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# PYTHON HERBICIDE
- EPA Reg No: **5481-677**
- Registrant: AMVAC CHEMICAL CORPORATION
- Signal word: Caution
- Active ingredients: Flumetsulam (80%)
- Label accepted: 2023-02-23
- Source PDF: https://www3.epa.gov/pesticides/chem_search/ppls/005481-00677-20230223.pdf
---
UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
WASHINGTON, DC 20460
OFFICE OF CHEMICAL SAFETY
AND POLLUTION PREVENTION
PRIA Non-New-Use Label Acceptable v.20150320
February 23, 2023
Jeannie S. Hemiller
Regulatory Director
AMVAC Chemical Corporation
4695 MacArthur Court, Suite 1200
Newport Beach, CA 92660
Subject: PRIA Label Amendment Changing the cotton rotation interval from 18 months
to 9 months following.
Product Name: Python Herbicide
EPA Registration Number: 5481- 677
Application Date: 9/29/2021
Decision Number: 578941
Dear Ms. Hemiller:
The amended label referred to above, submitted in connection with registration under the Federal
Insecticide, Fungicide, and Rodenticide Act (FIFRA), as amended, is acceptable. This approval
does not affect any conditions that were previously imposed on this registration. You continue to
be subject to existing conditions on your registration and any deadlines connected with them.
A stamped copy of your labeling is enclosed for your records. This labeling supers edes all
previously accepted labeling. You must submit one copy of the final printed labeling before you
release the product for shipment with the new labeling. In accordance with 40 CFR 152.130(c),
you may distribute or sell this product under the previously approved labeling for 18 months from
the date of this letter. After 18 months, you may only distribute or sell this product if it bears this
new revised labeling or subsequently approved labeling. “To distribute or sell” is defined under
FIFRA section 2(gg) and its implementing regulation at 40 CFR 152.3.
Should you wish to add/retain a reference to the companys website on your label, then please be
aware that the website becomes labeling under FIFRA and is subject to review by the Agency. If
the website is false or misleading, the product would be misbranded and unlawful to sell or
distribute under FIFRA section 12(a)(1)(E). 40 CFR 156.10(a)(5) list s examples of statements
EPA may consider false or misleading. In addition, regardless of whether a website is referenced
on your products label, claims made on the website may not substantially differ from those claims
approved through the registration process. Therefore, should the Agency find or if it is brought to
our attention that a website contains false or misleading statements or claims substantially differing
Page 2 of 2
EPA Reg. No. 5481-677
Decision No. 578941
from the EPA approved registration, the webs ite will be referred to the EPA s Office of
Enforcement and Compliance.
Your release for shipme nt of the product constitutes acceptance of these conditions. If these
conditions are not complied with, the registration will be subject to cancellation in accordance with
FIFRA section 6.
If you have any questions, please contact Sayed Islam at 202-566-2796 or islam.sayed@epa.gov.
Sincerely,
Heather McFarley
Product Manager 24
Fungicide and Herbicide Branch
Registration Division (7505P)
Office of Pesticide Programs
Enclosure:
• Stamped label
677-20230105 Python (CLEAN) Page 1 of 23
FLUMETSULAM GROUP 2 HERBICIDE
Python® Herbicide
A w
ater soluble granular formulation for broadleaf weed control in field corn and soybeans
Act
ive Ingredient
flumetsulam: N-(2,6-difluorophenyl)-5-methyl-1,2,4-triazolo-[1,5a]
- pyrimidine-2-Sulfonamide ................................................................................................................................. 80%
Other Ingredients ..................................................................................................................................................... 20%
Total ....................................................................................................................................................................... 100%
C
ontains 0.8 lb of flumetsulam per pound of product.
Keep Out of Reach of Children
CAUTION
FIRST AID
If in eyes: • Hold eye open and rinse slowly and gently with water for 15 -20 minutes. Remove
contact lenses, if present, after the first 5 minutes, then continue rinsing eye.
• Call a poison control center or doctor for treatment advice.
If on skin or
clothing:
• Take off contaminated clothing. Rinse skin immediately with plen ty of water for 15 -20
minutes.
• Call a poison control center or doctor for treatment advice.
EMERGENCY INFORMATION
Have the product container or label with you when calling a poison control center or doctor, or
going for treatment.
FOR THE FOLLOWING EMERGENCIES, PHONE 24 HOURS A DAY:
For Medical Emergencies phone: ………………………………………………….…………….……..… … …..1 -888-681-4261
For Transportation Emergencies, including spill, leak or fire, phone: CHEMTREC® ………. 1-800-424-9300
For Product Use Information phone: AMVAC® ………………………………………………………… .….1 -888-462-6822
Re
fer to inside of label booklet for additional precautionary information including Directions for Use.
E
PA Reg. No.: 5481-677 EPA Est No.: _____
Net Contents: ______
M
anufactured for:
AMVAC Chemical Corporation
4695 MacArthur Court, Suite 1200
Newport Beach, CA 92660 U.S.A.
1-888-462-6822
02/23/2023
5481-677
677-20230105 Python (CLEAN) Page 2 of 23
Precautionary Statements
Hazards to Humans and Domestic Animals
CAUTION - Harmful if absorbed through the skin causes eye irritation. Avoid contact with skin, eyes or clothing.
Personal Protective Equipment (PPE)
Applicators and other handlers must wear:
• Long-sleeved shirt and long pants
• Waterproof gloves
• Shoes plus socks
Follow manufacturer's instructions for cleaning/maintaining PPE. If no such instructions exist for washables, use
detergent and hot water. Keep and wash PPE separately from other laundry.
User Safety Recommendations
Users should:
• Wash hands before eating, drinking, chewing gum, using tobacco or using the toilet.
• Remove clothing immediately if pesticide gets inside. Then wash thoroughly and put on clean clothing.
Environmental Hazards
DO NOT apply directly to water, to areas where surface water is present or to intertidal areas below the mean high
water mark. DO NOT contaminate water when disposing of equipment washwaters or rinsate.
Flumetsulam has been identified in groundwater sampling fr om a field research site under vulnerable conditions.
There is the possibility that flumetsulam may leach through soil to groundwater, especially, where soils are coarse
and groundwater is near the surface.
Directions for Use
It is a violation of Federal law to use this product in a manner inconsistent with its labeling.
Read all Directions for Use carefully before applying. DO NOT apply this product in a way that will contact workers
or other persons, either directly or through drift. Only protected handlers may be in the area during application. For
any requirements specific to your state or tribe, consult the agency responsible f or pesticide regulation.
Agricultural Use Requirements
Use this product only in accordance with its labeling and with the Worker Protection Standard, 40 CFR Part 170. This
Standard contains requirements for the protection of agricultural workers on farms, forests, nurseries, and
greenhouses, and handlers of agricultural pesticides. It contains requirements for training, decontamination,
notification, and emergency assistance. It also contains specific instructions and exceptions pertaining to the
statements on this label about Personal Protective Equipment (PPE) and restricted-entry interval. The requirements
in this box only apply to uses of this product that are covered by the Worker Protection Standard.
DO NOT enter or allow worker entry into treated areas during the restricted entry interval (REI) of 12 hours.
Exception: If the product is soil -injected or soil incorporated, the Worker Protection Standard, under certain
circumstances, allows workers to enter the treated area if there will be no co ntact with anything that has been
treated.
PPE required for early entry to treated areas that is permitted under the Worker Protection Standard and that
involves contact with anything that has been treated, including plants, soil, or water, is:
• Coveralls
• Waterproof gloves
• Shoes plus socks
677-20230105 Python (CLEAN) Page 3 of 23
Product Information
Python Herbicide is a selective product for broadleaf weed control in field corn and soybeans. Apply Python as a
preplant surface, preplant, or preemergence treatment in corn and soybeans. Apply Python with water, liquid
fertilizer, or impregnated on dry bulk fertilizer. Absorption of Python occurs through both shoot and root uptake.
Susceptible weeds exposed to Python stop growing and either die or remain non-competitive with the crop. Python
provides residual control of weeds that may emerge after application. Because uptake and translocation of Python
involves uptake by both roots and/or shoots, adequate soil moisture is necessary for optimal herbicidal activity.
When applications are made under adverse (dry or cold) conditions, or when less susceptible species are treated,
reduced activity may be observed and weeds may be suppressed and not controlled. Weed suppression is a visual
reduction in weed competition (reduced population, size, and/or vigor) as compared to an untreated area. Improve
the level of control by applying Python under favorable growing conditions (i.e., adequate moisture and warmer
temperature) and by using a higher rate in the rate range.
Use Restrictions
DO NOT mix or load this product within 50 feet of any wells (including abandoned wells and drainage wells), sink
holes, perennial or intermittent streams and rivers, and natural or impounded lakes and reservoirs. This setback does
not apply to properly capped or plugged abandoned wells and does not apply to impervious pad or properly diked
mixing/loading areas.
