2008 North Dakota Weed Control Guide

Effect of pH on Herbicide Activity and Persistence
Negative charges on soil particles and organic matter adsorb positive-charged compounds or substances. Soil pH influences adsorption and availability of the following herbicides by determining the electrical charge of the herbicide molecules: Imidazolinones, SUs, Triazines, and Triazolopyrimidines (TPS).Molecules become (-) charged when a proton is removed or become (+) charged when a proton is added. Most herbicides become positively charged in acid (H+) pH conditions. Positively charged herbicide molecules are adsorbed to soil particles due to the attraction between (-) charges on soil particles and (+) charges on the herbicide molecule.

Y2. Breakdown of Imidazolinone (Imi) Herbicides and TPS Herbicides.

In general, breakdown occurs by soil microbes and breakdown occurs more rapidly and herbicide activity increases as soil pH increases. Rate of breakdown decreases in dry conditions. Imi and TPS herbicides are:
1. Broken down by microbes - not broken down by hydrolysis.
2. Not degraded in anaerobic (waterlogged soil) conditions.
3. Not volatile nor photodegraded by sunlight.
4. Not leached beyond 12 inches.
5. Weakly bound to soil but strongly bound to OM.
6. Adsorbed more strongly as soil dries and through time.
For Imi herbicides applied in dry conditions, herbicide molecules adsorb to OM. The next spring, winter moisture can displace herbicide molecules from soil and OM allowing the molecules to become free for plant uptake and microbial breakdown. For sensitive crops like sugarbeet, the adsorption and desorption process may occur over several years causing crop injury from herbicide residues that become available after moisture events.
7. Negatively (-) charged, not adsorbed, and free for plant uptake and microbial degradation at soil pH >6.5 for Imi herbicides and pH >7 for TPS herbicides.

8. Strongly bound to OM at pH <6.5 for Imi herbicides and pH <7 for TPS herbicides. For Imi herbicides: Amount adsorbed changes little from 6.5 to 8. At soil pH <6.5, pH reduction as small as 0.2 pH units can DOUBLE the amount adsorbed. Large variation in pH can exist in the same field. In low pH, residues of Imi herbicides can injure sensitive plants for many years.In summary, activity and degradation of Imi and TPS herbicides increase as soil pH increases. Herbicide adsorption increases as OM matter increases and as soil pH decreases. All factors increasing microbial activity also increase herbicide degradation (warm, moist soils). Degradation increases in soils with pH above 6.5 (Imi) or 7 (TPS) because herbicide molecules are not adsorbed and are free in soil solution for plant uptake and microbial breakdown.
 

Y3. Breakdown of SU Herbicides (with exceptions):
In general, most SU herbicides are broken down by acid hydrolysis and can leave a residue in soil for more than one year. The chemical reaction ceases at soil pH above 6.8.

Exceptions: Thifensulfuron, tribenuron, foramsulfuron (Option), and triflusulfuron (UpBeet) are rapidly broken down by soil mirobes.
Halosulfuron (Pemit), and rimsulfuron are broken down faster by hydrolysis as pH moves above and below pH of 7.0. Herbicide breakdown is slowest in neutral soil pH of 7.0.
Most SU herbicides are:
1. Not leached, nor volatile, nor broken down by photodegradation.
2. Affected by pH. Water solubility increases as pH increases.
3. Broken down primarily by acid hydrolysis. Microbial degradation is very slow.
4. Non-microbial hydrolysis for most residual SU herbicides ceases at soil pH above 6.8.
5. SU herbicides are undissociated (neutral charge) at pH less than 7.0 and are adsorbed to soil and OM. As soil pH increases above 7.0 molecules are (-) charged, are in a free form, do not bind with (-) charged soil particles, and are are available for plant uptake.
Even at low pH ranges, SU herbicides are so biologically active at low concentrations that plant response may still occur.
SU herbicides carryover more in high pH soils (above 6.8) because acid hydrolysis ceases above that level. Hydrolysis is minimally affected by soil moisture, organic matter, soil texture, soil microbes, and soil compaction or aeration. Hydrolysis is affected by soil temperature and soil pH. As temperature increases and pH decreases below 6.8, hydrolysis increases.

Y4. Breakdown of Triazine Herbicides
Triazines are degraded by hydrolysis similar to SU herbicides. Therefore, the same factors affecting SU breakdown also affect breakdown of triazine herbicides - See Y3. Some slight differences are noted below. Triazine herbicides are:
1. More active in high pH soils.
2. Broken down by photodegradation only when herbicide remains on soil surface for extended periods..
Triazine molecules are (+) charged at soil pH < 7.5. Positive charged triazine molecules bind to (-) charges on soil and OM making them unavailable for plant uptake and microbial breakdown. This is why pH sensitive herbicides like atrazine and Sencor can be used with less risk of crop injury in low pH soils. However, as pH fluctuates across the field, herbicide availability may be radically altered ranging from complete crop safety and erratic weed control at low pH to crop injury and adequate weed control at high pH.

At high soil pH, the opposite reaction occurs. At soil pH > 7.5, triazine herbicide molecules donate protons (H⁺) resulting in (H + OH = H₂O) so the molecules have a net neutral charge, which do not bind to soil particles and OM, and are free for plant uptake and microbial decomposition.

Y5. Persistence of phytotoxic levels of a herbicide for more than 1 year can be a problem with some herbicides. Herbicide residues are most likely to occur following years with low rainfall because chemical and microbial activity needed to degrade herbicides are limited in dry soil. Crop damage from herbicide residues can be minimized by applying the lowest herbicide rate required for good weed control, by using band rather than broadcast applications, and by moldboard plowing before planting the next crop. Moldboard plowing reduces phytotoxicity of some herbicides by diluting the herbicide residue in a large volume of soil. Moldboard plowing is effective in reducing the residual effects of trifluralin, Sonalan, Prowl, Nortron SC, atrazine, and Sencor.

