How Weeds Have
Changed Over 20 Years
Jerry
Doll
Farming systems are constantly
changing. Mother nature responds with changes and one of the
first signs of these changes are shifts in existing weed
populations and the appearance of new species. The following
information is based on perennial weed surveys (Doll, J. D. and
D. J. Kleiber. 1994. 1994 Perennial Weed Survey for Wisconsin.
NCWSS Proc. 49:82-83); personal observations (as well as those
of crop consultants and my weed science colleagues); weed
samples sent to the University of Wisconsin Weed Diagnostic Lab
for identification; and questions we receive on how to manage
specific weeds at field days, over the telephone and at the Weed
Doctors’ booth at the Wisconsin Farm Progress Days. To these
sources add a dose of intuition and the reality of being an
extension weed scientist in Wisconsin for more than 20 years.
Most of the annual weeds that have
increased have been in Wisconsin many years (Table 1). Those of
somewhat recent introduction include wild proso millet, woolly
cupgrass, and flixweed. Bur cucumber is located primarily in the
western tier of counties along the Mississippi River while wild
cucumber is an edge-of-the-field species that seems to increase
in abundance every year. Eastern black nightshade is primarily
found in soybeans and alfalfa and its increase is probably due
to the growth in soybean acreage. Smooth hawksbeard is appearing
in no-till corn and soybeans. The book ‘"Weeds of the
North Central States" shows this weed as only in the
northern counties but it is found regularly in the southern
areas of the state as well. Giant ragweed had been found
primarily along field edges and by waterways. Now it is common
in entire fields as is common ragweed. |
| Table
1. Annual and biennial weeds that have increased from
1977 to 1997 in Wisconsin. |
|
|
| Annuals |
Biennials |
Biennial’s
habitat |
|
|
| Bur cucumber |
Burdock |
pastures,
alfalfa, fence rows |
| Wild cucumber |
Garlic
mustard |
field/wood
edges |
| Eastern black
nightshade |
Musk
thistle |
pastures, CRP |
| Smooth
hawksbeard |
Plumeless
thistle |
pastures, CRP |
| Common ragweed |
Spotted
knapweed |
pastures,
roadsides, railroads |
| Giant ragweed |
Wild
carrot |
pastures,
CRP, roadsides |
| Large
crabgrass |
Wild
parsnip |
| Smooth
crabgrass |
| Wild proso
millet |
| Woolly
cupgrass |
| Velvetleaf |
| Shepherd’s
purse |
| Flixweed |
|
|
|
| Why have these changes occurred?
Comments in this regard are always speculative, but are
intuitively logical and maybe even likely. The prohibition of
atrazine on more than a million acres in Wisconsin and the great
reduction in atrazine use rates have also allowed some of these
weed shifts to occur. Velvetleaf was primarily found in the
southern third of Wisconsin in the early 1970s. The droughts of
1976 and 1988 resulted in widespread movement of this weed in
feed grains. Nevertheless, we still have farms with no
velvetleaf.
The widespread adoption of
sulfonylurea herbicides as postemergence treatments in corn has
increased the increased the abundance of both smooth and large
crabgrass. Shepherd’s purse is most evident in winter wheat
and older alfalfa fields. Flixweed is at the very early stages
of appearance in Wisconsin. I saw the first specimens in crop
land (primarily winter wheat) in 1989 but reports of this
species as a weed are becoming more numerous in southern areas.
Canada thistle has become much
more abundant in recent years. We used to see milkweed as an
occasional plant in fields but recently whole fields with
sizable infestations have surfaced. Leafy spurge has been a
roadside plant in Wisconsin for many years. Now it has moved
across the fence and has invaded pasture land. Dandelion is most
evident in older hay fields. The more frequent cutting, higher
rates of potassium, and absence of a forage grass contribute to
its increased abundance in no-till soybeans. Few herbicides are
used in established forages. Thus if weeds appear, they often go
to seed and this increases future weed pressure. This probably
accounts for the increase in blackseeded plantain. It was
formerly a headland phenomenon. Frequent traffic of field
equipment thinned the alfalfa in these areas and plantain became
established. After years of going to seed, the infestation
became more widespread and probably seeds harvested with the
forage were spread to other fields in manure. Now it can be a
serious problem throughout forage fields and in no-till corn as
well. |
| Table 2.
