缙云山不同土地利用方式下土壤团聚体中活性有机碳分布特征

Impact of Land Utilization Pattern on Distributing Characters of Labile Organic Carbon in Soil Aggregates in Jinyun Mountain

于缙云山阳坡同一海拔高度处选择了亚热带常绿阔叶林(简称林地)、荒地、坡耕地和果园4种土地利用方式,在0~60 cm的土壤深度内每隔10 cm采集一个土壤样品,测定大团聚体(>2 mm)、中间团聚体(0.25~2 mm)、微团聚体(0.053~0.25 mm)以及粉+黏团聚体(<0.053 mm)这4种粒径团聚体内的土壤活性有机碳(labile organic carbon,LOC)的含量,分析缙云山不同土地利用方式对团聚体LOC的影响.结果表明,各粒径团聚体中LOC含量均随土壤深度的增加而显著降低,呈现出明显的垂直递减性;在0~60 cm土壤深度的各土层上,基本上均表现为林地和撂荒地各粒径团聚体中LOC含量高于坡耕地和果园.采用土壤等质量方法计算LOC储量,显示大团聚体LOC储量为林地(3.68 Mg·hm-2)>撂荒地(1.73 Mg·hm-2)>果园(1.43 Mg·hm-2)>坡耕地(0.54 Mg·hm-2);中间和微团聚体LOC储量为撂荒地(7.77 Mg·hm-2和5.01 Mg·hm-2)>林地(4.96 Mg·hm-2和2.71 Mg·hm-2)>果园(3.55 Mg·hm-2和2.10 Mg·hm-2)>坡耕地(1.68 Mg·hm-2和1.35 Mg·hm-2);粉+黏团聚体LOC储量为撂荒地(4.32 Mg·hm-2)>果园(4.00 Mg·hm-2)>林地(3.22 Mg·hm-2)>坡耕地(2.37Mg·hm-2).除粉+黏团聚体LOC储量略低于果园外,林地和撂荒地其他粒径团聚体LOC储量均高于果园和坡耕地,表明林地开垦为果园和坡耕地会导致LOC的降低,而坡耕地撂荒则会促进LOC的增加.林地和荒地LOC主要分布在中间团聚体,而果园和坡耕地则为粉+黏团聚体内LOC储量最高,表明在土地利用的转变过程中,粒径较大的团聚体更容易积累或损失LOC.4种土地方式下各粒径团聚体中LOC分配比例随土壤深度的增加而降低,果园和坡耕地各粒径团聚体内LOC分配比例略高于林地和撂荒地,表明林地和撂荒地土壤有机碳(soil organic carbon,SOC)性质更稳定,更有利于碳在土壤中的留存,从而减少SOC矿化分解向大气的释放.相关分析表明,土壤团聚体LOC含量与土壤团聚体总有机碳含量呈极显著正相关关系,表明团聚体LOC可以作为衡量西南地区山地土壤团聚体有机碳动态的一个敏感性指标.

Four land utilization patterns were selected for this study in Jinyun mountain,including subtropical evergreen broad-leaved forest( abbreviation: forest),sloping farmland,orchard and abandoned land. Soil samples were taken every 10 cm in the depth of 60 cm soil and proportions of large macroaggregates( > 2 mm),small macroaggregates( 0. 25-2 mm),microaggregates( 0. 053-0. 25mm) and silt + clay( < 0. 053 mm) were obtained by wet sieving method to measure the content of organic carbon and labile organic carbon in each aggregate fraction and analyze impacts of land uses on organic carbon and labile organic carbon of soil aggregates. LOC content of four soil aggregates were significantly reduced with the increase of soil depth; in layers of 0-60 cm soil depth,our results showed that LOC contents of forest and abandoned land were higher than orchard and sloping farmland. Reserves of labile organic carbon were estimated by the same soil quality,it revealed that forest( 3. 68 Mg·hm- 2) > abandoned land( 1. 73 Mg·hm- 2) > orchard( 1. 43 Mg·hm- 2) > sloping farmland( 0. 54 Mg·hm- 2) in large macroaggregates,abandoned land( 7. 77,5. 01 Mg·hm- 2) > forest( 4. 96,2. 71 Mg·hm- 2) > orchard( 3. 55,2. 10 Mg·hm- 2) > sloping farmland( 1. 68,1. 35 Mg·hm- 2) in small macroaggregates and microaggregates,and abandoned land( 4. 32 Mg·hm- 2) > orchard( 4. 00 Mg·hm- 2) > forest( 3. 22 Mg·hm- 2) > sloping farmland( 2. 37 Mg·hm- 2) in silt + clay,forest and abandoned land were higher than orchard and sloping farmland in other three soil aggregates except silt + clay. It was observed that the level of organic carbon and labile organic carbon were decreased when bringing forest under cultivation to orchard or farmland,and augments on organic carbon and labile organic carbon were found after exchangingfarmland to abandoned land. The most reverses of forest and abandoned land emerged in small macroaggregates,orchard and sloping farmland were in microaggregates. That was,during the transformations of land utilization pattern,soil aggregates with bigger size were easier to accumulate or lose labile organic carbon. Allocation ratios of labile organic carbon to soil organic carbon under four land uses were decreased as the soil depth added. Allocation ratios of orchard and sloping farmland were a bit higher than forest and abandoned land,which indicated that organic carbon of forest and abandoned land were more steady and available for soil as a carbon sink,meanwhile,the forest and abandoned land would avoid more CO2 diffusing to the atmosphere from the decomposition of soil organic carbon.