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Soil organic carbon of different decomposition rate and its relation to microbial activity in saline-alkali desert ecosystem

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Soil microbes’ activity is very important for forming of the nutrient stock and , soil structure, as well as the carbon cycle simulation. This is particularly crucial for deep soil layers. Effect of soil microbes on the rate of accumulation and decomposition of the soil organic carbon (SOC) has been found for different regions. However, it is known still a little on the SOC performance for different decomposition rates and its relation to the microbial activity in the saline-alkali desert ecosystem. Therefore, the main task of our research was investigation of interrelation between the soil organic carbon and microbial carbon (SMC) at different depths in the original saline-alkali Gurbantünggüt Desert. Our results showed in the soil vertical profile, (i) SMC and SOC presented a very significant positive linear correlation (R2 = 0.63, P = 0.0003); (ii) SMC exhibited two obvious changed-interfaces - 20 cm and 80 cm, the SMC at depth of 0–20 cm, 20–80 cm and 80–500 cm was 2.24–3.06, 0.19–0.72, and 0.0017–0.0097 mg kg-1, respectively; (iii) in the depth of 0–20 cm and 20–80 cm, the SMC had highly significant difference (P < 0.0001) and at 20–80 cm and 80–500 cm, significant difference (P = 0.013); (iv) according to the soil division based on the SMC, SOC also had some certain stratification; (v) organic carbon layers can be respectively defined according to different microbial activities as active, inert, and stable organic carbon pool. Therefore, these three kinds of organic carbon pools can be quantitatively measured by analyzing their location at different depths of the soil profile.
Rocznik
Strony
102--109
Opis fizyczny
Bibliogr. 43 poz., rys., tab., wykr.
Twórcy
autor
  • State Key Laboratory of Earth Surface Processes and Resource Ecology, Beijing Normal University, Beijing, China
  • College of Resources Science and Technology, Beijing Normal University, Beijing, China
autor
  • Xinjiang Institute of Ecology and Geography, Chinese Aademy of Sciences, Urumqi, China
autor
  • Xinjiang Institute of Ecology and Geography, Chinese Aademy of Sciences, Urumqi, China
autor
  • State Key Laboratory of Earth Surface Processes and Resource Ecology, Beijing Normal University, Beijing, China
  • College of Resources Science and Technology, Beijing Normal University, Beijing, China
Bibliografia
  • 1. Batjes N.H. 1996 - Total carbon and nitrogen in soils of the world - Eur. J. Soil Sci. 47:151-163.
  • 2. Brookes P.C., Kragt J.E, Powlson D.S., Jenkinson D.S. 1985 - Chloroform fumigation and release of soil nitrogen: the effects of fumigation time and temperature - Soil Boil. Biochem. 17: 831-835.
  • 3. Blake G.R., Hartge K.H. 1986 - Bulk density (In: Methods of Soil Analysis: physical and mineralogical methods, Ed: A. Klute) - ASA and SSSA, Madison, WI, pp. 363-365.
  • 4. Chapin F.S., Matson P.A., Mooney H.A. 2002 - Principles of terrestrial ecosystem ecology - Springer, New York, 436 pp.
  • 5. Chapin F.S., Randerson J.T., McGuire A.D., Foley J.A., Field C.B. 2008 - Changing feedbacks in the climate-biosphere system - Fron. Ecol. Environ. 6: 313-320.
  • 6. Christensen B.T. 2001 - Physical fractionation of soil and structural and functional complexity in organic matter turnover - Euro. J. Soil Sci. 52: 345-353.
  • 7. Dalai R.C., Chan K.Y. 2001 - Soil organic matter in rainfed cropping systems of the Australian cereal belt - Aust. J. Soil Res. 39: 435-464.
  • 8. Fran, H., Dan, M., Jessica, S., 2012. Labile carbon [EB/OL]. [2012-01-06].
  • 9. http://soilquality.org.au/factsheets/labile-carbon
  • 10. Fontaine S., Barot S. 2005 - Size and functional diversity of microbe populations control plant persistence and long-term soil carbon accumulation - Ecol. Lett. 7: 1075-1087.