Y6. Herbicide residues often can be detected by bioassay. Representative soil samples of the whole field are obtained by sampling many places to the depth of the tillage layer. A soil sample free of herbicide residues can serve as the untreated check. The samples should be dried and the clods broken so that the largest particles are no larger than a wheat kernel. Prepare two or more samples of untreated check soil and the test soil in pots or other containers with holes in the bottom for water drainage.
The crop to be grown in the field should be used as one bioassay species. Alfalfa and canola also should be planted as an additional bioassay species because of their relative sensitivity to many residual herbicides. Plant seeds of large-seeded crops like corn or soybean at 1 seed per 1 to 2 square inches, or seeds of small-seeded crops like cereals or flax at about 1 seed/sq inch. Water as needed but do not over-water. Thin plant stands when seedlings are 2 to 3 inches tall to allow sufficient space for adequate growth. Position containers in direct sunlight and maintain temperature at 70 to 75 F. Observe the plants 2 to 3 weeks after emergence. Record visible and physical measurements such as plant height and leaf length for abnormalities.
Symptoms of some herbicides, like atrazine and Sencor, do not develop until 2 to 3 weeks after emergence so do not evaluate the treatment effect too soon after emergence. Plants grown in root inhibiting herbicides, such as dinitroanilines, should be washed to observe root growth. Window bioassay does not provide accurate information for ALS herbicide carryover.

Field Bioassay Instructions: Plant several strips of desired crops across the field perpendicular to the direction the suspect herbicide was applied. Strips should be spaced to represent different field conditions (texture, pH, and drainage). If no visible signs of injury, stand reduction, or yield reduction occur, then the field can be seeded with the desired crop the next growing season. Do not plant if injury occurs and the bioassay must be repeated the next growing season to determine the safety of the crop to existing residues.

Y7. Atrazine at rates over 0.38 lb ai/A generally has residue the year following application to corn in North Dakota. If soil moisture is deficient, atrazine may cause injury to susceptible crops the following year. Corn and millet are tolerant to atrazine while other crops vary in susceptibility. The approximate ranking of crops from most to least tolerant is corn, sorghum, millet, flax, soybean, barley, wheat, oat, sunflower, canola/mustard, alfalfa, and sugarbeet.

Y8. Balance Pro (isoxaflutole) at 1.5 to 3 fl oz/A may have a residue the following year. Breakdown is primarily by microbial activity. Risk of Balance Pro carryover increases as precipitation occurring during the growing season decreases. Balance Pro becomes more active as soil texture becomes more coarse and organic matter decreases. Rotation restrictions are found in the table at the end of this section.

Y9. Callisto (mesotrione) at 3 fl oz/A may have a residue the following year. Risk of Callisto carryover increases as organic matter increases and soil pH decreases. Callisto is degraded by soil microbes. Factors affecting Callisto breakdown are similar to Imi herbicides. See paragraph Y2 for additional information. Rotation restrictions for Callisto are found in the table at the end of this section.

Y10. Celebrity Plus (nicosulfuron & dicamba & diflufenzopyr) at 6.67 oz WDG/A may have a residue the following year from nicosulfuron but not dicamba. Refer to paragraphs on Accent and dicamba for additional information.

Y11. Dicamba at rates greater than 1.5 pt/A may remain as a residue in soil. Most grass and broadleaf crops can be planted 4 months or more after application at 1.5 pt/A. Allow 45 days/pt/A of dicamba, excluding days when ground is frozen to rotate to any crop. NDSU research indicates dicamba at 1 qt/A applied in late September caused visible injury to wheat and barley planted the following spring, but effect on yield was minimal. Dicamba at 1 pt/A applied the previous fall prevented seed production in sunflower. The approximate ranking of crops from most to least tolerant is corn, barley, wheat, oat, potato, buckwheat, soybean, dry edible bean, sunflower, flax, and sugarbeet. Rotational crop restrictions for dicamba are found in the table at the end of this section.

Y12. Flexstar/Reflex (fomesafen) at 0.75 to 1 pt/A may have a residue the year following application to soybean or dry bean. Most crops can be planted the next growing season except canola, crambe, flax, potato, safflower, sugarbeet, and sunflower. Fomesafen is weakly adsorbed by OM but mobility and amount available for plant uptake increases as soil pH increases above 6.5. Degradation is through soil microbes and under anaerobic conditions. Conditions that inhibit microbial activity also reduce fomesafen breakdown. Cold or dry conditions after application reduce rate of breakdown. Northern production areas, like ND, have a shorter growing season and the soil temperature is colder for longer periods of time, which limits breakdown. Late applications in beans decreases the amount of time that breakdown can occur.
Ways to reduce potential for fomesafen carryover include lower application rates, banded herbicide applications, and tillage to dilute herbicide residues. The approximate ranking of non-labeled crops from most to least tolerant is cereals, potato, oil-seed rape/canola, field corn, sunflower, sugarbeet, sorghum, and alfalfa. Rotational crop restrictions for Flexstar/Reflex are found in the table at the end of this section.

Y13. Hornet (flumetsulam & clopyralid-K salt) at 2 to 6 oz WDG/A contain is 1 to 3 oz ai/A clopyralid. Clopyralid is labeled for use in corn at 1.5 to 4 oz ai/A. Therefore, precautions in crop rotation would apply as if clopyralid was applied alone at 1 to 3 oz ai/A. Rotational crop restrictions for Hornet are found in the table at the end of this section. Consult the clopyralid labels and paragraph in this section for residue information.

