Tom's Blog

Monday, March 27, 2017

Pleasant Valley Conservancy burn summary 2017

The year 2017 was without a doubt the most successful burn year that we have had at Pleasant Valley Conservancy. If we include the North Woods burn that was done in November 2016 (part of the same dormant season), we burned 132 acres: 34 acres (November) + 98 acres (February/March).

Also: For the first time we were able to burn virtually all of the PVC-owned wetland (15 acres).

The GIS-based map shown here provides the details.


Several factors contributed to the success of the burns.

  • The simplification of the DNR permitting system made it possible for us to make our plans the day before a burn.
  • The NOAA weather predictions have been detailed and accurate. The graphical version especially provides hour-by-hour predictions of the four key weather elements we use: temperature; dew point; relative humidity; and wind (speed and direction).
  • The availability of a very capable burn crew from Integrated Restorations, plus experienced supplementary people; all available at the ready when conditions are right.
  • Our own experience. We have been doing these burns for 20 years and have learned how to do them. Among other things, we are doing larger burns, getting as much fire on the ground as possible when the weather permits.
  • Amanda's great work as burn boss, supervising the crew, getting all burn breaks ready ahead of time and ensuring that we have enough water and drip torch fuel.
  • The success of our restoration efforts, which has meant that the vegetation of the burn units is "fire-ready". Although some internal lighting is still necessary, once the black line has been burned in, most units burn themselves with very little work on our part.
Flanking fire line moving through the bur oak savanna and tallgrass prairie; burn of Feb 2017

Burn crew lighting along a tricky spot at the edge between prairie and savanna; burn of Feb 2017

Kathie and Denny monitoring the edge of the savanna burn; Feb 2017.
The unit to the right was burned with the rest of the savannas on March 21, 2017
Later stage of the savanna burn; Feb 2017. The fire line carried all the way through the unit.
The savanna burn of March 21, 2017. Kathie, Amanda, Chris
Protecting the boardwalk while burning the wetland; burn of March 23, 2017.
The Kawasaki Mule with pumper unit was backed up to the edge of the boardwalk.


Wednesday, March 22, 2017

What to do with dead trees during oak savanna burns?

Scattered dead trees are characteristic of oak savannas. Some of these trees are fire-sensitive species such as birch and cherry, whereas others are oaks that die as part of the standard mortality process that occurs in forests.

Standing dead trees, often called “snags”, are an important part of the savanna ecosystem and are left for wildlife. Dozens of animal species depend on snags, including numerous cavity-nesting birds, some mammals, and a vast array of insects and other invertebrates.

In addition to snags, logs and other woody debris that fall to the ground, generally called “coarse woody debris”, play additional important roles in the savanna system.

However, the dead wood in a savanna becomes a special problem during savanna burns. As part of the rotting process, dead wood becomes fire sensitive, and can cause problems during the burn mop-up process.

Dead wood is subject to decay by wood-rotting fungi, which break down the lignin and cellulose that confer rigidity on the tree. Decay results in formation of wood that is soft and spongy, generally called “punky”.

Punky wood catches on fire unusually well. (Another name for punky wood is “tinder”.) A few sparks from a strike by flint and steel is often all that is needed to start a small fire. The radiant heat of a fire passing near a tree with punky wood may all it takes to start a small fire. Although these fires generally go out quickly, there is always the possibility of a larger scale conflagration.

Why is punky wood more flammable than intact wood? In intact wood, heat is conducted into the interior and dissipated. Punky wood has an open structure surrounded by air, so heat is retained, and the oxygen necessary for ignition encourages the flame. Everyone knows that if you want to start a fire in the woods to cook your dinner or stay warm, you first find some tinder (punky wood) and use it at the base of the campfire. According to U.S. Forest Service data, punky wood will ignite and create a flame at a lower temperature than grass (~230 C instead of > 300 C).

At Pleasant Valley Conservancy we work hard to protect snags from fire by clearing a fuel-free zone around the base of each snag. This generally works well, but occasionally we get fire in a snag and have to put it out. The photo here shows how we deal with this.

A dead white oak in the East Basin savanna. Although it had been cleared around (see base of tree), some of the punky wood still caught fire. Kathie is using the high-pressure water from the pumper unit in the Kawasaki Mule. It took only a few minutes to put out the fire.
If a snag smoker is well within the burn unit we generally leave it, as the fire usually goes out, and getting rid of the punky wood is actually beneficial. However, the tree shown in this photo is fairly near the edge of the burn unit, and there is about 40 acres of grassland nearby that belongs to someone else. Given those conditions, we put the fire out.

Sometimes the fire is not near the base, like this, but high in the tree. Putting out such a fire is nearly impossible, so the tree is cut down and broken up into pieces. (A chain saw is standard equipment for a savanna burn!)

The photo below shows a large fallen log that fell, next to a live bur oak. We did not bother to put this fire out, because the tree is well inside the burn unit so that there is no danger of a spot fire. Letting logs like this burn helps recycle nutrients into the ecosystem.

This log is a good example of large coarse woody debris. It is in Unit 19D, well inside the burn unit.


Saturday, March 18, 2017

Prairie remnants along Wisconsin highways

The original Wisconsin highways were cut through vast acreages of remnant prairies. Of course, once a highway is created, development follows.

The information below came from the Wisconsin DOT web site, which can be reached at this link. I reformatted the table to make it more legible.


