Agricultural Chemical Usage 2006 Vegetables Summary

United States Department of Agriculture National Agricultural Statistics Service Agricultural Chemical Usage Vegetables Summary July 7 Ag Ch (7)a

Update Alert The Vegetable Chemical Usage publication released on July, 7 by USDA s National Agricultural Statistics Service (NASS) is being reissued due to corrections in the fertilizer data tables. This problem has impacted the estimates for nitrogen, phosphate, potash, and sulfur published in the rogram States data tables. Fertilizer data for number of applications, rate per crop year, and total applied were updated for vegetable crops surveyed. Table of Contents Overview... Survey Coverage... Agricultural Chemical B Highlights... Agricultural Chemical Tables: Asparagus... Beans, Snap, Fresh...9 Beans, Snap, rocessing...9 Broccoli...8 Cabbage, Fresh... Cantaloupes... Carrots, Fresh... Carrots, rocessing...8 Cauliflower...7 Celery...7 Corn, Sweet, Fresh...8 Corn, Sweet, rocessing... Cucumbers, Fresh... Cucumbers, ickles... Eggplant... Garlic...7 Honeydews... Lettuce, Head... Lettuce, Other... Onions... eas, Green, rocessing...78 eppers, Bell...8 umpkins...98 Spinach, Fresh... Squash...7 Strawberries... Tomatoes, Fresh... Tomatoes, rocessing...8 Watermelons... age Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Agricultural Chemical Distribution B Highlights...77 Agricultural Chemical Distribution Tables: Asparagus...78 Beans, Snap, Fresh...8 Beans, Snap, rocessing...8 Broccoli...8 Cabbage, Fresh...88 Carrots, Fresh...9 Carrots, rocessing...9 Cauliflower...9 Corn, Sweet, Fresh...9 Corn, Sweet, rocessing...98 Cucumbers, Fresh... Cucumbers, ickles... Lettuce, Head... Lettuce, Other...8 Onions... eas, Green, rocessing... eppers, Bell...8 umpkins... Spinach, Fresh... Squash... Strawberries... Tomatoes, Fresh... Tomatoes, rocessing...8 Watermelons... Integrated est Management ractice B Highlights... Survey and Estimation rocedures... Reliability... Terms and Definitions... esticide Class, Common Name, and Trade Name...8 Survey Instrument (esticide and est Management Sections)...7 Report Features...7 Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Overview This publication is the ninth Vegetable Summary in the series of AAgricultural Chemical Usage@ reports issued by the United States Department of Agriculture=s National Agricultural Statistics Service (USDA-NASS). This report contains statistics for on-farm use of commercial fertilizers, agricultural chemicals, and integrated pest management practices from producers of targeted vegetable crops. Chemical application rates listed by active ingredient are also featured in this publication. The agricultural chemical use estimates in this report focus on the acreage treated with herbicides, insecticides, fungicides, and other pesticides for selected vegetable crops. Other publications that have statistics for on-farm agricultural chemical usage have focused on agricultural chemical usage for field crops (May 7) and chemical usage on dairy cattle and dairy cattle facilities (May 7). Chemical use information for fruit is collected in odd numbered years, while vegetable information is collected in even numbered years. More details about these publications and others may be found on the USDA website at http://www.nass.usda.gov/statistics_by_subject /Environmental/index.asp. Information in this report is provided from a survey funded by the USDA esticide Data rogram. The purpose of the esticide Data rogram is to provide reliable pesticide use statistics and to enhance the quality of information on pesticide residues in food. Multiple agencies within the USDA administer this program. This data series addresses the increased public interest in agricultural chemical use and provides the means for government agencies to respond effectively to food safety and water quality issues. This report includes chemical usage information for targeted vegetable crops in 9 States. The States surveyed were: Arizona, California, Colorado, Florida, Georgia, Illinois, Michigan, Minnesota, New Jersey, New York, North Carolina, Ohio, Oregon, ennsylvania, South Carolina, Tennessee, Texas, Washington, and Wisconsin. The targeted crops were: asparagus, snap beans, broccoli, cabbage, cantaloupes, carrots, cauliflower, celery, sweet corn, cucumbers, eggplant, garlic, honeydews, lettuce, onions, green peas, bell peppers, pumpkins, spinach, squash, strawberries, tomatoes, and watermelons. Graphs containing the most commonly applied active ingredients for snap beans, cabbage, sweet corn, cucumbers, onions, green peas, bell peppers, pumpkins, squash, tomatoes, and watermelons have been included in this publication. Each of these commodities has at least States in the survey program. California=s vegetable chemical usage data are reported to the County Agriculture Commissioner=s (CAC) offices by producers. The vegetable crop data collected from the Commissioner=s offices are centered around the State=s mandatory pesticide reporting requirements which screen for the County Agriculture Commissioner ID and CAL-EA site location numbers. Some pesticides are labeled for control of more than one type of pest, i.e., used as an insecticide and as a fungicide. In these instances, the active ingredient is listed under the pesticide class for which it was predominantly used. This report excludes pesticides used for seed treatments and postharvest applications to the commodity. The Active Ingredient and ublication Status tables are provided to show all active ingredients reported in the rogram States. The publication status is determined by confidentiality rules. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

In order to publish data for an active ingredient, there must be a minimum of reports for the specific active ingredient at the summary level (by crop, by State, or all rogram States). If there are or more reports, then the active ingredient data are published and designated as a "" in the table. In cases where there are not enough reports to publish usage data for a given active ingredient, an A@ appears in the table. This means the active ingredient was reported, but there was an insufficient number of reports to publish the data. However, there are certain instances where the "rogram States" total data were suppressed so that a major active ingredient could then be published at the individual State level. If the publication status is blank, there were no reports for the active ingredient for that rogram State. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

