Abstract
Key message
Thinning resulted in evapotranspiration decrease and caused the relative contributions of each component to evapotranspiration to become very close.
Abstract
To increase the understanding of forest management to control water cycles, we examined the effect of 50% strip thinning on evapotranspiration (ET) and its partitioning into canopy interception (E i), tree transpiration (E t), and forest floor evaporation (E f) in a Japanese cypress (Chamaecyparis obtusa Endl.) plantation. Intensive measurements were employed to monitor each component of ET during the pre- and post-thinning periods. The results showed the annual E t was the dominant component of ET followed by E i, whereas E f was the smallest component in both periods. Thinning has significant impact on the process of ET partitioning. In such that it decreased from 42.3 to 33.7% in E i/ET and from 45.0 to 34.9% in E t/ET, and increased from 12.7 to 31.4% in E f/ET on an annual scale. The relative contributions of each ET component to the whole ET became more or less the same after thinning. Additionally, the monthly E i/P g had relative stable values in both pre- and post-thinning periods, contributing significantly to the ET/P g during heavy rainfall conditions. After thinning, ET decreased by 21.4% from 629.3 to 494.8 mm during the growing season and by 20.4% from 979.8 to 780.1 mm at the annual scale, demonstrating that thinning results in an increase in water availability in the forested watershed. This study can improve the understanding of forest water budget in response to thinning and aid in development of appropriate forest management practices accordingly.
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References
Allen RG (2008) Why do we care about ET? Southwest Hydrol 7:18–19
Benyon RG, Doody TM (2014) Comparison of interception, forest floor evaporation and transpiration in Pinus radiata and Eucalyptus globulus plantations. Hydrol Process. doi:10.1002/hyp.10237
Bonan GB (2008) Forests and climate change: forcings, feedbacks, and the climate benefits of forests. Science 320:1444–1449
Bosch JM, Hewlett JD (1982) A review of catchment experiments to determine the effect of vegetation changes on water yield and evapo-transpiration. J Hydrol 55:3–23
Breda N, Granier A, Aussenac G (1995) Effects of thinning on soil and tree water relations, transpiration and growth in an oak forest (Quercus-Petraea (Matt) Liebl). Tree Physiol 15:295–306
Daikoku K, Hattori S, Deguchi A, Aoki Y, Miyashita M, Matsumoto K, Akiyama J, Iida S, Toba T, Fujita Y, Ohta T (2008) Influence of evaporation from the forest floor on evapotranspiration from the dry canopy. Hydrol Process 22:4083–4096
Dung BX, Gomi T, Miyata S, Sidle RC, Kosugi K, Onda Y (2012) Runoff responses to forest thinning at plot and catchment scales in a headwater catchment draining Japanese cypress forest. J Hydrol 444:51–62
Granier A (1987) Evaluation of transpiration in a Douglas-fir stand by means of sap flow measurements. Tree Physiol 3:309–320
Hawthorne SND, Lane PNJ, Bren LJ, Sims NC (2013) The long term effects of thinning treatments on vegetation structure and water yield. For Ecol Manag 310:983–993
Japan Forestry Agency (2014) Data for Japanese cedar and cypress plantations. http://www.rinya.maff.go.jp/j/sin_riyou/kafun/data.html. Accessed Mar 2012
Jasechko S, Sharp ZD, Gibson JJ, Birks SJ, Yi Y, Fawcett PJ (2013) Terrestrial water fluxes dominated by transpiration. Nature 496:347–350
Komatsu H, Kume T (2015) Changes in the sapwood area of Japanese cedar and cypress plantations after thinning. J For Res 20:43–51
Komatsu H, Maita E, Otsuki K (2008) A model to estimate annual forest evapotranspiration in Japan from mean annual temperature. J Hydrol 348:330–340
Kosugi Y, Katsuyama M (2007) Evapotranspiration over a Japanese cypress forest. II. Comparison of the eddy covariance and water budget methods. J Hydrol 334:305–311
Kosugi Y, Takanashi S, Tanaka H, Ohkubo S, Tani M, Yano M, Katayama T (2007) Evapotranspiration over a Japanese cypress forest. I. Eddy covariance fluxes and surface conductance characteristics for 3 years. J Hydrol 337:269–283
Kumagai T, Aoki S, Shimizu T, Otsuki K (2007) Sap flow estimates of stand transpiration at two slope positions in a Japanese cedar forest watershed. Tree Physiol 27:161–168
Kumagai T, Tateishi M, Miyazawa Y, Kobayashi M, Yoshifuji N, Komatsu H, Shimizu T (2014) Estimation of annual forest evapotranspiration from a coniferous plantation watershed in Japan (1): water use components in Japanese cedar stands. J Hydrol 508:66–76
Kume T, Tanaka N, Kuraji K, Komatsu H, Yoshifuji N, Saitoh TM, Suzuki M, Kumagai T (2011) Ten-year evapotranspiration estimates in a Bornean tropical rainforest. Agric For Meteorol 151:1183–1192
