Eclesia, R. P., Jobbagy Gampel, E. G., Jackson, R. B., Rizzotto, M. G., & Piñeiro, G. (2018). Stabilization of new carbon inputs rather than old carbon decomposition determines soil organic carbon shifts following woody or herbaceous vegetation transitions. Springer.
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Cita Chicago Style (17a ed.)
Eclesia, Roxana Paola, Esteban Gabriel Jobbagy Gampel, Robert B. Jackson, Marcos Gregorio Rizzotto, y Gervasio Piñeiro. Stabilization of New Carbon Inputs Rather than Old Carbon Decomposition Determines Soil Organic Carbon Shifts Following Woody or Herbaceous Vegetation Transitions. Springer, 2018.
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Cita MLA (9a ed.)
Eclesia, Roxana Paola, et al. Stabilization of New Carbon Inputs Rather than Old Carbon Decomposition Determines Soil Organic Carbon Shifts Following Woody or Herbaceous Vegetation Transitions. Springer, 2018.
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