AGRICULTURAL CHEMICAL USE SURVEY COVERAGE Crop States Surveyed Reports Summarized U.S. Acreage Included in Survey States Surveyed Reports Summarized U.S. Acreage Included in Survey Number ercent Number ercent Asparagus 7 7 Beans, Snap, Fresh 8 7 77 Beans, Snap, roc. 7 7 77 7 Broccoli 9 9 Cabbage, Fresh 7 9 8 9 8 Cantaloupes 8 9 8 Carrots, Fresh 7 88 8 Carrots, roc. 9 87 9 8 Cauliflower 7 87 8 87 Celery 9 9 Corn, Sweet, Fresh, 8, Corn, Sweet, roc. 9 88 7 87 Cucumbers, Fresh 7 9 9 7 Cucumbers, ickles 7 9 7 99 9 Eggplant N/A N/A N/A Garlic 8 8 8 Honeydews 97 9 9 Lettuce, Head 98 98 Lettuce, Other 78 8 Onions, Bulb 7 9 8 9 7 eas, Green, roc. 8 88 9 88 eppers, Bell 9 8 umpkins 88 8 8 Spinach 9 8 Squash 7 88 8 7 8 Strawberries 8 8 8 Tomatoes, Fresh 7 8 8 7 7 Tomatoes, roc. 9 9 Watermelons 7 7 78 7 7 7 Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Highlights Asparagus: In the three rogram States: California, Michigan, and Washington asparagus growers applied nitrogen to 77 percent of their acreage. They applied phosphate, potash, and sulfur to 7,, and 7 percent of their acreage, respectively., insecticides, and fungicides were applied to 78, 8, and percent of the rogram States acres. The most commonly applied herbicide was Diuron applied to percent of the crop followed by Glyphosate isopropylamine salt and Metribuzin, which were applied to 8 and 7 percent of the acreage, respectively. Carbaryl was the most widely used insecticide, at 8 percent, followed by Disulfoton at percent. Chlorothanlonil was the most commonly used fungicide, applied to percent of the acreage. Snap Beans, Fresh: Six rogram States: California, Florida, Georgia, New York, North Carolina, and Tennessee, covering 8 percent of the U.S. acreage, were included in the survey for fresh market snap beans. Nitrogen, phosphate, potash, and sulfur applications were made on 88, 79, 8, and percent of the acreage, respectively. were applied to 8 percent of the acres. The two active ingredients utilized most were S-Metolachlor and endimethalin, used to treat and percent of the acreage, respectively. Insecticide, fungicide, and other chemical applications were made to 7, 7, and 7 percent of the acres, respectively. The most commonly used insecticides were Acephate and Esfenvalerate, covering and 8 percent of the acreage, respectively. Chlorothalonil was the most widely used fungicide and was applied on percent of the acreage. Azoxystrobin was the next most utilized fungicide being applied to percent of the acreage, followed by Sulfur and Mancozeb on and percent of the acreage, respectively. The only active ingredient published for Other Chemicals was Dichloropropene, at percent. Snap Beans, rocessing: Growers of processed snap beans applied nitrogen to 9 percent of the crop=s acreage. hosphate was applied to 8 percent of the acreage, potash was applied to 8 percent of acreage, while percent of the acreage received sulfur applications. Herbicide applications were reported on 9 percent of the surveyed acres. The herbicides used most were ETC, applied to 9 percent of the acreage, Trifluralin, used on 8 percent of the acreage, and S- Metolachlor, applied to percent of the acreage. were applied to 7 percent of the acres. commonly used included Bifenthrin on percent of the acreage, followed by Acephate and Zeta-cypermethrin, at and percent coverage, respectively. were applied to percent of the acres. Thiophanate-methyl, used on 7 percent of the acres, was the most widely used fungicide. Broccoli: California=s broccoli growers applied nitrogen, phosphate, potash, and sulfur to 9,,, and percent of their acreage, respectively. were used to treat 8 percent of California=s broccoli acreage. The most utilized herbicide was DCA, covering percent of the acreage. were applied to 8 percent of the acres and fungicides were applied to 9 percent of the acres. The most commonly used insecticides were Imidacloprid and Oxydemeton-methyl, both applied to percent of the acreage, followed by Indoxacarb and Spinosad, applied to percent of the acreage. The leading fungicides used were Azoxystrobin and yraclostrobin, applied to 8 and 7 percent of the acreage, respectively. Cabbage: rogram States surveyed for fresh market cabbage included California, Florida, Georgia, New York, North Carolina, Texas, and Wisconsin. Cabbage growers in these seven States applied nitrogen to 9 percent of their acreage, while phosphate, potash, and sulfur were applied to 89, 78 and percent of their acreage, respectively. were applied to percent of the Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

fresh market cabbage acres. The most commonly used herbicides were Trifluralin, at percent, followed by Oxyflurorfen applied to percent of the acreage. were applied to 9 percent of the fresh market cabbage acres. Spinosad and Indoxcarb were the primary insecticides used on and percent of the acreage, respectively. were applied to percent of the acres, with Chlorothalonil and Maneb being the most commonly used active ingredients, at 7 and percent, respectively. Other Chemicals were applied to 8 percent of the acres, however, there were insufficient reports to publish any active ingredient=s data. Cantaloupes: Arizona, California, and Texas cantaloupe growers applied nitrogen to 97 percent of the acreage. hosphate, potash, and sulfur were applied to 89,, and 8 percent of the acreage. were used to treat percent of the acres. Trifluralin and Bensulide were the most common herbicides used on and percent of the acreage, respectively. were applied to 79 percent of the acres, with Imidacloprid and ermethrin being the most commonly used active ingredients, at and percent, respectively. were applied to percent of the acres. The most commonly applied fungicides were Chlorothalonil and Sulfur. Both active ingredients were used to treat percent of the acreage. Other Chemicals were applied to percent of the acres, however, there were insufficient reports to publish any active ingredient=s data. Carrots, Fresh: Nitrogen was applied to 9 percent of the carrot acreage for the three rogram States: California, Michigan, and Texas. Farmers applied phosphate, potash, and sulfur to 9, 7, and 8 percent of their acreage, respectively. were applied to 7 percent of the acres. The two herbicides used most were Linuron, on percent of the acreage, and Trifluralin, on percent of the acreage. were reported on percent of the acres. Esfenvalerate and Diazinon were the most commonly used insecticides, at and percent, respectively. were used on percent of the acres, with Chlorothalonil being the most utilized, covering percent of the acreage. The only active ingredient published for Other Chemicals was Metam-sodium, at 9 percent. Carrots, rocessing: Acreage planted for processing was surveyed in four rogram States: California, Michigan, Washington, and Wisconsin. Nitrogen, phosphate, potash, and sulfur applications were made to 8,, 7, and percent of the planted acreage, respectively. Herbicide applications were reported on 9 percent of the surveyed acres. The herbicides most commonly used were Linuron and Clethodim, at 9 and percent, respectively. were applied to 7 percent of the acres. Esfenvalerate was used most, applied to percent of the acreage. were applied to 8 percent of the acres. Chlorothalonil was the most utilized fungicide, covering 7 percent of the acreage, followed by Copper hydroxide, which was applied to percent of the acreage. The only active ingredient published for Other Chemicals was Metam-sodium, at percent. Cauliflower: For the crop year, California accounted for 87 percent of all the U.S. planted acres in cauliflower and was the only State surveyed. California producers applied nitrogen to 9 percent of the cauliflower acreage while phosphate, potash, and sulfur were applied to 7,, and percent of the acreage, respectively. were applied to percent of the cauliflower acres. The herbicides used most often were Oxyfluorfen, on 9 percent of the acreage, and DCA, on percent. were applied to 77 percent of the surveyed acres. A wide array of insecticides was used which included Indoxacarb, applied to 7 percent of the acreage, Dimethoate, on percent, and Oxydemeton-methyl, on percent of the acreage. Agricultural Chemical Usage Vegetables Summary July 7 7 NASS, USDA

