Produção Nacional
Soil organic matter dynamics and land-use change on Oxisols in the Cerrado, Brazil
2018; Elsevier BV; Volume: 14; Linguagem: Inglês
10.1016/j.geodrs.2018.e00178
ISSN2352-0094
AutoresMaria-Regina Gmach, Bruno Oliveira Dias, Carlos Alberto Silva, Júlio César Azevedo Nóbrega, José Ferreira Lustosa Filho, Marcos Siqueira Neto,
Tópico(s)Soil erosion and sediment transport
ResumoLand-use change (LUC) from native vegetation to feedstock production is the main responsible for the losses of carbon (C) from soil organic matter (SOM) to atmosphere. We evaluated different land-uses common in the Cerrado with potential to restore SOM levels. We sampled soil (0.0–0.1; 0.1–0.2; 0.2–0.3; 0.3–0.4 m) from sites located in the municipality of Uruçuí (Piauí State, Northeast region of Brazil). Land-uses evaluated were: i) native vegetation (NV); ii) no-tillage over six years (NT6); iii) no-tillage over nine years (NT9); iv) Urochloa brizantha pasture over two years (PA2); v) U. brizantha pasture over six years (PA6); vi) Eucalyptus urophylla afforestation over six years (EU6); and vii) E. urophylla afforestation over twelve years (EU12). We determined soil C stocks, chemical (fulvic and humic acids) and physical (particulate and organic-mineral complexes) SOM fractions. Pasture was land-use that presented better results in terms to maintain C pools (recalcitrant and labile), consequently could restore soil C stocks. The no-tillage, due to the high difference between the results for the adoption times, was difficult to have an accurate interpretation if is effectively increasing the C stocks. On the other hand, Eucalyptus afforestation does not seem to be an efficient land-use when it comes to the restoration of SOM levels, at least under the current management practices as well as the soil and climatic conditions in the Cerrado.
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