Abstract
In this study, we use classical and geostatistical methods to identify characteristics of some selected soil properties including soil particle size distribution, soil organic carbon, total nitrogen, pH and electrical conductivity and their spatial variation in a 5-year recovery degraded sandy grassland after two different grazing intensity disturbance: post-heavy-grazing restoration grassland (HGR) and post-moderately grazing restoration grassland (MGR), respectively, in Horqin steppe, Inner Mongolia, northern China. The objective was to examine effect of grazing intensity on spatial heterogeneity of soil properties. One hundred soil samples were taken from the soil layer 0–15 cm in depth of a grid of 10 m×10 m under each treatment. The results showed that soil fine fractions (very fine sand, 0.1–0.05 mm and silt + clay, <0.05 mm), soil organic carbon and total nitrogen concentrations were significant lower and their coefficients of variation significant higher under the HGR than under the MGR. Geostatistical analysis of soil heterogeneity revealed that soil particle size fractions, organic carbon and total nitrogen showed different degree of spatial dependence with exponential or spherical semivariograms on the scale measured under HGR and MGR. The spatial structured variance account for a large proportion of the sample variance in HGR plot ranging from 88% to 97% for soil particle fractions, organic C and total N, however, except for organic C (88.8%), the structured variance only account for 50% of the sample variance for soil particle fractions and total N in the MGR plot. The ranges of spatial autocorrelation for coarse-fine sand, very fine sand, silt + clay, organic C and total N were 13.7 m, 15.8 m, 15.2 m, 22.2 m and 21.9 m in HGR plot, respectively, and was smaller than in MGR plot with the corresponding distance of 350 m, 144.6 m, 45.7 m, 27.3 m and 30.3 m, respectively. This suggested that overgrazing resulted in an increase in soil heterogeneity. Soil organic C and total N were associated closely with soil particle fractions, and the kriging-interpolated maps showed that the spatial distribution of soil organic C and total N corresponded to the distribution patterns of soil particle fractions, indicating that high degree of spatial heterogeneity in soil properties was linked to the distribution of vegetative and bare sand patches. The results suggested that the degree of soil heterogeneity at field scale can be used as an index for indicating the extent of grassland desertification. Also, the changes in soil heterogeneity may in turn influence vegetative succession and restoration process of degraded sandy grassland ecosystem.
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References
D.J. Augustine D.A. Frank (2001) ArticleTitleEffects of migratory grazers on spatial heterogeneity of soil nitrogen properties in a grassland ecosystem Ecology 82 3149–3162 Occurrence Handle10.2307/2679841
H. Bourennane D. King P. Chéry A. Bruand (1996) ArticleTitleImproving the kinging of a soil variable using the slope gradient as external drift Eur. J. Soil Sci. 47 473–483 Occurrence Handle10.1111/j.1365-2389.1996.tb01847.x
A.J. Franzluebbers J.A. Stuedemann H.H. Schomberg (2000) ArticleTitleSpatial pattern of soil carbon and nitrogen pools under grazed tall fescue Soil Sci. Soc. Am. J. 64 635–639 Occurrence Handle10.2136/sssaj2000.642635x
D.J. Gibson (1988) ArticleTitleThe relationship of sheep grazing and soil heterogeneity to plant spatial patterns in dune grassland J. Ecol. 76 233–253 Occurrence Handle10.2307/2260466
K. Gross K. Regitzer A. Burton (1995) ArticleTitleSpatial variation in nitrogen availability in three successional plant communities J. Ecol. 83 357–367 Occurrence Handle10.2307/2261590
P.B. Hook I.C. Burke W.R. Lanenroth (1991) ArticleTitleHeterogeneity in soil N and C associated with individual plants and openings in North American shortgrass steppe Plant Soil 138 IssueID2 247–256 Occurrence Handle10.1007/BF00012252
InstitutionalAuthorNameInstitute of Soil Sciences, Chinese Academy of Sciences (ISSCAS) (1978) Physical and Chemical Analysis Methods of Soils Shanghai Science Technology Press Shanghai 7–59
P.B. Jackson M.M. Caldwell (1993) ArticleTitleGeostatistical patterns of soil heterogeneity around individual perennial plants J. Ecol. 81 683–692 Occurrence Handle10.2307/2261666
