Spatial distribution of rhizodeposit carbon of maize (Zea mays L.) in soil aggregates assessed by multiple pulse 13C labeling in the field

Plant and Soil

Volumn 375, Issue 1-2, 2014, Pages 317-329

  Qiao, Yunfa ^a   Miao, Shujie ^a   Li, Na ^a   Han, Xiaozeng ^a   Zhang, Bin ^a,b  

^a NORTHEAST INSTITUTE OF GEOGRAPHY AND AGRICULTURAL ECOLOGY   (China)

^b INSTITUTE OF PLANT PROTECTION   (China)

Author keywords

13C pulse labeling; Rhizodeposition; Soil aggregates; Soil pore water; Zea mays L

Indexed keywords

CARBON ISOTOPE; CONCENTRATION (COMPOSITION); DISSOLVED ORGANIC MATTER; FRACTIONATION; HARVESTING; MAIZE; METABOLITE; POREWATER; SOIL AGGREGATE; SOIL CARBON; SOIL MOISTURE; SOIL ORGANIC MATTER; SOIL STRUCTURE; SPATIAL DISTRIBUTION;

ZEA MAYS;

EID: 84893772526     PISSN: 0032079X     EISSN: None     Source Type: Journal    
DOI: 10.1007/s11104-013-1932-5     Document Type: Article

References (72)

