Large variation in nitrogen isotopic composition of a fertilized legume
1、Large variation in nitrogen isotopic composition of a fertilized legume
Plant nitrogen isotopic compositions are highly variable and are influenced by a diversity of environmental and anthropogenic factors, including the application of animal-derived fertilizers.
2、Large variation in nitrogen isotopic composition of a fertilized legume
The purpose of the present study was to examine the effects of seabird guano on the nitrogen isotopic composition of a nitrogen-xing plant (common garden bean, Phaseolus vulgaris) in a fi controlled setting.
3、Sci
Szpak, P., Longstaffe, F. J., Millaire, J.-F., & White, C. D. (2014). Large variation in nitrogen isotopic composition of a fertilized legume. Journal of Archaeological Science, 45, 72–79. doi:10.1016/j.jas.2014.02.007 10.1016/j.jas.2014.02.007
4、Large variation in nitrogen isotopic composition of a fertilized legume
Large variation in nitrogen isotopic composition of a fertilized legume(Q111051099)
5、科研成果
Symbiotic nitrogenfixation contributes to divergent patterns of foliar and soil nitrogen isotopic composition in an alpine legume shrub species. Biogeochemistry,...
Symbiotic nitrogen fixation contributes to divergent patterns of foliar
In this work, foliar and soil N isotopic composition (δ 15 N) of Caragana jubata, a legume shrub species mainly growing in alpine regions, was measured from 35 sites across a 2666 km east–west transect.
(PDF) Carbon isotope composition of N2
Plant nitrogen isotopic compositions are highly variable and are influenced by a diversity of environmental and anthropogenic factors, including the application of animal-derived fertilizers.
Symbiotic nitrogen Þxation contributes to divergent patterns of foliar
climates. In this study, we determined foliar and soil d15N in Caragana jubata at 35 sites along an east to west transect across Northern China. The C. jubata belongs to the family Leguminosae and often dominates cold-temperate dry scrublands and monta.
Variation in foliar and soil nitrogen isotopic composition (δ¹⁵N) of C
Legumes that possess the capacity to fix atmospheric nitrogen (N) via symbiotic N2 fixation are widely considered to have the potential to regulate ecosystem N cycling.
Urine effects on grass and legume nitrogen isotopic composition
We hypothesized that leaf δ15N following urine deposition varies with time and plant functional group.