Farm Plan Requirements and Best Practices Presentation for Palo Verde Outfall Coalition
Detailed information is provided in the Farm Plan Requirements and Best Practices Presentation for Palo Verde Outfall Coalition, covering essential details such as farm owner and grower information, farm location specifics, crop details, irrigation methods, chemical applications, management practices, and discharge points. Additionally, the presentation includes an option to print forms with parcel-specific information automatically retrieved from PVID's Tax & Toll system, ensuring compliance with best practices and regulatory guidelines.
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Farm Plan Presentation Palo Verde Outfall Coalition
Farm Plan Requirements The name, business address, mailing address, email address, phone number of the farmland owner The name, business address, mailing address, email address, phone number of the farm grower/ operator (if different from above) Information regarding the location o farm, including: (1) the address, (2) the Assessor Parcel Numbers (APNs) and the county in which each parcel is located, (3) the San Bernardino Baseline and Meridian System coordinates, and (4) applicable canal and gate number(s) The total acreage under cultivation A list of crop(s) grown and the acres dedicated or each type of crop A description of the irrigation methods used for each crop A list of agricultural chemicals typically applied to crops at the operation, including, but not limited to, fertilizers and organic amendments, pesticides, and fumigants A list of the management practices used on each crop for the annual cycle and an indication whether sediment and erosion control practices are being implemented A description of any subsurface drainage collection system The location of discharge point(s) and type of discharge(s) (surface and/ or subsurface discharges) The name of the receiving surface waters (if known) to which irrigation runoff, stormwater runoff, and non-stormwater runoff from the operation is discharged
*Option to PRINT FORM will be here* Palo Verde Outfall Coalition Best Practices Parcel : APN : S.T.R : County : Canal Gate : Gross Acres : WT Acres : Spill : *This information is automatically pulled from PVID s Tax&Toll system* Owner Name : Owner Email : Owner Phone : Lessee : Address1 : Address2 : Address3 : Farm Grower/Operator Name: BusinessAddress: Mailing Address: Phone #: Email: Name of the Receiving Surface Water *If not sure about Drain name, call Marissa to clarify* If this parcel has a spill please include the name of the drain(s) it spills into. Drain Name: You can enter multiple field numbers here. (Separate with a comma) Field and Crop Information
Field Number: You can enter multiple field numbers here. (Separate with a comma) Current Crop: *95 crop options to choose from* If Other Please Specify Crop: You can enter multiple crops here. (Separate with a comma) Site Conditions *Fallowed is an option* Under Cultivation Currently Idled (In-between crops) Currently Fallowed (Idle more than 1 year) Used for other Purposes (i.e. Duck Ponds) Please specify the other uses. Current or Projected Crops for Next 12 Months Annual Field Crops Perennial FieldCrops Vegetable Crops Orchard Other If "other," please specify. Sediment Management Practices Tailwater Ditch Checks or Check Dams Existing Tailwater Ditch Checks are temporary or permanent dams to hold back water that are placed at intervals in tailwater ditches, especially those with steeper slopes. They increase the crosssection of the stream, decrease water velocity, and reduce erosion, allowing suspended sediment to settle out. Tailwater Ditch Planned (within one yr)
Checks may be constructed of plastic, concrete, fiber, metal, or other suitable material. If plastic sheets are used, care must be taken to ensure plastic is not dislodged and carried downstream. To be effective, this MP should be used where water velocity will not wash out check dams, or slopes of the tailwater ditch at dams. N/A Field to Tailditch Transition Existing This practice controls flow from the field into the tailwater ditch through spillways of pipes, without eroding soil. Spillways may be constructed of plastic, concrete, metal or other suitable material . If plastic sheets are used, care must be taken to ensure plastic is not dislodged and carried downstream . This practice may be useful on fields irrigated in border strips and furrows. Planned (within one yr) N/A Furrow Dikes (C-Taps) Existing Furrow dikes are small dikes constructed in furrows that manage water velocity. They may be constructed of earth with an attachment to tillage equipment, pre-manufactured "C-Taps", or other material, such as rolled fiber mat, plastic, etc. According to Jones & Stokes (Jones & Stokes Associates 1996), this MP should reduce sediment transport at relatively low cost. Planned (within one yr) N/A Filter Strips Existing This practice eliminates borders on the last 20 to 200 feet of the field. The planted crop is maintained to the end of the field, and tailwater from upper lands is used to irrigate the crop at the ends of adjacent lower lands. The main slope on the field's lower end should be no greater than that on the balance of the field. A reduced slope may be better. With no tailwater ditch, very little erosion occurs as water slowly moves across a wide area of the field to the tailwater box. Sediment may