Marissa J. Porter scite author profile

Marissa J. Porter

2Publications

9Citation Statements Received

61Citation Statements Given

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Washington State University

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Winter canola response to soil and fertilizer nitrogen in semiarid Mediterranean conditions

et al. 2020

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In the semiarid dryland wheat (Triticum aestivum L.) region of the U.S. inland Pacific Northwest, winter canola (WC) (Brassica napus L.) is an economically viable rotation crop. Winter canola produces marketable end-products while improving soil health and disrupting pest and disease cycles. Although annual production of WC in Washington State has increased in the recent decade, little regional fertility research has been conducted. As a result, WC is commonly fertilized in a manner similar to hard red spring wheat. Compared with wheat, WC has a deep and aggressive tap root system that can grow to depths of 180 cm to reach nutrients and water. Thus, WC requires a different N management strategy than wheat. Field experiments were conducted to evaluate the influence of soil residual N and fertilizer N application rate (range, 0-240 kg N ha −1 ) and timing (fall, spring, or split fall/spring) on WC yield and oil and protein concentrations. The study took place over a 2-yr period at seven locations across four agroecological classes. There was no yield response to N rate at six of the seven sites due to canola's high N uptake efficiency and the soils' high residual N (92-224 kg inorganic N ha −1 ) after wheat-fallow. Increasing N rates and split or spring application resulted in lower oil/protein ratios. In addition, maximum yields correlated with total available water. Therefore, N management for WC should be based on soil test residual + mineralizable N, total available water, and end-use quality.Abbreviations: AEC, agroecological class; iPNW, inland Pacific Northwest of the United States; SC, spring canola; WC, winter canola; WUE, water use efficiency.This is an open access article under the terms of the Creative Commons Attribution-NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.

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Winter Canola Response to Soil and Fertilizer Nitrogen

et al. 2020

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Winter canola (WC) offers not only marketable products but also excellent rotational benefits through disease, weed, and pest control in the dryland cropping systems of the inland Pacific Northwest (iPNW). However, little regional fertility research has been conducted on WC. The objectives of this study were to (i) determine the influence of soil N supply and fertilizer N rate and timing effects on WC yield in four iPNW agroecological classes and (ii) evaluate how N availability and fertilizer N application timing affect WC seed quality. Earn 1 CEU in Nutrient Management by reading this article and taking the quiz at http://www.certifiedcropadviser.org/education/classroom/classes/780.

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Marissa J. Porter

Winter canola response to soil and fertilizer nitrogen in semiarid Mediterranean conditions

Winter Canola Response to Soil and Fertilizer Nitrogen

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