Appendix Data for Rainfall Interception in Other Coniferous and Broad-Leaved Stands
Appendix Data for rainfall interception in other coniferous and broad-leaved stands
Species / Stand density(stemsha–1) / Ic/Rf
(%) / Period
(months) / Reference
Coniferous stands (n = 60)
Cryptomeria japonica (n = 14) / 513 / 18 / 12 / Tanakaet al. (2005) **
513 / 12 / 12 / Tanakaet al. (2005) **
513 / 18 / 12 / Tanakaet al. (2005) **
1300 / 23 / 8 / Kato et al. (2012) **
3864 / 28 / 12 / Wang et al. (1991) **
3864 / 30 / 12 / Wang et al. (1991) **
3864 / 30 / 12 / Wang et al. (1991) **
3864 / 30 / 12 / Wang et al. (1991) **
3000 / 25 / 12 / Ohrui and Mitchell (1996) **
750 / 12 / 12 / Haibara and Aiba (1982) **
1000 / 18 / 30 / Yasuda (1994) **
1467 / 26 / 12 / Sato et al. (2002, 2003) **
1107 / 26 / 19 / Saito et al. (2013) **
553 / 22 / 8 / Tateishi et al., unpublished data **
Chamaecyparis obtusa (n = 35) / 1750 / 21 / 12 / Hattori and Chikaarashi (1988) **
2051 / 21 / 12 / Hattori et al. (1982) **
1750 / 23 / 12 / Hattori and Chikaarashi (1988)**
1325 / 19 / 12 / Hattori and Chikaarashi (1988) **
783 / 12 / 12 / Murakami et al. (2000) **
783 / 15 / 12 / Murakami et al. (2000) **
923 / 16 / 12 / Tanaka et al. (2005) **
923 / 12 / 12 / Tanaka et al. (2005) **
2198 / 29 / 12 / Sun et al. (2015) **
1099 / 21 / 12 / Sun et al. (2015) **
1700 / 16 / 18 / Hirata et al. submitted; Kato et al. (2012) **
800 / 12 / 17 / Hirata et al. submitted **
1785 / 17 / 16 / Fujii (1959) **
675 / 30 / 12 / Gomyo et al. (2004) **
2500 / 35 / 9 / Dohi et al. (2012) **
1250 / 26 / 9 / Dohi et al. (2012) **
3200 / 26 / 12 / Iwatsubo and Tsutsumi (1967) **
2400 / 27 / 6 / Nanko et al. (2015) **
1300 / 12 / 8 / Nanko et al. (2015) **
1836 / 30 / 8 / Sado and Kurita (2004); Komatsu (2008) **
1440 / 30 / 8 / Sado and Kurita (2004); Komatsu (2008) **
1487 / 28 / 8 / Sado and Kurita (2004); Komatsu (2008) **
915 / 16 / 12 / Takagi (2013) **
1300 / 14 / 6 / Shinohara et al. (2015) **
600 / 8 / 9 / Shinohara et al. (2015) **
1526 / 26 / 19 / Saito et al. (2013) **
848 / 21 / 9 / Tateishi et al., unpublished data **
1700 / 24 / 12 / Shinohara et al. (2010) **
1700 / 24 / 12 / Shinohara et al. (2010) **
1700 / 24 / 12 / Shinohara et al. (2010) **
1700 / 28 / 12 / Shinohara et al. (2010) **
522 / 10 / 5 / Nagano et al., unpublished data
522 / 14 / 7 / Nagano et al., unpublished data
356 / 13 / 4 / Nagano et al., unpublished data
356 / 15 / 7 / Nagano et al., unpublished data
Cryptomeia japonica and Chamaecyparis obtusa (n = 1) / 783 / 13 / 24 / Murakami et al. (2000) *
Pinus densiflora (n = 4) / 830 / 19 / 12 / Murai (1970) ***
1575 / 14 / 12 / Mitsudera et al. (1984) *
2300 / 21 / 12 / Taniguchi et al. (1996) *
1700 / 30 / 12 / Taniguchi et al. (1996) *
Pinus thunbergii (n = 6) / 3326 / 22 / 13 / Murai and Kumagai (1989) ***
3895 / 28 / 13 / Murai and Kumagai (1989) ***
3810 / 24 / 13 / Murai and Kumagai (1989) ***
3222 / 22 / 13 / Murai and Kumagai (1989) ***
2376 / 22 / 13 / Murai and Kumagai (1989) ***
1614 / 20 / 13 / Murai and Kumagai (1989) ***
Broad-leaved stands (n = 6)
Ilex pedunculosa / 6000 / 20 / 18 / Iwatsubo and Tsutsumi (1967) *
Lithocarpus edulis / 3418 / 18 / 12 / Sato et al. (2002, 2003) *
Quercus serrata, etc. / 3502 / 13 / 22 / Park et al. (2000) *
Quercus serrata, etc. / 5070 / 24 / 31 / Park et al. (2000) *
Quercus serrata, etc. / 3644 / 17 / 12 / Deguchi et al. (2006)
Quercus variabilis and Quercus crispula / 1600 / 19 / 12 / Shinohara et al. (2014)
Note: Data summarized by other authors were expressed as follows: * Komatsu et al. (2007), ** Komatsu et al. (2015), *** Onozawa et al. (2009).
