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Sapflow Change and Growth Response of Poplar Species under Swine Wastewater Irrigation  

Lee, Eu Ddeum (Department of Environmental Horticulture, University of Seoul)
Woo, Su Young (Department of Environmental Horticulture, University of Seoul)
Yeo, Jin Kie (Department of forest Resources Development, Korea Forest Research Institute)
Koo, Yeong Bon (Department of forest Resources Development, Korea Forest Research Institute)
Chun, Seung-Hoon (Bureau of Urban Planning & Landscape Architecture, Kyungwon University)
Publication Information
Journal of Korean Society of Forest Science / v.98, no.6, 2009 , pp. 740-747 More about this Journal
Abstract
We examined sapflow of two Populus species such as Populus alba ${\times}$ Populus glandulosa and Populus euramericana, grown under Swine wastewater treatment. Sapflow of Populus euramericana was 1.8 times higher than that of Populus alba ${\times}$ Populus glandulosa for 14 months. Sapflow of Populus euramericana and Populus alba${\times}$Populus glandulosa was 4,628L and 2,538L during this period, respectively. Positive relationship between sapflow density and solar radiation and temperature had been shown. Mean temperature, relative humidity and sapflow was strongly associated. There was a decreasing sapflow tendency of the two poplar species during the late October when the mean temperature was decreased. In addition, the data showed high relationship between sapflow and photosynthesis. Two poplar species showed dramatic decrease of sapflow since October.
Keywords
Swine wastewater; Populus alba${\times}$Populus glandulosa; Populus euramericana; phytoremediation; sapflow;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Cermak, J., Kucera, J. and Nadezhdina, N. 2004. Sap flow measurements with some thermodynamic methods, flow integration within trees and scaling up from sample trees to entire forest stands. Trees 18: 529-546   DOI   ScienceOn
2 Fujino, J., Morita, A., Matsuoka, Y. and Sawayama, S. 2005. Vision for utilization of livestock residue as bioenergy resource in Japan. Biomass Bioenergy 29: 367-374   DOI   ScienceOn
3 Granier, A. 1987. Evaluation of transpiration in a Douglas fir stand by means of sap flow measurements. Tree Physiology 3: 309-320   PUBMED   ScienceOn
4 Zalesny, Jr R., Wiese, A.H., Bauer, E.O. and Riemenschneider, D.E. 2006. Sapflow of hybrid poplar (Populus nigra L.P. maximowiczii A. Henry 'NM6') during phytoremediation of landfill leachate. Biomass Bioenergy 30: 784-93   DOI   ScienceOn
5 제선미, 우수영, 구영본, 우관수, 여진기, 양수진. 2007. 돈분침출수 처리에 의한 이태리포플러와 현사시나무의 생리적 특성 및 항산화효소 활성. 한국임학회지 96(3): 369-375
6 여진기, 김인식, 구영본, 김태수, 손두식. 2002. 축산폐수 처리에 따른 포플러 수종 및 클론별 오염물질 흡수능력 및 내성. 한국폐기물학회지19(8): 912-920
7 Granier, A. and Laustau, D. 1994. Measuring and modeling the transpiration of a maritime pine canopy from sap flow data. Agricultural and Forest Meteorology 71: 61-81   DOI   ScienceOn
8 Luc, L. and Muller, E. 2002. Sap flow and water transfer in the Garonne River riparian woodland, France: first results on poplar and willow. Annals of Forest Science 59: 301-315   DOI   ScienceOn
9 Zalesny, J.A., Zalesny Jr. R.S., Coyle, D.R. and Hall, R.B. 2007. Growth and biomass of Populus irrigated with landfill leachate. Forest Ecology and Management 248: 143-152   DOI   ScienceOn
10 여진기, 김인식, 구영본, 김영중, 주성현. 2003. 시험림에서 축산폐수 처리에 따른 포플러의 생장과 축산폐수흡수. 한국폐기물학회지 20(8): 742-749
11 Lukaszewski, Z., Siwecki, R., Opydo, J. and Zembrzuski, W. 1993. The effect of industrial pollution on copper, lead, zinc and cadmium concentration in xylem rings of resistant (Populus marilandica) and sensitive (P. balsamifera) species of poplar. Trees 7: 169-174   ScienceOn
12 Jordahl, J.L., Foster, L., Schnoor, J.L. and Alvarez, P.J.J. 1997. Effect of hybrid poplar trees on microbial populations important to hazardous waste bioremediation. Environ. Toxicollogy and Chemistry 16: 318-321   DOI   ScienceOn
13 Kim, K.D., Lee, E.H., Lee, J.W., Cho, I.H., Mun, B., Lee, B.Y., Son, J.E. and Chun, C.H. 2008. Daily changes in rates of nutrient and water uptake, xylem sap exudate, and sapflow of hydroponically grown tomatoes. Horticulture Environment and Biotechnology 49: 209-215   ScienceOn
14 Jimenz, M.S., Cermak, J., Kucera, J. and Morales, D. 1996. Laurel forests in Tenerife, Canary Islands: the annual course of sap flow in Laurus trees and stand. Journal of Hydrology 183: 307-321   DOI   ScienceOn
15 Li, F., Cohen, S., Naor, A., Shaozon, K. and Erez, A. 2002. Studies of canopy structure and water use of apple trees on three rootstock. Agricultural Water. Mgnagement 55: 1-14   DOI   ScienceOn
16 Meiresonne, L.N. Nadezhdin, J. Cermark, J. Van Silycken and Ceulemans, R. 1999. Measured sap flow and simulated transpiration from a poplar stand in Flanders (Belgium). Agricultural and Forest Meteorology 96: 165-179   DOI   ScienceOn
17 Wullschleger, S.D., Hanson, P.J. and Todd, D.E. 2001. Transpiration from a multi-species deciduous forest as estimated by xylem sap flow techniques. Forest Ecolology and Meteology 143: 205- 213   DOI   ScienceOn
18 Cermark, J., Kueera, J., Bauerle, W.L., Phillips, N. and Hinckley, T.M. 2007. Tree water storage and its diurnal dynamics related to sap flow and changes in stem volume in old-growth Douglas-fir trees. Tree Physiology 27: 181-198   PUBMED   ScienceOn
19 Gilmour J.T., Mauromoustakos, A., Gale, P.M. and Norman, R.J. 1998. Kinetic of crop residue decomposition: variability among crops and years. Soil Science Society of America Journal 62: 750-755   ScienceOn
20 Wang, H., Zhao, P., Wang, Q., Cai, X., Ma, L., Rao, X. and Zeng, X. 2008. Nocturnal sap flow characteristics and stem water recharge of Acacia mangium. Frontiers of Forestry in. China 3: 72-78   DOI
21 Wendt, C., Runkels J. and Haas, R. 1967. The measurement of water loss by mesquite (Prpsopis glandulosa var. glandulosa Torr) using the thermoelectric method. Soil Science Society of America 31: 161-164   DOI
22 Wullschleger, S.D., Meinzer, F.C. and Vertessy, R.A. 1998. A review of whole-plant water use studies in trees. Tree Physiology 18, 499-512   PUBMED   ScienceOn
23 Olioso, A., Carlson T.N. and Brisson, N. 1996. Simulation of diurnal transpiration and photosynthesis of a water stressed soybean crop. Agricultural and Forest Meteorology 81: 41-59   DOI   ScienceOn