Frontiers in Marine Science (Oct 2022)

Nitrogen deposition may increase litter accumulative CO2 release in a subtropical estuarine marsh

  • Weifang Hu,
  • Weifang Hu,
  • Weifang Hu,
  • Congsheng Zeng,
  • Congsheng Zeng,
  • Chuan Tong,
  • Chuan Tong,
  • Guoliang Li,
  • Xue Lan,
  • Jiacong Zhou,
  • Jiacong Zhou,
  • Meiying Zhang,
  • Meiying Zhang,
  • Yuehmin Chen,
  • Yuehmin Chen,
  • Linhai Zhang,
  • Linhai Zhang,
  • Linhai Zhang

DOI
https://doi.org/10.3389/fmars.2022.1035095
Journal volume & issue
Vol. 9

Abstract

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Microbial evolution-mediated CO2 from litter has aroused widespread concern, and knowing the factors controlling litter-derived CO2 is important when considering the effects of accumulative CO2 release from litter on the global greenhouse. We conducted a short-term N addition (6, 16, and 24 g N m‒2 yr‒1) experiment in Cyperus malaccensis var. brevifolius (shichito matgrass) litter decomosition. Phospholipid fatty acid (PLFA) method and enzyme method were used to analysis litter microbial community composition and enzymatic activity. During a 220-day decomposition period, there was little effect of the N amendments on litter CO2 evolution rates (9.97‒307.54 μg C g−1 h−1) with a notable exception regarding the increase of the high-N treatment at day 20. The accumulative CO2 release significantly increased after N addition in the medium and late phases. The facilitation effect on accumulative CO2 release by N amendments was more and more obvious over the decomposition time, especially for the low- and intermediate-N treatments. At the end of our experiment, compared with the control treatment, accumulative CO2 release increased 69.75%, 76.62%, and 39.93% for low-, intermediate-, and high-N treatments, respectively. These observations highlight that N deposition could cause high losses of litter C as CO2.

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