E. Sanhueza et al., EFFECT OF PLOWING ON CO2, CO, CH4, N2O, AND NO FLUXES FROM TROPICAL SAVANNA SOILS, JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 99(D8), 1994, pp. 16429-16434
Using closed chamber techniques, soil fluxes of CO2, CO, CH4, N2O, and
NO were measured in unplowed and plowed savannah soil from May 23 to
June 11, 1991. During the measurement period the gravimetric soil mois
ture ranged from 1% to 10%, with an average of 2.7%. Results did not s
how any notable change in CO2, CH4, and N2O fluxes between unplowed an
d plowed soil, whereas a significant change in CO and NO fluxes was pr
oduced. For CO, nonperturbed soil switches from being a net source (16
ng m-2 s-1 ) to being a net sink (-5.3 ng M-2 s-1) after plowing, and
the case of NO the plowing leads to a dramatic increase (from 12.3 to
67.5 ng NO-N m-2 s-1) in the emissions. The addition of fertilizer (p
hosphate, ammonium, and potassium) to the plowed soil did not produce
any significant effect. The simultaneous study of these five trace gas
es strongly suggests that in the short term, plowing of this savannah
soil does not significantly alter the activity that produces trace gas
es and that the large changes in CO and NO fluxes arc mainly related t
o an enhancement of the transport of gases within the soil and to a la
rger surface area in contact with the atmosphere.