Operations that involve mixing, loading, rinsing, or washing of this product into or from pesticide handling or
application equipment or containers within 50 feet of any well are prohibited unless conducted on an impervious
pad constructed to withstand the weight of the heaviest load that may be positioned on or moved across the pad.
Design the pad and maintain it to contain any product spills or equipment leaks, container or equipment rinse or
washwater, and rainwater that may fall on the pad. DO NOT allow surface water to either flow over or from the pad,
which means the pad must be self-contained. Slope the pad to facilitate material removal. An unroofed pad will have
the capacity to contain at a minimum 110% of the capacity of the largest pesticide container or application equipment
on the pad. A pad that is covered by a roof of sufficient size to completely exclude precipitation from contact with
the pad shall have a minimum containment capacity of 100% of the capacity of the largest pesticide container or
application equipment on the pad. Maintain containment capacities at all times. These minimum containment
capacities DO NOT apply to vehicles delivering pesticide shipments to the mixing/loading site. States may have in
effect additional requirements regarding wellhead setbacks and operational containment.
• DO NOT apply this product in Nassau and Suffolk Counties in New York State.
• DO NOT aerially apply this product in New York State.
• Chemigation: DO NOT apply this product through any type of irrigation system.
• DO NOT use flood irrigation to apply or incorporate this product.
• Use this product in a manner that prevents back siphoning in wells, spills or improper disposal of excess
pesticide, spray mixtures or rinsates.
• Avoid all direct or indirect contact with non -target plants. DO NOT apply near desirable vegetation. Allow
adequate distance between target area and desirable plants to minimize exposure.
• DO NOT apply when air temperature is near freezing or when freezing conditions are expected for several
days following application.
• DO NOT apply if rainfall is expected within 6 hours.
DO NOT apply under conditions that favor runoff or wind erosion of soil containing Python to non -target areas.
To prevent off-site movement due to runoff or wind erosion:
• Avoid treating powdery dry or light sandy soils when conditions are favorable for wind eros ion. Under these
conditions, settle the soil surface first by rainfall or irrigation.
• DO NOT apply to impervious substrates, including paved or highly compacted surfaces, or frozen or snow
covered ground.
677-20230105 Python (CLEAN) Page 4 of 23
• DO NOT apply to soils when saturated with water.
• DO NOT use tailwater from the first flood or furrow irrigation of treated fields to treat non-target crops unless
at least 1/2 inch of rainfall has occurred between application and the first irrigation.
Use Precautions
• Uneven application or uneven incorporation of Python can result in erratic weed control or crop injury.
• Extended cold, wet conditions (soil temperature below 50°F and excessive rainfall with wet soil conditions)
following preemergence application of Python to field corn which persist during germination and early crop
development may result in crop injury. Injury symptoms, including yellowing of leaves and/or crop stunting,
are usually temporary and affected corn plants usually recover without affecting yield.
• Dry weather following preplant su rface or preemergence applications of Python may reduce the products
effectiveness. If sufficient activating rainfall or overhead irrigation does not occur within 7 to 10 days following
application, incorporate the herbicide lightly into the soil using a rotary hoe, harrow, or shallow cultivation.
Use a preplant incorporated application if furrow irrigation is used or when dry weather is expected following
application.
Weed Resistance Management Guidelines
Python contains flumetsulam, a Group 2 herbicide (ALS inhibitor). Any weed population may contain plants naturally
resistant to Group 2 herbicides. Such resistant weed plants may not be effectively managed using Group 2 herbicides
but may be effectively managed utilizing another herbicide alone or in mixtures from a different Group and/or by
using cultural or mechanical practices. However, any herbicide mode of action classification by itself may not
adequately address specific weeds that are resistant to specific herbicides. Consult your AMVAC representative, state
cooperative extension service, professional consultants, or other qualified authorities to determine appropriate
actions for treating specific resistant weeds.
Best Management Practices
Proactively implementing diversified weed control strategies to minimize selection for weed populations resistant to
one or more herbicides is advised . A diversified weed management program may include the use of multiple
herbicides with different modes of action and overlapping weed spectrum with or without tillage operations and/or
other cultural practices. Research has demonstrated that using full labeled rates and following use directions is
important to delay the selection for resistance. Scouting after a herbicide application is important because it can
facilitate the early identification of weed shifts and/or weed resistance and thus provide direction on future weed
management practices. One of the best ways to contain resistant populations is to implement measures to avoid
allowing weeds to reproduce by seed or to proliferate vegetatively. Cleaning equipment between sites and avoiding
movement of plant material between sites will greatly aid in retarding the spread of resistant weed seed.
Principles of herbicide resistance management
1. Apply integrated weed management practices. Use multiple herbicide modes -of-action with overlapping weed
spectrums in rotation, sequences, or mixtures.
2. Use the full labeled herbicide rate and proper application timing for the hardest to control weed species present
in the field.
3. Scout fields before and after herbicide application to ensure control has been achieved. Avoid allowing weeds
to reproduce by seed or to proliferate vegetatively.
4. Monitor site and clean equipment between sites.
WEED RESISTANCE MANAGEMENT
Python is a Group 2 herbicide. Any weed population may contain or develop plants naturally resistant to Python and
other Group 2 herbicides. The resistant biotypes may dominate the weed population if these herbicides are used
repeatedly in the same field. Appropriate resistance-management strategies must be followed.
677-20230105 Python (CLEAN) Page 5 of 23
To delay herbicide resistance, take one or more of the following steps:
• Rotate the use of Python or other Group 2 herbicides within a growing season sequence or among growing
seasons with different herbicide groups that control the same weeds in a field.
• Use tank mixtures with herbicides from a different group if such use is permitted; where information on
resistance in target weed species is available, use the less resistance-prone partner at a rate that will control
the target weed(s) equally as well as the more resistance- prone partner. Consult your local extension
service or certified crop advisor if you are unsu re as to which active ingredient is currently less prone to
resistance.
• Adopt an integrated weed -management program for herbicide use that includes scouting and uses
historical information related to herbicide use and crop rotation, and that considers til lage (or other
mechanical control methods), cultural (e.g., higher crop seeding rates; precision fertilizer application
method and timing to favor the crop and not the weeds), biological (weed- competitive crops or varieties)
and other management practices.
• Scout before and after herbicide application to monitor weed populations for early signs of resistance
development. Indicators of possible herbicide resistance include: (1) failure to control a weed species
normally controlled by the herbicide at the dose applied, especially if control is achieved on adjacent weeds;
(2) a spreading patch of non-controlled plants of a particular weed species; (3) surviving plants mixed with
controlled individuals of the same species.
If resistance is suspected, prevent weed seed production in the affected area by an alternative herbicide from a
different group or by a mechanical method including hoeing or tillage. Prevent movement of resistant weed seeds
to other fields by cleaning harvesting and tillage equipment when moving between fields and planting clean seed.
If a weed pest population continues to progress after treatment with this product, discontinue use of this product,
and switch to another management strategy or herbicide with a different mode of action, if av ailable.
Contact your local extension specialist or certified crop advisors for additional pesticide resistance -management
and/or integrated weed-management recommendations for specific crops and weed biotypes.
For further information or to report suspected resistance, contact AMVAC at (1-888-462-6822).
For annual cropping situations, also consider the following:
• Start with a clean field and control weeds early by using a burndown treatment or tillage in combination with
a preemergence residual herbicide as appropriate.
• Use cultural practices including cultivation and crop rotation, where appropriate.
• Use good agronomic principles that enhance crop competitiveness.
• Use new commercial seed that is as free of weed seed as possible.
Crop Rotation Intervals
When tank mixing with other herbicides, follow the crop rotation restrictions on the label of each product used. The
rotational crops in the table below may be planted at the indicated interval following application of Python .
Abnormal environmental conditions including below normal rainfall and/or below normal temperatures from
application through rotational crop planting as well as low soil pH and high soil organic matter increase the likelihood
of rotational crop injury.
Crop Rotation Interval
(Months)
soybeans, corn (field, silage, seed) 0
alfalfa, dry beans, lima beans, peas, peanuts, barley, oats, rye, snap beans
(1), sweet potatoes, wheat 4
rice 6
677-20230105 Python (CLEAN) Page 6 of 23
Crop Rotation Interval
(Months)
seeding of cover crops (2), forage grasses (3), popcorn, tobacco, cotton (6) 9
grain sorghum, potatoes 12
cotton, sunflower, sweet corn (4) 18
sugar beets, canola and all other crops (5) 26
Numbers in parentheses (-) refer to the following Crop Specific Rotational Requirements.
