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Douglas-fir and Ponderosa Pine Growth and Biochemical Response to Various Multinutrient Fertilizer Treatments Item Info

Title:
Douglas-fir and Ponderosa Pine Growth and Biochemical Response to Various Multinutrient Fertilizer Treatments
Creator:
Shaw, T.M.
Date Created (ISO Standard):
1997
Description:
Nearly all forest sites in the Inland Northwest are nutrient deficient, usually for nitrogen (N) but sometimes other nutrients as well. Furthermore, a single nutrient limitation cannot always be perceived and there is evidence that shows conifer growth and health may strongly depend on the interaction and availability of several mineral nutrients. In this paper, results are presented from two Intermountain Forest Tree Nutrition Cooperative (IFTNC) studies designed to investigate Inland Northwest Douglas-fir and ponderosa pine seedling nutrition as inftuenced by various nutrient treatments. Results from IFTNC studies have shown that N alone or in conjunction with other mineral nutrient treatments significantly altered foliar nutrient levels, growth rates and carbon allocation patterns in Douglas-fir and ponderosa pine seedlings. As expected, growth was significantly higher for seedlings receiving N amendments than for those seedlings receiving low or no N in the treatment mix. Douglas-fir seedling allocation to needles was the same between the high and low N treatments, but allocation to roots increased while allocation to stem decreased under low N supply. The effects of the N and potassium (K) treatments on Douglas-fir seedling root production of soluble sugar, starch, phenolic and protein precipitable tannin were observed in this study. Root storage compounds such as starch were reduced in Douglas-fir seedlings receiving the high N treatments, whereas secondaiy defensive compounds like phenolics and tannins were reduced in plants receiving low K treatments. Caliper growth in ponderosa pine seedlings grown under different multi nutrient treatments showed significant differences between application rates, fertilizer release rates, and time of sampling. Seedlings receiving the 15 gram multi-nutrient treatment tended to show higher caliper growth response than seedlings receiving either the 5 or 30 gram treatments. Overall, caliper response after bud set in the fall tended to be higher for those seedlings receiving the medium release rate fertilizer treatment compared to those receiving the slow or fast release rate fertilizers.
Subjects:
research fertilizer timber (lumber) statistics
Location:
North and Central Idaho Eastern Washington Western Montana Northeastern Oregon
Source:
Shaw, T.M., 1997. Douglas-fir and ponderosa pine growth and biochemical response to various multinutrient fertilizer treatments. P 144-153. In Haase, D.L. and Rose, R. (Eds.) Symposium proceedings: forest seedling nutrition from the nursery to the field, Corvallis, Oregon, Oct. 28-29, 1997. Nursery Technology Cooperative, Department of Forest Science, Oregon State University, Corvallis.
Source Identifier:
DF_+_PP_Growth_and_Biochemical_Response_to_Var_Multinutrient_Fertilizer_Treatments_Symposium_Proceedings_1997
Type:
Text
Format:
application/pdf

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Preferred Citation:
"Douglas-fir and Ponderosa Pine Growth and Biochemical Response to Various Multinutrient Fertilizer Treatments", Intermountain Forestry Cooperative, University of Idaho Library Digital Collections, https://www.lib.uidaho.edu/digital/iftnc/items/iftnc4804.html