Compass plant (Silphium
laciniatum), an icon of the tall grass prairie, is one of the first prairie
species to disappear upon grazing (see Curtis quote at the end of this post).
At Pleasant Valley Conservancy it was completely absent from the unrestored
prairie remnants, even though many other prairie species (including such conservative
species as Amorpha canescens; Sporobolus
heterolepis; and Ceanothus americanus)
were still present.
When restoration began, compass plant was high on our
priority list for reintroduction and it has been in all of our seed mixes for planting
on all prairie or open savanana sites after they had been cleared and burned.
However, it is slow to develop, and the first year all one usually sees is a
single leaf. It continues to grow only vegetatively for the first few years,
just making a large tap root. Although in favorable garden-like settings it can
flower the second or third year after planting from seed, in most prairie
restorations it takes at least five or six years to flower.
The first plantings at PVC were on November 1998 at the former
ag field (future Toby’s Prairie) and at the recently cleared Overlook area
(Unit 5A) on the South Slope. The Overlook area was planted again in April 1999
after burning. The first flowering plant at Toby’s Prairie was in 2004, six
years later, but flowers were not seen at the Overlook until 2007 (nine years
later).
The Overlook has the appearance of a severe habitat, highly
exposed, with a rocky soil and intense solar radiation. Despite this, flowering
compass plants have continued to be present at the Overlook since it was first
restored. In 2018 there were three tall flowering plants.
As the table shows, we have been successful in getting compass
plants established from seed at a wide variety of sites. It is now widespread
at Pleasant Valley Conservancy, in various kinds of prairies as well as open
savannas.
Compass plants from seed to first flowering
Year planted
|
First Year flowered
|
Location
|
Habitat
|
Years to flowering
|
2002
|
2006
|
Barn
|
Wet mesic prairie
|
4
|
2002
|
2008
|
Cabin
|
Dry mesic prairie
|
6
|
2005
|
2007
|
Crane
|
Wet mesic prairie
|
2
|
2003
|
2014
|
Unit 11A
|
Open savanna
|
11
|
1999
|
2004
|
Pocket
|
Mesic prairie
|
5
|
2005
|
2010
|
Ridge
|
Dry mesic prairie
|
5
|
1998
|
2004
|
Toby’s
|
Dry/Dry mesic prairie
|
6
|
1998
|
2016
|
Unit 5A
|
Dry prairie
|
9
|
2003
|
2008
|
Unit 11A
|
Open savanna
|
5
|
2004
|
2009
|
Unit 11D
|
Open savanna
|
5
|
2002
|
2006
|
Unit 12A
|
Open savanna
|
4
|
1999
|
2005
|
Unit 18
|
Dry mesic prairie
|
6
|
2002
|
2012
|
Unit 19B
|
Open savanna
|
10
|
2002
|
2008
|
Unit 19C
|
Open savanna
|
6
|
1999
|
2009
|
Unit 2
|
Dry prairie
|
7
|
2004
|
2014
|
Unit 2 PV Road cut
|
Dry prairie
|
10
|
1999
|
2008
|
Unit 3
|
Dry prairie
|
9
|
1999
|
2008
|
Unit 3A
|
Dry prairie
|
9
|
2001
|
2006
|
Unit 6
|
Dry mesic prairie
|
5
|
2002
|
2008
|
Unit 7
|
Dry mesic prairie
|
6
|
2002
|
2008
|
Valley
|
Wet mesic prairie
|
6
|
Average years to flower: 6.5
Total sites: 21
South Slope with scattered compass plants |
Tall compass plant on the steep road bank. This is one of the driest parts of the site. |
Top of the South Slope by the Far Overlook. In addition to compass plant, little bluestem, pale purple coneflower and bur oak grubs and saplings |
Now that compass plant is so well established, how long will
it continue to thrive?