C
rop Specific Rotational Requirements:
1. DO NOT plant snap beans grown for commercial seed production.
2. The following cover crops may be planted for establishment of federal Conservation Reserve Programs and
Agricultural Reserve Programs no sooner than 9 months following application of Python: legumes including
a
lfalfa, clovers, crownvetch, birdsfoot trefoil, and lespedeza; and grasses including big bluestem, little bluestem,
switchgrass, Russian wildrye, green needle, smooth bromegrass, Garrison creeping foxtail, canary grass,
orchardgrass, intermediate wheatgrass, tall wheatgrass, crested wheatgrass, wester n wheatgrass, and Indian
grass. Some stand reduction or temporary stunting of legume seedlings is possible. However, AMVAC will not
accept responsibility for any crop injury or stand failure of these seeded crops following use in corn or soybeans
and the subsequent 9 -month rotational crop restriction. Additionally, AMVAC will not accept responsibility for
any crop injury or stand failure of native grasses as a result of inadequate seedbed preparation, erratic
germination, lack of seedling vigor, or plant stress from unfavorable environmental conditions.
3. DO NOT plant forage grasses grown for commercial seed production.
4. Certain sweet corn varieties may be planted 10 1/2 months after application of up to 1 oz of Python per acre.
This interval applies only to varieties of sweet corn which have been identified as tolerant to an ALS inhibiting
herbicide. Contact your local AMVAC representative for current approved varieties.
5. Rotation to sugar beets , canola, and all other crops requires a 26-month rotation interval and a successful field
bioassay.
6. Following a season maximum rate up to 0.25 oz of Python per year.
F
ield Bioassay Instructions: Using typical tillage, seeding practices, and timings for the particular crop, plant several
strips of the desired crop variety across the field previously treated with Python. Plant the strips perpendicular to
the direction in which Python was applied. Locate the strips so that different field conditions are encountered,
including differences in soil texture, pH, and drainage. If the crop does not show visible symptoms of injury, stand
reduction, or yield reduction, the field can be seeded with the test crop. If visible injury or stand reduction occurs,
DO NOT seed the test crop and repeat the bioassay the next growing season.
SP
RAY DRIFT MANAGEMENT
The interaction of equipment and weather related factors determines the potential for spray drift. The applicator is
responsible for considering all these factors when making application decisions. Avoiding spray drift is the
responsibility of the applicator.
DO NOT apply when weather conditions favor drift to non-target sites.
D
roplet Size: The most effective way to reduce drift potential is to apply large droplets. The best drift management
strategy is to apply the largest droplets that provide sufficient coverage and control. Applying larger droplets reduces
drift potential, but will not p revent drift if applications are made improperly or under unfavorable environmental
conditions (see sections on Wind, Temperature and Humidity, and Temperature Inversions).
Controlling Droplet Size:
• DO NOT use nozzles that produce a fine-droplet spray.
• Volume - Use high flow rate nozzles to apply the highest practical spray volume. Nozzles with higher rated
flows produce larger droplets.
677-20230105 Python (CLEAN) Page 7 of 23
• Pressure - DO NOT exceed the nozzle pressure specified by the manufacturer . For many nozzle types lower
pressure produces larger droplets. When higher flow rates are needed, use higher flow rate nozzles instead
of increasing pressure.
• Number of Nozzles - Use the minimum number of nozzles that provide uniform coverage.
• Nozzle Orientation - Orienting nozzles so that th e spray is released parallel to the airstream will produce
larger droplets than other orientations and is recommended. Significant deflection from horizontal will
reduce droplet size and increase drift potential.
• Nozzle Type - Use a nozzle type that is des igned for the intended application. With most nozzle types,
narrower spray angles produce larger droplets. Consider using low -drift nozzles. Solid stream nozzles
oriented straight back produce the largest droplets and the lowest drift.
Boom Length: For some use patterns, reducing the effective boom length to less than 3/4 of the wingspan or rotor
length may further reduce drift without reducing swath width.
Application Height: DO NOT make applications at a height greater than 10 feet above the top of the tallest plants
unless a greater height is required for aircraft safety. Making applications at the lowest height that is safe reduces
exposure of droplets to evaporation and wind.
Swath Adjustment: When applications are made with a crosswind, the swath wi ll be displaced downward.
Therefore, on the up and downwind edges of the field, the applicator must compensate for this displacement by
adjusting the path of the aircraft upwind. Swath adjustment distance must be increased with increasing drift
potential (higher wind, smaller drops, etc.).
Wind: Make application when the wind velocity favors on -target product deposition (approximately 3 to 10 mph).
Many factors, including droplet size and equipment type, determine drift potential at any given speed. DO NOT apply
when wind is gusting or wind speed exceeds 15 mph as uneven spray coverage and dr ift may result. Avoid
applications below 2 mph due to variable wind direction and high inversion potential. Note: Local terrain can
influence wind patterns. Every applicator needs to be familiar with local wind patterns and how they affect spray
drift.
Temperature and Humidity: When making applications in low relative humidity, set up equipment to produce larger
droplets to compensate for evaporation. Droplet evaporation is most severe when conditions are both hot and dry.
Temperature Inversions: DO NOT make applications during a local, low level temperature inversion because drift
potential is high. Temperature inversions restrict vertical air mixing, which causes small suspended droplets to
remain in a concentrated cloud. This cloud can move in unpredictable directions due to the light variable winds
common during inversions. Temperature inversions are characterized by increasing temperatures with altitude a nd
are common on nights with limited cloud cover and light to no wind. They begin to form as the sun sets and often
continue into the morning. Their presence can be indicated by ground fog; however, if fog is not present, inversions
can also be identified by the movement of the smoke from a ground source or an aircraft smoke generator. Smoke
that layers and moves laterally in a concentrated cloud (under low wind conditions) indicates an inversion, while
smoke that moves upward and rapidly dissipates indicates good vertical air mixing.
Sensitive Areas: Apply Python only when the potential for drift to adjacent sensitive areas (e.g. residential areas,
bodies of water, known habitat for threatened or endangered species, non-target crops) is minimal (e.g. when wind
is blowing away from the sensitive areas).
Safe Pesticide Handling Procedures
• Calibrate sprayers only with clean water away from the well site.
• Make scheduled checks of spray equipment.
• Assure accurate measurement of pesticides by all operation employees.
• Mix only enough product for the job at hand.
677-20230105 Python (CLEAN) Page 8 of 23
• Avoid over filling the spray tank.
• DO NOT discharge excess material on soil at a single spot in the field or at the mixing/loading station.
• Triple rinse the container in which product was purchased. Add the rinsate to the spray mix.
Mixing Directions
This product can be mixed in accordance with the most restrictive label limitations and precautions. DO NOT exceed
the label dosage rates. This product cannot be mixed with any product containing a label prohibition against such
mixing. It is the responsibility of the pesticide user to ensure that all products are registered for the intended use.
Read and follow the applicable restrictions and limitations and directions for use on all product labels involved in
tank mixing. Users must follow the most restrictive directions for use and precautionary statements of each product
in the tank mixture.
P
ython Herbicide Alone
1. Fill the tank with 1/2 of the total amount of water or liquid fertilizer required for the load.
2. Start agitation.
3. Add the required amount of Python for acreage being treated by opening the bottle(s) and measuring directly
into the spray tank. Allow the product to fully disperse. If liquid fertilizer is being used as the spray carrier rather
than water, pre-mix the Python as described below before adding to the spray tank.
4. After product has completely dispersed, add non-ionic surfactants or other adjuvant materials.
5. Continue agitation while filling the spray tank to the required volume.
6. To ensure a uniform spray mixture, continuous agitation is required during application. If product is allowed to
settle, thoroughly agitate to resuspend the mixture before spraying. Apply within 24 hours of mixing. Weed
control with Python, which has been mixed and allowed to stand for more than 24 hours, may be reduced.
Pr
e-Mixing (Other Products): If pre -mixing is required for other dry or flowable products applied in tank mix
combination with Python, follow directions for pre -mixing of such products provided in their respective product
labels.
P
ython Herbicide - Tank Mix
If a broader spectrum of weed control is needed, Python may be tank mixed with labeled rates o f other products
provided (1) the tank mix product is labeled for the timing and method of application for the use site to be treated;
(2)
t
ank mixing with Python is not prohibited by the label of the tank mix product; (3) the tank mix combination is
compatible as determined by a "jar test" described in the Tank Mix Compatibility Testing section; and (4) r ead and
f
ollow the applicable Restrictions and Limitations and Directions for Use on all products included in any tank mix.
The most restrictive label ing applies to tank mixes . Python may adversely affect group 1 herbicide products for
postemergence grass control through herbicide antagonism. For best results, delay application of the
postemergence grass control product for three days after applying Pyt hon.
T
ank Mixing Precautions:
• Read carefully and follow all applicable use directions, precautions, and limitations on the respective product
labels.
• DO NOT exceed specified application rates for respective products or maximum allowable application rates for
any active ingredient in the tank mix.
• DO NOT tank mix with products containing boron or mix in equipment previously used to apply a product mixture
containing boron unless the tank and spray equipment have been adequately cleaned. (See Equipment Clean-Out
Procedures.)
T
ank Mix Compatibility Testing: A jar test is recommended prior to tank mixing to ensure compatibility of Python
and other pesticides. Use a clear glass quart jar with lid and mix the tank mix ingredients in their relative proportions.
