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用最小可检测差异技术评估耕作方式对土壤C固定的影响
引用本文:X. M. YANG,C. F. DRURY,M. M. WANDER,B. D. KAY. 用最小可检测差异技术评估耕作方式对土壤C固定的影响[J]. 土壤圈, 2008, 18(4): 421-430
作者姓名:X. M. YANG  C. F. DRURY  M. M. WANDER  B. D. KAY
作者单位:[1]Agriculture and Agri-Food Canada, Harrow, Ontario, NOR 1 GO (Canada) [2]Department of Natural Resources and Environmental Science, University of Illinois at Urbana-Champaign, Urbana, IL 61801 (USA) [3]Department of Land Resources, University of Guelph, Guelph, Ontario, NIG 2W1 (Canada)
基金项目:*1the Agriculture and Agri-Food Canada.
摘    要:Three long-term field trials in humid regions of Canada and the USA were used to evaluate the influence of soil depth and sample numbers on soil organic carbon (SOC) sequestration in no-tillage (NT) and moldboard plow (MP) corn (Zea mays L.) and soybean (Glycine max L.) production systems. The first trial was conducted on a Maryhill silt loam (Typic Hapludalf) at Elora, Ontario, Canada, the second on a Brookston clay loam (Typic Argiaquoll) at Woodslee, Ontario, Canada, and the third on a Thorp silt loam (Argiaquic Argialboll) at Urbana, Illinois, USA. No-tillage led to significantly higher SOC concentrations in the top 5 cm compared to MP at all 3 sites. However, NT resulted in significantly lower SOC in sub-surface soils as compared to MP at Woodslee (10-20 cm, P =0.01) and Urbana (20-30 cm, P 〈 0.10). No-tillage had significantly more SOC storage than MP at the Elora site (3.3 Mg C ha^-1) and at the Woodslee site (6.2 Mg C ha^-1) on an equivalent mass basis (1 350 Mg ha^-1 soil equivalent mass). Similarly, NT had greater SOC storage than MP at the Urbana site (2.7 Mg C ha^-1) on an equivalent mass basis of 675 Mg ha^-1 soil. However, these differences disappeared when the entire plow layer was evaluated for both the Woodslee and Urbana sites as a result of the higher SOC concentrations in MP than in NT at depth. Using the minimum detectable difference technique, we observed that up to 1 500 soil sample per tillage treatment comparison will have to be collected and analyzed for the Elora and Woodslee sites and over 40 soil samples per tillage treatment comparison for the Urbana to statistically separate significant differences in the SOC contents of sub-plow depth soils. Therefore, it is impracticable, and at the least prohibitively expensive, to detect tillage-induced differences in soil C beyond the plow layer in various soils.

关 键 词:碳含量  土壤检测  土壤肥力  土壤深度

Evaluating the effect of tillage on carbon sequestration using the minimum detectable difference concept
X. M. YANG,C. F. DRURY,M. M. WANDER and B. D. KAY. Evaluating the effect of tillage on carbon sequestration using the minimum detectable difference concept[J]. Pedosphere, 2008, 18(4): 421-430
Authors:X. M. YANG  C. F. DRURY  M. M. WANDER  B. D. KAY
Affiliation:Agriculture and Agri-Food Canada, Harrow, Ontario, N0R 1G0 (Canada). Email: yangx@agr.gc.ca;Agriculture and Agri-Food Canada, Harrow, Ontario, N0R 1G0 (Canada). Email: yangx@agr.gc.ca;Department of Natural Resources and Environmental Science, University of Illinois at Urbana-Champaign, Urbana, IL61801 (USA);Department of Land Resources, University of Guelph, Guelph, Ontario, N1G 2W1 (Canada)
Abstract:Three long-term field trials in humid regions of Canada and the USA were used to evaluate the influence of soil depth and sample numbers on soil organic carbon (SOC) sequestration in no-tillage (NT) and moldboard plow (MP) corn (Zea mays L.) and soybean (Glycine max L.) production systems. The first trial was conducted on a Maryhill silt loam (Typic Hapludalf) at Elora, Ontario, Canada, the second on a Brookston clay loam (Typic Argiaquoll) at Woodslee, Ontario,Canada, and the third on a Thorp silt loam (Argiaquic Argialboll) at Urbana, Illinois, USA. No-tillage led to significantly higher SOC concentrations in the top 5 cm compared to MP at all 3 sites. However, NT resulted in significantly lower SOC in sub-surface soils as compared to MP at Woodslee (10-20 cm, P = 0.01) and Urbana (20-30 cm, P < 0.10).No-tillage had significantly more SOC storage than MP at the Elora site (3.3 Mg C ha-1) and at the Woodslee site (6.2Mg C ha-1) on an equivalent mass basis (1350 Mg ha-1 soil equivalent mass). Similarly, NT had greater SOC storage than MP at the Urbana site (2.7 Mg C ha-1) on an cquivalent mass basis of 675 Mg ha-1 soil. However, these differences disappcared when the entire plow layer was evaluated for both the Woodslee and Urbana sites as a result of the higher SOC concentrations in MP than in NT at depth. Using the minimum detectable difference technique, we observed that up to 1500 soil sample per tillage treatment comparison will have to be collected and analyzed for the Elora and Woodslee sites and over 40 soil samples per tillage treatment comparison for the Urbana to statistically separate significant differences in the SOC contents of sub-plow depth soils. Therefore, it is impracticable, and at the least prohibitively expensive, to detect tillage-induced differences in soil C beyond the plow layer in various soils.
Keywords:carbon sequestration  minimum detectable difference  moldboard plow  no-tillage  soil depth
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