Y14. Nortron SC (ethofumesate) often has a residue the year following use on sugarbeet. The approximate ranking of crops from most to least tolerant is sunflower, dry beans, soybean, corn, barley, and wheat. Moldboard plowing usually will eliminate crop injury. Nortron should be applied in a band to reduce cost and reduce potential crop injury from residues the following year.

Y15. Paramount (quinclorac) at 0.17 to 0.33 lb WDG/A may carryover in soil for more than 1 year. Seeding of flax, chick pea, dry pea, and sugarbeet must be delayed until at least 24 months after application. Rotational crop restrictions for Paramount are found in the table at the end of this section.

Y16. Peak (prosulfuron) at 0.25 to 0.5 oz 57DF/A may carryover in soil for more than 3 crop years. Peak is safe on corn safety which is different as compared to other SU herbicides labeled in small grains. Peak is labeled on corn through the prepackaged mixture Exceed.

Y17. Metribuzin may not have residue the following year at 0.25 lb ai/A, but rates over 0.5 lb ai/A may damage susceptible crops the next year. Rotational crop restrictions for metribuzin are found in the table at the end of this section. The approximate ranking of crops from most to least tolerant is potato, soybean, dry edible bean, corn, barley, wheat, oat, sunflower, flax, and sugarbeet.

Y18. Sonalan (ethalfluralin), Prowl/Prowl H₂0 (pendimethalin), and trifluralin are similar herbicides called dinitroanilines. Under dry soil conditions these herbicides can persist in soil for more than 1 year. Sonalan has less soil residue than trifluralin and Prowl. Land treated with Sonalan in the spring may be planted to any crop the next year except sugarbeet. Sunflower, soybean, potato, and dry edible bean are quite tolerant of dinitroaniline herbicides. Rotational crop restrictions for Prowl, Sonalan, and trifluralin are found in the table at the end of this section. The approximate ranking of other crops from most to least tolerant is soybean, flax, alfalfa, barley, wheat, corn, oat, and sugarbeet.

Y19. Spartan (sulfentrazone) residue may remain in soil the following season. Most grass and broadleaf crops can be planted the following year except canola, crambe, lentil, and sugarbeet. Sulfentrazone is degraded by soil microbes, is not affected by sunlight, and is not volatile. Sulfentrazone applied PRE does not degrade on the soil surface. Precipitation activates the herbicide by moving it into the soil. Sulfentrazone solubility increases as soil pH increases above 6.5, as soil texture changes from fine to coarse, and as OM decreases. As sulfentrazone solubility increases availability for plant uptake increases, weed control increases, and risk of crop injury increases. The approximate ranking of crops from most to least tolerant is soybean, flax, chickpea, mint, sunflower, potato, field pea, dry edible beans, safflower, crambe, canola, lentil, and sugarbeet. Rotational crop restrictions are found in the table at the end of this section.

Y20. Clopyralid, including premixes may have a residue in soil following POST application. Pea, lentil, potato, and broadleaf crops grown for seed can be planted 18 months after clopyralid (including premixes) application. Potential for injury from soil residue of clopyralid can be reduced by burning, removal, or incorporation of treated crop residues.

Y21. Tordon (picloram) at rates of 1 fl oz/A or higher may carryover in soil for more than 1 crop year. Only grass or grain crops, such as grass, small grains, or flax, can be planted the year following application. Sunflower, soybean, dry edible bean, and potato are especially susceptible to Tordon.

Y22. Susceptibility of certain crops from most to least tolerant:
Chlorimuron: soybean, wheat, oat, corn, sorghum, sunflower, alfalfa, canola.
Clomazone: soybean, corn = sorghum = sunflower, alfalfa, wheat.
Imazaquin: soybean, wheat, oat, sorghum, sunflower, corn, alfalfa, canola.
Imazethapyr: soybean, alfalfa, corn, wheat, oat, sunflower, sorghum, canola.
See Y7 - Atrazine and Y18 - Trifluralin for crop sensitivity.

General guidelines for laboratory analysis: Safe level*

Herbicide	Parts per billion (ppb)	Parts per million (ppm)	Crop
Chlorimuron	1-2 2-5	0.001-0.002 0.002-0.005	Corn Wheat
Clomazone	50-200 15-100	0.05-0.2 0.015-0.1	Corn Wheat/Alfalfa
Dintroaniline	100-200 200-300 50-100	0.1-0.2 0.2-0.3 0.05-0.1	Corn Wheat Sugarbeet
Imazaquin	2-10 10-30	0.002-0.01 0.01-0.03	Corn Wheat
Imazethapyr	1-30 4-15	0.01-0.03 0.004-0.015	Corn Sorghum
Triazine	150-250 40-100 60-150 75-180 25-50	0.15-0.25 0.04-0.1 0.06-0.15 0.075-0.18 0.025-0.05	Soybean Alfalfa Oat Wheat Sugarbeet
*"Safe" values for herbicide residues differ according to soil type and pH because of differences in availability from soil. Low-range value are for coarse textured soils with low levels of organic matter, higher values are for fine textured soils with high organic matter. 1 ppm = 1,000 ppb

"Safe" Triazine Residue Level
3 inch sample (No-till)	6 inch sample (moldboard plow)	Crop
<0.17 ppm 0.17 to 0.35 ppm >0.35 ppm	<0.08 ppm 0.08 to 0.17 ppm >0.17 ppm	Oat, alfalfa Soybean Corn

Y23. Laboratories That Analyze For Pesticide Residue in soil, water, and plant samples.

