What controls the concentration of various aliphatic lipids in soil?

Kevin E. Mueller, David M. Eissenstat, Carsten W. Müller, Jacek Oleksyn, Peter B. Reich, Katherine H. Freeman

Research output: Contribution to journalArticlepeer-review

23 Scopus citations

Abstract

The composition of lipids in soil offers clues to the origin and stabilization of soil organic matter, but the descriptive nature of prior research makes quantitative interpretations problematic. We statistically evaluated potential predictors of the concentrations of aliphatic lipids in mineral soils beneath plantations of 11 tree species. Lipids were recovered from leaves, roots, and soils from each plantation using base hydrolysis and solvent extraction. Nearly 70% of the variation in individual soil lipid concentrations was explained by lipid concentrations in tree leaves and roots. Less variation in soil lipid concentrations was attributed to lipid properties such as functional group composition, chain length, and whether a lipid was most abundant in leaves or roots. Surprisingly, although the chemical and biological compositions of soils were highly variable for plantations of different tree species, the tree species identity had little impact on soil lipid concentrations and the effects of lipid properties were similar for all plantations. •The concentration of lipids in leaves and roots determines their abundance in soil.•Lipid preservation is influenced by chain length and chemical functional groups.•Root-derived lipids are only slightly better preserved than leaf-derived lipids.•The use of simple statistical methods will advance understanding of SOM composition.

Original languageEnglish (US)
Pages (from-to)14-17
Number of pages4
JournalSoil Biology and Biochemistry
Volume63
DOIs
StatePublished - Aug 2013

Bibliographical note

Funding Information:
We thank Bartosz Bulaj, Roma Zytkowiak, Laurie Eccles, the U.S. National Science Foundation ( DEB-0816935 , OISE-0754731 , DEB-0128958 ), the State Committee for Scientific Research (Poland; PBZ-KBN 087/P04/2003 ), the U.S. Department of Energy (Global Change Education Program), and the European Association of Organic Geochemists.

Keywords

  • Base hydrolysis
  • Cutin
  • Extractable lipids
  • Forest
  • Hydrolyzable lipids
  • Soil organic matter
  • Stabilization
  • Suberin
  • Tree species
  • Wax

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