Invert the jar containing the mixture several times and observe the mixture for approximately 1/2 hour. If the
mixture balls-up, forms flakes, sludges, gels , oily films or layers, or other precipitates, it is not compatible and the
tank mix combination must not be used.
677-20230105 Python (CLEAN) Page 9 of 23
Vigorous, continuous agitation during mixing, filling and throughout application is required for all tank mixes. Sparger
pipe agitators gener ally provide the most effective agitation in spray tanks. To prevent foaming in the spray tank,
avoid stirring or splashing air into the spray mixture.
Mixing Order for Tank Mixes:
1. Fill the spray tank to 1/4 to 1/3 of the total spray volume required with water or liquid fertilizer
2. Start agitation.
3. Add the required amount of Python for acreage being treated by opening the bottle(s) and measuring directly
into the spray tank.
4. After adding Python, add different formulation types in the following order: (1) water soluble packets; (2) a ny
c
ompatibility agent, if required; (3) dry flowables; (4) wettable powders; (5) aqueous suspensions, flowables and
liquids. Maintain agitation and fill spray tank to 3/4 of total spray volume and add: (6) emulsifiable concentrates;
(7) s
olutions; and (8) adjuvants. Allow time for complete mixing and dispersion after each addition.
5. Finish filling the spray tank. Maintain continuous agitation during mixing, final filling and throughout application.
If application or agitation must be stopped before the spray tank is empty, the materials may settle to the bottom.
Settled materials must be resuspended before spraying is resumed. A sparger agitator is particularly useful for this
purpose. Settled material may be more difficult to resuspend than when originally mixed.
Clean-Out Procedures for Spray Equipment
1. Drain any remaining spray mixture from the application equipment.
2. Hose down the interior surfaces of the tank while filling the tank 1/2 full of water.
3. Add household ammonia at a rate of 1 gallon per 100 gallons of water. Recirculate for 5 minutes and spray out
part of this mixture for 5 minutes through the boom. Drain tank.
4. Remove all spray nozzles and screens and clean separately.
5. If the spray equipment will be used for pesticide application to crops sensitive to Python, repeat steps 1 through
3. Thoroughly clean exterior surfaces of spray equipment.
Note: Rinsate must be disposed of on site according to label use directions or at an approved waste disposal facility.
Liquid Mixture (Slurry) in a Nurse Tank
Mix Python with water in a nurse tank to prepare a liquid slurry concentrate that can be measured and dispensed
on a liquid volume basis. This liquid slurry will contain 1 lb of Python (0.8 lb flumetsulam) per gallon of total solution.
Use a nurse tank with an agitation system designed for mixing and dispensing a product as a liquid slurry. The slurry
will settle in the tank after standing for a few minutes. To ensure uniformity of the liquid slurry, maintain continuous
agitation in the tank or agitate the slurry thoroughly and continuously for at least 10 minutes prior to each
dispensing.
To prepare the liquid slurry, initially mix Python in a ratio of 1 lb of herbicide product per 2 quarts of water. After
the Python is completely dispersed and uniformly mixed, add sufficient water to bring the mixture to a final liquid
volume of 1 gallon per 1 lb of Python. Prior to mixing, calibrate the slurry mix tank for various mixing volumes. Use
the following when mixing various volumes of liquid slurry.
A
mount of Python to Add (lb) Add Python to the Following
Amount of Water (gallons)
Add Water to Slurry to Obtain
Final Mixed Liquid Volume (gal)
1 0.5 1
5 2.5 5
10 5 10
20 10 20
30 15 30
A
pplication in Liquid Fertilizer
Always pre-mix or slurry Python with water prior to adding to liquid fertilizer in spray tanks. Make sure Python is
completely and uniformly dispersed in water and then add to the spray tank or induction system through a 20 to 35
mesh screen. Add any rinsate to the spray mixture.
677-20230105 Python (CLEAN) Page 10 of 23
When necessary, use a compatibility agent to ensure that Python mixes proper ly. The use of an appropriate
compatibility agent is especially important when tank mixing Python and other dry flowables, wettable powders,
flowables, liquids, aqueous suspensions, or solutions with emulsifiable concentrates in liquid fertilizer. If the
emulsifiable concentrate formulation rises to the surface of the fertilizer as an oil ("oils out"), the oil may combine
with the wettable powder, flowable, or suspension to form oily curds (viscous phase) which are difficult to disperse.
A jar test, utilizing relative proportions of the tank mix ingredients, is recommended prior to mixing with a large
quantity of liquid fertilizer.
N
ote: Refer to Clean-Out Procedures for Spray Equipment for directions on cleaning equipment prior to use in crops
other than soybeans.
A
pplication with Dry Bulk Fertilizer
Dry bulk fertilizer may be impregnated or coated with Python. Application of dry bulk fertilizer impregnated with
Python provides weed control equal to the same rates of Python applied in liquid carriers. Follow label directions for
Python regarding rates per acre, crops, special instructions, cautions and special precautions. Apply 200 to 700 lb of
the fertilizer/herbicide mixture per acre. Apply the mixture uniformly to the soil with properly calibrated equipment
immediately after blending. Uniform application of the herbicide/fertilizer mixture is essential to prevent possible
crop injury. Non-uniform application may also result in unsatisfactory weed control. In areas where conventional
tillage is practiced, a shallow incorporation of the mixture into the soil may improve weed control.
M
ost dry fertilizers can be used for impregnation with Python. When coated ammonium nitrate and/or limestone
are used alone, DO NOT impregnate with Python. These materials will not absorb the herbicide. Blends containing
a mixture of ammonium nitrate and/or limestone as part of the fertilizer mixture can be impregnated.
C
ompliance with all federal and state regulations relating to blending pesticide mixtures with dry bulk fertilizer,
registration, labeling and application are the responsibility of the individual and/or company offering the fertilizer
and chemical mixture for sale.
I
mpregnation: Python must be pre-mixed with water to form a slurry prior to impregnation of dry bulk fertilizer. For
best results, use 1 pint of water to properly slurry the material . Make sure Python is completely and uniformly
dispersed in water. Then add sufficient water to adjust the total volume of the mixture to deliver a spray volume of
at least 6 pints per ton of fertilizer. Place nozzles used to spray the Python onto the fertilizer to provide uniform
spray coverage. Use any closed drum, belt, ribbon or other commonly used dry bulk fertilizer blender.
C
alculate amounts of Python by the following formula:
2000
------------------------ X 1 oz of = Quantity of product
lb/acre of fertilizer Python per ton of fertilizer
N
ote: Thoroughly clean dry fertilizer blending equipment prior to use with other herbicides. It is important to clean
the blender, herbicide spray tank, and spraying apparatus thoroughly. Rinse the sides of the blender and the
herbicide tank with water. Clean spraying apparatus prior to preparing fertilizer/herbicide mixtures for crops other
than corn or soybeans (see Clean -Out Procedures for Spray Equipment). Then, impregnate the rinsate onto a load
of dry fertilizer intended for an approved crop. Use a maximum rate of 1 gallon of rinsate per ton of fertilizer. Follow
with one to two loads of unimpregnated fertilizer in the blender before switching herbicides. The fertilizer
application equipment must be empty, clean, and dry before applying any material to crops other than corn or
soybeans.
677-20230105 Python (CLEAN) Page 11 of 23
Application Methods
Ground Application
Apply Python in sufficient spray volume to provide uniform coverage using only properly calibrated ground
equipment. Apply in a total spray volume of 10 to 40 gallons per acre using low pressure (20 to 40 psi). Maintain
sufficient agitation dur ing mixing and spraying to ensure a uniform spray mixture. To ensure thorough coverage
when applying to minimum or no-till soybeans or field corn, apply in a total spray volume of 20 gallons or more per
acre. Note: Emerged soybeans are not tolerant to rates of Python specified for soil applied treatments. Treatments
at soil applied rates made after soybeans have emerged (at-cracking or later) will result in severe crop injury.
Band Application: Calculate the amount of herbicide needed for band treatment by the formula:
Band width in inches
--------------------------- X Broadcast rate = Amount needed
Row width in inches per acre per acre of field
Early Preplant Burndown
Apply 0.8 to 1 oz of Python per acre in a tank mix with 2,4 -D, glyphosate, glufosinate, or other herbicide product
labeled for burndown and/or residual weed control in the fall or early spring prior to planting corn or soybeans. The
application can be made with ground or aerial application equipment. Apply to crop stubble or tilled soil including
fallow beds. This treatment provides early burndown of existing weeds plus residual weed control. For optimal
burndown control, apply when weeds are 4 inches or le ss in height. For optimal residual control, apply after soil
temperature has dropped below 50°F for fall applications. Under most conditions, fields must remain suitably clean
prior to planting, thus avoiding the need for additional burndown weed control. If weeds are present at time of
application, tank mix Python with other products labeled for burndown and/or residue weed control. Reduced
residual (in-crop) weed control may be expected when conditions prevent planting by average (historical) planting
date for the area. DO NOT apply to frozen soils or snow covered ground.