For links to labs in each state see AGLABS website: http://aglabs.sdstate.org For specific category testing of labs see: http://www.findtesting.com The following list shows laboratories that can analyze for pesticide residues.

A & L Great Lakes Lab 3505 Conestoga Drive, Fort Wayne, IN 46808 (219) 483-4759, http://www.algreatlakes.com

Agvise Laboratories Northwood, ND (701) 587-6010, johntlee@polarcomm.com

Analytical Laboratory McCall Hall, PO Box 173620 Montana State University, Bozeman, MT 59717 406 994-3383, Heidi Hickes Developed the most sensitive test available for Oust.

Animal Disease Lab, 9732 Shattuc Road, Centralia, IL 62801-5858 (618) 532-6701, http://agr.state.il.us/animalHW/labs/centralialab.html

APT Labs Inc. 1050 Spring Str., Wyomissing, PA 19610 610 375-3888

Harris Laboratories 621 Rose Street, P.O. Box 80837, Lincoln, NE 68501 (402) 476-2811, http://www.mdsharris.com

Hazelton Environmental Services 525 Science Drive, Madison, WI 53711 (608) 232-3300

Midwest Laboratories 13611 B Street, Omaha, NE 68144 (402) 334-7770, http://www.midwestlabs.com

Minnesota Valley Testing Laboratories, Inc., 326 Center Street, New Ulm, MN 56073 (507) 354-8517, (800) 782-3557

Minnesota Valley Testing Laboratories, Inc., 1411 South 12th Street, Bismarck, ND 58504 (701) 258-9720, (800) 782-3557

Olson Biochem Labs, Duane Matthees PO Box 2170 152 ASC, Brookings, SD 57007-1217 (605) 688-6171, Fax (605) 688-6295, http://anserv.sdstate.edu

Professional Service Industries 4820 West 15th Street, Lawrence, KS 66049 (800) 548-7901

Publications on herbicide injury symptoms:
W-1141 Herbicide and Nonherbicide Injury Symptoms on Spring Wheat and Barley, NDSU Extension Service.
A-1085 Herbicide Mode of Action and Sugarbeet Injury Symptoms, NDSU Extension Service
PNW-498 Herbicide Drift and Carryover Injury in Potatoes
Ag Publications, U of ID, 208 885-7982, ckink@uidaho.edu

CD-ROM:
Herbicide Mode of Action and Crop Injury Symptoms (U of MN)
To order go to: http://shop.extension.umn.edu/
In the "Search " window type: 06893
Cost is $20.00 per CD-ROM

Web sites:
Herbicide Mode of Action Symptoms (U of WI):
http://ipcm.wisc.edu/pubs/PestMngmt_ref.htm

Herbicide Injury Diagnostic Key:
http://ipcm.wisc.edu/uw_weeds/herbinjkey/

Dicamba Injury to Soybean (U of WI): http://ipcm.wisc.edu/pubs/PestMngmt_ref.htm

Recognizing Residue and Drift Injury in Canola -
Alberta Res. Council:
www.canola-council.org.PDF/toolbook.pdf#zoom=100

