posted on 2019-05-09, 14:42authored byMonica M. Arienzo, Joseph R. McConnell, Nathan Chellman, Sepp Kipfstuhl
Measurement
of elemental concentrations in ice cores are critical
for determining atmospheric aerosol variations. For such measurements,
acidified ice-core meltwater typically is analyzed continuously (<5
min after acidification) or discretely (∼3 months after acidification).
The reduced acidification time during continuous analysis may result
in a measured elemental concentration that is lower than the concentration
of discrete analysis if particulates are not fully dissolved. To evaluate
this, sections of three ice cores from Greenland and Antarctica were
measured both continuously (4.5 min after acidification) and discretely
(repeatedly from 1 to 151 days after continuous measurements), with
discrete samples collected from the meltwater sample stream prior
to continuous measurement. We show that elements such as Na, Sr, and
S dissolved readily and therefore were fully recovered during continuous
measurements. Average recovery for other elements was between 70 to
100% for Cd, Gd, Mg, Mn, U, and Yb, 50 to 90% for Ca, Ce, Sm, and
V, and less than 50% for Al, Fe, and La. Given the advantages of continuous
measurements, we conclude that the preferred method for ice-core measurements
is continuous analysis with simultaneous discrete sample collection,
followed by adjustment of the continuous measurements based on discrete
sample analysis at least 3 months after acidification.