期刊文献+

Soil depth- and root diameter- related variations affect root decomposition in temperate pine and oak forests

原文传递
导出
摘要 Aims Assessment of factors regulating root decomposition is needed to understand carbon and nutrient cycling in forest ecosystems.the ob-jective of this study is to examine the effects of soil depth and root diameter on root decomposition and to analyze the relationship of root decomposition with factors such as soil environmental conditions and initial litter quality.Methods two decomposition experiments were conducted in natural pine(Pinus densiflora)and oak(Quercus serrata)forests over a 2-year period using the litterbag technique.For the soil depth experiment,216 litterbags containing fine roots(∅=0-2 mm)were buried at 0-10-,10-20-and 20-30-cm soil depths.Soil properties and soil enzyme activities and microbial biomass at each soil depth were analyzed.For the root diameter experiment,216 litterbags containing roots 0-1-,1-2-and 2-3-mm in diameter were buried at 10-cm soil depth.the initial litter qualities(carbon(c),nitrogen(N),calcium(ca)and phosphorus(P)concentrations)for each of the root diameter classes were analyzed.Litterbags were retrieved after 3,6,12 and 24 months in each forest type.Important Findingsthe root decomposition rate was significantly altered by soil depth and root diameter.After 2 years,the root decay constant at 0-10-cm depth(pine:0.35 and oak:0.41)was significantly higher than that at 10-20-cm(0.31 and 0.37)and 20-30-cm(0.32 and 0.33)depths in the P.densiflora and Q.serrata forests.Enzyme activities and microbial biomass declined with soil depth,which may be associated with decreasing soil moisture and organic matter.the decay constant for the 0-1-mm roots(pine:0.32 and oak:0.37)was higher than that of 1-2-mm(0.29 and 0.33)and 2-3-mm roots(0.26 and 0.33)for the P.densiflora and Q.serrata forests.Difference in initial P concentration and c/N ratio among the different diameter roots were linearly related with root decomposition.In particular,the increasing c/N ratio with root diameter resulted in decreases in the decomposition rate.these results indicate the surface soil microbial activities and initial c/N ratio of root litter as important drivers of c dynamics in temperate pine and oak forests.
出处 《Journal of Plant Ecology》 SCIE CSCD 2019年第5期871-881,共11页 植物生态学报(英文版)
基金 National Research Foundation of Korea(2018R1A2B6001012).
  • 相关文献

参考文献1

二级参考文献33

  • 1Baddeley JA, Watson CA (2004) Seasonal patterns of fine-root production and mortality in Prunus avium in Scotland. Can J For Res 34(7):1534-1537.
  • 2Block RMA, Van Rees KCJ, Knight JD (2006) A review of fine root dynamics in Populus plantations. Agrofor Syst 67(1):73-84.
  • 3Box JE, Ramseur EL (1993) Minirhizotron wheat root data: comparison to soil core root data. Agron J 85(5):1058- 1060.
  • 4Brown ALP, Day FP, Stover DB (2009) Fine root biomass estimates from minirhizotron imagery in a shrub ecosystem exposed to elevated CO2. Plant Soil 317(1-2):145-153.
  • 5Cote B, Hendershot WH, Fyles JW, Roy AG, Bradley R, Biron PM, Courchesne F (1998) The phenology of fine root growth in a maple-dominated ecosystem: relationships with some soil prop- erties. Plant Soil 201(1):59-69.
  • 6Gower ST, Isebrands JG, Sheriff DW (1995) Carbon allocation and accumulation in conifers. In: Smith WK, Hinckley TM (eds) Resource physiology of conifers. Academic Press, New York, pp 217-254.
  • 7Han SH, Yoon TK, Han S, Yun S J, Lee S J, Kim S, Chang H, Son Y (2014) Fine root biomass in Pinus densiflora stands using soil core sampling and minirhizotrons. J Korean For Soc 103(1):37-42 (in Korean with English abstract).
  • 8Hendricks JJ, Hendrick RL, Wilson CA, Mitchell RJ, Pecot SD, Guo D (2006) Assessing the patterns and controls of fine root dynamics: an empirical test and methodological review. J Ecol 94(1):40-57.
  • 9Hwang J, Son Y (2003) Fertilization effects on fine root biomass, production, and turnover rate in a Pinus rigida plantation. Korean J Ecol 26(2):59-64.
  • 10Hwang J, Son Y, Kim C, Yi MJ, Kim ZS, Lee WK, Hong SK (20(17) Fine root dynamics in thinned and limed pitch pine and Japanese larch plantations. J Plant Nutr 30(11 ):1821-1839.

共引文献2

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部