Urine patch detection using LiDAR technology to improve nitrogen use efficiency in grazed pastures
Roten, Rory; Fourie, Jaco; Owens, Jennifer; Trethewey, Jason A. K.; Ekanayake, Dinanjana; Werner, Armin; Irie, Kenji; Hagedorn, Michael; Cameron, Keith C.
In grazed dairy pastures, the largest N source for both nitrate (NO₃⁻) leaching and nitrous oxide (N₂O) emissions is urine-N excreted by the animals. Additional application of N on urine patches as fertilizer may increase these losses. Identification of urine patches could reduce N losses in grazed pastures through more efficient fertilizer application and improved fertilizer N use efficiency (NUE). The aim of this study was to determine if remote sensing using Light Detection and Ranging (LiDAR) technology could accurately identify urine patches in grazed pastures based on height variation of the grass canopy in close proximity. Synthetic cow urine (7 g N L⁻¹) was applied to two blocks (20 m x 20 m) in a well-established pasture in Canterbury, New Zealand, which had no recent exposure to grazing animals or N fertilization. Urine patches were scanned weekly for five weeks. LiDAR based contour maps of the pasture were shown to accurately detect the asymmetric urine patches as well as calculate a percent area of urine based high N as early as one week after a simulated grazing event.... [Show full abstract]
KeywordsLiDAR; nitrogen use efficiency; pasture; urine patch; detection; Nitrogen use efficiency (NUE); Agronomy & Agriculture
Fields of Research09 Engineering; 08 Information and Computing Sciences; 07 Agricultural and Veterinary Sciences
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