FylesFylesFeller1990

Référence

Fyles, J.W., Fyles, I.H. and Feller, M.C. (1990) Comparison of nitrogen mineralization in forest floor materials using aerobic and anaerobic incubation and bioassay techniques. Canadian Journal of Soil Science, 70(1):73-81.

Résumé

Forest floors dominated by F materials mineralized more N and had higher k values than those dominated by H. Plant N uptake in the bioassay was highly correlated with N mineralized during laboratory incubations across all forest floors but was 50-80% lower than predictions based on first-order kinetic parameters derived from the aerobic incubation. The relationship between bioassay plant uptake and predicted N mineralization differed among forest floors, indicating that the effect of plants on dynamics of the mineralizable N pool differs among organic matter types. Forest floor morphology may provide a basis for assessing site quality. -from Authors

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@ARTICLE { FylesFylesFeller1990,
    AUTHOR = { Fyles, J.W. and Fyles, I.H. and Feller, M.C. },
    TITLE = { Comparison of nitrogen mineralization in forest floor materials using aerobic and anaerobic incubation and bioassay techniques },
    JOURNAL = { Canadian Journal of Soil Science },
    YEAR = { 1990 },
    VOLUME = { 70 },
    PAGES = { 73-81 },
    NUMBER = { 1 },
    NOTE = { 00084271 (ISSN) Cited By (since 1996): 13 Export Date: 26 April 2007 Source: Scopus Language of Original Document: English },
    ABSTRACT = { Forest floors dominated by F materials mineralized more N and had higher k values than those dominated by H. Plant N uptake in the bioassay was highly correlated with N mineralized during laboratory incubations across all forest floors but was 50-80% lower than predictions based on first-order kinetic parameters derived from the aerobic incubation. The relationship between bioassay plant uptake and predicted N mineralization differed among forest floors, indicating that the effect of plants on dynamics of the mineralizable N pool differs among organic matter types. Forest floor morphology may provide a basis for assessing site quality. -from Authors },
    KEYWORDS = { forest floor nitrogen mineralization },
    OWNER = { brugerolles },
    TIMESTAMP = { 2007.12.05 },
}

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