It’s a proven fact that grass waterways and stream buffer strips reduce erosion and runoff. Current research at the University of Kentucky strives to develop reliable prediction models for accurate placement of these grassy strips in a field using GPS.
Tom Mueller, associate professor in the University of Kentucky (UK), College of Agriculture, guided Adam Pike, UK graduate student, on a project that examined whether reliable prediction models could be created to identify eroded waterways from digital terrain information such as landscape curvature and estimates of water flow from upslope areas.
“The terrain attributes were calculated from elevation data obtained with survey-grade GPS measurements collected on a farm in the Outer Bluegrass Region of Kentucky,” Mueller explains.
Results from the study are published in the September-October issue of Agronomy Journal. This work supported by a special grant from the U.S. Department of Agriculture.
The authors developed equations that accurately identified the potential locations of erosion-prone areas. They found that simple regression methods could be used to fit these equations as well as more complex non-linear neural-network procedures. The equations were used to map areas in fields where erosion was predicted. These areas corresponded very well with actual field observations of erosion. This work was confirmed with a leave-one-field-out validation procedure.
Research showed these maps could help conservation planners and farmers identify where erosion from concentrated flow is likely to occur, but not necessarily the exact shapes of these features. Field site-assessments would still likely be required for verification and to accurately delineate the boundaries of erosion-prone areas.
Mueller stated, “while this study is promising, more work is needed to determine whether these techniques can also be used with USGS digital elevation grids and from elevation data obtained with light detecting and ranging (LIDAR) data. Further, we need to evaluate whether models can be developed to predict across larger geographic areas.”
Mueller is conducting follow-up research to evaluate quality of erosion predictions created with 10-m USGS data sets and evaluating the performance of these models on fields in western Kentucky. He hopes to present the results of some of this work at the 2009 Annual American Society of Agronomy Meetings.
http://agron.scijournals.org/content/vol101/issue5/#SOIL_QUALITY__FERTILITY
High input costs, lower grain prices and a tough overall economy are driving farmers to seek efficiency in every part of every field they farm. The good news is that growers can capture data for every pass they make over a field today—which yields powerful information, and profits.
Southern growers get a chance to check out the latest precision farming technology at the annual 
Precision agriculture is more than just right source, right rate, right time and right place. It’s also about responsible conservation measures to help reduce nutrient and soil loss.
Designing field terraces will soon become easier thanks to a new Internet-based terrace design tool under development at the University of Missouri.
Top technology innovation awards were recently announced by an expert commission of the German Agricultural Society that organizes the largest international farm show, Agritechnica. Of the 300 innovations submitted, the committee selected 
This edition of the Precision.AgWired.com Podcast, sponsored by 
Napoleon, Ohio grower Todd Hesterman consults with other farmers to help them make sense of data in order to create management zones and subsequent prescription nutrient maps.
My friend and former colleague, Farm Industry News senior editor Jodie Wehrspann, pegs variable-rate (VR) technology as the biggest overlooked story in precision agriculture 