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Environmental Earth Sciences
Erschienen in: Environmental Earth Sciences 4/2011

01.06.2011 | Original Article

Spatial information of soil hydraulic conductivity and performance of cokriging over kriging in a semi-arid basin scale

verfasst von: Mustafa Basaran, G. Erpul, A. U. Ozcan, D. S. Saygin, M. Kibar, I. Bayramin, F. E. Yilman

Erschienen in: Environmental Earth Sciences | Ausgabe 4/2011

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Abstract

Unlike the studies in small parcels by systematic measurements, the spatial variability of soil properties is expected to increase in those over relatively large areas or scales. Spatial variability of soil hydraulic conductivity (K h) is of significance for the environmental processes, such as soil erosion, plant growth, transport of the plant nutrients in a soil profile and ground water levels. However, its variability is not much and sufficiently known at basin scale. A study of testing the performance of cokriging of K h compared with that of kriging was conducted in the catchment area of Sarayköy II Irrigation Dam in Cankırı, Turkey. A total of 300 soil surface samples (0–10 cm) were collected from the catchment with irregular intervals. Of the selected soil properties, because the water-stable aggregates (WSA) indicated the highest relationship with the hydraulic conductivity by the Pearson correlation analysis, it is used as an auxiliary variable to predict K h by the cokriging procedure. In addition, the sampling density was reduced randomly to n = 175, n = 150, n = 75 and n = 50 for K h to determine if the superiority of cokriging over kriging would exist. Statistically, the results showed that all reduced K h was as good as the complete K h when its auxiliary relations with WSA were used in cokriging. Particularly, the results of the “Relative Reduction in MSE” (RMSE) revealed that the reduced data set of n = 75 produced the most accurate map than the others. In this basin-scaled study, there was a clear superiority of the cokriging procedure by the reduction in data although a very undulating topography and topographically different aspects, two different land uses with non-uniform vegetation density, different parent materials and soil textures were present in the area. Hence, using the statistically significant auxiliary relationship between K h and WSA might bring about a very useful data set for watershed hydrological researches.
Vorheriger Artikel Hydrogeochemical controls on shallow alluvial groundwater under agricultural land: case study in central Portugal
Nächster Artikel Diagnostic of physicochemical and bacteriological quality of fez wastewaters rejected in Sebou River: Morocco

