Effect of nutrients availability and long-term tillage on priming effect and soil C mineralization

Soil Biology and Biochemistry

Volumn 78, Issue , 2014, Pages 332-339

  Dimassi, Bassem ^a   Mary, Bruno ^a   Fontaine, Sébastien ^b   Perveen, Nazia ^b   Revaillot, Sandrine ^b   Cohan, Jean Pierre ^c  

^a Inst Natl de la Rech Agronomique   (France)

^b French National Institute of Agricultural Research   (France)

^c ARVALIS Institut du végétal Domaine de la Bastide Route de Generac   (France)

Author keywords

Full inversion tillage; Microbial biomass; No till; Nutrient mining; Priming effect; Soil organic carbon mineralization

Indexed keywords

FULL INVERSION TILLAGE; MICROBIAL BIOMASS; NO-TILL; PRIMING EFFECTS; SOIL ORGANIC CARBON;

CELLULOSE; CONCENTRATION (COMPOSITION); LONG-TERM CHANGE; MICROBIAL COMMUNITY; MINERALIZATION; NUTRIENT AVAILABILITY; PARTICULATE ORGANIC MATTER; SOIL CARBON; SOIL ORGANIC MATTER; SOIL PROPERTY; ZERO TILLAGE;

EID: 84908054022     PISSN: 00380717     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.soilbio.2014.07.016     Document Type: Article

References (33)

