Effects of Soil Quality Arising from the Conversion of Intrazonal Grassland in an Agro-Pasturage Ecotone of China

Chao Chen; Ding Huang; Kun Wang

doi:10.4028/www.scientific.net/AMR.610-613.3054

Paper Titles

Distribution and Enzyme Activities in the Soil around the Fertilizes
p.3027

The Effects of Tourism Interference on the Soil of Grassland Tourist Spots — A Study of Gold Saddle Tourist Spots of Xilamuren Grassland in Inner Mongolia
p.3034

Density Effects of Crusted Mosses on Dew Condense and Water Evaporation in the Gurbantunggut Desert, Northwestern China
p.3042

Situ Monitoring and Numerical Analyzing of Soil Degradation Kinetic Parameter
p.3048

Effects of Soil Quality Arising from the Conversion of Intrazonal Grassland in an Agro-Pasturage Ecotone of China
p.3054

Arbuscular Mycorrhizal Fungi Alter Plant Growth, Soil Aggregate Stability, and Rhizospheric Organic Carbon Pools of Citrus
p.3063

Investigation of Soil Heavy Metal in Zhehai Town Huize County Yunnan Based on GIS- Approach and Geostatistics
p.3067

Soil Humus Compositions and the Influence on Soil Acidity in Larix olgensis Plantation of NE China
p.3075

Heavy Metal Contamination Characteristics of Greenbelt Soil and Tree Enrichment in Harbin City, China
p.3080

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Effects of Soil Quality Arising from the Conversion of Intrazonal Grassland in an Agro-Pasturage Ecotone of China

Abstract:

Understanding the effects of land-use changes on soil property is crucial for the sustainable development in an agro-pastoral ecotone of China. Although grassland conversion is an important land-use change in northern China, most studies have focused on zonal grassland areas and the intrazonal grassland areas have been ignored, which is not climatic climax of natural grassland, because it is constrained by terrain, surface water, components of the earth surface and other ecological factors. The present study aims to determine the effects of the conversion of intrazonal grassland into cropland on soil properties in the Bashang area where a typical agro-pastoral ecotone of northern China is found. The results showed that intrazonal grassland conversion and subsequent tillage practices increased soil bulk density and decreased soil porosity, capillary moisture capacity, and soil nutrients content. Available soil zinc content in the study area was at extremely low level, which could not meet the need of crop growing based on the soil trace elements appraisal criteria of China. On the average, the conversion of intrazonal grassland into cropland led soil organic carbon density (SOCD) decreased from 22.49 kg m-2 to 13.24 kg m-2, and soil total nitrogen density (STND) from 2.23 kg m-2 to 1.27 kg m-2; that is, the meadow conversion resulted in a 41-43% reduction of SOCD and STND in 0–60 cm soil depth over about 20 years. To conserve the present status, the further conversion of grassland into cropland should be stopped, and encourage the restoration of cropped area into grassland to combat the soil desertification and degradation in the agro-pasturage ecotone of Northern China.