Carex pensylvanica is a species of flowering plant in the sedge family commonly called Pennsylvania sedge (sometimes shortened to Penn sedge). Other common names include early sedge, common oak sedge, and yellow sedge.
This plant is native to North America, especially eastern Canada and the eastern United States. Based on a census of the literature, herbaria specimens, and confirmed sightings, C. pensylvanica is found in Manitoba, Ontario, and Quebec in Canada; and in the United States it is most widely distributed in Connecticut, Illinois, Massachusetts, Michigan, Minnesota, New Hampshire, New Jersey, Pennsylvania, mainland Rhode Island, Virginia and Wisconsin. it is also known from northern Alabama, the western Carolinas, the mostly eastern Dakotas, northern and southern Delaware, northern Georgia, western Iowa, mostly northern Indiana, northern and eastern Missouri, mostly central and eastern Ohio, and mostly central Tennessee. It is also found in Arkansas, Kentucky, Maine, Maryland and the District of Columbia, New York, West Virginia, and Vermont. It has been reported from just one county, Lee, in the far northeastern portion of the state of Mississippi.
Pennsylvania sedge produces leaves up to long and wide that become arching at maturity. It has culms (stems) long.
Pennsylvania sedge blooms early in the spring, from April to June. Each flower cluster contains one slender staminate (male) spike long above one to three shorter pistillate (female) spikes each with 4 to 12 florets. During the blooming period, the staminate spike produces slender cream-colored anthers, aging to light brown, and each pistillate floret produces three long white, thread-like styles. The scales underneath the florets are dark purple.
This competitive species is often found in large monotypic stands. It is mainly vegetative, spreading via systems of cordlike rhizomes. Shorter rhizomes produce tufts, clumps, and mats, and longer rhizomes form wide, matted colonies.
In order to assess the dynamics of three stress factors on Carex pensylvanica development on forest beds, researchers conducted an experiment consisting of even-aged silvicultural systems.[1] Combinations of deer herbivory, invasive earthworm activity, and forest management (human activity) were managed as the stressors. The study's findings demonstrated a direct correlation between elevated C. pensylvanica coverage and high disturbance levels, notably invasive earthworm-management-deer interactions, and invasive earthworm density.[2]
In hardwood forests in northern Minnesota, Carex pensylvanica were found to have a greater dominance in comparison to other understory plant species in areas where invasive earthworms were present for two decades or more. It is hypothesized that since Carex pensylvanica is a non-mycorrhizal plant species, it gains a comparative competitive advantage against other understory plant species when earthworms disrupt and sever mycorrhizal networks.[3] [4]