were used on percent of the acres. The only fungicides with publishable data were Chlorothalonil and Maneb, both applied to percent of the acreage. Celery: California's celery growers applied nitrogen to 9 percent of their acreage, while phosphate and potash were applied to 8 and 8 percent of the acreage, respectively. were applied to percent of the planted acres. rometryn was the active ingredient most commonly used, applied to 9 percent of the acreage. were applied to 9 percent of the acres. The most utilized insecticides were Acetamiprid, on percent of the acreage; followed by ermethrin, Cyromazine and Spinosad, applied to 9,, and percent of the acreage, respectively. were applied to 7 percent of the acres. Chlorothalonil was the most commonly utilized fungicide, applied to percent of the acreage; followed by Copper hydroxide, applied to 7 percent acreage; and ropiconazole, applied to percent of the acreage. Corn, Sweet, Fresh: Nitrogen was applied to 9 percent of the fresh market sweet corn acreage in the following rogram States: California, Colorado, Florida, Georgia, Illinois, Michigan, New Jersey, New York, North Carolina, Ohio, Oregon, ennsylvania, Texas, and Wisconsin. hosphate, potash, and sulfur were applied to 9, 8, and percent of the acreage, respectively. were applied to 8 percent of the fresh market sweet corn acres. Atrazine was used on 7 percent of the acreage, followed by S-Metolachlor on 9 percent. were applied to 88 percent of the surveyed acres. The most common insecticides applied were Methomyl, on percent of the acreage; Lambda-cyhalothrin, applied to percent of the acreage; and Chlorpyrifos and Thiodicarb which were both applied to percent of the acreage. were used on percent of the acres. The most commonly used fungicides were Mancozeb and ropiconazole, both of which were applied to percent of the acreage. Corn, Sweet, rocessing: rocessed sweet corn was surveyed in five rogram States: Minnesota, New York, Oregon, Washington, and Wisconsin. Nitrogen, phosphate, potash, and sulfur applications were made to 9, 7,, and percent of the planted acreage, respectively. were used on 8 percent of the surveyed acres. The most commonly used herbicides were Atrazine, S-Metolachlor, and Dimethenamid-, on, 7, and percent of the acreage, respectively. were used on 7 percent of the surveyed acres. The two insecticides most commonly applied were Bifenthrin, on percent, and Zeta-cypermethrin, on percent of the acreage. were used on 8 percent of the rogram States acres. Azoxystrobin was the leading fungicide, as it was applied to percent of acreage, followed by ropiconazole and yraclostrobin, both of which were applied to percent of the acreage. Cucumbers, Fresh: Seven rogram States: California, Florida, Georgia, Michigan, New Jersey, New York, and North Carolina, covering 9 percent of the U.S. acreage, were included in the survey for fresh market cucumbers. Nitrogen, phosphate, potash, and sulfur applications were made on 9,, 9, and percent of the acreage, respectively. were applied to percent of the acres, with Ethalfuralin and Clomozone being the most commonly used active ingredients, at 7 and 8 percent, respectively. and fungicides were both applied to 7 percent of the rogram States acres. The leading insecticides used were Esfenvalerate on percent of the acreage, Endosulfan on percent, and Methomyl on percent of the acreage. Chlorothalonil was the fungicide predominantly used, applied to percent of the acreage. Maneb and Cymoxanil were applied to and 7 percent of the acreage, respectively. Other Chemicals were applied to percent of the acres. Dichloropropene, the most utilized Other Chemical, was applied to percent of acreage. Agricultural Chemical Usage Vegetables Summary July 7 8 NASS, USDA

Cucumbers, ickles: ickle cucumber acreage was surveyed in seven rogram States: Florida, Michigan, North Carolina, Ohio, South Carolina, Texas, and Wisconsin. Nitrogen, phosphate, potash, and sulfur applications were made on 9, 8, 7, and 7 percent of the pickle cucumber acreage. were applied to 8 percent of the acres. The three leading herbicides used were Ethalfluralin, on 8 percent of the acreage, Clomazone, on percent, and Halosulfuron, on percent of the acres. were applied to percent of the acres. Esfenvalerate was the most utilized insecticide, as it was applied to percent of the rogram States acreage. were applied to 8 percent of the acres with Chlorothalonil being used most, covering percent of the acreage. Cymoxanil, Famoxadone, and Mancozeb were used on percent of the acreage. Eggplant: New Jersey's eggplant growers applied nitrogen to 99 percent of their acreage. hosphate was applied to 9 percent of the acres, while 99 percent of the acreage was treated with potash. Herbicide, insecticide, and fungicide applications were made on 8, 8, and percent of the acres, respectively. The only herbicide with publishable data was Napropamide, used on 8 percent of the acreage. The most commonly used insecticides were Spinosad, Imidacloprid, and Oxamyl, covering 7, 7, and percent of the acreage, respectively. Copper hydroxide and Maneb were the two most commonly used fungicides, applied to 8 and 9 percent of the acreage, respectively. Garlic: California=s garlic growers applied nitrogen, phosphate, and potash to 98, 88, and percent of their acreage, respectively. were used to treat 9 percent of the acres, with Oxyfluorfen being the most utilized active ingredient covering 9 percent of the acreage. were applied to percent of the planted acres. The only insecticide with publishable data was Zeta-cypermethrin, used on 8 percent of the acreage. were applied to percent of the acres. The two fungicides used most were Tebaconazole, on 8 percent of the acreage, and Azoxystrobin, on percent of the acreage. Honeydews: Arizona and California were the only States surveyed for honeydews. Growers applied nitrogen to 9 percent of the acreage, while phosphate was applied to 8 percent of the acreage. At the rogram States level the active ingredient Trifluralin was the only herbicide with publishable data, covering percent of the acreage. The most commonly used insecticides were Imidacloprid and Benzoic acid, on 9 and 9 percent of the acres, respectively. The only fungicides published at the rogram State level were Sulfur and Triflumizole, used on and 7 percent of the acres, respectively. Lettuce, Head: Growers of head lettuce in Arizona and California applied nitrogen to 98 percent of the acreage. hosphate, potash, and sulfur were applied to 8,, and percent of the acreage. California and Arizona growers applied herbicides to percent of the acres. The most commonly applied active ingredients were ronamide, applied to percent of the acreage, followed by Bensulide, applied to percent of the acreage. were used on 98 percent of the acres. The most commonly used insecticides were Zeta-cypermethrin, on 7 percent of the planted acreage; Spinosad, on 7 percent, and Imidacloprid, on percent of the acreage. were applied to 87 percent of the acres. Maneb was the most widely used, applied to 7 percent of the acreage, followed by Dimethomorph and Iprodione, applied to and 9 percent, respectively. Other Chemicals were applied to percent of the acres, however, there were insufficient reports to publish any active ingredient=s data. Agricultural Chemical Usage Vegetables Summary July 7 9 NASS, USDA

