Nitrogen source and rate effects on grain and potential biodiesel production of camelina in the semiarid environment of northern Nevada

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Neupane, Dhurba
Solomon, Juan K. Q.
Davison, Jason
Lawry, Tom

Issue Date

2018

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Article

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biodiesel , camelina , genotype , grain yield , light interception , nitrogen rate , nitrogen source , nitrogen use , efficiency , oil concentration

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The objective of this two-year study (2016-2017 spring) carried out at the University of Nevada, Reno Main Station Field Laboratory, Reno, NV, was to evaluate the effects of nitrogen source, rate, and camelina cultivar on grain yield and potential biodiesel production irrigated with reclaimed water. Treatments were two sources of urea fertilizer [conventional urea (CU) and polymer-coated urea (PCU)], four N rates (0, 40, 80, and 120kg N ha(-1)), and two cultivars of camelina (Blaine Creek and Pronghorn) arranged in a 4x2x2 factorial combinations with four replications each in a RCBD experiment. Plot size was 7.6m longx1.8m wide, and camelina was seeded at a rate of 5kg PLS seed ha(-1). The quantity of light intercepted increased linearly from 44.9% to 65.9% as N application rate increased from 0 to 120kg N ha(-1), and it was greater for CU (59.6%) compared to PCU (54.0%) fertilized plots. There was a linear increased in grain yield ranging from 534 to 1,010kg/ha as N application rate increased from 0 to 120kg N ha(-1). In Year 2, grain yield of Blaine Creek (898kg/ha) was greater than that of Pronghorn (464kg/ha). Also, there was a linear increase in estimated biodiesel from 51.2 to 94.2 L/ha as N application rate increased. For both grain and biodiesel production, there was no advantage of using controlled-release PCU fertilizer and 80 to 120kg N ha(-1) is sufficient for the cultivation of camelina in this environment. Based on the range of grain yield obtained in this study, camelina can be a potential alternative crop to integrate into the annual crop production cycle in water-limited environments like Nevada.

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1757-1693

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