settle as the crop baffles the water as it moves across the field. Planned (within one yr) N/A Irrigation Water Management Existing This practice determines and controls irrigation rate, amount, and timing. Effective implementation minimizes erosion and subsequent sediment transport into receiving waters. Irrigation management methods include: surge irrigation, tailwater cutback, irrigation scheduling, and runoff reduction. Irrigation management may include an additional irrigator to better monitor and manage irrigation and potential erosion. Planned (within one yr) N/A Irrigation Land Leveling Existing This practice involves maintaining or adjusting field slope to avoid excessive slopes or low spots at the tail end of the field. Maintaining a reduced main or cross slope facilitates uniform distribution of irrigation water, reducing salt build-up in soil, increased production, reduced tailwater, and decreased erosion. Jones & Stokes (Jones & Stokes Associates 1996) rate the sediment reduction efficiency of this MP at 10% to 50%, with a medium to high cost. Planned (within one yr) N/A
Sprinkler Irrigation Existing Sprinkler irrigation involves water distribution by means of sprinkles of spray nozzles. The objective is to irrigate efficiently and uniformly to maintain adequate soil moisture for optimum plant growth, without excessive water loss, erosion, or reduced water quality. According to Jones & Stokes (Jones & Stokes Associates 1996) this MP has a positive sediment transport reduction effect (sediment reduction efficiency of 25% to 35% if used during germination, and 90% to 95% for established crops), and a relatively high cost. Planned (within one yr) N/A Drip Irrigation Existing Drip irrigation consists of a network of pipes and emitters that apply water to the soil surface or subsurface, in the form of spray or small stream. Planned (within one yr) N/A Flood Irrigation Existing Flood irrigation is an irrigation technique in which a field is essentially flooded with water which is allowed to soak into the soil to irrigate the plants. Planned (within one yr) N/A Channel Vegetation/Grassed Waterway Existing The practice involves establishing and maintaining adequate plant cover on channel banks to stabilize banks and adjacent areas, and to establish maximum side slopes. This practice reduces erosion and sedimentation, and the potential for bank failure. Planned (within one yr) N/A Drainage Channels Existing For this practice irrigation drainage channels are constructed with flat slopes so water velocities are non-erosive, and water quality degradation due to suspended sediment prevented. Planned (within one yr) N/A Other Sediment Management Practices *Option to specify, if other* Other Sediment Management Practices being implemented that differ from selection, if any.
Nutrient Management Practices Nutrient and Irrigation Water Management Plan (NIWMP) Existing This plan documents practices and strategies to address natural resource concerns dues to excess nutrients. AnNIWMP provides procedures used to select and apply crop nutrients (manure and commercial fertilizers) and water, to cropland and pastures. Processes to determine the amount of manure and commercial fertilizer needed for crops is included and a description of when and how nutrients and irrigation water (including reclaimed treated wastewater) are applied. Planned (within one yr) N/A Tailwater Ditch Checks or Check Dams Existing Same as described in "Sediment Management Practices" section. The checks act as nutrient MPs by reducing and preventing erosion of soil containingnutrients. Planned (within one yr) N/A Field to Tailditch Transition Existing Same as describedin"Sediment Management Practices" section. The spillways act as nutrient MPs by reducing and preventing erosion of nutrient-laden soils from the tailwater ditch. Planned (within one yr) N/A Furrow Dikes (also known as "CTaps") Existing Same as described in "Sediment Management Practices" section. The C-Taps act as nutrient MPs by reducing and preventing erosion of nutrient-laden soils from the tailwater ditch. Planned (within one yr) N/A Filter Strips Existing Same as described in "Sediment Management Practices" section. The filter strips act as nutrient MPs by reducing and preventing erosion of nutrient-laden soils from the tailwater ditch. Planned (within one yr) N/A Irrigation Water Management Existing
Same as described in "Sediment Management Practices" section. The objective is to apply irrigation water efficiently and uniformly to maintain adequate soil moisture for optimum plant growth, without causing excessive erosion of nutrientladen soils. Planned (within one yr) N/A Irrigation Land Leveling Existing Same as described in "Sediment Management Practices" section. The objective is to apply irrigation water efficiently and uniformly to maintain adequate soil moisture for optimum plant growth, without causing excessive erosion of nutrientladen soils. Planned (within one yr) N/A Sprinkler Irrigation Existing Same Management as described Practices in "Sediment " section. The objective is to apply irrigation water efficiently and uniformly to maintain adequate soil moisture for optimum plant growth, without causing excessive erosion of nutrientladen soils. Planned (within one yr) N/A Drip Irrigation Existing Same as described in "Sediment Management Practices" section. The objective is to apply irrigation water efficiently and uniformly to maintain adequate soil moisture for optimum plant growth, without causing excessive erosion of nutrientladen soils. Planned (within one yr) N/A Reduced Tillage Existing Same as described in "Sediment Management Practices" section. This practice eliminates one or more cultivation per crop, minimizing erosion of nutrient laden soils, and sedimentation that may occur in the furrow. Planned (within one yr) N/A Channel Vegetation/Grassed Waterway Existing Same as described in "Sediment Management Practices" section. The practice reduces erosion of nutrient-laden soils, and sedimentation. Planned (within one yr) N/A Drainage Channels Existing