Perennial weeds that have increased from 1977 to 1997 in
Wisconsin. |
|
| Species |
Habitat |
|
|
| Canada
thistle |
no-till
fields; roadsides; CRP, pastures |
| Common milkweed |
corn/soybeans; roadsides |
| Hemp
dogbane |
cropped
land; roadsides |
| Leafy spurge |
roadsides; pastures |
| Dandelion |
alfalfa;
no-till |
| Perennial sowthistle |
soybeans; roadsides |
| Purple
loosestrife |
semi-aquatic
sites |
| White cockle |
alfalfa; no-till soybeans |
| Wirestem
muhly |
reduced
till crop land; alfalfa |
| Comfrey |
cropped land |
| Blackseeded
plantain |
alfalfa;
no-till corn |
| Wild four o’clock |
roadsides; no-till corn
and soybean |
|
|
|
| Weeds like wild proso millet and
velvetleaf are easily transported on harvest equipment. Eastern
black nightshade travels easily with soybean seed and some
producers save their own seed. Also, these weeds are not easily
controlled by many herbicides and a few years of escaping plants
going to seed can quickly give rise to large seed bank
increases.
Changes in tillage practices are
always mentioned as a cause of perennial weed increases. This is
probably a significant factor for the increases in Canada
thistle, wirestem muhly, milkweed and hemp dogbane. Canada
thistle is common in CRP sites and this may lead to infestations
in adjacent areas.
Repeated use of the same
herbicides has created resistant weed biotypes that are no
longer controlled by herbicides with four modes of action (Table
3). Our first case of resistance was confirmed in Marathon
County in 1979 and common lambsquarters is the most widespread
resistance problem in the state. Biotypes of smooth pigweed
resistant to these herbicides appeared next and this we also
have many fields with this problem. The rest of the herbicide
resistant weed have been found in only a few locations but they
illustrate the potential for the development of many additional
problems of the these and other species developing herbicide
resistant biotypes. |
| Table
3. Chronological history of the appearance of herbicide
resistant weed biotypes in Wisconsin. |
|
|
| Year |
Weed species |
Chemical
group/mode of action to which it is resistant |
|
|
| 1979 |
Common
lambsquarters |
triazines |
| 1985 |
Smooth pigweed |
triazines |
| 1985 |
Kochia |
triazines |
| 1990 |
Velvetleaf |
triazines |
| 1991 |
Giant
foxtail |
accase
inhibitors |
| 1992 |
Large
crabgrass |
accase
inhibitors |
| 1995 |
Kochia |
als
inhibitors |
|
|
|
| Soybean acreage has increased
greatly in Wisconsin. In 1977, we had less than 200,000 acres of
soybeans. This increased steadily (especially in the 1990s) and
in 1997 nearly 1,000,000 acres were planted. A significant
portion of this increase was the adoption of soybeans by the
dairy farmers to use as home-grown protein in their rations.
This may explain in part why white cockle, usually a forage
weed, is found in no-till soybeans.
The decline in farm number is also
a possible reason weeds are increasing in some areas. We have
lost 20,000 farms in the past 20 years and farm size has
increased from an average of 190 acres in 1997 to 220 acres in
1998. This often means that fences are removed as fields get
larger and fewer farms have livestock. The fence row vegetation
often includes perennials like wirestem muhly and hemp dogbane
and biennials like burdock. Once the fence is removed, these
species often become weeds of cropped land. Comfrey was a herbal
garden plant from the days of Wisconsin’s settlement. As
farmsteads have been removed or anytime a garden was converted
into a field, an instant infestation of this
difficult-to-control perennial occurred.
Another way new weeds appear in
fields is via invasion from field edges, fence rows and
roadsides. The Wisconsin State Dept. of Transportation greatly
curtailed roadside spraying during the controversy over Agent
Orange. More recently this agency has greatly restricted mowing
along the state, county and town highways in deference to
environmental groups who believe that these are favorable
wildlife habitats. This gives a rich environment for seed
production and weeds like Canada thistle, perennial sowthistle,
hemp dogbane, and milkweed are well equipped to send seeds long
distances from where they are formed. The abundance of wild
carrot, wild parsnip and spotted knapweed along roadsides
clearly reflects the lack of mowing that has allowed these
biennial species to become dominant in many areas.
Not all weeds have increased in
abundance. It appears that annual smartweeds, shattercane and
field bindweed are less common now than previously. Yellow
nutsedge seems to cycle: after wet years like 1993 it becomes
more abundant and then effective control for several years
reduces its seriousness. I know of no biennial weeds that are
becoming less abundant.
The phrase "change is
constant" is certainly reflected in weed population
dynamics. We can rest assured that more changes will happen over
the next 20 years as well. The continual change in farming
practices, the advent of herbicide resistant crops, and the
resilience of Mother Nature assure that changes will happen.
1998 Proc. Wisconsin Fertilizer, AgLime, and Pest Management Conf. Vol. 37: 144-147. |
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