  • 11. Fontaine S., Barot S., Barre P. 2007 - Stability of organic carbon in deep soil layers controlled by fresh carbon supply - Nature, 450:277-280.
  • 12. Fu G., Zhang X.Z., Zhou Y.T., Yu C.Q, Shen Z.X. 2014 - Partitioning sources of ecosystem and soil respiration in an alpine meadow of Tibet Plateau using regression method - Pol. J.Ecol.62: 17-24.
  • 13. Gill R.A., Burke I.C., Milchunas D.G., Lauenroth W.K. 1999 - Relationship between root biomass and soil organic matter pools in the shortgrass steppe of eastern Colorado: Implications for decomposition through a soil profile - Ecosystems, 2: 226-236.
  • 14. Grüneberg E., Schöning I., Hessenmöller D., Schulze E.D., Weisser W.W. 2013 - Organic layer and clay content control soil organic carbon stocks in density fractions of differently managed German beech forests - Forest Ecol. Manag. 303: 1-10.
  • 15. Gong Y.M., Hu Y.K., Fang F., Liu Y.Y., Li K.H., Zhang G.M. 2012 - Carbon storage and vertical distribution in three shrubland communities in Gurbantunggut Desert, Uygur Autonomous Region of Xinjiang, Northwest China - Chin. Geogra. Sci. 22: 541-549.
  • 16. Hoyle F.C., Murphy D. V. 2006 - Seasonal changes in microbial function and diversity associated with stubble retention versus burning - Aust. J. Soil Res. 44: 407-423.
  • 17. Jenkinson D.S.I988 - Determination of microbial biomass carbon and nitrogen in soil (In: Advances in Nitrogen Cycling in Agriculture Ecosystems, Ed: J.R. Wilson) - Wallingford, UK: CAB International, pp. 368-386.
  • 18. Jobbágy E.G., Jackson R.B. 2002 - The vertical distribution of soil organic carbon and its relation to climate and vegetation - Ecol. Appl. 10: 423-436.
  • 19. Lai R., Kimble J. M., Eswaran H., Stewart B.A. 2000 - Global climate change and pedogenic carbonates - Boca Raton, FL, Lewis, pp. 15-25.
  • 20. Leite L.F.C., Mendonca E.S., Machado P.L.O.A., Filho E.I.F., Neves J.C.L. 2004 - Simulating trends in soil organic carbon of an Acrisol under no-tillage and disc-plow systems using the Century model - Geoderma, 120: 283-295.
  • 21. Li C.H., Li Y., Tang L.S., Lu Y. 2010 - [Layered Characters of Organic Carbon Storage and Release in Salinized Gray Desert Soil before and after Reclamation] - Arid Zone Research, 27: 385-391 (in Chinese, English summary).
  • 22. Li D.P., Wu Z.J., Chen L.J., Zhu P., Ren J., Peng C., Liang C.H. 2004 - [Dynamics of microbial C in a black soil under long-time fertilization and related affecting factors] - Chinese Journal of Applied Ecology, 15: 1334-1338 (in Chinese, English summary).
  • 23. Liu J.B., Zhang Y.Q., Wu B., Qin S.G., Lai Z.R. 2014 - Changes in soil organic carbon and its density fractions after shrub-planting for desertification control - Pol. J. Ecol. 62: 205-216.
  • 24. Nelson D.W., Sommers L.E. 1982 - Total carbon, organic carbon, and organic matter (In: Methods of Soil Analysis. Part 2: Chemical and Microbial Properties, Eds: A.L. Page) - Madison: American Society of Agronomy, pp. 539-552.
  • 25. Niu R.X., Zhao X.Y., Liu J.L., Qin Y. 2013 - Effects of land use/cover change in the desert oasis system on topsoil carbon and nitrogen (middle of Heihe River basin, China) - Pol. J. Ecol. 61: 45-54.
  • 26. Paul E.A., Harris D., Collins H.P., Schulthess U, Robertson G.P. 1999 - Evolution of CO2 and soil carbon dynamics in biologically managed, row-crop agroecosystems - Appl. Soil Ecol. 11: 53-65.
  • 27. Qian Y.B., Wu Z.N., Zhang L.Y., Shi Q.D., Jiang J, Tang L.S. 2004 - Impact of habitat heterogeneity on plant community pattern in Gur-bantunggut Desert - J. Geogr. Sci. 14:447-455.