References
Deguchi A, Hattori S, Park HT(2006) The influence of seasonal changes in canopy structure on interception loss: Application of the revised Gash model. J Hydrol318:80–102
Dohi K, Tanaka N, Kuraji K(2012) Observation and analysis on the effects of thinning of a dense Japanese cypress plantation for rainfall interception. Chubu For Res60:133–136 (in Japanese)
Fujii S(1959) Intercepted rainfall by Hinoki (Chamaecyparis obtusa S. et Z.) forest. J Jpn For Soc41:262–269 (in Japanese with English summary)
Gomyo M, Kitahara H, Ono H(2004) Difference of interception loss among tree species with seasons.Chubu For Res52:235–238 (in Japanese)
Haibara K, Aiba Y(1982) The nutrient circulation and budget for a small catchment basin of an established Sugi (Cryptomeria japonicaD. Don)and Hinoki (Chamaecyparis obtusa S. et Z.) stand.J Jpn For Soc64:8–14 (in Japanese with English summary)
Hattori S, Chikaarashi H(1988) Effect of thinning on canopy interception in ahinoki stand. J Jpn For Soc70:529–533 (in Japanese)
Hattori S, Chikaarashi H, Takeuchi N(1982) Measurement of therainfall interception and its micrometeorological analysis in a hinokistand. BullFor For Prod Res Inst318:79–102 (in Japanese with English summary)
Iwatsubo G, Tsutsumi T(1967) On the amount of plant nutrients supplied to the ground by rainwater in adjacent open plot and forest (2). Bull Kyoto Univ For39:110–124 (in Japanese with English summary)
Kato H, Onda Y, Gomi T(2012) Interception of the Fukushima reactoraccident-derived 137Cs, 134Cs and 131I by coniferous forest canopies.Geophys ResLett 39:L20403
Komatsu H(2008) Comparison of rainfall interception amounts between thinned and unthinned Chamaecyparis obtusa forest stands. Bull Kyushu Univ For89:1–11 (in Japanese with English summary)
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 Process29:5120–5134
Komatsu H, Tanaka N, Kume T (2007) Do coniferous forests evaporate more water than broad-leaved forests in Japan?J Hydrol336:361–375
Mitsudera M, Kamata Y, Nakane K(1984) Effect of fire on water and major nutrient budgets in forest ecosystems.Ⅲ. rainfall interception by forest canopy. Jpn J Ecol34:15–25 (in Japanese with English summary)
Murai H(1970) Studies on precipitation interception by forest vegetations. Bull For For Prod Res Inst232:25–64 (in Japanese with English summary)
Murai H, Kumagai N(1989) Studies on effect of some treatments to forest so as to control stream flow in small mountain watershed.Ⅲ. influence on hydrological cycle in forest land and runoff and sediment discharge in stream. Bull Shizuoka Univ For13:1–25 (in Japanese with English summary)
Murakami S, Tsuboyama Y, Shimizu T, Fujieda M, Noguchi S(2000) Variation of evapotranspiration with stand age and climate in a small Japanese forested catchment. J Hydrol227:114–127
Nanko K, Onda Y, Kato H, Gomi T(2015) Immediate change in throughfall spatial distribution and canopy water balance after heavy thinning in a dense mature Japanese cypress plantation. Ecohydrology 9:300–314
Ohrui K, Mitchell MJ(1996) Elemental dynamics of a Japanese watershedwith sugi (Cryptomeria japonica) and hinoki (Chamaecyparis obtusa)plantations. Can J For Res26:2160–2169
