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Journal of Forest Research Volume 22, 2017 - Issue 1
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Environmental Sciences

Rainfall interception in an intensively managed low density stand of bamboo, Phyllostachys pubescens

Akio InoueFaculty of Environmental and Symbiotic Sciences, Prefectural University of Kumamoto, Kumamoto, JapanCorrespondence[email protected]
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,
Miho NaganoFaculty of Environmental and Symbiotic Sciences, Prefectural University of Kumamoto, Kumamoto, JapanView further author information
&
Kenshi SankodaFaculty of Engineering, Saitama University, Saitama, JapanView further author information
Pages 53-60 | Received 01 Jul 2016, Accepted 19 Nov 2016, Published online: 02 Feb 2017

References

  • Abe Y, Shibata S. 2009. Stand structure of non-management Phyllostachys pubescens forest and dynamics for 3 years after improvement management in Mt. Tennozan. J Jpn Soc Reveg Technol. 35:57–62. Japanese with English summary.
  • Banik RL. 2015. Morphology and growth. In: Liese W, Köhl M, editor. Bamboo: the plant and its uses. Cham: Springer; p. 43–89.
  • Bess NM. 2007. Bamboo in Japan. 2nd ed. Tokyo: Kodansya International.
  • FAO. 2010. Global Forest Resources Assessment 2010: main report. Rome.
  • Hattori S, Abe T. 1989. Characteristics of interception loss in bamboo forest. Suirikagaku. 186:34–53. Japanese.
  • Hayashi K, Yamada T. 2008. Is bamboo stand expansion independent of topographic conditions? Jpn J Conserv Ecol. 13:55–64. Japanese with English summary.
  • Hedstorm NR, Pomeroy JW. 1998. Measurements and modelling of snow interception in the boreal forest. Hydrol Process. 12:1611–1625.
  • Herwitz SR. 1986. Infiltration-excess caused by stemflow in a cyclone-prone tropical rainforest. Earth Surf Proc Land. 11:401–412.
  • Ichihashi R, Komatsu H, Kume T, Onozawa Y, Shinohara Y, Tsuruta K, Otsuki K. 2015. Stand-scale transpiration of two Moso bamboo stands with different culm densities. Ecohydrology. 8:450–459.
  • Komatsu H. 2007. Relationship between stem density and interception ratio for coniferous plantation forests in Japan. J Jpn For Soc. 89:217–220. Japanese with English summary.
  • Komatsu H, Onozawa Y, Kume T, Tsuruta K, Kumagai T, Shinohara Y, Otsuki K. 2010. Stand-scale transpiration estimates in a Moso bamboo forest: (II) comparison with coniferous forests. For Ecol Manage. 260:1295–1302.
  • Komatsu H, Onozawa Y, Kume T, Tsuruta K, Shinohara Y, Otsuki K. 2012. Canopy conductance for a Moso bamboo (Phyllostachys pubescens) forest in western Japan. Agric For Meteorol. 156:111–120.
  • Komatsu H, Shinohara Y, Kume T, Otsuki K. 2008. Relationship between annual rainfall and interception ratio for forests across Japan. For Ecol Manage. 256:1189–1197.
  • Komatsu H, Shinohara Y, Otsuki K. 2015. Models to predict changes in annual runoff with thinning and clearcutting of Japanese cedar and cypress plantations in Japan. Hydrol Process. 29:5120–5134.
  • Komatsu H, Tanaka N, Kume T. 2007. Do coniferous forests evaporate more water than broad-leaved forests in Japan? J Hydrol. 336:361–375.
  • Kuehl Y. 2015. Resources, yiled, and volume of bamboo. In: Liese W, Köhl M, editors Bamboo: the plant and its uses. Cham: Springer; p. 91–111.
  • Kume T, Onozawa Y, Komatsu H, Tsuruta K, Shinohara Y, Umebayashi T, Otsuki K. 2010. Stand-scale transpiration estimates in a Moso bamboo forest: (I) applicability of sap flux measurements. For Ecol Manage. 260:1287–1294.
  • Levia DF, Frost EE. 2003. A review and evaluation of stemflow literature in hydrologic and biochemical cycles in forested and agricultural ecosystems. J Hydrol. 274:1–29.
  • Levia DF, Frost EE. 2006. Variability of throughfall volume and solute inputs in wooded ecosystems. Prog Phys Geog. 30:605–632.
  • Llorens P, Domingo F. 2007. Rainfall partitioning by vegetation under Mediterranean conditions: a review of studies in Europe. J Hydrol. 335:37–54.
  • Lundberg A, Halldin S. 2001. Snow interception evaporation: review of measurement techniques, processes and models. Theor Appl Climatol. 70:117–133.
