Unexpected sustained soil carbon flux in response to simultaneous warming and nitrogen enrichment compared with single factors alone

Nat Ecol Evol. 2024 Dec;8(12):2277-2285. doi: 10.1038/s41559-024-02546-x. Epub 2024 Sep 24.

Abstract

Recent observations document that long-term soil warming in a temperate deciduous forest leads to significant soil carbon loss, whereas chronic soil nitrogen enrichment leads to significant soil carbon gain. Most global change experiments like these are single factor, investigating the impacts of one stressor in isolation of others. Because warming and ecosystem nitrogen enrichment are happening concurrently in many parts of the world, we designed a field experiment to test how these two factors, alone and in combination, impact soil carbon cycling. Here, we show that long-term continuous soil warming or nitrogen enrichment when applied alone followed the predicted response, with warming resulting in significant soil carbon loss and nitrogen fertilization tending towards soil carbon gain. The combination treatment showed an unanticipated response, whereby soil respiratory carbon loss was significantly higher than either single factor alone, but without a concomitant decline in soil carbon storage. Observations suggest that when soils are exposed to both factors simultaneously, plant carbon inputs to the soil are enhanced, counterbalancing soil carbon loss and helping maintain soil carbon stocks near control levels. This has implications for both atmospheric CO2 emissions and soil fertility and shows that coupling two important global change drivers results in a distinctive response that was not predicted by the behaviour of the single factors in isolation.

MeSH terms

  • Carbon Cycle*
  • Carbon* / analysis
  • Carbon* / metabolism
  • Climate Change
  • Forests
  • Global Warming
  • Nitrogen* / analysis
  • Nitrogen* / metabolism
  • Soil* / chemistry

Substances

  • Soil
  • Nitrogen
  • Carbon