水保所知识产出(1956---)知识库

The remarkable soil carbon sequestration and greenhouse gas mitigation effects of biochar have spurred great
interest in exploring ways to maximize its benefits. However, it remains unclear how biochar application depth
impacts soil carbon dioxide (CO 2 ) emissions and methane (CH 4 ) uptake in upland soil. Therefore, we carried out
a 16-month field experiment in a dryland agricultural system to answer the above questions. Woody biochar (20
t ha −1 ) was mixed into three soil layers: 0–10 cm (BC 0-10cm ), 10–20 cm (BC 10-20cm ), and 0–20 cm (BC 0-20cm ). Soil
without biochar addition was used as the control (CK). We monitored soil CO 2 and CH 4 fluxes continuously and
determined the metabolic quotient (qCO 2 ) and the sensitivity of soil respiration to temperature (Q 10 ). The results
indicated that CO 2 emissions, CH 4 uptake, qCO 2 and Q 10 were significantly affected by biochar application
depth. Overall, compared with CK, BC 0-10cm increased total CO 2 emissions by 10.13%, while BC 10-20cm and BC 0-
20cm showed no significant effect. BC 0-10cm and BC 0-20cm exhibited greater soil CH 4 uptake enhancement than
BC 10-20cm , but the enhanced CH 4 uptake resulted in limited net greenhouse gas mitigation. BC 10-20cm and BC 0-
20cm had a lower qCO 2 than the other treatments, which likely increased the carbon use efficiency and decreased
the stress on soil microbes, but BC 0-10cm showed the opposite effect. In addition, BC 0-10cm significantly reduced
Q 10 mainly due to the enhanced lability of the native carbon and microbial activities. Changes in environmental
factors in the 0–10 cm soil largely explained the variations in CO 2 emissions, CH 4 uptake and Q 10 (>88%).
Nevertheless, the enhanced microbial biomass in the 10–20 cm soil helped lower qCO 2 in the whole 0–20 cm
layer. In summary, adding biochar to surface soil (0–10 cm) likely accelerates carbon loss, due to the strong shift
in the environment of the surface soil caused by complex interactions among hydrothermal conditions, nutrient
levels (i.e., N, NH 4
+ , NO 3 −
and available P) and labile carbon. However, adding biochar to subsurface soil (10–20
cm) can effectively avoid severe disturbance of the surface soil environment and thus benefit soil carbon
sequestration in the long term.