  • Nonaka S. 2010. Bamboo shoot: from cultivation and processing to utilization. Tokyo: Rural Culture Association Japan. Japanese.
  • Norman JM, Campbell GS. 1989. Canopy structure. In: Pearcy RW, Ehleringer J, Mooney HA, Rundel PW, editors. Plant physiological ecology: field methods and instrumentation. London: Chapman and Hall; p. 301–325.
  • Onozawa Y, Chiwa M, Komatsu H, Otsuki K. 2009b. Rainfall interception in a moso bamboo (Phyllostachys pubescens) forest. J For Res. 14:111–116.
  • Onozawa Y, Kume T, Komatsu H, Tsuruta K, Otsuki K. 2009a. Applicability of sap flux measurements in Moso bamboo (Phyllostachys pubescens): relationship between water absorption and whole-tree water use utilizing Granier sensor sap flux measurements. J Jpn For Soc. 91:366–370. Japanese with English summary.
  • Pypker TG, Bond BJ, Link TE, Marks D, Unsworth MH. 2005. The importance of canopy structure in controlling the interception of rainfall: examples from a young and an old-growth Douglas-fir forest. Agric For Meteorol. 130:113–129.
  • R Core Team. 2016. R: a language and environment for statistical computing. [cited 2016 Jun 26]. Available from: http://www.R-project.org
  • Scurlock JMO, Dayton DC, Hames B. 2000. Bamboo: an overlooked biomass resource? Biomass Bioenerg. 19:229–244.
  • Shinohara Y, Komatsu H, Kuramoto K, Otsuki K. 2013. Characteristics of canopy interception loss in Moso bamboo forests of Japan. Hydrol Process. 27:2041–2047.
  • Shinohara Y, Kume T, Ichihashi R, Komatsu H, Otsuki K. 2014. Moso-bamboo forests in Japan: what are the effects of their area expansion on ecosystem services? J Jpn For Soc. 96:351–361. Japanese with English summary.
  • Shinohara Y, Onozawa Y, Chiwa M, Kume T, Komatsu H, Otsuki K. 2010. Spatial variations in throughfall in a Moso bamboo forest: sampling design for the estimates of stand-scale throughfall. Hydrol Process. 24:253–259.
  • Sun X, Onda Y, Kato H. 2014. Incident rainfall partitioning and canopy interception modeling for an abandoned Japanese cypress stand. J For Res. 19:317–328.
  • Suzuki S. 2015. Chronological location analyses of giant bamboo (Phyllostachys pubescens) groves and their invasive expansion in a satoyoma landscape area, western Japan. Plant Spec Biol. 30:63–71.
  • Suzuki S, Nakagoshi N. 2008. Expansion of bamboo forests caused by reduced bamboo-shoot harvest under different natural and artificial conditions. Ecol Res. 23:641–647.
  • Toyota N, Mori N. 1985. Studies on litter-fall in Phyllostachys pubescens stand: an example of the stand exclusive to cultivate bamboo sprouts. Bamboo J. 3:18–21. Japanese.
  • Toyota N, Tokui T, Matsuoka S. 2005. Canopy structures in Moso-bamboo and changes of growth in forests situated next to the moso-bamboo. Bull Ehime Pref For Res Cent. 23:29–34. Japanese.
  • Uchimura E. 2009. Utilization of bamboo resource into modern days. Tokyo: Soshinsya. Japanese.
  • Vertessy RA, Watson FGR, O’Sullivan SK. 2001. Factors determining relations between stand age and catchment water balance in mountain ash forests. For Ecol Manage. 143:13–26.
  • Wang Y, Liu Y. 1995. Hydrological characteristics of a moso-bamboo (Phyllostachys pubescens) forest in south China. Hydrol Process. 9:797–808.
  • Ward RC, Robinson M. 1999. Principles of hydrology. London: McGraw-Hill.
  • Watanabe M. 1983. Studies on the ecological characteristics of bamboo stand: litter-fall and the amount of sheaths in Phyllostachys pubescens and Phyllostachys nigra var. henonis stands. Bamboo J. 1:28–35. Japanese.
  • Wilson KB, Hanson PJ, Mulholland PJ, Baldocchi DD, Wullschleger SD. 2001. A comparison of methods for determining forest evapotranspiration and its components: sap-flow, soil water budget, eddy covariance and catchment water balance. Agric For Meteorol. 106:153–168.
  • Yen TM. 2015. Comparing aboveground structure and aboveground carbon storage of an age series of moso bamboo forest subjected to different management strategies. J For Res. 20:1–8.
  • Zenrinkyou. 2014. Procedures for bamboo forests improvement and uses of bamboo woods and shoots. Tokyo: Zenrinkyou. Japanese.

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