PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2019 | 28 | 2 |
Tytuł artykułu

Quantitative research on the relationship between salinity and crack length of soda saline-alkali soil

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The Songnen Plain in China has a typical type of soda saline-alkali soil that frequently shrinks and cracks under natural conditions, especially during water evaporation. This study aims to study the effects of salt contents on the cracking process of soda saline-alkali soils and to make a quantitative analysis between crack length and some primary salt parameters of soda saline-alkali soils. To achieve the objectives, 57 soil samples with different salinity levels were selected and a laboratory-controlled desiccation cracking test was then conducted. Next, correlation analysis was carried out between extracted crack lengths and salt parameters of all the specimens. The results showed that there are clear linear dependencies between crack length and salinity, Na⁺, Cl⁻, and electrical conductivity (EC), and that CO₃²⁻ is also quite linear with crack length. The fitting results conducted from the verification experiment showed that Na⁺ content, Cl⁻ content, EC, and total salinity showed high prediction performance (R²>0.91 and RPD>2.5); that the CO₃²⁻ content had quite reasonable accuracy (R²= 0.78 and RPD = 1.82) but with less stability and poor reliability; that the prediction accuracy for pH, however, was very poor, with R² and RPD only 0.42 and 1.06, respectively.
Słowa kluczowe
Wydawca
-
Rocznik
Tom
28
Numer
2
Opis fizyczny
p.823-832,fig.,ref.
Twórcy
autor
  • Heilongjiang Key Laboratory of Remote Sensing Monitoring of Geographical Environment, Harbin Normal University, Harbin, China
autor
  • Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun, China
autor
  • Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun, China
autor
  • Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun, China
autor
  • Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun, China
Bibliografia
  • 1. LI J., PU L., HAN M., ZHU M., ZHANG R., XIANG Y. Soil salinization research in China: advances and prospects. Journal of Geographical Sciences. 24 (5), 943, 2014.
  • 2. RUKHOVICH D.I., SIMAKOVA M.S., KULYANITSA A.L., BRYZZHEV A.V., KOROLEVA P.V., KALININA N.V., CHERNOUSENK G.I., VIL’CHEVSKAYA E.V., DOLININA E.A., RUKHOVICH S.V. The influence of soil salinization on land use changes in azov district of Rostov oblast. Eurasian Soil Science. 50 (3), 276, 2017.
  • 3. SHE D., GAO X., WANG P., XU W., LIU Y., LIU Y. Comparison of soil hydraulic properties with different levels of soil salinity and sodicity. Arabian Journal of Geosciences. 8 (8), 5351, 2015.
  • 4. MESSAD A., MOUSSAI B. Effect of water salinity on Atterberg limits of El-Hodna sabkha soil. Bulletin of Engineering Geology and the Environment. 75 (1), 301, 2016.
  • 5. HASBULLAH H., MARSCHNER P. Residue properties influence the impact of salinity on soil respiration. Biology and Fertility of Soils. 51 (1), 99, 2015.
  • 6. ROUT S., RAVI P.M., KUMAR A., TRIPATHI R.M. Study on speciation and salinity-induced mobility of uranium from soil. Environmental Earth Sciences. 74 (3), 2273, 2015.
  • 7. COPPOLA A., SMETTERM K., AJEEL A., SAEED A., DRAGONETTI G., COMEGNA A., LAMADDALENA N., VACCA A. Calibration of an electromagnetic induction sensor with time-domain reflectometry data to monitor rootzone electrical conductivity under saline water irrigation. European Journal of Soil Science. 67 (6), 737, 2016.
  • 8. GANJEGUNTE G.K., SHENG Z., CLARK J.A. Soil salinity and sodicity appraisal by electromagnetic induction in soils irrigated to grow cotton. 25 (3), 228, 2014.
  • 9. JADOON K.Z., MOGHADAS D., JODOON A., MISSIMER T.M., AL-MASHHARAWI S.K., MCCABE M.F. Estimation of soil salinity in a drip irrigation system by using joint inversion of multicoil electromagnetic induction measurements. Water Resources Research. 51 (5), 3490, 2015.