Molina AJ, del Campo AD (2012) The effects of experimental thinning on throughfall and stemflow: a contribution towards hydrology-oriented silviculture in Aleppo pine plantations. For Ecol Manag 269:206–213
Morikawa Y, Hattori S, Kiyono Y (1986) Transpiration of a 31-year-old Chamaecyparis obtusa Endl. stand before and after thinning. Tree Physiol 2:105–114
Oishi AC, Oren R, Stoy PC (2008) Estimating components of forest evapotranspiration: a footprint approach for scaling sap flux measurements. Agric For Meteorol 148:1719–1732
Onda Y, Gomi T, Mizugaki S, Nonoda T, Sidle RC (2010) An overview of the field and modelling studies on the effects of forest devastation on flooding and environmental issues. Hydrol Process 24:527–534
Priestley CHB, Taylor RJ (1972) On the Assessment of surface heat flux and evaporation using large-scale parameters. Mon Weather Rev 100:81–92
Raz-Yaseef N, Rotenberg E, Yakir D (2010) Effects of spatial variations in soil evaporation caused by tree shading on water flux partitioning in a semi-arid pine forest. Agric For Meteorol 150:454–462
Raz-Yaseef N, Yakir D, Schiller G, Cohen S (2012) Dynamics of evapotranspiration partitioning in a semi-arid forest as affected by temporal rainfall patterns. Agric For Meteorol 157:77–85
Saito T, Matsuda H, Komatsu M, Xiang Y, Takahashi A, Shinohara Y, Otsuki K (2013) Forest canopy interception loss exceeds wet canopy evaporation in Japanese cypress (Hinoki) and Japanese cedar (Sugi) plantations. J Hydrol 507:287–299
Shimizu T, Kumagai T, Kobayashi M, Tamai K, Iida S, Kabeya N, Ikawa R, Tateishi M, Miyazawa Y, Shimizu A (2015) Estimation of annual forest evapotranspiration from a coniferous plantation watershed in Japan (2): comparison of eddy covariance, water budget and sap-flow plus interception loss. J Hydrol 522:250–264
Shinohara Y, Tsuruta K, Ogura A, Noto F, Komatsu H, Otsuki K, Maruyama T (2013) Azimuthal and radial variations in sap flux density and effects on stand-scale transpiration estimates in a Japanese cedar forest. Tree Physiol 33:550–558
Simonin K, Kolb TE, Montes-Helu M, Koch GW (2007) The influence of thinning on components of stand water balance in a ponderosa pine forest stand during and after extreme drought. Agric For Meteorol 143:266–276
Sun X, Onda Y, Kato H, Otsuki K, Gomi T (2014a) Partitioning of the total evapotranspiration in a Japanese cypress plantation during the growing season. Ecohydrol 7:1042–1053
Sun X, Onda Y, Otsuki K, Kato H, Hirata A, Gomi T (2014b) The effect of strip thinning on tree transpiration in a Japanese cypress plantation (Chamaecyparis obtusa Endl.) plantation. Agric For Meteorol 197:123–135
Sun X, Onda Y, Kato H (2014c) Incident rainfall partitioning and canopy interception modeling for an abandoned Japanese cypress stand. J For Res 19:317–328
Teklehaimanot Z, Jarvis PG, Ledger DC (1991) Rainfall interception and boundary-layer conductance in relation to tree spacing. J Hydrol 123:261–278
Teramage MT, Onda Y, Patin J, Kato H, Gomi T, Nam S (2014) Vertical distribution of radiocesium in coniferous forest soil after the Fukushima nuclear power plant accident. J Environ Radioact 137:37–45
Vesala T, Suni T, Rannik U, Keronen P, Markkanen T, Sevanto S, Gronholm T, Smolander S, Kulmala M, Ilvesniemi H, Ojansuu R, Uotila A, Levula J, Makela A, Pumpanen J, Kolari P, Kulmala L, Altimir N, Berninger F, Nikinmaa E, Hari P (2005) Effect of thinning on surface fluxes in a boreal forest. Glob Biogeochem Cycle 19:GB2001
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
Zhang L, Dawes WR, Walker GR (2001) Response of mean annual evapotranspiration to vegetation changes at catchment scale. Water Resour Res 37:701–708
Zimmermann B, Zimmermann A, Lark RM, Elsenbeer H (2010) Sampling procedures for throughfall monitoring: a simulation study. Water Resour Res 46:W01503
Acknowledgements
This study was supported by the Japan Science and Technology Agency (JST) and the Core Research for Evolutional Science and Technology (CREST) projects, entitled ‘Development of innovative technologies for increasing in watershed runoff and improving river environment by the management practice of devastated forest plantation’, and was partially supported by Jiangsu Province Science Foundation (grant no. BK20140116). We express our sincere thanks to Drs. Teramage Tesfaye and Chandra Mouli Pavuluri for fruitful discussions. Thanks are also due to two anonymous reviewers for providing critical comments.
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Communicated by L. Gratani.
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Sun, X., Onda, Y., Otsuki, K. et al. Change in evapotranspiration partitioning after thinning in a Japanese cypress plantation. Trees 31, 1411–1421 (2017). https://doi.org/10.1007/s00468-017-1555-1
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DOI: https://doi.org/10.1007/s00468-017-1555-1