Onozawa Y, Chiwa M, Komatsu H, Otsuki K(2009) Rainfall interception in a moso bamboo (Phyllostachys pubescens) forest. J For Res14:111–116
Park HT, Hattori S, Kang HM(2000) Seasonal and inter-plot variations of stemflow, throughfall and interception loss in two deciduous broad-leaved forests. J Jpn Soc Hydrol Water Resour13:17–30
Sado Y, Kurita T(2004) Development of a forest management technique for long-term rotation: a consideration of simple method for evaluating the change in water conservation function. BullYamaguchi Pref For Guid Inst17:19–22 (in Japanese with English summary)
Saito T, Matsuda H, Komatsu M, Xiang Y, Takahashi A, Shinohara Y,Otsuki K(2013) Forest canopy interception loss exceeds wet canopyevaporation in Japanese cypress (Hinoki) and Japanese cedar (Sugi)plantations. JHydrol507:287–299
SatoY, Otsuki K, Ogawa S(2002) Estimation of annual canopy interception by Lithocarpus edulis Nakai. Bull Kyushu Univ For83:15–29 (in Japanese with English summary)
Sato Y, Kume A, Otsuki K, Ogawa S(2003) Effects of the difference in canopy structure on the distribution of throughfall: a comparison of throughfall characteristics between the coniferous forest and the broad-leaved forest. JJpn Soc Hydrol Water Resour16:605–617 (in Japanese with English summary)
Shinohara Y, Ide J,Higashi N, KomatsuH,Kume T,Chiwa M, OtsukiK(2010)Observation of canopy interception loss in an abandoned coniferousplantation. J Jpn For Soc92:54–59 (in Japanese with English summary)
Shinohara Y, Osaki S, Inoue K, Kabemura Y, Yamauchi K, Koga S, Otsuki K(2014)Observation of canopy interception loss in an oak forest.Bull Kyushu Univ For 95:10–15(in Japanese with English summary)
Shinohara Y, Levia DF, Komatsu H, Nogata M, Otsuki K(2015) Comparative modeling of the effects of intensive thinning on canopy interception loss in a Japanese cedar (Cryptomeria japonica D. Don) forest of western Japan. Agric For Meteorol214–215:148–156
Sun X, Onda Y, Kato H, Gomi T, Komatsu H (2015) Effect of strip thinning on rainfall interception in a Japanese cypress plantation. J Hydrol 525:607–618
Takagi M(2013) Evapotranspiration and deep percolation of a small catchment with a mature Japanese cypress plantation. JFor Res18:73–81
Tanaka N,Kuraji K, ShirakiK, SuzukiM, SuzukiM,Ohta T, SuzukiM(2005)Throughfall, stemflow and rainfall interception at mature Cryptomeriajaponica and Chamaecyparis obtusa stands in Fukuroyamasawa watershed.BullTokyo Univ For113:197–240 (in Japanese with English summary)
Taniguchi M, Tsujimura M, Tanaka T(1996) Significance of stemflow in groundwater recharge. 1: evaluation of the stemflow contribution to recharge using a mass balance approach. Hydrol Process10:71–80
Wang N, Haibara K, Aiba Y(1991) Effects of the leaf biomass on theaddition of cations to the soil of a young sugi (Cryptomeria japonica)stands. J Jpn For Soc 73:118–127 (in Japanese with English summary)
Yasuda H(1994) Interception of rainfall and snowfall by a Cryptomeriajaponica canopy. (in Japanese) (accessed on 25 June, 2016)