Y24. Crop Rotation Restrictions for North Dakota
Herbicide	Alfalfa	Barley	Canola	Corn	Crambe	CRP grass	Dry bean	Field pea	Flax	Oat	Edible Legume.*	Potato	Saf- flowr	Soybean	Sugar- beet	Sun- flower	HRS/ Durum
	------------------------ (months after application) --------------------------
DO NOT USE IN ND = Beacon, chlorimuron, Exceed, Scepter, Spirit, Steel
Accent (<0.68 oz DF/A)	10j	8	18	0	18	18	10j	10j	18	8	10	18j	18	0.5	18a	10j	8
acetochlor	9	NCS	NCS	0	NCS	NCS	NCS	NCS	NCS	NCS	NCS	NCS	NCS	NCS	NCS	NCS	4
Ally Extra (0.2 oz) e	22	10	22	22	22	6	22	22	22	10	22	22	22	22	22b	22	1/10
Amber	4b	18c	B	22b	B	B	B	B	B	18c	B	B	B	36b	B	24b	0
Assert	15	NCS	12/15f	NCS	12/15	4	NCS	15	15	15	15	15	NCS	NCS	20	NCS	NCS
atrazine (0.38 lb ai)	NCS	NCS	NCS	0	NCS	NCS	NCS	NCS	NCS	NCS	NCS	NCS	NCS	12	NCSb	NCS	NCS
atrazine (0.38-0.5 lb ai)	2CS	NCS	2CS	0	2CS	2CS	2CS	2CS	NCS	2CS	2CS	NCS	2CS	12	2CSb	2CS	2CS
atrazine (0.5-1 lb ai)	2CS	2CS	2CS	0	2CS	2CS	2CS	2CS	2CS	2CS	2CS	2CS	2CS	12	2CSb	2CS	2CS
Authority Assist	12	9.5	40b	10	40b	12	4	4	26	18	4/12*	26	18	0	40b	18	4
Authority First/Sonic	12	12	24	18	30b	30b	12	12	30b	12	12	18	30b	0	30b	30b	4
Authority MTZ	12	4	24	10	18	12	12	18	18	18	18	12	18	4	36	12	4
Balance Pro (j)	10	6	18	0	18	18	18	18	18	6	18	6	6	6	18	10	6
Basis	10	8	18	0	18	18	8	8	18	8	18	0	18	0.5	10	10	8
Beacon (r)	8	8	18	0.5	18	18	8	8	18	8	8	2CS	18	8	B	8	8
Beyond/ClearMax	9	18t	18	8.5	18	9	9	9	18	9	9	18t	18	0	18t	9	3
Callisto	10	4	NCS	0	18	18	18	18	10	4	18	10	18	10	18	10	4
Camix	18	4.5	18	0	18	18	18	18	18	NCS	18	NCS	18	NCS	18	18	NCS
Celebrity Plus	12	8	18	0.25	18	18	10	10	18	8	10	18a	18	4	18a	10/18a	8
clopyralid	10.5	0	0	0	0	0	10.5m	18	0	0	18	18	10.5m	10.5m	0	10.5m	0
clopyralid&2,4-D/MCPA	10.5m	1	5	1	5	1	10.5m	18	5	1	18	18	10.5m	10.5m	5	10.5m	1
dicamba (<1.5 pt) h	4	4h	4	0h	4h	4	4	4	4	4h	4	4	4	4	4	4	0h
Everest	NCS	9	9	NCS	NCS	NCS	9	11	9	18	24	9	9	9	9	9	0/4
Extreme	4	9.5	40b	8.5	40b	4	4	4	26	18	4	26	18	0	40b	18	4
Far-Go	NCS	0	NCS	NCS	NCS	NCS	NCS	NCS	NCS	18	NCS	NCS	NCS	NCS	NCS	NCS	0
Glean/Finesse	B	16	B	B	B	4	B	B	B	10	B	B	B	B	B	B	0
FirstRate	9	30b	30b	9	B	9	9	9	30b	9	9	18	B	0	30b	30b	3
Flexstar	18	4	18	10	18	4	10	10	18	4	10	18	18	0	18	18	4
Gangster	12	B	B	9	B	9	9	B	9	9	9	18	B	0	30b	30b	3
Halex GT	10	4	10	0	18	18	18	18	10	18	18	10	18	10	18	10	4
Hornet	10.5m	4	26b	0	B	12	10.5m	10.5m	26b	4	10.5m	18	B	10.5m	26b	18	4
Impact	9	3	18	0	18	18	18	9	18	3	18	9	18	18	18	9	3
Laudis	10	4	10	0	18	18	18	10	18	4	18	10	18	8	18	18	4
Lightning	9.5	9.5	40b	8.5	40b	40	9.5	9.5	40b	18	9.5	26	18	9.5	40b	18b	4
Lumax (<3 pt/A)	18	4.5	18	0	18	18	18	18	18	NCS	18	18	18	NCS	18	18	NCS
Matrix	12	9/18p	18	0	18	18	10	18	18	9	18	0	18	4	18	10	9
Maverick	B	B	B	B	B	B	B	B	B	B	B	B	B	B	B	B	0
metribuzin (u)	4	8u	12	4	12	4	12	8	12	12	8	4	12	4	18	12	8u
metsulfuron (c)	34d	10	34d	34e	34d	6	34e	34d	34e	10	34d	34d	34e	34d	34d	34e	1/10
Milestone (b)	36b	B	24b	12b	B	B	B	B	B	B	B	B	B	B	B	B	B
Olympus	B	18k	22k	B	B	B	B	12k	B	B	22k	B	B	B	B	18k	0
Option	Corn is 7 days, soybean is 14 days, and all other crops are 60 days.
Paramount	10	10	10	10	10	10	10	24	24	10	24	10	10	10	24	10	0
Peak (r)	22	0	22	1	22	10	22	10	22	0	10	22r	22	22	22r	22	0
Permit/Sandea	9	2	15	1	B	2	9	9	B	2	9	9	B	9	36	18	2
Plateau	36	24	48b	36	36	0	36	36	36	24	36	48b	36	18	48b	36	12
Herbicide	Alfalfa	Barley	Canola	Corn	Crambe	CRP grass	Dry bean	Field pea	Flax	Oat	Edible Legume*	Potato	Saf- flowr	Soybean	Sugar- beet	Sun- flower	HRS/ Durum
	-------------------------- (months after application) ------------------------------
Prowl/H2O	NCS	NCS	NCS	0s	NCS	NCS	0	0	NCS	NCS	0	0	NCS	0	2CS	0	NCS
Pursuit	4	9.5	40b	8.5	40b	4	4	4	26	18	4	26	18	0	40b	18	4
Pursuit Plus	9.5	9.5	40b	8.5	40b	NCS	4	4	26	18	4	26	18	0	40b	18	4
Python	4	4	26b	0	26b	12	4	4	26b	4	4	12	26b	0	26b	18	4
Radius	12	12	18	0	18	18	18	18	18	18	18	6	18	6	18	18	12
Raptor	9	18t	18	8.5	18	9	9	9	18	9	9	18t	18	0	18t	9	3
Rave	B	18c	B	22	B	B	B	B	B	18c	B	B	B	36b	B	24b	0
Reflex	18	4	18	10	18	4	10	10	18	4	10	18	18	0	18	18	4
Resolve (<1.1 oz DF/A)	10j	9	10j	0	18	18	10	18	18	9	18	0	18	10	10j	10	9
Rimfire	10	10	10	12	12	12	10	10	10	10	10	12	10	10	12	10	0
Silverado	10	1	10	12	10	10	3	3	10	10	10	10	10	3	10	1	0.25
Sonalan	NCS	NCS	0	NCS	0	13w	0	0	NCS	NCS	0	NCS	NCS	0	2CS	0	NCS
Spartan/Advance	12	4	24	10	24	12	0	0	10	12	0/12*	12	10	0	36	0	4
Status/Distinct (h)	1	1	1	1h	1	1	1	1	1	1	1	1	1	1	1	1	0
Steadfast (<0.76 oz/A)	10j	8	18	0	18	18	10j	10j	18	8	10j	18j	18	0.5	18a	10j	8
Stout (<0.76 oz DF/A)	10j	8	18	0	18	18	10j	10j	18	8	10	10j	18	0.5	18a	10j	8
SureStart	18	NCS	26b	0	26b	26b	18	NCS	26b	NCS	NCS	18	26b	NCS	26b	18	4
Tordon (1.5 oz)	2CS	NCS	2CS	2CSx	2CS	1	2CS	2CS	NCS	NCS	2CS	2CS	2CS	2CS	2CS	2CS	NCS
trifluralin (y)	0	NCS	0	NCS	0	18/21	0	0	0	18	0	0	0	0	2CS	0	NCS
Valor/Chateau	8b	4	8b	1	8b	8b	4	4	8b	8b	4	8b	8b	0	8b	1	1
WideMatch	10.5	0	4	0	4	0	10.5	10.5z	4	0	18	18	10.5	10.5	0	10.5	0

