1 / 36

Precision Farming Mapping EC with Veris

Precision Farming Mapping EC with Veris. Bobby Grisso Virginia Tech Biological Systems Engineering. Resources: http://pubs.ext.vt.edu/category/precision-geospatial-sensor.html. Precision Farming - A Comprehensive Approach Precision Farming Tools: GPS Navigation

maree
Download Presentation

Precision Farming Mapping EC with Veris

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Precision FarmingMapping EC with Veris Bobby GrissoVirginia TechBiological Systems Engineering

  2. Resources:http://pubs.ext.vt.edu/category/precision-geospatial-sensor.htmlResources:http://pubs.ext.vt.edu/category/precision-geospatial-sensor.html Precision Farming - A Comprehensive Approach Precision Farming Tools: GPS Navigation Precision Farming Tools: Yield Monitor Precision Farming Tools: Global Positioning System-GPS Precision Farming Tools: Variable-Rate Application Precision Farming Tools: Soil Electrical Conductivity Investing in GPS Guidance Systems? Interpreting Yield Maps - "I gotta yield map - now what?“ Virginia Geospatial Extension Program

  3. The Influence of Precision Agriculture!

  4. Precision Agriculture:Systems Approach Right sourceRight rateRight timeRight place

  5. Precision Technology Use

  6. Precision Agriculture • Precise information on agronomic factors. • Precise selection and placement of crop inputs. • Precise position and travel information.

  7. GPS Systems

  8. Mapping EC with Veris • Soil electrical conductivity (EC) is a measurement that correlates with soil properties that affect crop productivity, including soil texture, cation exchange capacity (CEC), drainage conditions, organic matter level, salinity, and subsoil characteristics.

  9. Electrical conductivity (EC) is the ability of a material to transmit (conduct) an electrical current and is commonly expressed in units of milliSiemens per meter (mS/m). Soil EC measurements may also be reported in units of deciSiemens per meter (dS/m), which is equal to the reading in mS/m divided by 100. EC Measurement in Soil

  10. The Textural Triangle Example: (see circle) 15% sand 15% clay 70% silt

  11. Cation Exchange Capacity Measured in hundredths of moles (cmol) of charge (cmol+) per kilogram (kg) dry soil Units of expression are cmol+/Kg CEC’s usually range from <5 to around 30 cmol+ for natural soils This is the same unit as meq/100 g, just gyrated around to fit the international system of units (SI). Many labs and books still report CEC as meq/100 g

  12. Plant roots use cation exchange to assist in nutrient uptake from the soil— • (a) Soil moisture surrounding the roots • (b) Absorption of soil mineral nutrients by cation exchange

  13. Absorption and leaching of soil nutrients in the soil solution

  14. Cation exchange on soil particles—effects of soil pH

  15. Veris Technologies Electrical Conductivity is Highly Correlated with Organic Matter Moisture Content Soil Texture Compacted Zones Existing Soil Moisture Salts Good Nematode Correlation

  16. EC Measure - Veris

  17. EC Measure - Veris

  18. Veris machine – note water tank

  19. Sensor for Turf Management

  20. Soils are 3-dimensional

  21. 2 1 2 5 4 1 4 3 6 3 3-D Landscape model 2-D Soil map

  22. Mapping EC with Veris • Soil EC maps often visually correspond to patterns on yield maps and can help explain yield variation

  23. Yield Map – Why?

  24. What does EC Look like?

  25. Aerial Photo and Soil Map

  26. Overlay the Soils Map

  27. Mapping EC with Veris • Other uses of soil EC maps, including developing management zones, guiding directed soil sampling, assigning variable rates of crop inputs, fine tuning NRCS soil maps, improving the placement and interpretation of on-farm tests, salinity diagnosis, and planning drainage remediation

  28. Surface to Soil Map Boundaries

  29. Subsurface to Soil Map Boundaries

  30. Match with Aerial photos

  31. Normalize data - Moisture

  32. Tips for collecting soil EC data • Take EC measurements when the soil is neither excessively moist nor very dry. Good soil-coulter contact is required for direct contact sensors. • Best mapping conditions are found following harvest in smooth, untilled fields or prior to planting in prepared fields. In a corn-soybean rotation, conditions following soybean harvest may be most favorable since the soybean residue is less. Otherwise, firm but non-compacted soil and a smooth field surface are preferred for soil EC measurement. • Avoid metal interferences with EM (non-contact) sensors by keeping a distance of about 4 to 5 feet between the sensor and any metal object. This can be accomplished with careful placement of the sensor beneath a high-clearance vehicle or on a custom- made cart constructed of nonmetallic materials. • Conduct soil EC mapping when soils are not frozen. • Collect data on measurement pass spacing no greater than about 60 feet. Experience shows that 40 to 60-foot passes provides a map that adequately identifies the spatial patterns of a field. Such a pass may represent half to a full spray-boom width or a multiple of the planter or combine width, and consequently the smallest area most growers will variably manage. • To add value to your soil EC maps, it is important to take a deep soil sample or compaction measurement at a few points in each field. Soil physical characteristics and moisture measurements will aid in interpreting what is causing soil EC variations. The sampling should be done at the same time as soil EC data are collected.

  33. Good soil-coulter contact

  34. Stay out of the mud

  35. Uses of EC Maps

  36. Precision Agriculture:Systems Approach

More Related