Journal of Water and Climate Change (Sep 2023)

Biochar and mycorrhiza enhance soil carbon storage and reduce CO2 emissions in wastewater-irrigated turf

  • Ustun Sahin,
  • Talip Cakmakci,
  • Caner Yerli

DOI
https://doi.org/10.2166/wcc.2023.270
Journal volume & issue
Vol. 14, no. 9
pp. 3280 – 3292

Abstract

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Irrigation with recycled wastewater can reduce freshwater demand and improve soil fertility, but it can also increase CO2 emissions from soil and contribute to global warming. This study investigated whether biochar and mycorrhiza can reduce CO2 emissions and enhance soil quality in wastewater-irrigated turf. A factorial experiment was conducted with four levels of biochar (0, 0.5, 1, and 1.5%), two mycorrhiza (with and without), and two types of irrigation water (freshwater and recycled wastewater). Soil CO2 and H2O emissions, moisture and temperature, and chemical and physical properties were measured for 3 months. Biochar and mycorrhiza treatments significantly reduced CO2 emissions by 19.4–45.0% compared to the control treatment. The combination of biochar at a 1.5% level with mycorrhiza had the highest emission-reducing effect. Biochar and mycorrhiza treatments also reduced H2O emissions by 8.1–14.6%, increased soil organic matter, carbon, and total nitrogen, regulated soil EC and pH, and improved soil porosity and aggregate stability. The results suggest that biochar and mycorrhiza can be effective strategies to mitigate CO2 emissions and improve soil quality in wastewater irrigation. The combination of biochar with mycorrhiza can have synergistic benefits for soil carbon storage and conservation. HIGHLIGHTS Biochar and mycorrhiza application under wastewater irrigation reduces CO2 emissions from the turf soil while increasing soil carbon stocks.; The combination of mycorrhiza with biochar reduces CO2 emissions from turf soil compared to the use of biochar alone.; The combination of mycorrhiza with biochar improves soil physical properties.;

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