*Edible legumes = chickpea (garbanzo bean) and lentils.

NCS = Next cropping season after herbicide application.

2CS = Second cropping season after herbicide application.

MAA = months after application.

Field Bioassay Instructions - Refer to label or paragraph Y7 in the Narrative Section.

a Soil pH <7.5 = 10 MAA for sorghum and 11 MAA for sunflower.
Soil pH >7.5 = 18 MAA for sorghum and sunflower
Soil pH <6.5 = 10 MAA for sugarbeet and all other crops not listed.
Soil pH >6.5 = 18 MAA for sugarbeet, potato, and all other crops not listed and cumulative precipitation in the 18 MAA period must exceed 28 inches.

B or b = Bioassay. Do not plant until field bioassay indicates it is safe. Crop rotation after atrazine is rate and soil pH dependant.
Python and Hornet require a 26 month rotation and a successful field bioassay.
FirstRate requires a 30 month rotation and a successful field bioassay.
Lightning, Pursuit, and Pursuit Plus requires a 40 month rotation and a successful field bioassay.

c Do not use on soil with pH greater than 7.9. Barley and oat can be planted 6 months after Ally application west of highway 83.

d Requires soil pH of 7.9 or less and a 34 month minimum rotation interval and 28 inches of cumulative precipitation.

e Requires soil pH of 7.9 or less, 22 months and 22 inches of precipitation west of Hwy 1 or 34 months and 34 inches of precipitation east of Hwy 1. These restrictions also apply to Ally Extra at rates greater than 0.2 oz DF/A.

f Imi resistant canola varieties may be planted the season after application.
Conventional canola varieties may be planted the following season after application at 1 pt/A in ND counties of Cavalier, Pembina, Ramsey, Rolette, Towner, and Walsh and MN counties of Kittson, Marshall, Pennington, Red Lake, and Roseau.

h Any rotational crop may be planted 120 days following application of dicamba at 1.5 pt/A or less, excluding days when ground is frozen. For wheat, barley, oat, and grass seedings, allow 45 days per pint/A of dicamba after application before planting.
For all crops and for rates greater than 1.5 pt/A allow 45 days per 1 pt/A of dicamba used excluding days when ground is frozen.

j Requires 15 inches of cumulative precipitation during the growing season following application. An 18 month restriction applies to Accent, Resolve, and Steadfast applied above rates indicated or if drought follows application. Refer to label for crop rotation restrictions if rates greater than those indicated are used.

k Requires 24 inches of accumulated precipitation.

m Do not plant dry bean, dry pea, soybean or sunflower for 18 months on soil with less than 2% OM and rainfall less than 15 inches during the 12 MAA OR may be planted 12 MAA if risk of injury is acceptable. Perform a field bioassay prior to planting for areas that receive less than 15 inches of rainfall and have less than 2% OM. Do not plant lentil, potato or any other broadleaf crop grown for seed for 18 months unless risk of injury is acceptable.

p Barley can be planted 9 months after application in Cass, Grand Forks, Pembina, Towner, Traill, and Walsh counties of ND.
In all other counties of ND allow an 18 month rotation restriction before planting barley.

r Do not apply Beacon, NorthStar, Peak, or Spirit in the Red River Valley of ND and MN or on soil with pH greater than 7.8.
User must follow crop rotation restrictions as given on labels. Refer to label for additional information on soil pH, rotation intervals, maximum use rates, application timing and other restrictions. The number of months after application given in the previous table are applicable only on soil with a pH less than 7.8, only using less than maximum rates allowed, only using approved application timings, and only on approved locations (inside or outside Red River Valley) as indicated on the label.
Do not replant to any broadleaf crop if less than 10 inches of precipitation has occurred since Peak application.
For situations not covered on the label or in the previous table, conduct a soil bioassay to determine if Peak soil residue will allow successful planting of desired rotational crop.

s Corn can be planted only if Prowl/Prowl H₂0 is applied PRE. DO NOT APPLY PPI.

t Rotation to barley is: 9 months east of Hwy 83 and 18 months west of Hwy 83.
Rotation to potato is: 9 months if soil pH is >6.2 and rainfall is >18 inches/year or
18 months if soil pH is <6.2 and rainfall is < 18 inches/year
Rotation to sugarbeet: 18 months if the soil pH is >6.2 or
26 months if soil pH is less than 6.2.

u Must add 2 months if soil pH is 7.5 or above. Wheat and barley can be planted 4 MAA following lentil or soybean.

w CRP grasses may be planted 13 MAA under the following conditions:
1. By label this is deemed as a non-standard rotation.
2. Dow assumes no liability for injury.
3. Fall is recommended as the best time to plant CRP grasses.
4. A field bioassay is recommended prior to planting CRP grasses.

x Do not plant corn or sorghum until soil samples analyzed for Tordon residue indicates no detectable levels present.
Restriction is based on non-legal herbicide residue that may be found in corn and sorghum and not on crop safety.

y Oats, sorghum, and annual or perennial grass crops may be planted at least 12 MAA in areas that received 20 inches or more of precipitation during the growing season. CRP grasses may be planted 18 MAA if trifluralin is spring-applied or 21 MAA if fall-applied.

z For rotation to field pea in 10.5 months, precipitation must be greater than 7 inches during the 10.5 months following application and greater than 5.5 inches of precipitation from June 1 to August 31 following application. Otherwise allow 18 months.

