The role of tamarisk in the spatial heterogeneity of soil resources in the northern Tarim Basin, Xinjiang, China

Background and aims The encroachment of halophytic shrubs including tamarisk into saline meadows is accelerating with global warming in the northern Tarim Basin, Xinjiang, China. However, the role of tamarisk in the spatial heterogeneity of soil resources in different desertification stages remains...

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Bibliographic Details
Published in:Plant and soil 2017-11, Vol.420 (1/2), p.523-538
Main Authors: Yin, Chuanhua, Shi, Qiumei, Zhao, Xing, Zhao, Zhenyong, Zhang, Ke, Tian, Changyan
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Canopies
Climate change
Coefficient of variation
Data processing
Desertification
Ecology
Encroachment
Environmental factors
Geostatistics
Global warming
Heterogeneity
Ions
Life Sciences
Meadows
Organic matter
Organic soils
Plant Physiology
Plant Sciences
Regular Article
Salinity
Salinity effects
Shrublands
Shrubs
Soil analysis
Soil organic matter
Soil properties
Soil salinity
Soil Science & Conservation
Spatial distribution
Spatial heterogeneity
Tamaricaceae
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Summary:Background and aims The encroachment of halophytic shrubs including tamarisk into saline meadows is accelerating with global warming in the northern Tarim Basin, Xinjiang, China. However, the role of tamarisk in the spatial heterogeneity of soil resources in different desertification stages remains unclear. Methods The influences of tamarisk on soil resources were assessed via soil salinity and soil organic matter (SOM) measurements under tamarisk canopies and in interspaces. Geostatistical methods were applied to compare the spatial heterogeneity of these soil properties in three regions representing different desertification stages: 1) a meadow with shrubs, 2) a shrubland and 3) shrub duneland. Results The highest coefficient of variation (CVs) of the soil analytes and most developed "resource islands" were observed in the shrubland. The overall variation of most of the soil variables was lower in the shrub duneland than in the shrubland and similar to that in the meadow with shrubs. The distribution of SOM and most soil salinity ions were moderately spatially dependent in the meadow with shrubs but highly spatially dependent in the shrubland and shrub duneland. The autocorrelation distances of the most of soil salinity ions were approximately 6- to 15- fold and 2- to 4-fold highest than the tamarisk shrub size in the meadow with shrubs and shrubland, respectively. In contrast, the distribution range of total soil salinity (TSS) and soil K+, Na+ and Cl− in the shrub duneland were 1/5 ∼ 2/3 of the tamarisk size. Conclusions 1 ) Compared with the effect of tamarisk on soil resource heterogeneity in the meadow with shrubs, that in the shrubland was enhanced due to the larger shrub size and more open and scattered canopy in the latter.2) Although the largest shrub size were observed in the shrub duneland, the role of tamarisk in redistributing soil resources was overriden by those of physical processes due to the loose canopy. 3) The spatial heterogeneity of soil resources is determined by not only tamarisk but also environmental factors, such as the connectivity of bare areas and topography.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-017-3413-8