Carbon partitioning and below-ground translocation by Lolium perenne

被引:201
作者
Kuzyakov, Y [1 ]
Ehrensberger, H [1 ]
Stahr, K [1 ]
机构
[1] Univ Hohenheim, Inst Soil Sci & Land Evaluat, D-70599 Stuttgart, Germany
关键词
carbon turnover; exudation; Lolium perenne; priming effect; rhizodeposition; rhizosphere; root respiration; C-14 pulse labeling; CO2;
D O I
10.1016/S0038-0717(00)00115-2
中图分类号
S15 [土壤学];
学科分类号
0903 ; 090301 ;
摘要
Carbon (C) balance, rhizodeposition and root respiration during development of Lolium perenne were studied on a loamy Gleyic Cambisol by (CO2)-C-14 pulse labeling of shoots in a two-compartment chamber under controlled laboratory conditions. The losses from shoot respiration were about 36% of the total assimilated C. The highest respiration intensity was measured in the first night after the labeling, and diminishes exponentially over time. Total CO2 efflux from the soil (root respiration, microbial respiration of exudates and dead roots) in the first eight days after the C-14 pulse labeling increased with plant development from 2.7 to 11% of the total C-14 assimilated by plants. A model approach used for the partitioning of rhizosphere respiration showed that measured root respiration was between 1.4 and 3.5 % of assimilated 14C, while microbial respiration of easily available rhizodeposits and dead root residues was between 0.9 and 6.8% of assimilated C. Both respiration processes increased during plant development. However, only the increase in root respiration was significant. The average contribution of root respiration to total (CO2)-C-14 efflux from the soil was approximately 46%. Total (CO2)-C-14 efflux from the soil was separated into plant-derived and soil-derived CO2 using C-14 labeling. Additional decomposition of soil organic matter (positive priming effects) in rhizosphere was calculated by subtracting the CO2 efflux from bare soil from soil-derived CO? efflux from soil with plants. Priming effects due to plant rhizodeposition reach 60 kg of C ha(-1) d(-1). C-14 incorporated in soil micro-organisms (extraction-fumigation) amounts to 0.8-3.2% of assimilated C. The total below-ground transfer of organic C by Lolium perenne was about 2800 kg of C ha(-1). The C input into the soil consists of about 50% of easily available organic substances. (C) 2001 Elsevier Science Ltd. All rights reserved.
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页码:61 / 74
页数:14
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