Z1. Restrictions on Grazing/Feeding/Haying of Crops Treated with Herbicides

Herbicide	Crop	Time interval
DAA = days after application WAA = Weeks after appl.
Accent	Corn	30 DAA
Acetochlor	Corn	No restriction
Achieve	Small grain	30 DAA
Aim	Corn, small grain	No restriction
Amber	CRP, small grain	No restriction
Assert	Sunflower, small grain	Not allowed
Assure II	Canola/mustards, chickpea, dry bean, dry pea, lentil, soybean, sugarbeet	Not allowed
Atrazine	Corn	21 DAA
Authority Assist	Soybean	Not allowed
Authority First	Soybean	Not allowed
Authority MTZ	Soybean	Not allowed
Axial XL	Barley Wheat	Not allowed 50 DAA
Balance Pro	Corn	No restriction
Basagran	Corn Dry edible bean, dry pea Soybean	12 DAA No restriction 30 DAA
Basis	Corn	30 DAA
Beyond	Clearfield canola, CF wheat Clearfield sunflower	No restriction Not allowed
Bromoxynil	Alfalfa Corn, small grain CRP, Grass establishment Flax	30 DAA 45 DAA Not allowed No restriction
Bromox&MCPA	Small grain	45 DAA
Callisto	Corn	45 DAA
Camix	Corn	45 DAA
Celebrity Plus	Corn	32 DAA
Chlorsulfuron	Small grain	No restriction
Chlor&Metslfrn	Small grain	No restriction
ClearMax	Clearfield wheat	7 DAA
Clethodim	Alfalfa Canola, chickpea, dry bean, flax, potato, soybean, sunflower, sugarbeet	15 DAA Not allowed
Clopyralid	Canola/mustards, sugarbeet	7 DAA
Clopyralid& 2,4-D/MCPA	CRP, small grain - graze/feed - hay	7 DAA Not allowed
Dicamba	Corn CRP - non-lactating animals - lactating - see label Small grain - non-lactating - lactating - see label - haying forage	> milk stage No restriction < 70 DAA No restriction 7 DAA 37 DAA
Discover	Small grain	30 DAA
Distinct	Corn	32 DAA
Eptam	Alfalfa, sunflower	No restriction
Everest	Small grain	60 DAA
Extreme	RUR soybean	Not allowed
Far-Go	Chickpea, small grain Field pea Lentil	Not allowed 120 DAA No restriction
Finesse	Small grain	No restriction
FirstRate	Soybean	14 DAA
Flexstar	Soybean	Not allowed
Fusilade DX	Soybean	Not allowed
Fusion	Soybean	Not allowed
Gangster	Soybean	Not allowed
Glyphosate labels indicate that for all registered crops and applications unless otherwise noted there is an 8 week after application (WAA) restriction for grazing, feeding and haying.
Glyphosate	Alfalfa - Preharvest   Spot - Monsanto           - Generics   Renovate - < 1.5 lb ae/A                 - > 1.5 lb ae/A   Renovation - Generics Alfalfa - Roundup Ready Barley - Preharvest   Postharvest - Monsanto                       - Generics Canola Canola - RR Chickpea - Preharvest Corn - Preharvest   Postharvest - Monsanto                       - Generics Corn RUR - Preharvest   Postharvest Dry bean - Preharvest Dry pea - Preharvest Flax Lentil Potato - Preharvest Soybean - Preharvest   Monsanto - < 22 fl oz/A                    - > 22 fl oz/A   Generics - < 6 qt/A   Postharvest Soybean - RR - Preharvest   Monsanto -   Generics -   Postharvest Sugarbeet Sunflower Wheat - preharvest   Postharvest - Monsanto                       - Generics	1.5 DAA 3 DAA 14 DAA 3 DAA Not allowed 8 WAA 5 DAA After harvest 7 DAA 8 WAA Not allowed 8 WAA 8 WAA 8 WAA 7 DAA 8 WAA 7 DAA 7 DAA Not allowed 8 WAA 8 WAA 8 WAA 8 WAA 14 DAA 25 DAA 25 DAA 8 WAA 14 DAA Not allowed 8 WAA 8 WAA Not allowed After harvest 7 DAA 8 WAA
Halex GT	Corn	45 DAA
Hornet	Corn	No restriction
Huskie	Wheat, barley	25 DAA
Impact	Corn	45 DAA
Laudis	Corn	45 DAA
Liberty	Liberty Link canola or corn	Not allowed
Lightning	Clearfield corn	45 DAA
Lumax	Corn	45 DAA
Maverick	Small grain - Feed, graze - Hay	No restriction 30 DAA
MCPA	CRP, small grain - hay - graze dairy animal - graze meat animal Flax, grass establishment	30 DAA 7 DAA 7 DAA 7 DAA
Metolachlor	Chickpea, soybean Corn Dry bean, field pea Potato, safflower, sunflower	No restriction 30 DAA 120 DAA Not allowed
Metribuzin	Field pea, lentil, soybean	40 DAA
Metsulfuron	CRP Small grain	No restriction No restriction
Met & Chlorsfrn	Small grain	Not allowed
NorthStar	Corn	30 DAA
Olympus	Small grain	No restriction
Option	Corn	45 DAA
Outlook	Corn Soybean	45 DAA Not allowed
Paramount	CRP Small grain	309 DAA Not allowed
Paraquat (PRE)	Corn, dry bean, field pea sunflower (desiccant), small grain	7 DAA
Peak	Small grain	30 DAA
Permit	Corn	30 DAA
Plateau	CRP Grass establishment	No restriction Not allowed
Poast	Alfalfa Canola, dry bean, dry pea, flax, lentil, flax, potato, sunflower sugarbeet Soybean	7 DAA No restriction Not allowed
Prowl	Wheat Corn Soybean Chickpea, dry bean, dry pea, lentil, potato, sunflower	28 DAA 21 DAA No restriction Not allowed
Puma	Small grain	No restriction
Pursuit	Alfalfa Chickpea, soybean Dry edible bean Field pea Lentil	30 DAA Not allowed 7 DAA 120 DAA No restriction
Pursuit Plus	Soybean	Not allowed
Python	Corn Soybean	No restriction Not allowed
Rage D-Tech	Corn and grass forage Small grains	7 DAA 14 DAA
Raptor	Alfalfa, dry bean, field pea, soybean	No restriction
Reflex	Dry edible bean	7 DAA
Rezult	Soybean Dry bean, dry pea	Not allowed No restriction
Rimfire	Wheat	30 DAA
Rimsulfuron	Corn Potato	30 DAA Not allowed
Sequence	Pod crops Soybean	120 DAA 30 DAA
Silverado	Wheat/Durum - hay forage grain straw	50 DAA 30 DAA 55 DAA
Sonalan	Canola/mustard, dry bean soybean, sunflower Field pea	Not allowed No restriction
Sonic	Soybean	Not allowed
Spartan	Dry pea, chickpea, soybean sunflower	No restriction
Starane	Corn Small grain - graze/feed - hay	47 DAA 7 DAA 14 DAA
Starane NXT	Small grain	45 DAA
Status	Corn	32 DAA
Steadfast	Corn	30 DAA
Thistrol	Field pea	Not allowed
Thifensulfuron	Soybean, small grain	Not allowed
Thifn&Tribenrn	Small grain	Not allowed
Tribenuron	Small grain	Not allowed
Trifluralin	Canola/mustard, dry bean pea, lentil, potato, safflower, sunflower, sugarbeet Chickpea, flax, soybean, small grain	Not allowed No restriction
Ultra Blazer	Soybean	Not allowed
Valor	Soybean	Not allowed
WideMatch	Corn Small grain - graze/forage - hay	47 DAA 7 DAA 14 DAA
2,4-D	CRP, grass - hay - graze/feed dairy animal - graze/feed meat animal Small grain - graze/feed/hay dairy animal - graze/feed/hay meat animal	30 DAA 7 DAA 3 DAA 14 DAA No restriction
2,4-DB	Alfalfa Soybean	30 DAA 60 DAA