County
Hwy.
Name
 Begin
End
Length
(Miles)
Side of Road
Adjacent
Owner
Burnette
STH 77
Danbury Prairie
Lakes Rd./Riverside Cutoff Rd.
Deer Lake Rd./Bear Lake Rd.
2.5
S
WisDOT
Columbia
STH 16
Lewiston Prairie
Wolfram Rd.
Weyh Rd.
1.55
S
CP-Amtrak
Dane
STH 69
Belleville Prairie
Old 69
CTH A (E)
1.65
E
WisDOT
Dane
USH14
Cross Plains Prairie
0.4 mile W of Kahl Rd.
0.3 mile E of CTH KP
4.15
S
WisDOT
Dunn
USH 12
Elk Mound Prairie
970th St. -0.75 mile
Vollendorf Rd. +0.6 mile
4.05
N
UP
Dunn
STH 170
Wheeler Prairie
CTH F -3.5 miles
Morton Rd. +0.35 mile
7.15
N
CP
Eau Claire
STH 27
Augusta Prairie
CTH V
CTH SD
1.9
E&W
WisDOT
Eau Claire
STH 37
Eau Claire Prairie
37/94 interchange
37/94 interchange
All
WisDOT

Eau Claire
USH 12
Fall Creek Prairie
CTH D
CTH AF +0.7 mile
8
N
CP
Grant
STH 133
Muscoda Prairie
Johnson St.
Leaches Crossing Rd.
18.5
N&S
WisDOT
Jackson
STH 27
Fall Hall Prairie
Mills Rd./Fall Hall Rd.
7th St./Castle Mound Rd.
6.3
E&W
WDNR
Jackson
STH 95
Hixton Prairie
Sand Prairie Rd.
CTH FF +0.6 mile
1.35
S
Wis. Central
Jackson
USH 12
Millston Prairie
Browns Crossing Rd.
Woodland Rd. +1.4 miles
4.8
N
UP
Jackson
USH10
Osseo Prairie
CTH R (N)
Shaky Ln.
5.3
N
WDNR
Jefferson
STH 59
Scuppernong Prairie
1/2 mile east of Co. line
1/2 mile west of Co. line
1 S
WisDOT

Juneau
USH 12
Lyndon Station
Industrial Ave.
Southern Rd. +1.35 miles
2.75
N

Juneau
USH 12
New Lisbon Remnant
O'Connor Rd./6th Ave.
1.2 miles E of 6th Ave.
1.2
S
CP-Amtrak
Monroe
STH 16
Sparta-Tomah Prairie
CTH A -1.2 miles
Hazel Ave. +0.2 mile
6.8
N&S
WisDOT
Portage
USH 10
Amherst Prairie
Custer Rd./CTH T
Lake Rd./Morgan Rd.
7.4
N&S
Wis. Central
Portage
STH 54
Rapids-Plover Prairie
90th St. +1/2 mile
Intersection with RR
6.5
S
Wis. Central
Racine
STH 11
Barnes Prairie
66th Rd.
Old STH 11
2.3
N
CP
Richland
USH 14
Lone Rock Prairie
0.4 mi. W of Whispering Pines
STH 130 (N)
4.5
N&S
Richland Co.

I don't guarantee that all of these remnants still exist, although even without restoration work or burns a few more vigorous prairie species may still be present. I have only been to a few of them. I have been watching the remnant west of Cross Plains for many years, where prairie dock and a few other species have been able to hold their own among onslaughts of wild parsnip and spotted knapweed.

Note that the data are only from Wisconsin or U.S. "numbered" highways. There are lots more remnants on county and town roads.

If you visit any of these sites, park carefully and keep an eye out for traffic!

Monday, March 13, 2017

Good time of year for brush control on prairies

Early March is generally a good time to control brush on a prairie. The snow is generally gone, and the prairie has not been burned yet, so the stems of the woody plants are alive and will translocate herbicide to the roots. Yesterday (March 12, 2017) was especially good because Daylight Savings Time had started, so the afternoon was long.

Black Earth Rettenmund Prairie State Natural Area is a high quality prairie remnant that has been intensively managed for over 30 years, first by the Nature Conservancy (TNC) and now by the Prairie Enthusiasts (TPE). However, despite its high quality, it still suffers from the legacy of woody encroachment that had occurred before TNC acquired it. Particular problem plants have been honeysuckle, sumac, gray dogwood, and bittersweet.

BE Prairie management units are burned two out of each three years. During the third year, brush control is carried out in the unit that has not been burned. The logic here is that woody stems in burned units are killed by fire and hence do not translocate herbicide to the roots. They will get their chance to be killed on a different year! (Cutting and treating dead stems is a waste of time and herbicide. The roots of these top-killed plants are still alive and will resprout during the next growing season.)

Woody plant control with the small brush that we deal with at BE involves a lot of stoop labor. Each stem is hand-cut (clippers) and immediately treated with 20% Garlon 4 in bark oil. A red dye is added to the herbicide in order to keep track of treated stems. Because the small stems are hard to find once cut, it is essential that the same person who cuts the stem treats immediately with herbicide. Thus, this is a two-fisted job.

A three-hour volunteer work party with a 15-minute break in the middle is ideal. You can get a lot of brush killed in 3 hours and it isn't long enough to get bored.

Woody vines being cut and treated on the east side of the North Unit. Five or six years ago, this area had an extensive sumac clone. The shade from the sumac suppressed the prairie grasses, and encouraged the growth of other woody vegetation. Now prairie bunchgrass such as little bluestem is moving in as the woodies are being controlled. Photo by Kathie Brock