Lettuce, Other: Arizona and California other lettuce growers applied nitrogen and phosphate to 9 and 8 percent of their acreage, respectively. were used on percent of the acres, with ronamide being the most utilized active ingredient, covering percent of the acreage, followed by Bensulide, used to treat 8 percent of the acreage. were applied to 9 percent of the acres. used include Zeta-cypermethrin, on percent, Imidacloprid, on percent, Spinosad, on percent, and Diazinon, on percent of the acreage. were applied to 7 percent of the acres. Maneb was the leading fungicide, as it was applied to percent of the acreage. The only active ingredient with publishable data for Other Chemicals was Acibenzolar-S-Methyl, on percent of the acreage. Onions: The seven rogram States: California, Georgia, New York, Oregon, Texas, Washington, and Wisconsin applied nitrogen to 9 percent of the planted acreage, while phosphate, potash, and sulfur were applied to 79,, and 8 percent of the acreage, respectively. were applied to 79 percent of the bulb onion acres. Insecticide, fungicide, and other chemical applications were made to 78, 7, and 8 percent of the acres, respectively. Major herbicides used were Oxyfluorfen, applied to 9 percent of the acreage; followed by endimethalin, applied to 7 percent; and Bromoxynil, applied to percent of the acreage. The more commonly used insecticides were Lambda-cyhalothrin and Chlorpyrifos, covering and percent of the acreage, respectively. Mancozeb was the most widely used fungicide and was applied to 8 percent of the acreage, followed by Chlorothalonil, applied to percent of the acreage. Maleic hydrazide, the most commonly used Other Chemical, was applied to percent of the acreage. eas, Green, rocessing: Nitrogen was applied to 9 percent of the processed green pea acreage in the rogram States: Minnesota, New York, Oregon, Washington, and Wisconsin. hosphate, and potash application were both made on percent of the acreage, while sulfur was applied to percent of the acreage. were applied to 9 percent of the surveyed acres. The most common herbicides applied were endimethalin, on percent of the acreage; Imazethapyr, applied to 7 percent of the acreage; and Bentazon, applied to percent of the acreage. were applied to 9 percent of the planted acres for processed green peas. Dimethoate was applied to percent of the acreage. were applied to percent of the acres. The only fungicide with publishable data was Azoxystrobin, used on percent of the acreage. eppers, Bell: Bell pepper growers in the five rogram States: California, Florida, Georgia, New Jersey, and North Carolina applied nitrogen to 99 percent of the acreage, while phosphate, potash, and sulfur were applied to 87, 9, and percent, respectively. were applied to 7 percent of the acres. The most commonly applied herbicides were S-Metolachlor and Glyphosate isopropylamine salt, applied to 7 and percent of the acreage, respectively. were applied to 9 percent of the acres. Spinosad was applied on percent of the acreage; Imidacloprid, on percent; Acephate, on percent of the acreage; and Benzoic acid, on percent of the acreage. were used on 8 percent of the acres. The leading fungicides used were Copper hydroxide, on percent of the acreage; Maneb, on percent of the acreage; Azoxystrobin, on percent of the acreage; and yraclostrobin, on percent of the acreage. Other Chemicals were applied to percent of the acres. Chloropicrin and Hydrogen peroxide were applied on 7 and 7 percent of the acreage, respectively. umpkins: Nitrogen was applied to 9 percent of the pumpkin acreage in the rogram States: California, Illinois, Michigan, Ohio, and ennsylvania. hosphate, potash, and sulfur applications were made on 9, 8, and percent of the acreage, respectively. were applied to 7 percent of the acres planted to pumpkins, while insecticide and fungicide applications were Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

