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This study investigates competing vegetation effects on foliar and total plant-derived nutrient ratios, nutrient use efficiency (NUE), and foliar nutrient content and concentration of ecosystem components using vector analysis for 19-year-old Douglas-fir ( Pseudotsuga menzeisii (Mirb.) Franco), western hemlock ( Tsuga hereophylla (Raf.) Sarg.), western redcedar ( Thuja plicata Donn ex D. Don), and grand fir ( Abies grandis (Dougl.) Lindl.) stands in Oregon's Coast Range and for Douglas-fir and western redcedar in Oregon's Cascade foothills. Treatments included the Control, which received no spring release herbicide applications, and vegetation management (VM), which received 5 years of spring release herbicide applications, reducing competing vegetation abundance. VM increased the NUE of N, P, Mg, S, and Cu across all species when calculated with total plant-derived carbon and of all nutrients when calculated with stemwood carbon. VM often produced more harvestable and plant-derived carbon per unit nutrient fixed, improving the NUE of stands managed for carbon sequestration and timber. Species showed different stand nutrient requirements, evident through foliar and plant-derived nutrient ratios and their relationship with biomass production. Grand fir may obtain larger biomass increments for a given P:N ratio in plant-derived tissue and may be efficient in P-limited Coast Range sites.
Gonzalez‐Benecke et al. (Thu,) studied this question.
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