Select the most appropriate 2,4-D formulation for tank mixtures. Many 2,4-D products are labeled for use in the fall
and in the spring prior to no-till soybean planting. These products can be applied preplant or preemergence to corn,
but labels vary with regard to application timing and planting intervals. Soybeans may be planted following
applications of 2,4-D but, depending upon use rates and formulation used, have planting interval restrictions ranging
from 7 to 30 days. Always read and follow the 2,4-D product label directions and restrictions before use.
Preplant Soil Incorporated Application: For best results, apply and incorporate Python from 0 to 30 days before
planting field corn or soybeans. Preplant incorporated treatments may be applied in water, liquid fertilizer, or dry
fertilizer. Uniformly incorporate the herbicide treatment into the top 2 to 3 inches of the final seedbed.
Preplant Surface Application: For best results, apply Python alone or in certain tank mixes up to 30 days before
planting. If weeds are present at the time of treatment, apply Python in a tank mix combination with a non-selective
or contact herbicide including glyphosate. Python may provide sup pression of annual grasses if there is sufficient
rainfall to move the herbicide into the soil prior to weed germination. Rainfall or overhead sprinkler irrigation is
necessary to move Python into the weed germination zone. The amount of moisture required following application
depends upon existing soil moisture, soil texture and organic matter content. Sufficient water to moisten the soil to
a depth of 2 inches is adequate. If adequate soil moisture is not received within 7 to 10 days after a preplant surface
application, shallow cultivate to control established weeds and move the herbicide into the weed germination zone.
When adequate soil moisture is received following dry conditions, performance may vary by weed species and the
depth of the weed root sys tem in the soil. DO NOT move treated soil out of the row or move untreated soil to the
surface during planting or weed control will be diminished.
Preemergence Application: Apply at the time of planting or after planting field corn or soybeans, but prior to weed
emergence. Rainfall or overhead sprinkler irrigation is necessary to move Python into the weed germination zone.
The amount of moisture required following application depends upon existing soil moisture, soil texture and organic
677-20230105 Python (CLEAN) Page 12 of 23
matter content. Sufficient water to moisten the soil to a depth of 2 inches is adequate. If adequate soil moisture is
not received within 7 to 10 days after a preplant surface application, shallow cultivate to control established weeds
and move the herbicide into the weed germination zone. When adequate soil moisture is received following dry
conditions, performance may vary by weed species and the depth of the weed root system in the soil.
S
pike Stage Application : Apply from corn emergence (ground cracking stage) until corn is 2 inches in height and
before the first leaf is unfurled using water as a carrier. Use of liquid fertilizer as carrier may cause severe crop injury.
Adequate soil moisture is required for optimum herbicidal activity. For those weeds that have not e merged at the
time of application, rainfall or overhead sprinkler irrigation is necessary to move Python into the weed germination
zone. The amount of rainfall or irrigation required following application depends on existing soil moisture, soil
texture, and organic matter content. Sufficient water to moisten the soil to a depth of 2 inches is generally adequate.
If adequate soil moisture is not received within 7 to 10 days after a surface applied treatment, a shallow cultivation
is recommended to control es tablished weeds and mix the herbicide into the weed germination zone. When
adequate soil moisture is received following dry conditions, performance may vary with weed species and rooting
depth of target weeds.
P
ostemergence Application : Apply Python as a spray to control emerged weeds in an emerged crop. Use higher
rates of a rate range for control of dense weed infestations, larger weeds, additional weed species or when a longer
period of residual control is desired. Liquid fertilizer is not recommended as a carrier for in -crop applications of
Python. Use only water as a carrier. When applied postemergence, Python must be used with one of the adjuvant
systems described below
A
dditives:
Applications of Python to emerged weeds require the addition of additives to achieve optimum control. When using
an adjuvant with this product, selecting an adjuvant that meets the standards of the Chemical Producers and
Distributors Association (CPDA) adjuvant certification program is recommended. Use only agriculturally approved
surfactants.
• A
djuvants: When applying Python include either nonionic surfactant (NIS) at 1 qt/100 gallons water (0.25%
v/v) or crop oil concentrate (COC) at 1 gallon/100 gallons water (1% v/v). Use a surfactant with at least
80% active ingredient of which at least 50% is actual nonionic surfactant. Note: Crop oil concentrate may
increase the potential for crop injury in soybean.
• Nitrogen: The use of 28%, 30% or 32% urea ammonium nitrate at 2.5 gallons per 100 gallons (2.5% v/v),
or sprayable dry or liquid ammonium sulfate at 2-4 lb per acre in combination with nonionic surfactant or
crop oil concentrate may enhance control, especially in dry conditions.
• When tank-mixing Python with a surfactant-loaded herbicide or herbicide recommending higher use rates
of the above adjuvants, follow the adjuvant recommendation of the tank -mix partner.
Soil Textures
Where rates are based upon coarse, medium, or fine textured soils, soil textural classes are generally categorized as
follows:
Coarse Medium Fine
sand
loamy sand
sandy loam
loam
silt
silt loam
silty clay loam
sandy clay
sandy clay loam
clay loam
silty clay
clay
• D
O NOT use as a preemergence treatment on peat or muck soils as reduced weed control will result.
• Use a lower rate in the rate range where soils have a sand or loamy sand texture throughout the soil profile.
677-20230105 Python (CLEAN) Page 13 of 23
• DO NOT apply to areas where the soil pH is greater than 7.8 as this may result in unacceptable crop injury.
• DO NOT apply to soils containing greater than 5% organic matter if the soil pH is below 5.9 as reduced weed
control will result.
• Corn Only: Use of Python on soils with less than 1.5% organic matter may result in crop injury. Apply to fields that
contain soils with less than 1.5% organic matter only if the risk of crop injury is acceptable.
• Corn Only: If any herbicide with ALS (acetolactate synthase ) inhibitor mode of action was applied the previous
year, apply Python to corn only if the rotational restrictions to corn for the preceding product have been met.
• Corn or Soybeans: Corn or soybeans growing in calcareous soils or on soils with historically high salt content (soil
test results for salinity indicating electrical conductivity greater than 1 mmho/cm) may exhibit chlorosis and/or
stunting resulting from reduced availability of iron or other micronutrients essential for normal crop vi gor and
growth. The presence of soil active herbicides, including Python, may cause additional stress under these
conditions, resulting in enhanced leaf chlorosis and/or crop stunting. This added stress may retard crop recovery,
especially under conditions of limited rainfall. In fields which contain calcareous or high salt content soils and/or
have a history of causing iron chlorosis in soybeans, growers must plant soybean varieties with known tolerance
to iron deficient soils. On these type soils, the likelihood of crop injury can also be reduced by using a lower rate
in the rate range for the soil type and/or by applying Python 10 to 14 days prior to planting.
Weeds Controlled
Python will not control ALS resistant biotypes of weeds listed below.
S
oil Texture Python
(oz/acre)
Coarse 0.8 - 0.89
medium or fine 0.89 1.00
Weeds Controlled
carpetweed pigweed species
chickweed purslane, common
goosefoot shepherds-purse
henbit sida, prickly
lambsquarters, common spurge, nodding
mallow, Venice spurge, spotted
mustard, wild thistle, Russian
pigweed, redroot velvetleaf
pigweed, smooth waterhemp species (2)
Within soil texture class, use the higher rate in the rate range on soils with >3% organic matter. DO NOT apply
more than 14 days before planting.
Soil Texture Python
(oz/acre)
coarse 0.89 - 1.00
medium or fine 1.14 - 1.33
Weeds Controlled
beggarweed, Florida (3) poinsettia, wild
carpetweed puncturevine
chickweed purslane, common
cocklebur, common (3) (4) pusley, Florida
goosefoot ragweed, common (3)
henbit ragweed, giant (1)
horseweed (marestail) shepherds-purse
jimsonweed (3) sicklepod (3) (4)
677-20230105 Python (CLEAN) Page 14 of 23
kochia (1) sida, prickly
ladysthumb smartweed, Pennsylvania
lambsquarters, common spurge, nodding
mallow, Venice spurge, spotted
morningglory sp. (1) (4) sunflower, common (3)
mustard, wild thistle, Russian
nightshade species (3) velvetleaf
pigweed, redroot waterhemp species (2)
pigweed, smooth wormwood, biennial (1)
pigweed species
Within soil texture class, use the higher rate in the rate range on soils with >3% organic matter. On medium and
fine textured soils, for best results, make early preplant applications up to 30 days before planting. On coarse
textured soils, DO NOT apply more than 14 days before planting.
Numbers in parentheses (-) refer to the following Weed Specific Directions.
Weed Specific Directions:
1. Partial control: Consistent control of these weeds may also require a tank mixture with another soil -applied
herbicide or the sequential application of a postemergence herbicide.
2. Waterhemp: For improved control of waterhemp, apply Python in tank mix combination with a surface applied
acetanilide or dinitroaniline herbicide registered for use in field corn and/or soybeans.
