Influence of tree species on forest nitrogen retention in the Catskill Mountains, New York, USA

This study examines the effect of four tree species on nitrogen (N) retention within forested catchments of the Catskill Mountains, New York (NY). We conducted a 300-day^{15}{\rm N}$field tracer experiment to determine how N moves through soil, microbial, and plant pools under different tree species...

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Bibliographic Details
Published in:Ecosystems (New York) 2005-02, Vol.8 (1), p.1-16
Main Authors: Templer, P.H, Lovett, G.M, Weathers, K.C, Findlay, S.E, Dawson, T.E
Format: Article
Language:English
Subjects:
Acer saccharum
Acid soils
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Fagus grandifolia
Fertilization
Forest ecosystems
Forest floor
Forest litter
Forest soils
forest trees
Fundamental and applied biological sciences. Psychology
General aspects
hardwood forests
Maple sugar
Mineral soils
Mountains
Nitrogen
nitrogen content
nitrogen fertilizers
nutrient uptake
Plant species
Quercus rubra
Retention
soil microorganisms
soil nutrient balance
soil nutrient dynamics
Species
stable isotopes
Sugar
Synecology
Trees
Tsuga canadensis
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Summary:This study examines the effect of four tree species on nitrogen (N) retention within forested catchments of the Catskill Mountains, New York (NY). We conducted a 300-day^{15}{\rm N}$field tracer experiment to determine how N moves through soil, microbial, and plant pools under different tree species and fertilization regimes. Samples were collected from single-species plots of American beech (Fagus grandifolia Ehrh.), eastern hemlock (Tsuga canadensis L.), red oak (Quercus rubra L.), and sugar maple (Acer saccharum Marsh). Using paired plots we compared the effects of ambient levels of N inputs (11 kg N/ha/y) to additions of 50 kg N/ha/y that began 1.5 years prior to and continued throughout this experiment. Total plot^{15}{\rm N}$recovery (litter layer, organic and mineral soil to 12 cm, fine roots, and aboveground biomass) did not vary significantly among tree species, but the distribution of sinks for^{15}{\rm N}$within the forest ecosystem did vary. Recovery in the forest floor was significantly lower in sugar maple stands compared to the other species.^{15}\text{Nitrogen}$recovery was 22% lower in the fertilized plots compared to the ambient plots and red oak stands had the largest drop in^{15}{\rm N}$recovery as a result of N fertilization. Aboveground biomass became a significantly greater^{15}{\rm N}$sink with fertilization, although it retained less than 1% of the tracer addition. These results indicate that different forest types vary in the amount of N retention in the forest floor, and that forest N retention may change depending upon N inputs.
ISSN:1432-9840
1435-0629
DOI:10.1007/s10021-004-0230-8