posted on 2022-01-27, 18:35authored byAlexander Zherebker, Gleb D. Rukhovich, Anastasia Sarycheva, Oliver J. Lechtenfeld, Evgeny N. Nikolaev
Natural organic matter (NOM) components
measured with ultrahigh-resolution
mass spectrometry (UHRMS) are often assessed by molecular formula-based
indices, particularly related to their aromaticity, which are further
used as proxies to explain biogeochemical reactivity. An aromaticity
index (AI) is calculated mostly with respect to carboxylic groups
abundant in NOM. Here, we propose a new constrained AIcon based on the measured distribution of carboxylic groups among individual
NOM components obtained by deuteromethylation and UHRMS. Applied to
samples from diverse sources (coal, marine, peat, permafrost, blackwater
river, and soil), the method revealed that the most probable number
of carboxylic groups was two, which enabled to set a reference point n = 2 for carboxyl-accounted AIcon calculation.
The examination of the proposed AIcon showed the smallest
deviation to the experimentally determined index for all NOM samples
under study as well as for individual natural compounds obtained from
the Coconut database. In particular, AIcon performed better
than AImod for all compound classes in which aromatic moieties
are expected: aromatics, condensed aromatics, and unsaturated compounds.
Therefore, AIcon referenced with two carboxyl groups is
preferred over conventional AI and AImod for biogeochemical
studies where the aromaticity of compounds is important to understand
the transformations and fate of NOM compounds.