USING TIME SERIES AND MULTIVARIATE TECHNIQUES TO ANALYZE CHANGES IN THE OCEAN NITROGEN CYCLE THROUGHOUT HISTORY
Abstract
Nitrogen is a limiting resource in marine ecosystems that directly impacts the productivity
of marine life. Values of δ15N extracted from down core sediments are used
as a proxy measure of nitrogen in past marine environments. We analyzed historic
δ15N records from around the world, covering time periods that ranged 125,000 to
5000 years ago. The Kalman smoother was used to extract the true signal of δ15N
from the noisy observations. Applying multivariate techniques, we found both global
and regional signals of δ15N. From the principal components analysis we found global
signals characterized by sharp increases in δ15N values that began 60,000 and 20,000
years ago. Using k-means clustering, we identified cores with statistically similar
δ15N signals that were in close geographical proximity. These findings suggest that
there may be both global and regional forcing of the marine nitrogen cycle.