Same as described in "Sediment Management Practices" section. This practice reduces erosion of nutrient laden soils, and sedimentation in the irrigation drainage channels. Planned (within one yr) N/A Other Nutrient Management Practices Other Nutrient Management Practices being implemented that differ from selection, if any. *Option to specify, if other* Pesticide Management Practices Pesticide Training and Certification Existing Obtain appropriate certification (through training), prior to pesticide use. Use a Qualified pest Control Advisor to make recommendations. Planned (within one yr) N/A Pesticide Recording Keeping Existing Requires maintaining a precise pest and pesticide record, and reading pesticide labels before purchase, use, or disposal; following label directions as required by law, and checking for groundwater advisories, or other water protection guidelines, so pesticide handling and application practices are known, and water quality impacts prevented. Planned (within one yr) N/A Evaluate the Pesticide Existing Select pesticides less likely to leach to groundwater. Avoid pesticides that are highly water soluble,persistent, and do not adsorb to soil. The UC Extension Service and the Natural Resources Conservation Service are available to assist the public in selecting the appropriate pesticide. Planned (within one yr) N/A Pesticide Selection Existing Select the least toxic and less persistent pesticide when feasible. Planned (within one yr) N/A Site-specific Pesticide Existing
Avoid overuse of preventive pesticide treatments. Base pesticide application on sitespecific pest scouting, and economic return indicators. Planned (within one yr) N/A Integrated Pest Management Existing Integrated pest management (IPM) utilizes all means of pest control (chemical and nonchemical) in a compatible fashion to reduce crop loss. Pesticides are the last line of defense, and used only when pests cause sufficient damage to offset the expense of application. Planned (within one yr) N/A Prevent Back-siphoning and Spills Existing Never allow a hose used to fill a spray tank to extend below the level of the water in the tank. Always haul water to the field to fill spray tanks,and mix and dilute pesticides. Contain pesticide spills as quickly as possible, and handle according to label directions. Use anti-siphon devices (inexpensive and effective) at water line. Planned (within one yr) N/A Consider Weather and Irrigation Plans Existing Never start pesticide applications if a weather event (rainfall for instance) is forecast that could cause drift or soil runoff at the application site. Application just before rainfall or irrigation may result in reduced efficacy if the pesticide is washed off the target crop, resulting in the need to reapply the pesticide. Planned (within one yr) N/A Pesticide Use Existing Use pesticides only when economic thresholds are reached, and purchase only what is needed. Planned (within one yr) N/A Leave Buffer ZonesAround SensitiveAreas Existing Read the pesticide label for guidance on required buffer zones around surface waters, buildings, wetlands, wildlife habitats, and other sensitive areas where applications are prohibited. Planned (within one yr) N/A Reduce Off-target Drift Existing
Slever begin an application if wind or temperature facilitates pesticide drift to a non-target area. Use appropriate spray pressure and nozzle selection to minimize drift. Planned (within one yr) N/A Application Equipment Existing Maintain application equipment in good working order, and calibrate regularly. Planned (within one yr) N/A Pesticide Use and Storage Existing Store pesticides on farm for a short time, and in a locked weather-tight enclosure downstream and a reasonable distance (greater than 100 ft) from wells or surface waters. Use appropriate protective equipment and clothing according to label instructions. Planned (within one yr) N/A Dispose of Pesticide and Chemical Wastes Safely Existing Use pesticides and other agricultural chemicals only when necessary. Transport water to field in a nurse tank to mix and measure on site. Prepare only what is needed. Dispose of excess chemicals and containers according to label directions. Planned (within one yr) N/A Other Pesticide Management Practices *Option to specify, if other* Other Pesticide Management Practices being implemented that differ from selection, if any. Operational ChemicalsApplied List of agricultural chemicals typically applied to crops at the operation, including, but not limited to, fertilizers and organic amendments, pesticides, and fumigants. *List all that are applied* Are there any irrigation wells? Wells Are there any abandoned wells ***DON T FORGET TO SUBMIT CHANGES*** *After submitting, scroll back up to the top and PRINT FORM*
