EGU24-12116, updated on 09 Mar 2024
https://doi.org/10.5194/egusphere-egu24-12116
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Examining the natural nitrogen biogeochemical cycling and impacts across South African ecosystems

Rebecca M. Garland1, Mogesh Naidoo1,2, Katye Altieri3, Phesheya Dlamini4, Gregor Feig1,5, Kerneels Jaars6, Lerato Sekhohola7, Pieter van Zyl6, Nomsa Muthelo1, Jabulile Leroko3, Pelenomi Sakwe3, Tamryn Hamilton6, Tiaan van Niekerk6, Pedro Bixirao Neto Marinho8, and Kathleen Smart5
Rebecca M. Garland et al.
  • 1University of Pretoria, South Africa
  • 2Smart Places, CSIR, South Africa
  • 3Department of Oceanography, University of Cape Town, South Africa
  • 4Department of Plant Production, Soil Science & Agricultural Engineering, University of Limpopo
  • 5South African Environmental Observation Network of the National Research Foundation (SAEON), Pretoria, South Africa
  • 6Department of Chemistry, North-West University Potchefstroom, South Africa
  • 7Private consultant, South Africa
  • 8Centre of Microbial Ecology and Genomics, University of Pretoria, South Africa

The biogeochemical nitrogen (N) cycle in South Africa is influenced by, and in turn influences a number of crucially important global change processes. However, the natural N cycling in South Africa is not well-understood. The “Emissions, deposition, impacts - Interdisciplinary study of N biogeochemical cycling (EDI-SA)” project is working to improve our baseline understanding of the natural biogeochemical cycling of N in non-industrialized ecosystems across South Africa. This includes quantifying N fluxes from emissions through to deposition, identifying linkages between N cycling and related species such as sulphur (S) and ozone, and evaluating ecosystem impacts. Previous work has focused on the impact of atmospheric deposition of N and S species on ecosystems at sites almost exclusively on the industrialized Highveld. This has left large gaps of knowledge in the biogeochemical cycling and ecosystem impacts, particularly within the diverse natural ecosystems found across South Africa. In order to address this gap, EDI-SA is applying a more holistic approach using measurements (from two South African Research Infrastructures; EFTEON and BIOGRIP) and modelling to investigate multiple linkages within the biogeochemical cycling of N with a focus on improving the understanding of the natural cycling. The project is applying a variable resolution sampling approach to investigate processes which occur at multiple spatial scales, and applying multiple measurement techniques including atmospheric measurements, stable isotope analysis of aerosol particles, rainwater and soil, and analysis of soil chemistry and biology. This contribution will detail the approach of this interdisciplinary project, highlight results from the first soil and air sampling campaigns, as well as the atmospheric composition modelling that assesses the relative importance and impacts of N emissions from soil across South Africa. This baseline understanding will allow future research to assess the potential changes to N biogeochemical cycling into the future in a changing climate.  

How to cite: Garland, R. M., Naidoo, M., Altieri, K., Dlamini, P., Feig, G., Jaars, K., Sekhohola, L., van Zyl, P., Muthelo, N., Leroko, J., Sakwe, P., Hamilton, T., van Niekerk, T., Bixirao Neto Marinho, P., and Smart, K.: Examining the natural nitrogen biogeochemical cycling and impacts across South African ecosystems, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-12116, https://doi.org/10.5194/egusphere-egu24-12116, 2024.