Undiked wetlands in Lake Erie experience fluctuating water levels, and
diked wetlands are isolated from these natural hydrologic events. Gro
wth and survival of vegetation within the two wetland types is influen
ced by different water level regimes. Our objective was to report the
occurrence and abundance of flora in a 100 ha diked wetland (DW) and a
n adjacent 100 ha undiked wetland (UW) at Winous Point Shooting Club i
n southwestern Lake Erie (SWLE) during September 1991. Randomly sample
d aquatic macrophytes were identified to species and number of stems w
as recorded. Water depth and land elevation readings were also made. F
orty-six species of aquatic macrophytes were identified in the DW whil
e no plants were found in the UW. The controlled water depth of the DW
(28.40 +/- 2.39 [SE] cm) was significantly lower (P < 0.0001, t = 11.
95) than the uncontrolled depth in the UW (95.41 +/- 5.07 cm). Althoug
h the basin elevation of the DW was higher (P = 0.01) than the elevati
on of the UW, the mean difference in water depth between the two wetla
nds was much greater (p < 0.0001) than the mean elevation differences.
Thus, higher water levels were primarily responsible for floristic di
fferences between the two wetlands. Because most ecological functions
of wetlands are derived from processes requiring aquatic macrophytes,
we suggest that unvegetated wetlands, such as undiked wetlands in SWLE
, provide few of their potential ecological benefits. We purpose that
the relative ability of a SWLE wetland to advance landward is the most
important factor in determining the need to construct dikes and contr
ol water levels for aquatic plant restoration. We generally recommend
that dike systems should only be contructed on SWLE wetlands with rest
ricted upland borders.