Z1. Grazing and Haying Restrictions for Herbicides Used in Pasture and Rangeland

Herbicide1	Lactating dairy animals		All animals except lactating dairy animals
	Before grazing	Before hay harvest	Before grazing	Before hay harvest	Removal before slaughter
	days after application		days after application
Cimarron/Extra	0	0	0	0	0
Cimarron Max/Extra	7	-	0	0	30
Amber	0	30	0	30	0
Clopyralid	0	0	0	0	0
Clopyralid + 2,4-D	14	30	0	30	73
Crossbow	1 year	1 year	02	1 year	3
Dicamba1
Up to 1 pt	7	37	0	0	30
Up to 2 pt	21	51	0	0	30
Up to 4 pt	40	70	0	0	30
Up to 16 pt	60	90	0	0	30
FallowMaster	8 weeks	8 weeks	8 weeks	8 weeks	8 weeks
Fuego	7	30	0	30	30
Glyphosate1
Pre&Renovation - < 1.5 lb ae/A	No restriction	No restriction	No restriction	No restriction	No restriction
- > 1.5 lb ae/A	8 weeks	8 weeks	8 weeks	8 weeks	8 weeks
Spot Spray - Monsanto6	7	7	7	7	7
- Generics	14	14	14	14	14
Broadcast	8 weeks	8 weeks	8 weeks	8 weeks	8 weeks
Glyphosate + 2,4-D premix5	7	30	3	30	3
Grazone P + D	7	30	7	30	3
Metsulfuron	0	0	0	0	0
Milestone	0	0	0	0	0
Paramount	No grazing allowed. Do not hay for 309 days after application.
Paraquat4	1 month	1 month	1 month	1 month	0
Plateau	0	7	0	7	0
Rave	7	0	0	0	0
Redeem	1 year	1 year	0	1 year	3
Spike7	0	1 year	0	1 year	0
Tordon 22K8	14	14	0	14	3
2,4-D/MCPA1	7	30	0	30	3

¹Check individual product labels containing the same active ingredients for restrictions and use rates.

²One year if more than 1.5 gallons/A is used.

³Withdrawal not needed if 2 weeks or more time elapsed since application.

⁴Restrictions based on degree of new seedling establishment before grazing. Suggested at least 6 inches of grass or legume growth.

⁵No restrictions if 10% or less of the area is treated.

⁶Do not treat more than one-tenth of any given acre at one time with spot or wiper applications. Remove livestock before application.

⁷If no more than 20 lb/A used.

⁸Remove livestock to untreated grass pasture for 7 days before transferring livestock to broadleaf or pasture areas. Removal before slaughter statement only applies to animals grazing treated forage for 2 weeks immediately after application.

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W-253, January 2008