1. 2-C production from three tillage systems. Soil &Tillage Research 1995, 33:17-28.
2. Bates D.M., Chambers J.M. Nonlinear models. Statistical Models in S,Chap. 10 1992, Wadsworth and Brooks/Cole. J.M. Chambers, T.J. Hastieeds (Eds.).
3. Bell J.M., Smith J.L., Bailey V.L., Bolton H. Priming effect and C storage in semi-arid no-till spring crop rotations. Biology & Fertility of Soils 2003, 37:237-244.
4. Blagodatskaya E., Kuzyakov Y. Mechanisms of real and apparent priming effects and their dependence on soil microbial biomass and community structure: critical review. Biology & Fertility of Soils 2008, 45:115-131.
5. 14C-labeled soil. Soil Biology & Biochemistry 1989, 21:443-448.
6. De Nobili M., Contin M., Mondini C., Brookes P.C. Soil microbial biomass is triggered into activity by trace amounts of substrate. Soil Biology & Biochemistry 2001, 33:1163-1170.
7. EC coefficient of the fumigation-extraction method in a soil profile. Soil Biology & Biochemistry 1998, 30:119-127.
8. Dimassi B., Cohan J.P., Labreuche J., Mary B. Changes in soil carbon and nitrogen following tillage conversion in a long-term experiment in Northern France. Agriculture, Ecosystems & Environment 2013, 169:12-20.
9. Dimassi B., Mary B., Wylleman R., Labreuche J., Couture D., Piraux F., Cohan J.P. Long-term effect of contrasted tillage and crop management on soil carbon dynamics during 41 years. Agriculture, Ecosystems & Environment 2014, 188:134-146.
10. Eglin T., Ciais P., Piao S.L., Barré P., Bellassen V., Cadule P., Chenu C., Gasser T., Koven C., Reichstein M., Smith P. Historical and future perspectives of global soil carbon response to climate and land-use changes. Tellus B 2010, 62:700-718.
11. Fontaine S., Mariotti A., Abbadie L. The priming effect of organic matter: a question of microbial competition?. Soil Biology & Biochemistry 2003, 35:837-843.
12. Fontaine S., Bardoux G., Abbadie L., Mariotti A. Carbon input to soil may decrease soil carbon content. Ecology Letters 2004, 7:314-320.
13. Fontaine S., Barot S. Size and functional diversity of microbe populations control plant persistence and long-term soil carbon accumulation. Ecology Letters 2005, 8:1075-1087.
14. Fontaine S., Barot S., Barré P., Bdioui N., Mary B., Rumpel C. Stability of organic carbon in deep soil layers controlled by fresh carbon supply. Nature 2007, 450:277-281.
15. Fontaine S., Henault C., Aamor A., Bdioui N., Bloor J.M.G., Maire V., Mary B., Revaillot S., Maron P.A. Fungi mediate long term sequestration of carbon and nitrogen in soil through their priming effect. Soil Biology & Biochemistry 2011, 43:86-96.
16. Guenet B., Neill C., Bardoux G., Abbadie L. Is there a linear relationship between priming effect intensity and the amount of organic matter input?. Applied Soil Ecology 2010, 46:436-442.
17. Hamer U., Marschner B. Priming effects in different soil types induced by fructose, alanine, oxalic acid and catechol additions. Soil Biology & Biochemistry 2005, 37:445-454.
18. Heimann M., Reichstein M. Terrestrial ecosystem carbon dynamics and climate feedbacks. Nature 2008, 451:289-292.
19. Hodge A., Robinson D., Fittair A. Are microorganisms more effective than plants at competing for nitrogen?. Trends in Plant Science 2000, 5:304-308.
20. Houghton R.A. Revised estimates of the annual net flux of carbon to the atmosphere from changes in land use and land management 1850-2000. Tellus Series B-chemical and Physical Meteorology 2003, 55:378-390.
21. Koranda M., Kaiser C., Fuchslueger L., Kitzler B., Sessitsch A., Zechmeister-Boltenstern S., Richter A. Seasonal variation in functional properties of microbial communities in beech forest soil. Soil Biology & Biochemistry 2013, 60:95-104.
22. Kuzyakov Y., Friedel J.K., Stahr K. Review of mechanisms and quantification of priming effects. Soil Biology & Biochemistry 2000, 32:1485-1498.
23. Le Quéré C., Raupach M.R., Canadell J.G., Marland G., Bopp L., Ciais P., Conway T.J., Doney S.C., Feely R.A., Foster P., Friedlingstein P., Gurney K., Houghton R.A., House J.I., Huntingford C., Levy P.E., Lomas M.R., Majkut J., Metzl N., Ometto J.P., Peters G.P., Prentice I.C., Randerson J.T., Running S.W., Sarmiento J.L., Schuster U., Sitch S., Takahashi T., Viovy N., van der Werf G.R., Woodward F.I. Trends in the sources and sinks of carbon dioxide. Nature Geoscience 2009, 2:831-836.
24. Oorts K., Nicolardot B., Merckx R., Richard G., Boizard H. Cand N mineralization of undisrupted and disrupted soil from different structural zones of conventional tillage and no-tillage systems in northern France. Soil Biology & Biochemistry 2006, 38:2576-2586.
25. Paterson E., Sim A. Soil-specific response functions of organic matter mineralization to the availability of labile carbon. Global Change Biology 2013, 19:1562-1571.
26. Sayer J.E., Heard S.M., Grant K.G., Marthews R.T., Tanner V.J.T. Soil carbon release enhanced by increased tropical forest litterfall. Nature Climate 2011, 1:304-307.
27. Thomas G.A., Dalal R.C., Standley J. No-till effects on organic matter, pH, cation exchange capacity and nutrient distribution in a Luvisol in the semi-arid subtropics. Soil & Tillage Research 2007, 94:295-304.
28. Treseder K.K. Nitrogen additions and microbial biomass: a meta-analysis of ecosystem studies. Ecology Letters 2008, 11:1111-1120.
29. Thiessen S., Gleixner G., Wutzler T., Reichstein M. Both priming and temperature sensitivity of soil organic matter decomposition depend on microbial biomass - an incubation study. Soil Biology & Biochemistry 2013, 57:739-748.
30. Vance E.D., Brookes P.C., Jenkinson D.S. An extraction method for measuring soil microbial biomass C. Soil Biology & Biochemistry 1987, 19:703-707.
31. Wise L.E. Wood Chemistry 1944, Reinhold, Seattle, USA.
32. Wu J., Brookes P.C., Jenkinson D.S. Formation and destruction of microbial biomass during decomposition of glucose and ryegrass in soil. Soil Biology & Biochemistry 1993, 25:1435-1441.
33. Zhang W., Wang X., Wang S. Addition of external organic carbon and native soil organic carbon decomposition: ameta-analysis. PLOS ONE 2013, 8:e54779. 1-6.