Interspecific variation in leaf–root differences in δ15N among three tree species grown with either nitrate or ammonium

Key message Interspecific variation in nitrogen isotope composition of roots and leaves of tree seedlings grown in a steady-state nitrogen environment reflects known variation in sites of assimilation and nitrogen source preference in three tree species. As a time-integrated measure of nitrogen use,...

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Bibliographic Details
Published in:Trees (Berlin, West) West), 2015-08, Vol.29 (4), p.1069-1078
Main Authors: Kalcsits, Lee A., Min, Xiangjia, Guy, Robert D.
Format: Article
Language:English
Subjects:
Agriculture
Biomedical and Life Sciences
Forestry
Life Sciences
Original Paper
Plant Anatomy/Development
Plant Pathology
Plant Physiology
Plant Sciences
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Summary:Key message Interspecific variation in nitrogen isotope composition of roots and leaves of tree seedlings grown in a steady-state nitrogen environment reflects known variation in sites of assimilation and nitrogen source preference in three tree species. As a time-integrated measure of nitrogen use, discrimination against the heavier stable isotope ( 15 N) during the uptake and assimilation of inorganic nitrogen has the potential to provide information on interspecific differences in inorganic nitrogen source preference. Here, nitrogen isotope composition (δ 15 N) at natural abundance was measured for the roots and shoots from seedlings of three forest tree species: Populus tremuloides (aspen), Pinus contorta var. latifolia (pine) and Picea glauca (spruce). The seedlings were grown hydroponically with low (0.1 mM) or high (1.5 mM) concentrations of NO 3 − or NH 4 + , or in sand with NO 3 − , NH 4 + or an equal mix of NO 3 − and NH 4 + (0.1 mM). Whole-plant nitrogen isotope discrimination was observed in hydroponically grown seedlings but not in sand culture. Differences in δ 15 N between shoots and roots were greater in aspen when grown with NO 3 − (3.02 ‰) than with NH 4 + (1.27 ‰). There were no significant differences between the δ 15 N of leaves and roots for pine and spruce on either source. Although whole-plant nitrogen isotope discrimination was not observed in sand culture, shoot δ 15 N was, again, greater than root δ 15 N for NO 3 − -grown aspen. Interspecific variation in nitrogen isotope discrimination was observed in both hydroponics and sand culture. The differences in nitrogen isotope composition under steady-state conditions indicate that interspecific differences in nitrogen source preference are consistent with previous experiments using alternative methods to identify differences in nitrogen uptake and assimilation in the same tree species.
ISSN:0931-1890
1432-2285
DOI:10.1007/s00468-015-1186-3