1. Abiven S, Menasseri S, Chenu C (2009) The effects of organic inputs over time on soil aggregatestability- a literature analysis. Soil Biol Biochem 41: 1-12.
2. 2 on Lolium perenne rhizodeposition and its consequences on soil organic matter turnover and plant N yield. Soil Biol Biochem 38: 1178-1187.
3. Angers DA, Caron J (1998) Plant-induced changes in soil structure: processes and feedbacks. Biogeochemistry 42: 55-72.
4. 13C-labelled rice straw. Appl Soil Ecol 53: 1-9.
5. 2. Tree Physiol 19: 313-320.
6. Cheng WX, Kuzyakov Y (2005) Root effects on soil organic matter decomposition, 119-143 pp. In: Zobel R, Wright S (eds) Roots and soil management: interactions between roots and the soil. Agron Monogr 48. ASA, CSSA, and SSSA, Madison, p 119.
7. Cheng WX, Coleman DC (1990) Effect of living roots on soil organic matter decomposition. Soil Biol Biochem 22: 781-787.
8. Cosentino D, Le Bissonnais Y, Chenu C (2006) Aggregate stability and microbial community dynamics under drying-wetting cycles in a silt loam soil. Soil Biol Biochem 38: 2053-2062.
9. Dennis PG, Miller AJ, Hirsch PR (2010) Are root exudatesmore important than other sources of rhizodeposits in structuring rhizosphere bacterial communities? FEMS Microbiol Ecol 72: 313-327.
10. Fontaine S, Mariotti A, Abbadie L (2003) The priming effect of organic matter: a question of microbial competition? Soil Biol Biochem 35: 837-843.
11. Guenet B, Juarez S, Bardoux G, Abbadie L, Chenu C (2012) Evidence that stable C is as vulnerable to priming effect as is more labile C in soil. Soil Biol Biochem 52: 43-48.
12. Hallett PD, Gordon DC, Bengough AG (2003) Plant influence on rhizosphere hydraulic properties: direct measurements using a miniaturized infiltrometer. New Phytol 157: 597-603.
13. Helal HM, Sauerbeck DR (1981) Ein verfahren zur trennung von bodenzonen unter schiedlicher wurzelnahe. Z Pflanzenernähr Bodenkd 144: 524-527.
14. Hinsinger P, Gobran GR, Gregory PJ, Wenzel WW (2005) Rhizosphere geometry and heterogeneity arising from root mediated physical and chemical processes. New Phytol 168: 293-303.
15. ISSS\ISRIC\FAO (2006) World reference base for soil resources. Rome. 128pp.
16. Jensen KD, Beirer C, Michelsen A, Emmett BA (2003) Effects of experimental drought on microbial processes in two temperate heathlands at contrasting water conditions. Appl Soil Ecol 24: 165-176.
17. Jing YS, Zhang B, Thimm A, Zepp H (2008) Anisotropy of soil hydraulic properties along arable slopes. Pedosphere 18: 353-362.
18. Jones DL, Nguyen C, Finlay RD (2009) Carbon flow in the rhizosphere: carbon trading at the soil-root interface. Plant Soil 321: 5-33.
19. Kalbitz K, Solinger S, Park JH, Michalzik B, Matzner E (2000) Controls on the dynamics of dissolved organic matter in soils: a review. Soil Sci 165: 277-304.
20. Kandeler E, Marschner P, Tscherko D, Gahoonia TS, Nielsen EN (2002) Microbial community composition and functional diversity in the rhizosphere of maize. Plant Soil 238: 301-312.
21. Kavdi{dotless}r Y, Smucker AJM (2005) Soil aggregate sequestration of cover crop root and shoot-derived nitrogen. Plant Soil 272: 263-276.
22. Kuchenbuch R, Jungk A (1982) A method for determining concentration profiles at the soil-root interface by thin slicing rhizospheric soil. Plant Soil 68: 391-394.
23. Kutilek M, Nielsen DR (1994) Soil hydrology. Catena Publisher, Destedt, 223pp.
24. Kuzyakov Y (2002) Review: factors affecting rhizosphere priming effects. J Plant Nutr Soil Sci 165: 382-396.
25. Kuzyakov Y (2010) Priming effects: interactions between living and dead organic matter. Soil Biol Biochem 42: 1363-1371.
26. 2 fluxes? Biogeosciences 8: 1523-1537.
27. Kuzyakov Y, Friedel JK, Stahr K (2000) Review of mechanisms and quantification of priming effects. Soil Biol Biochem 32: 1485-1498.
28. Kuzyakov Y, Raskatov A, Kaupenjohann M (2003) Turnover and distribution of root exudates of zea mays. Plant Soil 254: 317-327.
29. Lange B, Lüescher P, Germann PF (2008) Significance of tree roots for preferential infiltration in stagnic soils. Hydrol Earth Syst Sci 5: 2373-2407.
30. Lambers H, Mougel C, Jaillard B, Hinsinger P (2009) Plant-microbe-soil interactions in the rhizosphere: an evolutionary perspective. Plant Soil 321: 83-115.
31. Leij FJ, Teamrat AG, Dani O (2002) Modeling the dynamics of the soil pore-size distribution. Soil Till Res 64: 61-78.
32. Lerch TZ, Nunan N, Dignac MF, Chenu C, Mariotti A (2011) Variations in microbial fractionation during soil organic matter decomposition. Biogeochemistry 106: 5-21.
33. Liu D, Fang SZ, Tian Y, Dun XJ (2012) Variation in rhizosphere soil microbial index of tree species on seasonal flooding land: An in situ rhizobox approach. Appl Soil Ecol 59: 1-11.
34. Macfall JS, Johnson GA, Kramer PJ (2006) Comparative water uptake by roots of different ages in seedlings of loblolly pine (Pinus taeda L.). New Phytol 119: 551-560.
35. Mary B, Fresneau C, Morel JL, Mariotti A (1993) C-cycling and N-cycling during decomposition of root mucilage, roots and glucose in soil. Soil Biol Biochem 25: 1005-1014.
36. Mary B, Mariotti A, Morel JL (1992) Use of 13C variations at natural abundance for studying the biodegradation of root mucilage, roots and glucose in soil. Soil Biol Biochem 24: 1065-1072.
37. Nguyen C (2003) Rhizodeposition of organic C by plants: mechanisms and controls. Agronomie 23: 375-396.
38. Nguyen C, Froux F, Recous S, Morvan T, Robin C (2008) Net N immobilisation during the biodegradation of mucilage in soil as affected by repeated mineral and organic fertilization. Nutr Cycl Agroecosyst 80: 39-47.
