Contribution of Root Respiration to Soil Respiration in Sugarcane Plantation in Thailand
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Contribution of Root Respiration to Soil Respiration in Sugarcane Plantation in Thailand

Authors: Wilaiwan Sornpoon, Sebastien Bonnet, Poonpipope Kasemsap, Savitri Garivait

Abstract:

The understanding on the contribution of root respiration to total soil respiration is still very limited, especially for sugarcane. In this study, trenching experiments in sugarcane plantations were conducted to separate and investigate soil respiration for this crop. The measurements were performed for the whole growing period of 344 days to quantify root respiration. The obtained monitoring data showed that the respiration rate is increasing with the age of the plant, accounting for up to 29% of the total soil respiration before harvesting. The root to soil respiration ratio increased rapidly during the young seedling stage, i.e. first five months, then declined and finally got stabilized during yield formation and ripening stages, respectively. In addition, the results from the measurements confirmed that soil respiration was positively correlated with soil moisture content.

Keywords: Soil respiration, root respiration, trenching experiment, sugarcane.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1087760

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References:

  1. P. J. Hanson, N. T. Edwards, C. T. Garten, and J. A. Andrews, “Separating root and soil microbial contributions to soil respiration: A review of methods and observations,” Biogeochemistry, vol. 48, pp. 115-146, 2000.
  2. J. W. Raich, and A. Tufekcioglu, “Vegetation and respiration: correlation and controls,” Biogeochemistry, vol. 48, pp. 71-90, 2000.
  3. W. Wang, K. Ohse, J. Liu, W. Mo, and T. Oikawa, “Contribution of root respiration to soil respiration in C3/C4 mixed grassland,” J. Biosci., vol. 30, pp. 507-514, September 2005.
  4. B. Jia, G. Zhou, F. Wang, Y. Wang, W. Yuan, and L. Zhou, “Partitioning root and microbial contributions to soil respiration in Leymus chinensis population,” Soil Biology and Biochemistry, vol. 38, pp. 653-660, 2006.
  5. W. Wei, F. Jiang, and T. Oikawa, “Contribution of root and microbial respiration to soil CO2 efflux and their environmental controls in humid temperate grassland of Japan,” Pedosphere, vol. 19, pp. 31-39, 2009.
  6. E. J. Sayer, and E. V. J. Tanner, “A new approach to trenching experiments for measuring root-rhizosphere respiration in a lowland tropical forest,” Soil Biology and Biochemistry, vol. 42, pp. 347-352, 2010.
  7. C. Y. Zhao, Z. M. Zhao, Yilihamu, Z. Hong, and L. Jun, “Contribution of root and rhizosphere respiration of Haloxylon ammodendron to seasonal variation of soil respiration in The Central Asian desert,” vol. 244, pp. 304-309, 2011.
  8. Wikipedia, “Nakhon Sawan province,” available on website: http://en.wikipedia.org/wiki/Nakhon_Sawan_Province.
    [Accessed March 2013].
  9. TMD-Thai Meteorological Department, “Monthly observation report,” available on website: http://www.met-sawan.tmd.go.th/ data/data.htm
    [Accessed March 2013].
  10. LI-COR, “LI-8100 Automated soil CO2 flux system & LI-8150 multiplexer instruction manual,” LI-COR Inc., Lincoln, Nebaska, USA, 2006, ch. 4.
  11. Yuttitham, M., “Full carbon accounting in bioenergy producton from sugarcane,” The Joint Graduate School of Energy and Environment, King Mongut’s University of Technology Thonburi, Thailand, 2009, ch 5.
  12. M. S. Lee, K. Nakane, T. Nakatsubo, and H. Koizumi, “The importance of root respiration in annual soil carbon fluxes in a cool-temperature deciduous forest,” Agricultural and Forest Meteorology, vol. 134, pp. 95-101, 2005.