made to 79 and 7 percent of the acres, respectively. Major herbicides used included Clomazone, applied to percent of the acreage, followed by Ethalfluralin, applied to percent of the acreage. The more commonly used insecticides were Bifenthrin, Carbaryl, and Endosulfan, covering, 8, and percent of the acreage, respectively. Chlorothalonil was the most widely used fungicide and was applied on 8 percent of the acreage. Copper hydroxide was the next most utilized fungicide, applied to 8 percent of the acreage, followed by Azoxystrobin, on percent of the acreage. Spinach: Spinach growers in the three rogram States, Arizona, California, and Texas, applied nitrogen to 9 percent of their acreage, while phosphate, potash, and sulfur were applied to 8, 9 and percent, respectively. and insecticides were applied to and 7 percent of the acres, respectively. The only herbicide with publishable data was S-Metolachlor, used on percent of the acreage. Spinosad was the most widely used insecticide, at 7 percent, followed by ermethrin, at percent, and Zeta-cypermethrin, at 9 percent of the acres. were used on percent of the acres. Mefenoxam and yraclostrobin were the primary fungicides used on 8 and percent of the acreage, respectively. Other Chemicals were used to treat percent of the acres. The only Other Chemical with publishable data, Acibenzolar-S-Methyl, was used on percent of the acreage. Squash: Squash growers in the six rogram States: California, Florida, Georgia, Michigan, New Jersey, New York, and North Carolina applied nitrogen to 9 percent of the acreage, while phosphate, potash, and sulfur applications were made to, 8, and percent of the acreage, respectively. were applied to percent of the acres. The most commonly applied herbicides, Ethalfluralin and Clomazone, were used to treat and percent of the acreage. were applied to 7 percent of the acres. The most commonly applied insecticides, Esfenvalerate and etroleum distillate, were used to treat percent of the acreage. were applied to 7 percent of the acres. Chlorothalonil was the most widely used fungicide, on percent of the acreage. Other fungicides included: Maneb was used on percent of the acreage, and Cymoxanil, Famoxadone, and Mancozeb, were applied to percent of the acreage. Other Chemicals were applied to percent of the acres and Dichloropropene, applied to percent of the acreage, was the most common. Strawberries: Nitrogen was applied to 97 percent of the strawberry acreage in the four rogram States: California, Florida, Oregon, and Washington. hosphate, potash, and sulfur applications were made on 88, 9, and percent of the acreage, respectively. were used to treat percent of the planted acres. Sulfentrazone was the most commonly applied on 7 percent of the acreage; followed by Glyphosate isopropylamine salt and Napropamide, both applied to percent of the acreage. were applied to 8 percent of the acres with Spinosad and Methyl bromide being the most utilized active ingredients, covering and 9 percent of the acreage, respectively. Bifenazate and Methomyl were applied to percent of the acreage. were applied to 89 percent of the acres. Captan was the most commonly applied fungicide, at 7 percent; followed by yraclostrobin on percent; and Sulfur on percent of the acreage. Other Chemicals were used to treat percent of the acres. Chloropicrin, the most commonly used Other Chemical, was used on percent of the acreage. Tomatoes, Fresh: For the crop year, seven rogram States, California, Florida, Georgia, New Jersey, North Carolina, Ohio, and Tennessee, were surveyed for tomatoes. Nitrogen, phosphate, potash, and sulfur were applied to 98, 9, 9, and 7 percent of the acreage, respectively. were used on percent of the acres. Metribuzin was the most Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

commonly applied herbicide being used on percent of the acreage, followed by araquat on 7 percent of the acreage. were applied to 8 percent of the acres. Endosulfan was used on percent of the acreage; Esfenvalerate, on percent of the acreage; and Methyl bromide, on percent. were applied to 8 percent of the acres. The leading fungicides were Chlorothalonil, on percent of the acreage, followed by Copper hydroxide and Mancozeb, both applied to 7 percent of the acreage. Other Chemicals were applied to 7 percent of the acres. Chloropicrin was applied on percent of the acreage. Tomatoes, rocessing: California was the only state surveyed for processed tomatoes. Nitrogen, phosphate, potash, and sulfur were applied to 98, 77,, and percent of the acreage, respectively. were applied to percent of the processed tomato acres. The leading herbicides used were Trifluralin, on percent of the acreage, S-Metolachlor, on 8 percent, and Rimsulfuron, on percent. were applied to 7 percent of the acres. Dimethoate and Indoxacarb were the most commonly applied insecticides on and percent of the acreage, respectively. were applied to 7 percent of the acres. Sulfur was the most utilized fungicide, as it was applied to percent of California=s planted acreage. Other Chemicals were applied to percent of the planted acres, with Ethephon being the most commonly applied on percent. Watermelons: In the seven rogram States (Arizona, California, Florida, Georgia, North Carolina, South Carolina, and Texas) watermelon growers applied nitrogen to 98 percent of their acreage. hosphate was applied to 87 percent of the acreage, while potash was applied to 8 percent of the acreage. Sulfur applications were made to percent of the acreage. were applied to 8 percent of the planted acres, while percent of the acres was treated with insecticides. were applied to 8 percent of the acres, while percent of the acres was treated with Other Chemicals. Ethalfluralin was the most commonly applied herbicide, at percent, followed by Naptalam and Trifluralin, on 7 percent of the acreage. The insecticide Imidacloprid was applied to percent of the acreage, followed by Esfenvalerate, to 9 percent, and Endosulfan, to 8 percent of the acreage. Chlorothalonil was the most utilized fungicide, covering percent of the acreage, followed by Mancozeb, which was applied to percent of the acreage. Metamsodium and Dichloropropene were the two most commonly used Other Chemicals, applied to and percent of the acreage, respectively. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

CA MI WA State Asparagus: Fertilizer Use by State, ercent of Acres Treated and lanted ercent of Acres Treated and Acreage Nitrogen hosphate otash Sulfur Acres ercent, lbs. ercent, lbs. ercent, lbs. ercent, lbs.,, 9, 97 77,9. 8.,8.8 9 7 8 97.7.. 9 8.,..9 7.9 9.8.8, 77,. 7.,. 7. rimary Nutrient Asparagus: Fertilizer rimary Nutrient, rogram States and, lanted Acreage Acres ercent Number ounds per Acre ounds per Acre, lbs. California Nitrogen hosphate otash Sulfur, 9.... 9 7 9,9. 97.7 8..9 Michigan Nitrogen hosphate otash Sulfur, 97 7 9.... 9 9 8..,. 9.8 Washington Nitrogen hosphate otash Sulfur 9, 77 8 7....7 9 7 7 8,8.8..9.8 rogram States Nitrogen hosphate otash Sulfur, 77 7 7...7. 9 9 7,..,.. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Asparagus: Active Ingredients and ublication Status By rogram States, rogram States ALL CA MI WA,-D, dieth. salt,-d, dimeth. salt Bromoxynil Clethodim Clopyralid Dicamba, digly. salt Dicamba, sodium salt Diuron Fluazifop--butyl Glyphosate amm. salt Glyphosate iso. salt Halosulfuron Linuron Metolachlor Metribuzin Norflurazon araquat endimethalin ropachlor S-Metolachlor Sethoxydim Sulfentrazone Terbacil Trifluralin Abamectin Azadirachtin Bt subsp. kurstaki Carbaryl Carbofuran Chlorpyrifos Cyfluthrin Diazinon Dicofol Dimethoate Disulfoton Emamectin benzoate Esfenvalerate Imidacloprid Malathion Methomyl ermethrin See footnote(s) at end of table. --continued Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Asparagus: Active Ingredients and ublication Status By rogram States, (continued) Active Ingredient rogram States ALL CA MI WA (continued) hosmet yrethrins Spinosad Thiacloprid Thiamethoxam Chlorothalonil Mancozeb Maneb Myclobutanil Sulfur Tebuconazole Other Chemicals Dichloropropene Metam-sodium Usage data are published for this active ingredient. Usage data are not published for this active ingredient. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

