Santos-Nicolella, A.I.; Canteral, K.F.F.; De Lucena, W.B.; Vicentini, M.E.; Panosso, A.R.; Spokas, K.; de Souza Rolim, G.; da Silva, T.R.G.; La Scala, N., Jr.
Soil Solution Viscosity Reduces CO2 Emissions in Tropical Soils: Implications for Climate Change Mitigation. Soil Syst. 2025, 9, 101.
https://doi.org/10.3390/soilsystems9030101
AMA Style
Santos-Nicolella AI, Canteral KFF, De Lucena WB, Vicentini ME, Panosso AR, Spokas K, de Souza Rolim G, da Silva TRG, La Scala N Jr.
Soil Solution Viscosity Reduces CO2 Emissions in Tropical Soils: Implications for Climate Change Mitigation. Soil Systems. 2025; 9(3):101.
https://doi.org/10.3390/soilsystems9030101
Chicago/Turabian Style
Santos-Nicolella, Arianis Ibeth, Kleve Freddy Ferreira Canteral, Wanderson Benerval De Lucena, Maria Elisa Vicentini, Alan Rodrigo Panosso, Kurt Spokas, Glauco de Souza Rolim, ThaÃs Rayane Gomes da Silva, and Newton La Scala, Jr.
2025. "Soil Solution Viscosity Reduces CO2 Emissions in Tropical Soils: Implications for Climate Change Mitigation" Soil Systems 9, no. 3: 101.
https://doi.org/10.3390/soilsystems9030101
APA Style
Santos-Nicolella, A. I., Canteral, K. F. F., De Lucena, W. B., Vicentini, M. E., Panosso, A. R., Spokas, K., de Souza Rolim, G., da Silva, T. R. G., & La Scala, N., Jr.
(2025). Soil Solution Viscosity Reduces CO2 Emissions in Tropical Soils: Implications for Climate Change Mitigation. Soil Systems, 9(3), 101.
https://doi.org/10.3390/soilsystems9030101
