Deb L. O'Dell, N. Eash, B. Hicks, Joel N. Oetting, T. Sauer, D. Lambert, J. Logan, W. Wright, J. Zahn
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引用次数: 7
摘要
虽然文献清楚地表明过度耕作会降低土壤碳(C)含量,但很少有实验研究记录土壤和作物管理对碳固存的比较影响。利用微气象学,我们测量了俄亥俄州中北部一种玉米作物在免耕和耕两种土壤上的二氧化碳通量。我们使用鲍文比能量平衡(BREB)系统来量化大气与土壤表面(作物种植时)或作物建立和生长后冠层上方0.2 m之间的通量。在2015年生长季的104天内,免耕区吸收了263 g CO2 m-2(90%置信区间为-432.1 ~ -99.9),而耕区排放了146 g CO2 m-2(90%置信区间为-53.3 ~ 332.2);净差为410克CO2 m-2。在90%的置信水平上(基于自举分析),差异具有统计学意义。结果表明,免耕可以固碳,保持土壤生产力,保证景观可持续性。
Reducing CO2 Flux by Decreasing Tillage in Ohio: Overcoming Conjecture with Data
While the literature is clear about excessive tillage decreasing soil carbon (C) content, there are few experimental studies that document the comparative effects of soil and crop management on C sequestration. Using micrometeorology we measured CO2 flux from a maize crop grown on both no-till and tilled soils in north-central Ohio. We used Bowen Ratio Energy Balance (BREB) systems to quantify the flux between the atmosphere and either the soil surface (at crop planting) or 0.2 m above the canopy once the crop was established and growing. The no-till plot sequestered 263 g CO2 m-2 (90% confidence interval -432.1 to -99.9) while the tilled plot emitted 146 g CO2 m-2 (90% confidence interval -53.3 to 332.2) during 104 days of the 2015 growing season; a net difference of 410 g CO2 m-2. The difference is statistically significant at the 90% confidence level (based on a bootstrap analysis). The results indicate that no-tillage practices can sequester C, maintain soil productivity, and ensure landscape sustainability.
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