V.J. Jaramillo J.K. Detling (1992) ArticleTitleSmall-scale heterogeneity in a semi-arid North American grassland. II. Cattle grazing of simulated urine patches J. Appl. Ecol. 29 IssueID1 9–13 Occurrence Handle10.2307/2404341
S.G. Li Y. Harazono T. Oikawa H.L. Zhao X.L. Chang (2000) ArticleTitleGrassland desertification by grazing and the resulting micrometeorological changes in Inner Mongolia Agric. For. Meteorol. 102 125–137 Occurrence Handle10.1016/S0168-1923(00)00101-5
I. Lobe W. Amelung C.C. Du Preez (2001) ArticleTitleLosses of carbon and nitrogen with prolonged arable cropping from sandy soils of the South African Highveld Eur. J. Soil Sci. 52 93–101
D.W. Nelson L.E. Sommers (1982) Total carbon, organic carbon and organic matter A.L. Page (Eds) et al. Methods of Soil Analysis, Part 2 EditionNumber2 ASA Publ. No. 9 Madison, WI 539–577
G.P. Robertson J.R. Crum B.G. Ellis (1993) ArticleTitleThe spatial variability of soil resources following long-term disturbance Oecologia 96 451–456 Occurrence Handle10.1007/BF00320501
R.E. Rossi D.J. Mulla A.G. Journel E.H. Franz (1992) ArticleTitleGeostatistical tools for modeling and interpreting ecological spatial dependence Ecol. Monogr. 62 277–314 Occurrence Handle10.2307/2937096
W.H. Schlesinger J.F. Reynolds G.L. Cunningham L.F. Huenneke W.M. Jarrell R.A. Virginia W.G. Whitford (1990) ArticleTitleBiological feedbacks in global desertification Science 247 1043–1048
W.H. Schlesinger J.A. Raikes A.E. Hartley A.F. Cross (1996) ArticleTitleOn the spatial pattern of soil nutrients in desert ecosystems Ecology 77 364–374 Occurrence Handle10.2307/2265615
J. Seixas (2000) ArticleTitleAssessing heterogeneity from remote sensing images: the case of desertification in southern Portugal Int. J. Remote Sens. 21 2645–2663 Occurrence Handle10.1080/01431160050110214
Y.Z. Su H.L. Zhao T.H. Zhang J.Y. Cui (2002) ArticleTitleCharacteristics of grassland soils in post-grazing restoration in Horqin Sandy Land Journal of Desert Research 22 333–338
Y.Z. Su H.L. Zhao (2003) ArticleTitleSoil properties and plant species in an age sequence of Caragana microphylla plantations in the Horqin Sandy Landnorth China Ecol. Eng. 20 223–235 Occurrence Handle10.1016/S0925-8574(03)00042-9
Y.Z. Su H.L. Zhao T.H. Zhang (2003) ArticleTitleInfluences of grazing and exclosure on carbon sequestration in degraded sandy grasslandInner Mongolianorth China New Zeal. J. Agr. Res. 46 321–328
Y.Z. Su H.L. Zhao T.H. Zhang X.Y. Zhao (2004) ArticleTitleSoil properties following cultivation and non-grazing of a semiarid sandy grassland in northern China Soil Till. Res. 75 27–36 Occurrence Handle10.1016/S0167-1987(03)00157-0
Y.Z. Su Y.L. Li J.Y. Cui W.Z. Zhao (2005) ArticleTitleInfluences of continuous grazing and livestock exclusion on soil properties in a degraded sandy grasslandInner Mongolianorthern China Catena 59 267–278 Occurrence Handle10.1016/j.catena.2004.09.001
B.B. Trangmar R.S. Yost G. Uehara (1985) ArticleTitleApplication of geostatistics to spatial studies of soil properties Advances in Agrinomy 38 45–94
InstitutionalAuthorNameUNCED (1992) Earth Summit Agenda 21: Program of Action for Sustainable Development UNEP New York
H.Q. Wang C.A.S. Hall J.D. Cornell M.H.P. Hall (2002) ArticleTitleSpatial dependence and the relation ship of soil organic carbon and soil moisture in the Luquillo experimental forestPuerto Rico Landscape Ecol. 17 671–684 Occurrence Handle10.1023/A:1022962116313
R. Webster (1985) ArticleTitleQuantitative spatial analysis of soil in the field Advances in Soil Science 3 1–66
H.L. Zhao M. Nemoto T. Ohkuro (1997) ArticleTitleDesertification mechanism of grazing grassland in Horqin Sandy Land in Inner Mongolia Grassland of China 3 15–23
H.L. Zhao X.Y. Zhao R.L. Zhou T.H. Zhang S. Drake (2005) ArticleTitleDesertification processes due to heavy grazing in sandy rangelandInner Mongolia J. Arid Environ. 62 309–319 Occurrence Handle10.1016/j.jaridenv.2004.11.009
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Su, Y.Z., Li, Y.L. & Zhao, H.L. Soil Properties and their Spatial Pattern in a Degraded Sandy Grassland under Post-grazing Restoration, Inner Mongolia, Northern China. Biogeochemistry 79, 297–314 (2006). https://doi.org/10.1007/s10533-005-5273-1
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DOI: https://doi.org/10.1007/s10533-005-5273-1