The work of Frank Gould, one of Norman Fassetts students at
UW-Madison, is pertinent. In 1936 Gould did an extensive survey of prairie
remnants of Dane County, using the original surveyor’s prairie map as a guide. Although
most of the original prairie was gone, he found remnants of it along roadsides,
railroad tracks, “little-used pasture land”, and “wastelands”.
Among other species, he recorded the presence of Silphium laciniatum in 156 localities, of which 150 “are
within the bounds of the original prairie districts as outlined on the old
[original surveyor’s] map.” See Gould’s map below.
From Gould, Frank W. 1937. The present status of Dane County
prairie flora. M.A. thesis, University of Wisconsin-Madison. See also Gould,
Frank W. 1941. Plant indicators of original Wisconsin prairies. Ecology Volume 22: 427-429.
The largest prairie area on Gould’s map is that north of
Lake Mendota that was once known as the Empire Prairie. The outlines of this
part of Gould’s map follow almost exactly my Empire Map done by GIS that was alsobased on the original surveyor’s map. It seems evident that
compass plant has continued to thrive in the prairie areas where it had been present
in 1836, when the original surveying was done.
Thus, I conclude that as long as suitable remnant prairie
habitat remains, compass plant will continue to thrive, but it is not able to
move onto “new” ground, as so many other of the prairie plants are able to do.
It especially suffers severely from grazing.
The South Slope bluff prairie is an interesting compass
plant habitat. How can compass plant, a conservative mesic species with a “C”
value of 8, do so well in this sort of habitat?
Scanning the South Slope recently, I saw a compass plant 5 feet
tall in the middle of what should have been the driest area. I looked further
and saw a few more, almost as tall. I started counting and found at least two dozen
compass plants, all in flower, and all looking very healthy, scattered across
the slope.
In retrospect, I should not have been surprised. When the NRCS Site Description team visited PVC in 2014, they showed me that the soil on
our “rocky” slope was very deep. They were able to thrust a 7 foot long metal
probe all the way to the hilt. This type of soil is called colluvium. Although its surface is about 1/3 rock, the rest is
exposed loamy soil quite suitable for deep-rooted prairie plants.
If you want to see these bluff prairie plants, take a walk
along the South Slope on Pleasant Valley Road from the driveway to County F.
Here is the passage from Curtis on grazing: (Vegetation of
Wisconsin 1959; page 426)
“Prairies on wet-mesic, mesic, and dry-mesic sites
are literally wiped out by grazing, sometimes with almost unbelieveable
rapidity. About 1940, a large tract of virgin wet-mesic prairie adjacent to the
Faville Prairie Preserve of the University of Wisconsin Arboretum, in Jefferson
County, changed ownership and was subjected to heavy grazing under cattle and
horses by the new management. During the first summer, the animals proceeded to
attack the species of highest palatability, with the very abundant plants of Silphium
terebinthinaceum and S. laciniatum sought out like hidden candy at a child's birthday party. By the end of
the second year, no prairie species whatever were visible in the closely
cropped sward, although many were no doubt present as underground roots or
rhizomes. The obvious dominants were redtop grass (Agrostis
stolonifera) and Kentucky bluegrass (Poa
pratensis). Other portions of the same
prairie which had been pastured for a number of years were dominated by the
bluegrass, with lesser amounts of redtop and quackgrass, plus an occasional native
plant of ironweed, sneezeweed, common milkweed, and high populations of the
exotic dandelion, Canada thistle, and white clover. No traces of the prairie grasses originally present nor most of the prairie
forbs were to be seen. This total destruction of the original prairie dominants
by grazing is to be explained by comparing their growth habits with those of
the invading exotics. The native grasses produce erect growing points which are
clipped off by the cattle (Neiland and Curtis, 1956). The exotic species like
bluegrass, however, have creeping rhizomes which send up individual leaves.
Removal of the tips of the leaves causes no permanent harm, since the tissues
are replaced by the meristematic region at the base of the leaf. The exotics
thus have a tremendous advantage in the competition for space.”
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