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Literatur
Albrecht KA, Logsdon SD, Parker JC, Baker JC (1985) Spatial variability of hydraulic properties in the Emporia series. Soil Sci Soc Am J 49:1498–1502CrossRef
Basaran M, Erpul G, Ozcan AU (2008) Variation of macro-aggregate stability and organic matter fractions in the basin of Sarayköy II Irrigation Dam, Cankiri, Turkey. Fresenius Environ Bull 17:224–239
Baskan O, Erpul G, Dengiz O (2009) Comparing the efficiency of ordinary kriging and cokriging to estimate the Atterberg limits spatially using some soil physical properties. Clay Miner 44:181–193CrossRef
Bouma J, Hole FD (1971) Soil structure and hydraulic conductivity of adjacent virgin and cultivated pedons at two sites: a typic Argiudoll (silt loam) and a typic Eutrochrept (clay). Soil Sci Soc Am J 35:316–319CrossRef
Burgess TM, Webster R (1986a) Optimal interpolation and isarithm mapping of soil properties: I The semivariogram and punctual kriging. J Soil Sci 31:315–331
Burgess TM, Webster R (1986b) Optimal interpolation and isarithm mapping of soil properties: II. Block kriging. J Soil Sci 31:333–344
Cerri CEP, Bernoux M, Chaplot V, Volkoff B, Victoria RL, Melillo JM, Paustian K, Cerri CC (2004) Assessment of soil property spatial variation in an Amazon pasture: basis for selecting agronomic experimental area. Geoderma 123:51–68CrossRef
Chien YJ, Lee DY, Guo HY, Houng KH (1997) Geostatistical analysis of soil properties of mid-west Taiwan Soils. Soil Sci 162:291–297CrossRef
Chiles JP, Delfiner P (1999) Geostatistics-modeling spatial uncertainty. Wiley, New York
Dahlgren AR, Bottinger LT, Huntington LG, Amundson AR (1997) Soil development along an elevation transect in the Western Sierra Nevada, California. Geoderma 78:207–236CrossRef
Eldeiry A, Garcia LA (2009) Comparison of regression kriging and cokriging techniques to estimate soil salinity using landsat images. The 29th Annual Hydrology Days, Fort Collins, CO, March 25–27
Ersahin S (2003) Comparing ordinary kriging and cokriging to estimate infiltration rate. Soil Sci Soc Am J 68:1848–1855CrossRef
Fenton GA, Griffiths DV (2008) Risk assessment in geotechnical engineering. Wiley, HobokenCrossRef
Goovaerts P (1997) Geostatistics in soil science: state-of-the-art- and perspectives. Geoderma 89:1–45CrossRef
Gotway CA, Ferguson RB, Hergert GW, Peterson TA (1996) Comparison of kriging and inverse distance methods for mapping soil parameters. Soil Sci Soc Am J 60:1237–1247CrossRef
Hillel D (1982) Introduction to soil physics. Academic Press, California
Isaaks HE, Srivastava RM (1989) P. 561 in: an introduction to applied geostatistics. Oxford University Press, New York
Istok JD, Smyth JD, Flint AL (1993) Multivariate geostatistical analysis of ground-water contaminant: a case history. Ground Water 31:63–74CrossRef
Journel AG, Huijbregts CS (1978) Mining geostatistics. Academic Press, New York, p 600
Kemper WD, Rosenau RC (1986) Aggregate stability and size distribution. In: Kulute A (ed) Methods of soil analysis. Part 1. Physical and mineralogical methods, 2nd edn. Agronomy Monographs, 9 ASA-SSA, Madison, pp 425–442
Klute A, Dirksen C (1986) Hydraulic conductivity and diffusivity. In: Klute A (ed) Methods of soil analysis. Part 1. Physical and mineralogical methods, 2nd edn. Agronomy Monographs 9, ASA-SSA, Madison, pp 687–734
Knotters M, Brus DJ, Oude Voshaar JH (1995) A comparison of kriging, cokriging and kriging combined with regression for spatial interpolation of horizon depth with censored observations. Geoderma 67:227–246CrossRef
Laslett GM (1994) Kriging and splines: an empirical comparison of their predictive performance in some applications. J Am Stat Assoc 89:391–409CrossRef
Mapa RB, Kumaragamage D (1996) Variability of soil properties in a tropical Alfisol used for shifting cultivation. Soil Technol 9:187–197CrossRef
Martinez-Cob A (1996) Multivariate geostatistical analysis of evapotranspiration and precipitation in mountainous terrain. J Hydrol 174:19–35CrossRef
Mason DD, Lutz JF, Petersen RG (1957) Hydraulic conductivity as related to certain soil properties in a number of great soil groups-sampling errors involved. Soil Sci Soc Am Proc 21:554–560CrossRef
Matheron G (1965) Principles of geostatistics. Econ Geol 58:1246–1266CrossRef
Miller J, Franklin J, Aspinall R (2007) Incorporating spatial dependence in predictive vegetation models. Ecol Model 202(3–4):225–242CrossRef
Mohanty BP, Kanwar RS, Horton R (1991) A robust resistant approach to interpret spatial behavior of saturated hydraulic conductivity of a glacial till soil under no-tillage system. Water Res 27:2979–2992CrossRef
Nelson DW, Sommers LE (1982) Total carbon, organic carbon, and organic matter. In: Page AL (ed) Methods of soil analysis. Part 2, 2nd edn. Agronomy Monographs 9 ASA and SSSA, Madison, pp 539–579
Odeh IOA, McBratney AB, Chittleborough DJ (1995) Further results on prediction of soil properties from terrain attributes: heterotopic cokriging and regression-kriging. Geoderma 67(3–4):215–226CrossRef
Öztekin T, Ersahin S (2005) Saturated hydraulic conductivity variation in cultivated and virgin soils. Turk J Agric For 30:1–10
Reynolds WD, Zebchuk WD (1996) Hydraulic conductivity in a clay soil: two measurement techniques and spatial characterization. Soil Sci Soc Am J 60:1679–1685CrossRef
Shouse PJ, Gerik TJ, Russell WB, Cassel DK (1990) Spatial distribution of soil particle size and aggregate stability index in a clay soil. Soil Sci 149:351–360CrossRef
Smith RL, Smith TM (2000) Elements of ecology, 4th edn. Addison Wesley, San Francisco
Soil Survey Staff (1996) Soil survey laboratory methods and procedures for collection soil samples, vol 3. Soil Survey Investigation Reports No: 42
Stein A, van Dooremolen W, Bouma J, Bregt AK (1988) Cokriging point data on moisture deficit. Soil Sci Soc Am J 52:1418–1423CrossRef
Trangmar BB, Yost RS, Uehara G (1985) Application of geostatistics to spatial studies of soil properties. Adv Argon 38:45–94
Trangmar BB, Yost RS, Wade MK, Uehara G, Sudjadi M (1987) Spatial variation of soil properties and rice yield on recently cleared land. Soil Sci Soc Am J 51:668–674CrossRef
Triantafilis J, Odeh IOA, McBratney AB (2001) Five geostatistical models to predict soil salinity from electromagnetic induction data across irrigated cotton. Soil Sci Soc Am J 65:869–878CrossRef
Tsui CC, Chen ZS, Hsieh CF (2004) Relationships between soil properties and slope positioning a low land rain forest of southern Taiwan. Geoderma 123:131–142CrossRef
Vauclin M, Vieira SR, Vachaud G, Nielsen DR (1983) The use of cokriging with limited field soil observations. Soil Sci Soc Am J 47:175–184CrossRef
Vaughan PJ, Lesch SM, Corwin DL, Cone DG (1995) Water content effect on soil salinity prediction: a geostatistical study using cokriging. Soil Sci Soc Am J 59:1146–1156CrossRef
Voltz M, Webster R (1990) A comparison of kriging, cubic splines and classification for predicting soil properties from sample information. J Soil Sci 41:473–490CrossRef
Wackernagel H (1995) Multivariate geostatistics. Springer, Berlin, p 256
Yates SR, Warrick AW (1987) Estimating soil water content using cokriging. Soil Sci Soc Am J 51:25–30CrossRef
Zhang R, Myers DE, Warrick AW (1992) Estimation of the spatial distribution of the soil chemicals using pseudo cross-variograms. Soil Sci Soc Am J 56:1444–1452CrossRef
Zhang R, Shouse P, Yates S (1997) Use of pseudo-crossvariograms and cokriging to improve estimates of solute concentrations. Soil Sci Soc Am J 61:1342–1347CrossRef
Metadaten
Titel
Spatial information of soil hydraulic conductivity and performance of cokriging over kriging in a semi-arid basin scale
verfasst von
Mustafa Basaran
G. Erpul
A. U. Ozcan
D. S. Saygin
M. Kibar
I. Bayramin
F. E. Yilman
Publikationsdatum
01.06.2011
Verlag
Springer-Verlag
Erschienen in
Environmental Earth Sciences / Ausgabe 4/2011
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI
https://doi.org/10.1007/s12665-010-0753-6

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