. The metric is assessed with respect to a comparison of patch-type sizes for the type across its range.
Background: This metric is one aspect of the size of specific occurrences of a wetland type. The metric rating is taken from NatureServe's Ecological Integrity Assessment Working Group (Faber-Langendoen et al. 2008). Assessors are sometimes hesitant to use patch size as part of an EIA out of concern that a small, high quality example will be down-ranked unnecessarily. We address these concerns to a degree by providing an absolute patch-type scale, so that types that typically occur as small patches (seepage fens) can use a different rating than types that may occur over large, extensive areas (e.g., marshes or boreal bogs/fens). Size is also more accurately assessed at finer scales of classification (e.g., Systems or Groups). For example, with this approach, Midwest prairie fens are compared separately from boreal fens.
Definition: A measure of connectivity assessed using the percent of natural habitat directly connected to the AA, including options for sub-metrics for the inner zone (0-100 m),
and outer zone (100-500 m). For AAs based on points, the landscape may largely consist of the same wetland that the point is within, rather than surrounding habitat;
preliminary testing has shown that it may be desirable to extend the zone to 1000 m to ensure that more of the landscape outside the wetland polygon is accounted for (K. Walz pers. comm. 2016).
Background: This metric addresses the broader connectivity of the natural land cover to the AA. The metric assesses the natural habitat that is directly contiguous.
Still, not all organisms and processes require directly contiguous habitat, and organisms perceive "connectivity" differently, so this metric may under-estimate contiguous habitat for some organisms.
Definition:This metric measures the intensity of human dominated land uses in the surrounding landscape beyond the 100 m buffer, based on an additional 150 m with for the core landscape and an additional 250 m width for the supporting landscape.
Background: This metric is one aspect of the landscape context of specific stands or polygons of ecosystems and is based on Hauer et al. (2002) and Mack (2006).
Definition:A measure of the percent of the wetland system perimeter with a vegetated, natural buffer.
Background: The buffer of wetlands is important to biotic and abiotic aspects of the wetland. The Environmental Law Institute (2008) reviewed the critical role of buffers for wetlands. We assess key aspects of buffer within a 100 m sub-zone, but add a surrounding landscape assessment that extends to 500 m from the AA edge (see metrics LAN1 and LAN2).