3. Control of light to moderate infestations: The level of control provided by Python on cocklebur, jimsonweed,
common ragweed, Florida beggarweed, common sunflower, nightshade, and sicklepod can vary depending
upon weed density and soil or environmental conditions. Control of moderate to heavy infestations of these
weeds may be variable with satisfactory control of higher populations dependent upon consistent soil moisture.
Consistent control of these weeds may also require a tank mixture with another preemergence herbicide or the
sequential application of a postemergence herbicide (e.g., control of moderate to heavy infestations of
nightshade will be improved by applying Python in tank mix combination with a surface -applied acetanilide
product.
Sicklepod (soybeans only): Where sicklepod infestations are present, up to 1.33 oz of Python per acre may be
used on all soil textures.
Control of cocklebur, morningglory, jimsonweed, common ragweed, Florida beggarweed, commo n sunflower,
nightshade, and sicklepod may be improved by adhering to the following procedures:
• Thoroughly till moist soil to destroy germinating and emerged weeds.
• Apply a higher rate in the rate range allowed for the soil texture and organic matter c ontent to be
treated.
• Plant crop immediately after the last tillage operation. If Python is to be applied preemergence, apply
at planting or immediately afterwards.
• If available, sprinkle irrigate within two days after application. Apply 1/2 to 1 inch of water depending
upon soil texture.
• Weed control may be decreased if irrigation or rainfall does not occur within 7 to 10 days after planting
and application. Under these conditions, emerged weeds may be controlled by a uniform shallow
cultivation or rotary hoeing.
4. Soybeans only: In mid-Atlantic, mid-south, and southeastern regions of the U.S. where cocklebur, morningglory
species and sicklepod infestations are present, apply Python at 1.25 to 1.33 oz per acre on all soil textures.
677-20230105 Python (CLEAN) Page 15 of 23
Uses
Crop Specific Use Directions
Crops Application
Timing
Maximum
applications
/year
Preharvest
Interval
(days)
Python use rate
(oz/acre) Instructions and Restrictions
Field
Corn
Preplant,
preemergence
1 45 Forage
85 Grain
0.8 1.33;
0.04 - 0.067 lb ai
Residual weed control. See the
Weeds Controlled table for Python
use rate based on soil texture and
organic matter.
For burndown weed control in field
corn, see the Burndown Applications
in Minimum Tillage or No-Tillage
Application section.
The restrictions below apply to all
preplant and preemergence
applications:
● DO NOT apply more than 14 days
preplant on coarse soils.
● DO NOT apply more than 30 days
preplant on medium or fine soils.
0.8;
0.04 lb ai
up to 3% organic
matter
Reduced rates for tank-mixtures
with full labelled rate of atrazine and
Group 15 containing herbicide pre-
mixtures. When applied under
normal growing conditions, these
tank mixes should provide consistent
control of velvetleaf, lambsquarters,
pigweed species, waterhemp, and
triazine “resistant” varieties (triazine
tolerant biotypes) of these species.
● Use
only in the states of Colorado,
Illinois, Indiana, Iowa, Kansas,
Michigan, Minnesota, Missouri,
Nebraska, North Dakota, Ohio, South
Dakota, and Wisconsin.
● DO NOT exceed specified
application rates and use only in
accordance with the most restrictive
precautions and limitations on the
respective product labels
0.89 1.0;
0.04 0.05 lb ai
3% or more
organic matter
Postemergence 2 85 0.8 - 1.14;
0.04 - 0.057 lb ai
See the Weeds Controlled table to
determine Python rate based on soil
texture and organic matter.
For spike applications, apply with
water as the carrier from corn
emergence (ground cracking stage)
up to 2 inches in height (before the
677-20230105 Python (CLEAN) Page 16 of 23
Crops Application
Timing
Maximum
applications
/year
Preharvest
Interval
(days)
Python use rate
(oz/acre) Instructions and Restrictions
first leaf is unfurled). Adequate soil
moisture is required for optimum
residual herbicidal activity.
U
se drop nozzles when corn foliage
development is sufficient to prevent
uniform soil coverage.
T
he restrictions below apply to all
postemergence applications in field
corn:
● D
O NOT apply to field corn greater
than 20 inches tall or V6 stage (6
l
eaves with collars), whichever
comes first.
● D
O NOT apply to emerged weeds
if rainfall is expected within 6 hours
as unsatisfactory control may occur.
● D
O NOT apply postemergence
w
ith liquid fertilizer or suspensions
to emerged corn as severe crop
injury may result.
● D O NOT cultivate within 10 days
before or after application, for best
results.
0.8 - 0.89;
0.04 0.045 lb ai
coarse soil
0.89 - 1.14;
0.045 0.057 lb ai
medium or
fine soils
Postemergence Applications for
Extended Preemergence Control
Apply Python alone or in a tank mix
combination of triazine-containing
premix products registered for use in
corn to provide extended
preemergence broadleaf weed
control of the following from
postemergence applications:
lambsquarters, pigweed,
waterhemp, velvetleaf, and triazine-
resistant varieties (triazine-tolerant
biotypes) of these weed species. Use
a higher rate in the rate range for
soils greater than 3% organic matter.
0.46 - 1.14;
0.023 0.057 lb ai
Postemergence Applications for
Control of Emerged Weeds:
Use the appropriate Python rate
based on weed size shown in the
Postemergence Applications for
Control of Velvetleaf section.
Include adjuvants and nitrogen as
specified in the additive section.
677-20230105 Python (CLEAN) Page 17 of 23
Crops Application
Timing
Maximum
applications
/year
Preharvest
Interval
(days)
Python use rate
(oz/acre) Instructions and Restrictions
Restrictions for all applications in field corn:
● DO NOT apply Python on sweet corn or popcorn.
● Corn must be planted at least 1.5 inches deep.
● DO NOT use terbufos or phorate in conjunction with Python as significant crop injury may occur.
● DO NOT apply more than 1.33 oz Python/acre (0.067 lb ai/acre) preemergence or 1.14 oz/acre (0.057
l
b ai/acre) postemergence in a single application.
● D O N
OT exceed a cumulative total rate of 1.4 oz Python/acre (0.07 lb ai/acre) per year, including
sequential or tank mix applications with other products.
● DO NOT apply within 14 days of a previous application.
● DO NOT apply more than 2 applications (1 preemergence and 1 postemergence or 2 postemergence
applications) per year.
Soybean Preplant,
preemergence
1 85 0.8 1.33;
0.04 0.067 lb ai
Residual weed control. See the
Weeds Controlled table for Python
use rate based on soil texture and
organic matter.
For
burndown weed control in
soybean, see the Burndown
Applications in Minimum Tillage or
No-Tillage Application section.
● DO NOT apply more than 14 days
preplant on coarse soils or 30 days
preplant on medium or fine soils.
● DO NOT apply these rates
postemergence.
Postemergence 2 85 0.125;
0.0063 lb ai
Postemergence Applications for
Control of Emerged Weeds:
Apply in soybean from first to fifth
trifoliolate leaf stage of growth for
control of actively growing weeds.
Unfavorable conditions including
drought, or near freezing
temperatures before, at, or
following application, may result in
reduced weed control. The degree of
control will depend upon weed
susceptibility and growing conditions
at the time of treatment. Multiple
postemergence applications should
be at minimum 14 days apart.
Include either nonionic surfactant,
nonionic surfactant plus nitrogen or
crop oil concentrate at rates
specified in the additive section.
The restrictions below apply to all
postemergence applications in
soybean:
677-20230105 Python (CLEAN) Page 18 of 23
Crops Application
Timing
Maximum
applications
/year
Preharvest
Interval
(days)
Python use rate
(oz/acre) Instructions and Restrictions
● DO NOT apply to soybean in the
cotyledon growth stage.
● D
O NOT apply more than 0.25 oz
P
ython per acre postemergence per
crop year.
● D
O NOT apply to emerged weeds
if rainfall is expected within 6 hours
as unsatisfactory control may occur.
● D
O NOT apply postemergence
w
ith liquid fertilizer or suspensions
to emerged corn as severe crop
injury may result.
● D
O NOT cultivate within 10 days
before or after application, for best
results.
Restrictions for all applications in soybean:
● D O NOT graze or feed Python treated soybean forage, hay or straw to livestock.
● DO N
OT use terbufos or phorate in conjunction with Python as significant crop injury may occur.
● D
O NOT apply more than 1.33 oz Python/acre (0.067 lb ai/acre) preemergence or 0.125 oz/acre (0.00 63
l
b ai/acre) postemergence in a single application
● D
O NOT exceed a cumulative total rate of 1.4 oz Python/acre (0.07 lb ai/acre) year, including sequential
or tank mix applications with other products.
● D O NOT apply within 14 days of a previous application.
● D O NOT apply more than 2 applications (1 preemergence and 1 postemergence or 2 postemergenc e
applications) per year.
Field Corn
Non-systemic organophosphate insecticides containing tebupirimphos (e.g. Aztec) or chlorethoxyfos (e.g.
