干旱区生态环境知识资源中心(Arid): 祁连山区主要植被类型下土壤团聚体变化特征

Arid

	祁连山区主要植被类型下土壤团聚体变化特征
其他题名	Variation characteristics of soil aggregates under main vegetation types in Qilian Mountainous areas
	魏霞 1; 贺燕 1; 魏宁 2; 于文竹 1; 崔霞 1; 赵恒策 1
来源期刊	农业工程学报
ISSN	1002-6819
出版年	2020
卷号	36 期号:2 页码:148-155
中文摘要	土壤团聚体是反映土壤结构稳定性、肥力和质量状况的重要指标,与侵蚀过程、水土流失、环境质量密切相关,研究土壤的理化性质,对保护土壤资源、提高生产率、维护土壤生态系统平衡具有重要意义。以青藏高原北缘的祁连山区为研究对象,采集该区4种主要植被类型--荒漠、草原、草甸及灌丛的土壤,分析了不同植被类型的土壤团聚体指标,水稳定性团聚体质量百分数(percentage of water-stable aggregates,WSA)、平均质量直径(mean weight diameter,MWD)、几何平均直径(geometric mean diameter,GMD)、结构体破坏率(aggregate destruction rate,PAD)、平均重量比表面积(mean weight soil specific area,MWSSA)和分形维数随海拔高度和土壤深度的变化趋势。结果表明:0~30 cm土层WSA、MWD、GMD、MWSSA依次:荒漠<草原<草甸<灌丛,>30~40 cm土层植被类型对团聚体无显著影响(P>0.05);随土壤深度的增加,土壤团聚体稳定性和团聚度逐渐降低,土壤结构趋于恶化,草甸带表层土壤团聚体稳定性显著高于深层土壤(P<0.05);随海拔高度增大,在海拔1 692~2 800 m土壤团聚体逐渐稳定,土壤结构改善,在海拔2 800~3 639 m土壤团聚体稳定性逐渐降低,土壤结构趋于恶化。WSA、MWD和GMD受1~4 mm粒级主导作用,分形维数主要受0.038~ 0.25 mm粒级的影响,MWSSA不能准确分析该地区的团聚体水稳性。
英文摘要	Soil aggregates reflect the stability of soil structure, soil fertility and quality, and they are closely related to the environmental quality, soil and water loss, and soil erosion.Although vegetation types, soil depths, and altitude likely have important effects on soil properties and soil aggregates, few studies have concentrated on the relationships between their interactive effects and soil aggregate stability on the regional scale.In order to study the variation characteristics of soil aggregates in the Qilian Mountains.In this study, 4 vegetation type zones(desert, steppe, meadow, and shrub)were selected in the Qilian Mountains(northwest China)as the subjects.The stability and size distribution of soil aggregates was measured by the method of wet-sieving.The characteristics of soil aggregate index were analyzed at different soil depths and different altitudes, including the percentage of water-stable aggregate(WSA), mean weight diameter(MWD), geometric mean diameter(GMD), mean weight soil specific area(MWSSA), aggregate processing damage rate(PAD)and fractal dimension(D).The results showed that the coefficients of variation of soil aggregate index under the 4 vegetation types were high(ranging from 10.91% to 62.50%), which indicated a moderate spatial variability.Among the 4 grassland types, WSA, MWD, GMD and MWSSA all showed the same increased in order: desert < steppe or meadow 30-40 cm depth, no significant differences in aggregate stability index were found among different vegetation types(P>0.05).The reason why the aggregate stability of desert was lowest could be explained by the fact that the lower soil organic carbon(SOC)and biomass of desert, and the small aggregates couldn't be formed.Along the vertical direction of the soil profiles from aboveground to underground, with the increase of soil depth(0-40 cm), WSA, MWD, GMD, and MWSSA gradually all decreased.Whereas PAD and D behaved opposite to them, and with the increase in soil depth, they gradually increased, which indicated that the stability and aggregation degree of soil aggregates decreased with soil depth.This could be explained as that the SOC appeared enrichment phenomenon in the 0-20 cm layer and decreased with soil depth.The soil aggregate index all tended to be significantly higher in surface layer than in lower layers only at the meadow(P<0.05), but no significant difference in MWSSA(P>0.05)were found among all soil depths.With increasing altitude, the aggregate stability(WSA, MWD, and GMD)increased gradually from 1 692 m, reached a peak at 2 800 m, and then decreased quickly.But the trends were reverse for the PAD and D, and there was no significant correlation between MWSSA and altitude under different vegetation types(P>0.05), which suggested that their distribution clearly showed unimodal patterns across all the altitude.This indicated that the stability and aggregation degree of soil aggregates first increased and then decreased with increasing altitude, and the maximum point appeared at elevation of 2 800 m.In addition, correlation analysis showed that WSA, MWD, and GMD were mainly affected by 1-4 mm,D was mainly affected by 0.038-0.25 mm, and MWSSA couldn't accurately express the characteristics of water-stable aggregates.This research will guide the practice of reducing soil erosion for the different conditions and different vegetation types, and results have great significance for controlling grassland degradation, promoting soil structure stability and the sustainable development of grassland animal husbandry.
中文关键词	土壤 ; 团聚体 ; 植被 ; 海拔 ; 祁连山
英文关键词	soils aggregates vegetations altitude Qilian Mountains
语种	中文
收录类别	CSCD
WOS类目	AGRICULTURE MULTIDISCIPLINARY
WOS研究方向	Agriculture
CSCD记录号	CSCD:6679802
来源机构	兰州大学 ; 西北农林科技大学
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/318408
作者单位	1.兰州大学资源环境学院, 兰州, 甘肃 730000, 中国; 2.西北农林科技大学理学院, 杨陵, 712100
推荐引用方式 GB/T 7714	魏霞,贺燕,魏宁,等. 祁连山区主要植被类型下土壤团聚体变化特征[J]. 兰州大学, 西北农林科技大学,2020,36(2):148-155.
APA	魏霞,贺燕,魏宁,于文竹,崔霞,&赵恒策.(2020).祁连山区主要植被类型下土壤团聚体变化特征.农业工程学报,36(2),148-155.
MLA	魏霞,et al."祁连山区主要植被类型下土壤团聚体变化特征".农业工程学报 36.2(2020):148-155.