State Asparagus: lanted Acreage, esticide, ercent of Receiving and, rogram States and, lanted Receiving and Acreage Herbicide Insecticide Fungicide Other Acres ercent, lbs. ercent, lbs. ercent, lbs. ercent, lbs. CA MI WA,, 9, 7 97 7 7. 7. 7. 9 9.7.9. 89 9..7. ( ), 78. 8 7. 97. ( ) excludes Bt's (Bacillus thuringiensis) and other biologicals. Quantities are not available because amounts of active ingredient are not comparable between products. Insufficient reports to publish data for pesticide class. Active Ingredient Asparagus: Agricultural Chemical, rogram States, ercent Number ounds per Acre ounds per Acre, lbs.,-d, dimeth. salt Diuron Fluazifop--butyl Glyphosate amm. salt Glyphosate iso. salt Halosulfuron Linuron Metribuzin araquat S-Metolachlor Sulfentrazone Terbacil Trifluralin 8 7 9 9..............8..8..9..7.9...9.9.8.78..8.8.8..78.9.88.9.7.9..9 7... 7.. 7..9...9. 8.8 Carbaryl Chlorpyrifos Disulfoton Malathion ermethrin 8.....8.78.98..89..8.9..7.9....8. Chlorothalonil Mancozeb Sulfur Tebuconazole lanted acreage in for the rogram States was, acres. States included are CA, MI, and WA..7.8...9.9.8..97.9 9.. 7..9.. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Asparagus: Agricultural Chemical, California, ercent Number ounds per Acre ounds per Acre, lbs. Diuron Glyphosate iso. salt Linuron Metribuzin Sethoxydim Trifluralin.......7.9.7.9..7.88.8..7.8.877..8 7.... Chlorpyrifos Disulfoton lanted acreage in for California was, acres....9..8.7.. Active Ingredient Asparagus: Agricultural Chemical, Michigan, ercent Number ounds per Acre ounds per Acre, lbs.,-d, dimeth. salt Diuron Fluazifop--butyl Glyphosate iso. salt Metribuzin araquat Sulfentrazone Terbacil 8 89 89 7.........97..7.798.9.88.9.9.9.87.7...88.7.9.....8..9. Carbaryl ermethrin 88 9..8.8...9.9. Chlorothalonil Mancozeb Tebuconazole 77 8 lanted acreage in for Michigan was, acres..7...9...97.98. 7..7. Agricultural Chemical Usage Vegetables Summary July 7 7 NASS, USDA

Active Ingredient Asparagus: Agricultural Chemical, Washington, ercent Number ounds per Acre ounds per Acre, lbs. Diuron Glyphosate iso. salt Metribuzin...8.8.8.797.89.9.8 7...7 Mancozeb lanted acreage in for Washington was 9, acres...7.. Agricultural Chemical Usage Vegetables Summary July 7 8 NASS, USDA

CA FL GA NY NC TN State Snap Beans, Fresh: Fertilizer Use by State, ercent of Acres Treated and lanted ercent of Acres Treated and Acreage Nitrogen hosphate otash Sulfur Acres ercent, lbs. ercent, lbs. ercent, lbs. ercent, lbs. 7,7,,,7 7, 9, 9 87 89 7 99.,.7,. 9. 7.. 77 89 7 9 7.,77.7,.7. 77..7 7 8 8 7 99.9,.8,7..9 97..9 ( ) ( ) ( ) ( ) 7. 88, 88,89. 79,. Insufficient reports to publish data for the fertilizer primary nutrient. 8 7,8. 7. Agricultural Chemical Usage Vegetables Summary July 7 9 NASS, USDA

rimary Nutrient Snap Beans, Fresh: Fertilizer rimary Nutrient, rogram States and, lanted Acreage Acres ercent Number ounds per Acre ounds per Acre, lbs. California Nitrogen hosphate otash Sulfur 7,7 9 77 7.8.. 8. 7..9 Florida Nitrogen hosphate otash Sulfur, 87 8... 9 87 8 9,.7,77.7,.8 Georgia Nitrogen hosphate otash Sulfur, 89 89 8..7.9 8,.,.7,7. New York Nitrogen hosphate otash Sulfur,7 7 7 7... 8 9 7 9...9 North Carolina Nitrogen hosphate otash Sulfur 7, 99 9 99.8.7.. 9 7 7. 77. 97. 7. Tennessee Nitrogen hosphate otash 9,.....7.9 rogram States 88, Nitrogen hosphate otash Sulfur Insufficient reports to publish fertilizer data. 88 79 8.... 8 8,89.,. 7,8. 7. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, Fresh: Active Ingredients and ublication Status By rogram States, rogram States ALL CA FL GA NY NC TN Atrazine Bensulide Bentazon Clethodim Clomazone DCA ETC Ethalfluralin Fomesafen Glyphosate iso. salt Halosulfuron Imazethapyr Lactofen Metolachlor araquat endimethalin S-Metolachlor Sethoxydim Trifluralin Acephate Aldicarb Aluminum phosphide Azadirachtin Azinphos-methyl Benzoic acid Bifenthrin Bt subsp. aizawai Bt subsp. kurstaki Canola oil Carbaryl Chlorpyrifos Cyfluthrin Cyromazine Diazinon Dicofol Dimethoate Disulfoton Endosulfan Esfenvalerate Gamma-cyhalothrin Imidacloprid See footnote(s) at end of table. --continued Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, Fresh: Active Ingredients and ublication Status By rogram States, (continued) rogram States ALL CA FL GA NY NC TN (continued) Lambda-cyhalothrin Malathion Methomyl Oxamyl ermethrin etroleum distillate yrethrins yriproxyfen Rotenone Spinosad Zeta-cypermethrin Azoxystrobin Bacillus subtilus Basic copper sulfate Boscalid Chlorothalonil Copper hydroxide Copper sulfate Cymoxanil Dicloran Etridiazole Famoxadone Iprodione Mancozeb Mefenoxam Metalaxyl Myclobutanil CNB otassium bicarbon. ropiconazole yraclostrobin Sulfur Tebuconazole Thiophanate-methyl Triforine Other Chemicals Chloropicrin Dichloropropene Diphacinone GABA See footnote(s) at end of table. --continued Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, Fresh: Active Ingredients and ublication Status By rogram States, (continued) rogram States ALL CA FL GA NY NC TN Other Chemicals (continued) Hydrogen peroxide L-Glutamic acid Metam-sodium Methyl bromide Usage data are published for this active ingredient. Usage data are not published for this active ingredient. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