  • 28. Qian Y.B., Wu Z.N., Zhang L.Y., Zhao R.E, Wang X.Y., Li Y.M. 2007 - [Vegetation-environment relationships in Gurbantünggüt Desert] - Acta Ecologica Sinica, 27: 2802-2811 (in Chinese, English summary).
  • 29. Qiu Y., Fu B.J., Wang J., Chen L.D. 2001 - Spatial variability of soilmoisturecontent and its relation to environmental indices in a semiarid gully catchment of the Loess Plateau, China - J. Arid Environ. 49: 723-750.
  • 30. Reeder, J.D., Franks C.D., Milchunas. D.G. 2001 - Root biomass and microbial processes (In: The potential of U.S. grazing lands to sequester carbon and mitigate the greenhouse effect, Eds: R.F. Follett, J.M. Kimble, R. Lai) - Lewis Publishers, pp. 139-166.
  • 31. Singh B.K., Bardgett R.D., Smith P., Reay D.S. 2010 - Microorganisms and climate change: terrestrial feedbacks and mitigation options -Nat. Rev. Microbiol. 8: 779-790.
  • 32. Six J., Conant R.T., Paul E.A., Paustian K. 2002 - Stabilization mechanisms of soil organic matter: Implications for C-saturation of soils - Plant Soil. 241: 155-176.
  • 33. Tarnocai C., Canadell J.G., Schuur E.A.G., Kuhry P., Mazhitova G., Zimov S.A. 2009 - Soil organic carbon pools in the northern circumpolar permafrost region - Global Biogeochem. Cy. 23: GB2023.
  • 34. Wu Q.B., Wang X.K., Guo R. 2005 - [Soil organic carbon stability and influencing factors] - Chinese Journal of Soil Science, 36: 743-747 (in Chinese, English summary).
  • 35. Xie J.X., Li Y., Zhai C.X., Li C.H., Lan Z.D. 2009 - CO2 absorption by alkaline soils and its implication to the global carbon cycle - Environ. Geol. 56: 953-961.
  • 36. Xu X.F., Tian H.Q., Zhang C., Liu M.L., Ren W., Chen G.S., Lu C.Q., Bruhwiler L. 2010 - Attribution of spatial and temporal variations in terrestrial ecosystem methane flux over North America - Biogeosciences, 7: 3637-3655.
  • 37. Xu W.Q., Chen X., Luo G.P, Lin Q. 2011 - Using the CENTURY model to assess the impact of land reclamation and management practices in oasis agriculture on the dynamics of soil organic carbon in the arid region of Northwestern China - Ecol. Complex. 8: 30-37.
  • 38. Xu H., Li Y. 2006 - Water-use strategy of three central Asian desert shrubs and their responses to rain pulse events - Plant Soil. 285: 5-17.
  • 39. Xu X.F., Thornton P.E., Post W.M. 2013 - A global analysis of soil microbial biomass carbon, nitrogen and phosphorus in terrestrial ecosystems - Global Ecol. Biogeogra. 22: 737-749.
  • 40. Yang Y.H., Chen Y.N., Li W.H., Chen Y.P. 2010 - Distribution of soil organic carbon under different vegetation zones in the Ili River Valley, Xinjiang - J. Geogr. Sci. 20: 729-740.
  • 41. Yu S., Li Y., Wang J.H., Che Y.P., Pan Y.H., Li Z.G. 1999 - [Study on the soil microbial biomass as a bio-indicator of soil quality in the red earth ecosystem] - Acta Pedologica Sinica, 36: 413-421 (in Chinese, English summary).
  • 42. Wang L.J., Zhao C.Y., Li J., Zhu H., Kou S.Y. 2009 - [Study on the early-spring species diversity in a Haloxylon desert in the North Fukang Region, Xinjiang] - Arid Zone Research, 26: 574-581 (in Chinese, English summary).
  • 43. Zou T., Li Y., Xu H., Xu G.Q. 2010 - Responses to precipitation treatment for Haloxylon ammodendron growing on contrasting textured soils - Ecol. Res. 25: 185-194.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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