  • 10. HERRERO J., HUDNALL W.H. Measurement of soil salinity using electromagnetic induction in a paddy with a densic pan and shallow water table. Paddy and Water Environment. 12 (1), 263, 2014.
  • 11. LI J., PU L., HAN M., ZHU M., ZHANG R., XIANG Y. Soil salinization research in China: advances and prospects. Journal of Geographical Sciences. 24 (5), 943, 2014.
  • 12. SIDIKE A., ZHAO S., WEN Y. Estimating soil salinity in Pingluo County of China using Quickbird data and soil reflectance spectra. Geoinformation. 26 (2), 156, 2014.
  • 13. TRIBI F.H., BOUAZIZ M., BENZINA M., BOUAZIZ S. Detection of terrain indices to soil salinity and mapping salt-affected soils using remote sensing and geostatistical techniques. Environmental Monitoring and Assessment. 189 (4), 177, 2017.
  • 14. MENG L., ZHOU S., ZHANG H., BI X. Estimating soil salinity in different landscapes of the Yellow River Delta through Landsat OLI/TIRS and ETM+ data. Journal of Coastal Conservation. 20 (4), 271, 2016.
  • 15. EL-BATTAY A., BANNARI A., HAMEID N.A., ABAHUSSAIN A.A. Comparative study among different semi-empirical models for soil salinity prediction in an arid environment using OLI Landsat-8 data. Advances in Remote Sensing. 1, 23, 2017.
  • 16. METTERNICHT G.I., ZINCK J.A. Remote sensing of soil salinity: potentials and constraints. Remote Sensing of Environment. 85 (1), 1, 2003.
  • 17. LI H., WEBSTER R., SHI Z. Mapping soil salinity in the Yangtze delta: REML and universal kriging (E-BLUP) revisited. Geoderma. 237-238, 71, 2015.
  • 18. RINGROSE-VOASE A.J., SANIDAD W.B. A method for measuring the development of surface cracks in soils-application to crack development after lowland rice. Geoderma. 71 (3-4), 245, 1996.
  • 19. NOVAK V. Soil-crack characteristics-estimation methods applied to heavy soil in the NOPEX area. Agricultural and Forest Meteorology. 98 (1), 501, 1999.
  • 20. TANG C., SHI B., LIU C., SUO W., Gao L. Experimental characterization of shrinkage and desiccation cracking in thin clay layer. Applied Clay Science. 52 (1), 69, 2011.
  • 21. DECARLO K.F., SHOKRI N. Effects of substrate on cracking patterns and dynamics in desiccating clay layers. Water Resources Research. 50 (4), 3039, 2014.
  • 22. ZHANG Z., WANG C., ZHU C., ZHU W., WU C. Geometric characteristics of shrinkage crack network in soil. Journal of China University of Geosciences. 39 (10), 1565, 2014. (in Chinese with English abstract)
  • 23. SHIT P.K., BHUNIA G.S., MAITI R. Soil crack morphology analysis using image processing techniques. Modeling Earth Systems & Environment. 1 (4), 1, 2015.
  • 24. YANG L., LIU S., WENG L., WANG L., LI Z., XU L. Fractal analysis of cracking in a clayey soil under freeze-thaw cycles. Engineering Geology. 208 (24), 93, 2016.
  • 25. WANG C., ZHANG Z., LIU Y., FAN S. Geometric and fractal analysis of dynamic cracking patterns subjected to wetting-drying cycles. Soil and Tillage Research. 170, 1, 2017.
  • 26. ZHANG Z.B., PENG X., ZHOU H., LIN H., SUN H. Characterizing preferential flow in cracked paddy soils using computed tomography and breakthrough curve. Soil and Tillage Research. 146, 53, 2015.
  • 27. WANG Y., Li X., ZHANG B., WU Y. Meso-damage cracking characteristics analysis for rock and soil aggregate with CT test. Science China (Technological Sciences). 57 (7), 1361, 2014.
  • 28. SMITH C.W., HADAS A., DANA J., KOYUMDJISKYA H. Shinkage and atterberg limits in relation to other properties of principal soil tupes in Isreal. Geoderma. 35 (1), 47, 1985.
