The combined effect of short-term hydrological and N-fertilization manipulation of wetlands on CO2, CH4, and N2O emissions

Giuditta Bonetti*, Katy E. Limpert, Kasper Elgetti Brodersen, Stacey M. Trevathan-Tackett, Paul E. Carnell, Peter I. Macreadie

*Corresponding author

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

Abstract

Freshwater wetlands are natural sinks of carbon; yet, wetland conversion for agricultural uses can shift these carbon sinks into large sources of greenhouse gases. We know that the anthropogenic alteration of wetland hydrology and the broad use of N-fertilizers can modify biogeochemical cycling, however, the extent of their combined effect on greenhouse gases exchange still needs further research. Moreover, there has been recent interest in wetlands rehabilitation and preservation by improving natural water flow and by seeking alternative solutions to nutrient inputs. In a microcosm setting, we experimentally exposed soils to three inundation treatments (Inundated, Moist, Drained) and a nutrient treatment by adding high nitrogen load (300 kg ha−1) to simulate physical and chemical disturbances. After, we measured the depth microprofiles of N2O and O2 concentration and CO2 and CH4 emission rates to determine how hydrological alteration and nitrogen input affect carbon and nitrogen cycling processes in inland wetland soils. Compared to the Control soils, N-fertilizer increased CO2 emissions by 40% in Drained conditions and increased CH4 emissions in Inundated soils over 90%. N2O emissions from Moist and Inundated soils enriched with nitrogen increased by 17.4 and 18-fold, respectively. Overall, the combination of physical and chemical disturbances increased the Global Warming Potential (GWP) by 7.5-fold. The first response of hydrological rehabilitation, while typically valuable for CO2 emission reduction, amplified CH4 and N2O emissions when combined with high nitrogen inputs. Therefore, this research highlights the importance of evaluating the potential interactive effects of various disturbances on biogeochemical processes when devising rehabilitation plans to rehabilitate degraded wetlands.

OriginalsprogEngelsk
Artikelnummer118637
TidsskriftEnvironmental Pollution
Vol/bind294
ISSN0269-7491
DOI
StatusUdgivet - 1 feb. 2022
Udgivet eksterntJa

Bibliografisk note

Funding Information:
We thank the Murray Local Land Services and Australian Research Council Linkage Grant ( LP160100061 ; PM) and the Carlsberg Foundation ( CF16-0899 ; KEB) for the funding that made this research possible.

Emneord

  • Ammonia oxidation
  • Fertilization
  • Inundation
  • Methanogenesis
  • Nitrification

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