39. Nguyen C, Guckert A (2001) Short-term utilisation of C-14-[U] glucose by soil microorganisms in relation to carbon availability. Soil Biol Biochem 33: 53-60.
40. Oades JM, Waters AG (1991) Aggregate hierarchy in soils. Aust J Soil Res 29: 815-824.
41. Pankhurst CE, Pierret A, Hawke BG, Kirby JM (2002) Microbiological and chemical properties of soil associated with macropores at different depths in a red-duplex soil in NSW Australia. Plant Soil 238: 11-20.
42. Paterson E (2003) Importance of rhizodeposition in the coupling of plant and microbial productivity. Eur J Soil Sci 54: 741-750.
43. Phillips RP, Fahey TJ (2005) Patterns of rhizosphere carbon flux in sugar maple (Acer saccharum) and yellow birch (Betula allegheniensis) saplings. Glob Change Biol 11: 983-995.
44. Pinton R, Varanini Z, Nannipieri P (2007) The rhizosphere, biochemistry and organic substances at the soil-plant interface, 2nd edn. CRC Press, Taylor and Francis Group, Boca Raton, 447pp.
45. 13C in soil microbial biomass using fumigation extraction. Soil Biol Biochem 35: 947-954.
46. Puget P, Chenu C, Balesdent J (2000) Dynamics of soil organic matter associated with particle-size fractions of water-stable aggregates. Eur J Soil Sci 51: 595-605.
47. Puglisi E, Fragoulis G, Del Re AAM, Spaccini R, Piccolo A, Gigliotti G, Said-Pullicino D, Trevisan M (2008) Carbon deposition in soil rhizosphere following amendments with compost and its soluble fractions, as evaluated by combined soil-plant rhizobox and reporter gene systems. Chemosphere 73: 1292-1299.
48. Rasse DP, Rumpel C, Dignac MF (2005) Is soil carbon mostly root carbon? Mechanisms for a specific stabilization. Plant Soil 269: 341-356.
49. Ruamps LS, Nunan N, Chenu C (2011) Microbial biogeography at the soil pore scale. Soil Biol Biochem 43: 280-286.
50. Sanderman J, Farquharson R, Baldock J (2010) Soil carbon sequestration potential: A review for Australian agriculture. A report prepared for the Department of Climate Change and Energy Efficiency CSIRO National Research Flagships.
51. 14C labeling. J Plant Nutr Soil Sci 169: 360-362.
52. SAS Institute Inc. (2006). SAS. 9. 1. 3 management. Console users guide. SAS Publishing, e-book.
53. Schenk HJ, Jackson RB (2002) Rooting depths, lateral root spreads and below-ground above ground allometries of plants in water limited ecosystems. J Ecol 90: 480-494.
54. Six J, Conant RT, Paul EA, Paustian K (2002) Stabilization mechanisms of soil organic matter: implications for C-saturation of soils. Plant Soil 241: 155-176.
55. Soil Survey Staff (2010) Keys to soil taxonomy, 11th edn. USDA-Natural Resources Conservation Service, Washington, DC.
56. Stewart JB, Moran CJ, Wood JT (1999) Macropore sheath: quantification of plant root and soil macropore association. Plant Soil 211: 59-67.
57. 13C labelling. Physiol Plant 120: 434-441.
58. Tisdall JM, Oades JM (1982) Organic matter and water stable aggregates in soils. J Soil Sci 33: 141-163.
59. Uren NC (2007) Types, amounts, and possible functions of compounds released into the rhizosphere of soil-grown plants. In: Pinton R, Varanini Z, Nannipieri P (eds) The Rhizosphere: Biochemistry and organic substances at the soil-plant interface. Marcel Dekker, New York, pp 19-40.
60. van Hees PAW, Jones DL, Finlay R, Godbold DL, Lundström U (2005) The carbon we do not see - the impact of low molecular weight compounds on carbon dynamics and respiration in forest soils: a review. Soil Biol Biochem 37: 1-13.
61. von Lützow M, Kögel-Knabner I, Ekschmitt K, Matzner E, Guggenberger G, Marschner B, Flessa H (2006) Stabilization of organic matter in temperate soils: mechanisms and their relevance under different soil conditions - a review. Eur J Soil Sci 57: 426-445.
62. Whalley WR, Leeds-Harrison PB, Leech PK, Riseley B, Bird NRA (2004) The hydraulic properties of soil at root-soil interface. Soil Sci 169: 90-99.
63. Wenzel WW, Wieshammer G, Fitz WJ, Puschenreiter M (2001) Novel rhizobox design to assess rhizosphere characteristics at high spatial resolution. Plant Soil 237: 37-45.
64. Wright JP, Jones CG (2006) The concept of organisms as ecosystem engineers ten years on: progress, limitation, and challenges. Bioscience 56: 203-209.
65. Xie XM, Liao M, Fang S, Peng Y, Yang J, Chai JJ (2012) Special characteristics of pyrene degradation and soil microbial activity with the distance from the ryegrass (Lolium perenne L.) root surface in a multi-interlayer rhizobox. J Hazard Mater 213-214: 156-160.
66. Yao SH, Zhang B, Hu F (2011) Soil biophysical controls over rice straw decomposition and sequestration in soil: the effects of drying intensity and frequency of drying and wetting cycles. Soil Biol Biochem 43: 590-599.
67. 13C labelling of oats. Soil Biol Biochem 38: 1202-1211.
68. Young IM, Crawford JW (2004) Interactions and self-organization in the soil microbe complex. Science 304: 1634-1637.
69. Zhang B, Peng XH, Zhao QG, Hallett PD (2004) Eluviation of dissolved organic carbon under wetting and drying and its influence on water infiltration in degraded soils restored with vegetation. Eur J Soil Sci 55: 725-737.
70. Zhang B, Yao SH, Hu F (2007) Microbial biomass dynamics and soil wettability as affected by the intensity and frequency of wetting and drying during straw decomposition. Europ J Soil Sci 58: 1482-1492.
71. 15N-labelled rhizodeposition of Lolium perenne as function of the distance to the root surface. Soil Biol Biochem 42: 910-918.
72. zu Schweinsberg-Mickan MS, Jörgensen RG, Müller T (2012) Rhizodeposition: its contribution to microbial growth and carbon and nitrogen turnover within the rhizosphere. J Plant Nutr Soil Sci 175: 750-760.