SmartChoice or Index Liquid Inse cticide) may be applied in -furrow in conjunction with Python without crop injury.
All other soil-applied organophosphate insecticides may only be used with T-band or band placement (if label allows)
to avoid potential crop injury. Non -organophosphate soil -applied insecticide groups may be applied in -furrow, T-
banded, or banded if allowed on the label.
C
orn previously treated with Python that is stressed or damaged by conditions including cold weather, hail, drought,
water saturated soil, disease, or insects must not be treated with other herbicides with ALS inhibitor mode of action
as further crop injury may result.
C
orn inbred lines grown for hybrid seed production may be injured by Pyt hon. Thoroughly test inbred lines for crop
tolerance before treating large acreage. While growers are not prohibited from using Python on seed corn, AMVAC
will not accept responsibility for crop injury arising from the use of Python on field corn grown for seed.
B
urndown Applications in Minimum Tillage or No-Tillage Application
When used either alone or in combination in a burndown application, Python with crop oil concentrate will control
or suppress the following weeds: marestail, common chickweed, field pennycress, and mustard species.
P
ython Plus Glyphosate: In minimum-tillage or no-tillage situations where corn is planted directly into a cover crop,
stale seedbed, or previous crop residues, Python may be tank mixed with contact or non- selective herbicides
including glyphosate. Apply in 10 to 60 gallons of water or liquid fertilizer per acre with ground equipment. Add a
nonionic surfactant at 1 to 2 quarts per 100 gallons diluted spray.
677-20230105 Python (CLEAN) Page 19 of 23
Python Plus 2,4-D: For burndown control of susceptible annual and perennial broadleaf weeds prior to planting corn
in reduced tillage systems, apply Python in tank mix combination with a 2,4 -D herbicide labeled for this use. Apply
Python in a tank mix with 2,4-D amine or ester and apply in a minimum of 10 gallons of carrier per acre. When tank
mixing with 2,4- D, read and follow the manufacturers label for applicable use directions, application timing,
precautions, and limitations before use. This tank mixture will not control emerged grasses. Python may provide
suppression of annual grasses if there is sufficient rainfall to move the herbicide into the soil prior to weed
germination. Timely subsequent rainfall is required for optimal herbicidal activity.
Postemergence Applications for Control of Velvetleaf
Apply Python as a broadcast postemergence spray at the rate of 0.46 to 0.93 oz per acre to control emerged
velvetleaf 1 to 8 inches tall. For optimal control, apply when velvetleaf is less than 8 inches tall and actively growing.
Velvetleaf more than 8 inches tall may only be suppressed and recover two to three weeks following application.
Velvetleaf Height
(inches)
Python
(oz/acre)
Python
(lb ai/acre)
1 3 0.46 0.023
1 6 0.7 0.035
1 8 0.93 0.047
Python Followed by Postemergence Applications
Broadleaf weeds not controlled by soil applications of Python may be controlled with sequential postemergence
herbicide products including Hornet® (EPA Reg. No. 5481-678, flumetsulam/clopyralid), Impact® (EPA Reg. No. 5481-
524, topramezone), Impact Core® (EPA Reg. No. 5481-648, topramezone/acetochlor), Impact Z® (EPA Reg. No. 5481-
612, topramezone/atrazine), Sinate ® (EPA Reg. No. 5481 -637, topramezone/glufosinate) or other postemergence
herbicides registered for use on corn (unless prohibited by the label). Follow each manufacturer's label for weeds
controlled, applicable use directions, precautions, and limitations before use.
Soybean
Burndown Applications in Minimum Tillage or No-Tillage Application
When used either alone or in combination in a burndown application, Python with crop oil concentrate, will control
or suppress the following weeds: marestail, common chickweed, field pennycress, and mustard species.
Python Plus Glyphosate: In minimum-tillage or no-tillage situations where soybeans is planted directly into a cover
crop, stale seedbed, or previous crop residues, tank mix Python with contact or non -selective herbicides including
glyphosate. Apply in 10 to 60 gallons of water or liquid fertili zer per acre with ground equipment. Add a nonionic
surfactant at 1 to 2 quarts per 100 gallons diluted spray. Apply before, during (behind the planter), or after planting,
but before the crop emerges.
Python Plus 2,4 -D: For burndown control of susceptible annual and perennial broadleaf weeds prior to planting
soybeans in reduced tillage systems, apply Python in tank mix combination with a 2,4 -D herbicide labeled for this
use. Apply Python in a tank mix with 2,4- D amine or ester and apply in a minimum of 10 gallons of carrier per acre.
When tank mixing with 2,4- D, read and follow the manufacturers label for applicable use directions, application
timing, precautions, and limitations before use. This tank mixture will not control emerged grasses. Python may
provide suppression of annual grasses if there is sufficient rainfall to move the herbicide into the soil prior to weed
germination. Timely subsequent rainfal l is required for optimal herbicidal activity. For soybeans, delay planting of
the crop a minimum of 15 to 30 days following application to avoid potential crop injury from 2,4 -D residues in the
soil. Follow the specified rates, specific planting delays, and other use precautions and limitations on the label of the
2,4-D product used.
677-20230105 Python (CLEAN) Page 20 of 23
Python Plus Metribuzin plus Chlorimuron-ethyl: Tank mix Python with metribuzin plus chlorimuron-ethyl for broad
spectrum weed control. Apply the tank mix as a preplant surface application in minimum or no tillage systems,
preplant incorporated, or preemergence treatment. Apply Python at the rate of 0.8 to 1.25 oz (0.04 to 0.0625 lb a.i.)
per acre with metribuzin plus chlorimurion -ethyl (refer to the product label for use rates and application
information).
P
ython Plus FirstRate®: Tank mix Python with FirstRate Herbicide (EPA Reg. No. 5481-676, cloransulam-methyl) for
broad spectrum weed control. Apply the tank mix as a preplant surface application in minimum or no tillage systems,
preplant incorporated, or preemergence treatment. Apply Python at the rate of 0.8 to 1.33 oz (0.04 to 0.0665 lb.
a.i.) per acre with FirstRate (refer to the product label for use rates and application information) .
P
ostemergence Applications for Control of Teaweed (prickly sida) in Soybeans
Apply 0.125 oz (0.00625 lb a.i.) of Python per acre as a postemergence application for control of teaweed (prickly
sida) in soybeans. Make applications to actively growing teaweed when it has no more than two true leaves (2 inch
maximum height). Weeds too large for optimum control will be suppressed, but may recover after two to three
weeks. Postemergence applications of Python may result in temporary chlorosis, transient leaf yellowing and/or
growth retardation (stunt) of the soybean leaves. These effects will be evident for five to seven days after application
to soybeans under stress. Under favorable growing conditions, the crop will quickly recover.
P
ython Plus FirstRate: Tank mix Python with FirstRate and apply it using ground or aerial application equipment as
a postemergence application to soybeans any time from full emergence of the first trifoliate leaf up to the 50%
flowering stage of growth. Applying this tank mix prior to full emergence of the first trifoliate leaf may cause
temporary yellowing or chlorosis of soybeans. Additional tank mix partners may cause other effects regardless of
the application timing.
A
pplying a postemergence application of Python plus FirstRate may provide residual soil activity on broadleaf weeds
excluding sickl epod. Length and effectiveness of residual activity will vary and is dependent upon timeliness of
rainfall following application (0.5 inches or more is needed within one week), degree of crop/weed canopy
interception of the spray, and remaining reserve of viable ungerminated weed seeds on the soil surface.
Ap
ply 0.12 oz oz (0.006 lb. a.i.) of Python per acre plus FirstRate (refer to the product label for use rates and
application information). A second application of Python at 0.12 oz. (0.006 lb. a.i.) plus FirstRate may be made 14
days after the first. Python plus FirstRate may be applied alone or in tank mix combination with other postemergence
herbicides Apply when weeds are actively growing and before weeds exceed specified growth stages (number of
true leaves per plant); see table below. Applications to larger weeds or to weeds under stress may result in
unsatisfactory control.
T
he following weeds are controlled by a tank mix of Python plus FirstRate. These two products D O NOT control
known ALS resistant biotypes of listed weeds.
W
eeds Leaf Number at Application
(Optimum to Maximum)
Maximum Height
(inches)
Controlled
cocklebur 2 8 6
dayflower, Asiatic
2 6 -- dayflower, marsh
dayflower, spreading
horseweed (marestail)
2 4
6
jimsonweed 4
mallow, Venice <3
marshelder 4 6 10
morningglory (annual) (1) 2 4 6
677-20230105 Python (CLEAN) Page 21 of 23
Weeds Leaf Number at Application
(Optimum to Maximum)
Maximum Height
(inches)
entireleaf
ivyleaf
palmleaf
pitted
red
smallflower
tall
mustard, wild (2) 4
ragweed
common
giant
4 8
4 6 10
sicklepod (3) cotyledon 1 <2
smartweed, Pennsylvania 2 4 6
sunflower, common 4 8 12
teaweed (prickly sida) 1 2 2
velvetleaf 2 4 6
Suppressed
burcucumber 2 4 6
Thistle, Canada -- 10
copperleaf, hophornbeam 1 2 4
Sesbania, hemp cotyledon 1 <1
nutsedge, yellow -- 8
pigweed species
redroot
smooth
spiny
1 2 <1
Numbers in parentheses (-) refer to the following Weed Specific Directions.
