The existing HarvestLab has been used for dry matter, but the upgrade to the Constituent Sensing capabilities means that HarvestLab is now able to determine corn silage nutrient quality. The upgrade will become available locally in 2013.
According to Steve Siegel, product manager for John Deere Intelligent Solutions Group, HarvestLab uses Near Infrared Technology to determine the constituent characteristics of corn silage and has proven to be highly reliable under tough field conditions over the past six years. The device is used on John Deere Self Propelled Forage Harvesters (SPFH) to monitor corn silage at harvest and can be disconnected for use as a stationary unit to evaluate silage nutrient quality at the time of feeding.
"We partnered with DairyLand Labs, a recognised expert in forage analysis, to add these other nutrient analysis capabilities to John Deere HarvestLab," Siegel says.
"With real-time nutrient analysis, producers and nutritionists can more easily and quickly analyse feed rations for crude protein, fibre and other factors and make adjustments on a daily basis to improve nutrition and reduce feed variability.
"The use of this technology is growing in importance with the high cost of feed and livestock. John Deere Constituent Sensing can be integrated with the documentation system on GreenStar™ 2630 displays installed on John Deere SPFHs."
The HarvestLab Constituent Sensing enhancement also enables more precise application of silage inoculants at harvest because rates can be adjusted according to crop and dry matter readings. The result is higher quality silage with greater feed value and less spoilage.
John Deere received a Silver Medal for the HarvestLab technology at the 2011 Agritechnica, the world's largest agricultural equipment show held in Hanover, Germany.
For more information on John Deere HarvestLab and its new Constituent Sensing features, visit your local John Deere dealer or visit www.JohnDeere.com.au.