State Snap Beans, Fresh: lanted Acreage, esticide, ercent of Receiving and, rogram States and, lanted Receiving and Acreage Herbicide Insecticide Fungicide Other Acres ercent, lbs. ercent, lbs. ercent, lbs. ercent, lbs. CA FL GA NY NC TN 7,7,,,7 7, 9, 9 9 8.. 7..9 9. 9. 88 7 9 99.7.8.9... 9 9 9 8. 9. 77... ( ) ( ) ( ) 9. 88, 8. 7 8. 7.7 7 excludes Bt's (Bacillus thuringiensis) and other biologicals. Quantities are not available because amounts of active ingredient are not comparable between products. Insufficient reports to publish data for pesticide class.. ercent Snap Beans, Fresh-ercent of Acres Treated and Top Active Ingredients for ercent Treated Chlorothalonil S-Metolachlor Azoxystrobin Acephate Esfenvalerate Active Ingredient () lbs. 9 8 7 Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, Fresh: Agricultural Chemical, rogram States, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon ETC Glyphosate iso. salt araquat endimethalin S-Metolachlor Sethoxydim Trifluralin 8.........8...99..8.7.7.8...99.8..8.9.9..9.....8 Acephate Bifenthrin Bt subsp. kurstaki Carbaryl Dimethoate Endosulfan Esfenvalerate Imidacloprid Lambda-cyhalothrin Methomyl ermethrin Spinosad Zeta-cypermethrin 8.....7.........7.7.9....8.7.9.9.8...8..7.88.9.9..78..89. 9.9..7.7.9.8. ( ).9 ( ).. Azoxystrobin Chlorothalonil Copper hydroxide Mancozeb Mefenoxam Metalaxyl Myclobutanil yraclostrobin Sulfur Thiophanate-methyl 7 7..7....7.......79...7...77.8.7.8....8...89.9. 7.....7. ( ) 7.9. Other Chemicals Dichloropropene. 8.8 8.8 9. applied is less than. percent. lanted acreage in for the rogram States was 88, acres. States included are CA, FL, GA, NY, NC, and TN. Rates and total applied are not available because amounts of active ingredient are not comparable between products. applied is less than lbs. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, Fresh: Agricultural Chemical, California, ercent Number ounds per Acre ounds per Acre, lbs. Spinosad 8..8.89. lanted acreage in for California was 7,7 acres. Active Ingredient Snap Beans, Fresh: Agricultural Chemical, Florida, ercent Number ounds per Acre ounds per Acre, lbs. S-Metolachlor Trifluralin...98..98..7. Acephate Bt subsp. kurstaki Carbaryl Endosulfan Methomyl 7.....8.8.99.7...97..9.7.7.. Azoxystrobin Chlorothalonil Sulfur 7 7...8.9.9.89..9.7 lanted acreage in for Florida was, acres. Rates and total applied are not available because amounts of active ingredient are not comparable between products..9.9. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, Fresh: Agricultural Chemical, Georgia, ercent Number ounds per Acre ounds per Acre, lbs. endimethalin S-Metolachlor Trifluralin 7 8....7.98.9.7.8.9.9.9.8 Acephate Carbaryl Esfenvalerate.7...7.8...7.7 8. ( ). Chlorothalonil.... Other Chemicals Dichloropropene applied is less than. percent. lanted acreage in for Georgia was, acres. applied is less than lbs.. 8.8 8.8 9. Active Ingredient Snap Beans, Fresh: Agricultural Chemical, New York, ercent Number ounds per Acre ounds per Acre, lbs. endimethalin S-Metolachlor Trifluralin lanted acreage in for New York was,7 acres.....8.9.8.8.9.8... Agricultural Chemical Usage Vegetables Summary July 7 7 NASS, USDA

Active Ingredient Snap Beans, Fresh: Agricultural Chemical, North Carolina, ercent Number ounds per Acre ounds per Acre, lbs. endimethalin S-Metolachlor Trifluralin......7...7... Acephate Carbaryl Endosulfan Esfenvalerate 8 lanted acreage in for North Carolina was 7, acres. applied is less than lbs.....8.7.87.89..7.97.9.8... ( ) Active Ingredient Snap Beans, Fresh: Agricultural Chemical, Tennessee, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon Sethoxydim 8 7...87.8.87.8..9 Carbaryl Endosulfan Esfenvalerate ermethrin 99.8.....8.8.7..8... ( ). ( ) Azoxystrobin Chlorothalonil Myclobutanil applied is less than. percent. lanted acreage in for Tennessee was 9, acres. applied is less than lbs..7...8..9.9.7..7 9. ( ) Agricultural Chemical Usage Vegetables Summary July 7 8 NASS, USDA

IL MI NY OR A WI State Snap Beans, roc.: Fertilizer Use by State, ercent of Acres Treated and lanted ercent of Acres Treated and Acreage Nitrogen hosphate otash Sulfur Acres ercent, lbs. ercent, lbs. ercent, lbs. ercent, lbs.,8 9,, 8,9,9 7, 97 9 98 99 9,8.9.7 7.,..,9. 8 88 99 8..7,8.9,..9,7.9 7 8 9 99 89 7. 8.,.,9..,87.8 ( ) ( ) 7 8 7.9 7. 8. 78.7, 9 9,9. 8 7,. Insufficient reports to publish data for the fertilizer primary nutrient. 8 9,.,9. Agricultural Chemical Usage Vegetables Summary July 7 9 NASS, USDA