W
eed Specific Directions:
1. Apply before morningglory begins to send out runners.
2. For optimum control, apply before wild mustard plants exceed four inches in diameter.
3. Reduced control will result if applications are made to sicklepod plants that are beyond the 1-leaf stage of growth.
Additional herbicide treatment may be required to control sicklepod that germinates after application.
P
ython Followed by Postemergence Applications
Broadleaf weeds not controlled by soil applications of Python in soybeans may be controlled with a sequential
postemergence herbicide products including Assure® II (EPA Reg. No. 5481- 646, quizalofop-P-ethyl), Classic® (EPA
Reg. No. 5481- 436, chlorimuron -ethyl), FirstRate ® (EPA Reg. No. 5481- 676, cloransulam -methyl), or other
postemergence herbicides registered for use on soybeans (unless prohibited by the label). For enhanced control of
sicklepod, apply FirstRate postemergence following application of Python. Follow the manufacturer's labels for
application rates, weeds controlled, additional use directions, precautions, and limitations before use.
P
ython as a Foundation Herbicide in Roundup Ready Soybeans
Python at 0.8 to 1.33 oz (0.04 to 0.0665 lb. a.i.) per acre can be used as a foundation soil herbicide in a planned
sequential program with any glyphosate formulation labeled for use in Roundup Ready soybeans. Use of Python as
a soil foundation to control or suppress key broadleaf weeds listed in the soil applied section of this label will allow
more optimal timing of a glyphosate postemergence treatment. In addition, because of the residual weed control
provided by Python, subsequent postemergence herbicide applications may be unnecessary.
677-20230105 Python (CLEAN) Page 22 of 23
STORAGE AND DISPOSAL
DO NOT contaminate water, food, or feed by storage and disposal.
Pesticide Storage: Store in original container only. In case of leak or spill, contain material with absorbent materials
and dispose as waste.
Pesticide Disposal: Wastes resulting from the use of this product must be disposed of on site or at an approved
waste disposal facility.
Nonrefillable rigid plastic containers 5 gallons or less:
Container Handling: Nonrefillable plastic container. DO NOT reuse or refill this container.
Triple rinse or pressure rinse container (or equivalent) promptly after emptying. Triple rinse as follows: Empty the
remaining contents into application equipment or a mix tank. Fill the container 1/4 full with water and recap. Shake
for 10 seconds. Pour rinsate into application equipment or a mix tank or store rinsate for later use or disposal. Drain
for 10 seconds after the flow begins to drip. Repeat this procedure two more times. Pressure rinse as follows: Empty
the remaining contents into application equipment or a mix tank. Hold container upside down over application
equipment or mix tank or collect rinsate for later use or disposal. Insert pressure r insing nozzle in the side of the
container, and rinse at about 40 psi for at least 30 seconds. Drain for 10 seconds after the flow begins to drip. Then
offer for recycling if available or puncture and dispose of in a sanitary landfill, or by incineration, or by other
procedures allowed by state and local authorities.
Nonrefillable nonrigid plastic containers:
Container Handling: Nonrefillable plastic container. DO NOT reuse or refill this container. Completely empty
container into application equipment. Then offer for recycling if available, or dispose of in a sanitary landfill, or by
incineration, or by other procedures allowed by state and local authorities.
Refillable rigid plastic containers larger than 5 gal:
Container Handling: Refillable plastic container. Refill this container with pesticide only. DO NOT reuse this container
for any other purpose.
Cleaning the container before final disposal is the responsibility of the person disposing of the container. Cleaning
before refilling is the responsibility of the refiller. To clean the container before final disposal, empty the remaining
contents from this container into application equipment or a mix tank. Fill the container about 10% full with water
and, if possible, spray all sides while adding water. If practical, agitate vigorously or recirculate water with the pump
for two minutes. Pour or pump rinsate into application equipment or rinsate collection system. Repeat this rinsing
procedure two more times. Then offer for recycling if avail able, or puncture and dispose of in a sanitary landfill, or
by incineration, or by other procedures allowed by state and local authorities.
Nonrefillable rigid plastic containers larger than 5 gal:
Container Handling: Nonrefillable plastic container. DO NOT reuse or refill this container.
Triple rinse or pressure rinse container (or equivalent) promptly after emptying. Triple rinse as follows: Empty the
remaining contents into application equipment or a mix tank. Fill the container 1/4 full with water. Replace and
tighten closures. Tip container on its side and roll it back and forth, ensuring at least one complete revolution, for
30 seconds. Stand the container on its end and tip it back and forth several times. Turn the container over onto its
other end and tip it back and forth several times. Empty the rinsate into application equipment or a mix tank or store
rinsate for later use or disposal. Repeat this procedure two more times. Pressure rinse as follows: Empty the
remaining contents into application equipment or a mix tank. Hold container upside down over application
equipment or mix tank or collect rinsate for later use or disposal. Insert pressure rinsing nozzle in the side of the
container, and rinse at about 40 psi for at least 3 0 seconds. Drain for 10 seconds after the flow begins to drip. Then
offer for recycling if available, or puncture and dispose of in a sanitary landfill, or by incineration, or by other
procedures allowed by state and local authorities.
LIMITED WARRANTY AND DISCLAIMER
The manufacturer warrants (a) that this product conforms to the chemical description on the label; and (b) that
the directions, warnings, and other statements on this label are based upon responsible experts' evaluations of
677-20230105 Python (CLEAN) Page 23 of 23
reasonable tests of effectiveness, of toxicity to laboratory animals and to plants and residues on food crops,
and upon reports of field experience. Tests have not been made on all varieties of food crops and plants, or in all
states or under all conditions. THIS WARRANTY DOES NOT EXTEND TO THE USE OF THIS PRODUCT CONTRARY TO
LABEL INSTRUCTIONS, OR UNDER CONDITIONS NOT REASONABLY FORESEEABLE.
THERE ARE NO EXPRESS WARRANTIES OTHER THAN THOSE SET FORTH HEREIN. TO THE EXTENT CONSISTENT
WITH APPLICABLE LAW, THE MANUFACTURER NEITHER MAKES NOR INTENDS, NOR DOES IT AUTHORIZE ANY
AGENT OR REPRESENTATIVE, TO MAKE ANY OTHER WARRANTIES, EXPRESS OR IMPLIED, AND IT EXPRESSLY
EXCLUDES AND DISCLAIMS ALL IMPLIED WARRANTIES OF MERCHANTABILITY OF FITNESS FOR A PARTICULAR
PURPOSE, OR ANY WARRANTY OF QUALITY OR PERFORMANCE. THIS WARRANTY DOES NOT EXTEND TO, AND
THE BUYER SHALL BE SOLELY RESPONSIBLE FOR, ANY AND ALL LOSS OR DAMAGE WHICH RESULTS FROM THE
USE OF THIS PRODUCT IN ANY MANNER WHICH IS INCONSISTENT WITH THE LABEL DIRECTIONS,
WARNINGS OR CAUTIONS.
TO THE EXTENT CONSISTENT WITH APPLICABLE LAW, BUYER'S EXCLUSIVE REMEDY AND MANUFACTURER'S OR
SELLER'S EXCLUSIVE LIABILITY FOR ANY AND ALL CLAIMS, LOSSES, DAMAGES, OR INJURIES RESULTING FROM
THE USE OR HANDLING OF THIS PRODUCT, WHETHER OR NOT BASED IN TORT, CONTRACT, NEGLIGENCE,
STRICT LIABILITY IN TORT OR OTHERWISE, SHALL BE LIMITED, AT THE MANUFACTURER'S OPTION, TO
REPLACEMENT OF, OR THE REPAYMENT OF THE PURCHASE PRICE FOR, THE QUANTITY OF PRODUCT WITH
RESPECT TO WHICH DAMAGES ARE CLAIMED. TO THE EXTENT CONSISTENT WITH APPLICABLE LAW,
MANUFACTURER OR SELLER SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES
RESULTING FROM THE USE OR HANDLING OF THIS PRODUCT.
AMVAC offers this product, and Buyer accepts it, subject to the foregoing Limited Warranty which may be varied
o
nly by agreement in writing signed by an authorized representative of AMVAC.
© 2022 AMVAC Chemical Corporation is a wholly owned subsidiary of American Vanguard Corporation. All Rights
Reserved. AMERICAN VANGUARD, AMVAC, ASSURE II, AZTEC, CLASSIC, FIRSTRATE, HORNET, IMPACT, IMPACT CORE,
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ll other trademarks are the property of their respective owners.
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VAC Chemical Corporation
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