<p>The study analyzed labile and stable SOC fractions in different land use systems in the Colombian Amazon. The research included cacao-based Agroforestry Systems (cAFS), full-sun cocoa plantations, forests, and pastures, using a factorial design with land use and soil depth as factors. Land use significantly affected carbon fractions, explaining 51% of variance (<i>P</i> &lt; 0.01). In the surface layer (0–15&#xa0;cm), fulvic acids were highest in Huito (7.32&#xa0;g&#xa0;C&#xa0;kg<sup>−1</sup>) and lowest in Pasture (2.76&#xa0;g&#xa0;C&#xa0;kg<sup>−1</sup>). For humic acids, full-sun cacao showed the highest values (9.55&#xa0;g&#xa0;C&#xa0;kg<sup>−1</sup>) followed by Capiron (7.75&#xa0;g C kg<sup>−1</sup>). Total Humic Extract was maximum in full-sun cacao (27.68&#xa0;g&#xa0;C&#xa0;kg<sup>−1</sup>) and minimum in Pasture (18.99&#xa0;g&#xa0;C&#xa0;kg<sup>−1</sup>). The polymerization index was higher in Pasture (1.87) and full-sun cacao (1.46). The degree of humification was highest in full-sun cacao (64.78%), while the humification ratio showed maximum values in full-sun cacao (84.9%) and minimum in Forest (36.86%). These patterns generally persisted at deeper soil layers, demonstrating the potential of cAFS as a sustainable alternative for land use and carbon sequestration.</p>

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Labile and stable organic carbon in soils of cacao agroforestry systems compared to forest and pasture in the Colombian Amazon

  • Juan Carlos Suárez,
  • Cesar Julian Lopez,
  • Wilson Rodriguez

摘要

The study analyzed labile and stable SOC fractions in different land use systems in the Colombian Amazon. The research included cacao-based Agroforestry Systems (cAFS), full-sun cocoa plantations, forests, and pastures, using a factorial design with land use and soil depth as factors. Land use significantly affected carbon fractions, explaining 51% of variance (P < 0.01). In the surface layer (0–15 cm), fulvic acids were highest in Huito (7.32 g C kg−1) and lowest in Pasture (2.76 g C kg−1). For humic acids, full-sun cacao showed the highest values (9.55 g C kg−1) followed by Capiron (7.75 g C kg−1). Total Humic Extract was maximum in full-sun cacao (27.68 g C kg−1) and minimum in Pasture (18.99 g C kg−1). The polymerization index was higher in Pasture (1.87) and full-sun cacao (1.46). The degree of humification was highest in full-sun cacao (64.78%), while the humification ratio showed maximum values in full-sun cacao (84.9%) and minimum in Forest (36.86%). These patterns generally persisted at deeper soil layers, demonstrating the potential of cAFS as a sustainable alternative for land use and carbon sequestration.