rimary Nutrient Snap Beans, roc.: Fertilizer rimary Nutrient, rogram States and, lanted Acreage Acres ercent Number ounds per Acre ounds per Acre, lbs. Illinois Nitrogen hosphate otash Sulfur,8 97 7..7. 8 7 7,8.9. 7. Michigan Nitrogen hosphate otash Sulfur 9, 9 8 8.8... 7.7.7 8. 7.9 New York Nitrogen hosphate otash Sulfur,... 8 9 7.,8.9,. Oregon Nitrogen hosphate otash Sulfur 8,9 98 88 9.... 7 89 78,.,.,9. 7. ennsylvania Nitrogen hosphate otash Sulfur,9 99 99 99 7.... 7 7..9. 8. Wisconsin Nitrogen hosphate otash Sulfur 7, 9 8 89 8....8 77 7 7 8,9.,7.9,87.8 78.7 rogram States, Nitrogen hosphate otash Sulfur Insufficient reports to publish fertilizer data. 9 8 8.9... 7 9 7 9,9. 7,. 9,.,9. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, roc.: Active Ingredients and ublication Status By rogram States, rogram States ALL IL MI NY OR A WI,-D, -EHE Bentazon Carfentrazone-ethyl Clethodim Clomazone ETC Fomesafen Glyphosate iso. salt Halosulfuron Imazamox Imazethapyr Imazethapyr, ammon. Lactofen MCB Metolachlor Napropamide araquat endimethalin Quizalofop--ethyl S-Metolachlor Sethoxydim Sulfosate Trifluralin Acephate Azinphos-methyl Bifenthrin Bt subsp. kurstaki Carbaryl Carbofuran Chlorpyrifos Dimethoate Disulfoton Esfenvalerate Ethoprop Imidacloprid Lambda-cyhalothrin Methomyl Methyl parathion ermethrin yrethrins Zeta-cypermethrin See footnote(s) at end of table. --continued Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, roc.: Active Ingredients and ublication Status By rogram States, (continued) rogram States ALL IL MI NY OR A WI Azoxystrobin Bacillus subtilus Boscalid Captan Chlorothalonil Coniothyrium minitan Copper hydroxide Copper oxide Cyprodinil Fludioxonil Iprodione Maneb Mefenoxam Myclobutanil yraclostrobin Sulfur Thiophanate-methyl Other Chemicals Cytokinins Dodecadien--ol Ethephon Metaldehyde Usage data are published for this active ingredient. Usage data are not published for this active ingredient. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

State Snap Beans, roc.: lanted Acreage, esticide, ercent of Receiving and, rogram States and, lanted Receiving and Acreage Herbicide Insecticide Fungicide Other Acres ercent, lbs. ercent, lbs. ercent, lbs. ercent, lbs. IL MI NY OR A WI,8 9,, 8,9,9 7, 97 97 9 9 9.. 8. 9. 9.7 9. 9 88 88 89 7 7..7.8... 8 9 9.9. 97...9. ( ) ( ), 9 9. 7 8... excludes Bt's (Bacillus thuringiensis) and other biologicals. Quantities are not available because amounts of active ingredient are not comparable between products. Insufficient reports to publish data for pesticide class. ercent Snap Beans, roc. - ercent of Acres Treated and Top Active Ingredients for Bifenthrin ETC Trifluralin Thiophanatemethyl Active Ingredient ercent Treated S-Metolachlor () lbs. 8 8 Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, roc.: Agricultural Chemical, rogram States, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon ETC Fomesafen Glyphosate iso. salt Halosulfuron Imazamox Imazethapyr Imazethapyr, ammon. Lactofen endimethalin Quizalofop--ethyl S-Metolachlor Sethoxydim Trifluralin 7 9 7 8 8................9.87.98......7..7.8.7.79..9.9.....9.88..7.9.7. 9.. 7..9.....7. 7... Acephate Bifenthrin Carbaryl Dimethoate Esfenvalerate Ethoprop Lambda-cyhalothrin ermethrin Zeta-cypermethrin 9 7 8............9.....7..9.9....8..7... 9.7.. 8.... Boscalid Chlorothalonil Copper hydroxide Iprodione Thiophanate-methyl 8 7 lanted acreage in for the rogram States was, acres. States included are IL, MI, NY, OR, A, and WI.......8.8.79.7.9..877..8..8 9..8. 79. Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, roc.: Agricultural Chemical, Illinois, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon endimethalin S-Metolachlor 8 8 8.8.8..98.79.9...97.7 8.7.9 Bifenthrin Zeta-cypermethrin 9.7......8. Copper hydroxide Thiophanate-methyl lanted acreage in for Illinois was,8 acres....9..8.9 9..8 Active Ingredient Snap Beans, roc.: Agricultural Chemical, Michigan, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon ETC Fomesafen Glyphosate iso. salt S-Metolachlor Trifluralin 8 7 9 7........8.7.77.89.79..8.77.77.89.79.7.7.... Acephate Carbaryl Lambda-cyhalothrin 8 lanted acreage in for Michigan was 9, acres. applied is less than lbs..9...98.99.9.8.9.. 8.7 ( ) Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, roc.: Agricultural Chemical, New York, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon Fomesafen S-Metolachlor Trifluralin 8 7 78.....7.8.9...87.9....8 8.7 Thiophanate-methyl 9 lanted acreage in for New York was, acres..8.9.8. Active Ingredient Snap Beans, roc.: Agricultural Chemical, Oregon, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon ETC Glyphosate iso. salt Imazamox Lactofen S-Metolachlor Sethoxydim Trifluralin 9 8 9 7.........8.....8...9.7.79..9.87.8.78. 8.8... 8..8.7 Carbaryl Esfenvalerate Ethoprop 7....79.7..79..8.9. 8. Boscalid Iprodione Thiophanate-methyl lanted acreage in for Oregon was 8,9 acres. 7 8 8.....77...88.9... Agricultural Chemical Usage Vegetables Summary July 7 NASS, USDA

Active Ingredient Snap Beans, roc.: Agricultural Chemical, ennsylvania, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon Fomesafen Glyphosate iso. salt Halosulfuron S-Metolachlor Sethoxydim 9 88.......9..8.9..8.9.97.8.9.7..7..... Acephate Bifenthrin 8...9..9... Boscalid lanted acreage in for ennsylvania was,9 acres.....8 Active Ingredient Snap Beans, roc.: Agricultural Chemical, Wisconsin, ercent Number ounds per Acre ounds per Acre, lbs. Bentazon ETC Halosulfuron Imazethapyr, ammon. endimethalin S-Metolachlor Sethoxydim Trifluralin 7 7 8 7 9 8.............8..9.9.....8..8.9...7..... Acephate Bifenthrin Zeta-cypermethrin 7..9..9....77.... Copper hydroxide Thiophanate-methyl lanted acreage in for Wisconsin was 7, acres....8..8.7.. Agricultural Chemical Usage Vegetables Summary July 7 7 NASS, USDA