Assessing the potential of n-alkyl amides and n-alkyl nitriles in the arid sedimentary strata of northwestern China as environmental indicators

• Published in: The Science of the total environment Vol. 951; p. 175688
• Main Authors: Pu, Yang, Kang, Hong, Meyers, Philip A., Zhang, Hucai, Yang, Mingsheng
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 15.11.2024
• Subjects: Environmental change; Loess; N-alkyl amides (NAAs); N-alkyl nitriles (NANs); Nitrogen-containing lipid biomarkers (NCLBs); Northwestern China (NWC); Paleolake sediment; Loess; Nitrogen-containing lipid biomarkers (NCLBs); Northwestern China (NWC); N-alkyl nitriles (NANs); N-alkyl amides (NAAs); Paleolake sediment; Environmental change
• ISSN: 0048-9697; 1879-1026; 1879-1026
• DOI: 10.1016/j.scitotenv.2024.175688

Recent advancements in the application of lipid biomarkers as paleoenvironmental indicators have provided invaluable insights into the dynamics of climatic variations, vegetative histories, and anthropogenic impacts. However, our current understanding of nitrogen-containing lipid biomarkers (NCLBs) in sedimentary deposits remains limited, notwithstanding their potential significance in global nitrogen cycling. To bridge this research gap, a comprehensive study was conducted to characterize the distribution patterns of n-alkyl amides (NAAs) and n-alkyl nitriles (NANs) in representative paleo-lake and loess sedimentary profiles from the arid region of northwestern China (NWC). The widespread occurrence of these NCLBs across late Quaternary strata, with distinct distribution patterns observed in various settings, suggests their formation under diverse environmental conditions. The prevalence of NAAs in arid sedimentary deposits can primarily be attributed to the diverse array of local biota, including vascular plants, algae, and fungi, rather than being solely associated with biomass burning, as commonly assumed. Furthermore, the distribution patterns of NANs closely align with those of NAAs, indicating their formation through thermally induced dehydration of precursor NAAs. Both groups of NCLBs exhibit significant preservation potential in sediments within NWC, which is believed to be intimately linked to the region's arid and cold climate as well as its neutral or weakly alkaline depositional setting. These findings underscore the prospective use of NAAs as indicators of environmental changes and NANs as potential markers of past fire-related activities, making them valuable tools for paleoenvironmental reconstructions of late Quaternary strata, especially in arid, cold, and weakly alkaline regions. [Display omitted] •Sediments in NW China contain more NAAs than NANs, with varying distribution patterns.•Locally occurring vascular plants, algae, and fungi contribute to sedimentary NAAs.•Low levels of sedimentary NANs indicate wildfires and coincide with NAAs patterns.•NAAs than NANs have preservation potential in northwestern China's arid sediments.