  • 29. ZHANG G., YU Q., WEI G., CHEN B., TANG L., HU C., LI J., CHEN H. Basic property of Songnen Plain saline-alkali soil. Hydrogeology & Engineering Geology. 2, 37, 2007. (Chinese with English abstract)
  • 30. REN J., LI X., ZHAO K. Quantitative analysis of relationships between crack characteristics and properties of soda-saline soils in Songnen Plain, China. Chinese Geographical Science. 25 (5), 591, 2015.
  • 31. REN J., LI X., ZHAO K., FU B., JIANG T. Study of an online measurement method for the salt parameters of soda-saline soils based on the textures of cracks. Geoderma. 263, 60, 2016.
  • 32. YANG F., AN F., YANG H., WANG Z. Characteristics of leaf photosynthesis in Leymus chinensis grown in sodic soil area of the Songnen Plain, at different groundwater depths. Acta Ecologica Sinica. 36 (6), 1591, 2016. (Chinese with English abstract)
  • 33. BAO S. Agricultural chemistry analysis of soils. Beijing: Chinese Agriculture Press. 152, 2000.
  • 34. PENG H., HORTON R., LEI T., DAI Z., WANG X. A modified method for estimating fine and coarse fractal dimensions of soil particle size distributions based on laser diffraction analysis. Journal of Soils and Sediments. 15 (4), 937, 2015.
  • 35. CHHABRA R. Classification of salt-affected soils. Arid Land Research and Management. 19 (1), 61, 2005.
  • 36. GUI Y.L., HU W., ZHAO Z.Y., ZHU X. Numerical modeling of a field soil desiccation test using a cohesive fracture model with Voronoi tessellations. Acta Geotechnica. 12, 1, 2017.
  • 37. MARRA T., SUIJS J. Crack patterns in clayey soils: Experiments and modeling. International Journal for Numerical and Analytical Methods in Geomechanics. 36 (11), 1410, 2012.
  • 38. BOVIN P., GARNIER P., TESSIER D. Relationship between clay content, clay type and shrinkage properties of soil samples. Soil Science Society of America Journal. 68 (4), 1145, 2004.
  • 39. WANG W., WANG Q., ZHANG J., Chen H. An Experiment Study of the Fundamental Property of the Carbonate-saline Soil in West of Jilin Province. Journal of Beijing University of Technology. 37 (2), 217, 2011. (Chinese with English abstract)
  • 40. ZHANG G., LI J., YU Q., ZHANG B., YANG R., Chen H. Influence of salt content on shearing strength of the carbonate saline soil in Songnen Plain. The Chinese Journal of Geological Hazard and Control. 19 (1), 128, 2008. (Chinese with English abstract)
  • 41. AKSENOV V.I., KAL’BERGENOV R.G., LEONOV A.R. Strength characteristics of frozen saline soils. Soil Mechanics and Foundation Engineering. 40 (2), 55, 2003.
  • 42. JEONG S., LOCAT J., LEROUEIL S. The effects of salinity and shear history on the rheological characteristics of illite-rich and Na-montmorillonite-rich clays. Clays and Clay Minerals. 60 (2), 108, 2012.
  • 43. DECARLO K.F., SHOKRI N. Salinity effects on cracking morphology and dynamics in 3-D desiccating clays. Water Resources Research. 50 (4), 3052, 2014.
  • 44. SHOKRI N., ZHOU P., KESHMIRI A. Patterns of desiccation cracks in saline bentonite layers. Transport in Porous Media. 110 (2), 333, 2015.
  • 45. ZHANG X., CHEN Y., YE W., CUI Y., DENG Y., CHEN B. Effect of salt concentration on desiccation cracking behaviour of GMZ bentonite. Environmental Earth Sciences. 76 (15), 531, 2017.
  • 46. FARIFTEH J., VAN DER MEER F., ATZBERGER C., CARRANZA E.J.M. Quantitative analysis of salt-affected soil reflectance spectra: A comparison of two adaptive methods (PLSR and ANN). Remote Sensing of Environment. 110 (1), 59, 2007.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.agro-35c21b38-cd97-4a6f-822e-45536eada487
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.