Chin J Plant Ecol ›› 2011, Vol. 35 ›› Issue (12): 1310-1317.DOI: 10.3724/SP.J.1258.2011.01310 cstr: 32100.14.SP.J.1258.2011.01310
• Research Articles • Previous Articles
JIN Ying, WANG Chuan-Kuan*(
), SANG Ying
Received:2011-07-14
Accepted:2011-09-27
Online:2011-07-14
Published:2011-12-15
Contact:
WANG Chuan-Kuan
JIN Ying, WANG Chuan-Kuan, SANG Ying. Contribution of stem water storage to daily transpiration of three temperate trees in northeastern China[J]. Chin J Plant Ecol, 2011, 35(12): 1310-1317.
Add to citation manager EndNote|Ris|BibTeX
URL: https://www.plant-ecology.com/EN/10.3724/SP.J.1258.2011.01310
| 树种 Species | 树高 Tree height (m) | 冠基高度 Height of crown base (m) | 冠幅 Crown width (m) | 干基 (胸高) Trunk base (breast height) | 冠基 Crown base | |||
|---|---|---|---|---|---|---|---|---|
| 直径 Diameter (cm) | 边材宽度Sapwood width (cm) | 直径 Diameter (cm) | 边材宽度 Sapwood width (cm) | |||||
| 红松 Pinus koraiensis | 16.5 (0.5) | 6.3 (0.5) | 4.7 (1.2) | 26.1 (3.1) | 3.4 (0.8) | 20.7 (2.8) | 3.3 (0.9) | |
| 山杨 Populus davidiana | 25.8 (1.9) | 15.0 (0.6) | 4.7 (0.3) | 29.1 (1.2) | 7.1 (1.5) | 17.9 (0.7) | 4.7 (1.9) | |
| 蒙古栎 Quercus mongolica | 16.7 (0.8) | 9.8 (2.3) | 4.7 (1.6) | 27.5 (4.7) | 1.9 (0.6) | 20.3 (5.2) | 1.5 (0.6) | |
Table 1 Characteristics of the sampled trees for sapflow measurement (mean (SD), n = 3)
| 树种 Species | 树高 Tree height (m) | 冠基高度 Height of crown base (m) | 冠幅 Crown width (m) | 干基 (胸高) Trunk base (breast height) | 冠基 Crown base | |||
|---|---|---|---|---|---|---|---|---|
| 直径 Diameter (cm) | 边材宽度Sapwood width (cm) | 直径 Diameter (cm) | 边材宽度 Sapwood width (cm) | |||||
| 红松 Pinus koraiensis | 16.5 (0.5) | 6.3 (0.5) | 4.7 (1.2) | 26.1 (3.1) | 3.4 (0.8) | 20.7 (2.8) | 3.3 (0.9) | |
| 山杨 Populus davidiana | 25.8 (1.9) | 15.0 (0.6) | 4.7 (0.3) | 29.1 (1.2) | 7.1 (1.5) | 17.9 (0.7) | 4.7 (1.9) | |
| 蒙古栎 Quercus mongolica | 16.7 (0.8) | 9.8 (2.3) | 4.7 (1.6) | 27.5 (4.7) | 1.9 (0.6) | 20.3 (5.2) | 1.5 (0.6) | |
Fig. 1 Diurnal courses of the crown-basal and trunk-basal sap flow and photosynthetically active radiation (PAR) for three tree species (mean ± SD). The sample sizes for Pinus koraiensis (HS), Populus davidiana (SY), and Quercus mongolica (ML) are 9, 16, and 12, respectively.
Fig. 2 Diurnal courses of discharge and recharge of stem stored water for three tree species (mean ± SD). The sample sizes for Pinus koraiensis (HS), Populus davidiana (SY), and Quercus mongolica (ML) are 9, 16, and 12, respectively.
Fig. 3 Discharge of stem stored water and its contribution to transpiration for three tree species (mean ± SD). WS n, normalized discharge of stem stored water; Trn, normalized transpiration; WSn/Trn, contribution of WSn to Trn. The sample sizes for Pinus koraiensis (HS), Populus davidiana (SY), and Quercus mongolica (ML) are 9, 16, and 12, respectively. a, b, and c stand for significant difference groups (α = 0.05).
Fig. 4 Relationships between discharge of stem stored water and transpiration for three tree species. HS, Pinus koraiensis; ML, Quercus mongolica; SY, Populus davidiana.
Fig. 5 Discharge of stem stored water in relation to basal sapwood area and tree height. HS, Pinus koraiensis; ML, Quercus mongolica; SY, Populus davidiana.
| [1] | Goldstein G, Andrade JL, Meinzer FC, Holbrook NM, Cavelier J, Jackson P, Celis A (1998). Stem water storage and diurnal patterns of water use in tropical forest canopy trees. Plant, Cell & Environment, 21,397-406. |
| [2] | Granier A (1985). A new method of sap flow measurement in tree stems. Annals of Forest Science, 42,193-200. |
| [3] |
Granier A (1987). Evaluation of transpiration in a Douglas-fir stand by means of sap flow measurements. Tree Physiology, 3,309-320.
URL PMID |
| [4] | Holbrook NM (1995). Stem water storage. In: Gartner BL ed. Plant Stems: Physiological and Functional Morphology. Academic Press, San Diego, USA. 151-174. |
| [5] | Holbrook NM, Sinclair TR (1992). Water balance in the arborescent palm, Sabal palmetto. II. Transpiration and stem water storage. Plant, Cell & Environment, 15,401-409. |
| [6] | Huang ZG (黄志刚), Li FR (李锋瑞), Cao Y (曹云), Ouyang ZY (欧阳志云), Li XQ (李锡泉), Tian YX (田育新), Wang ZJ (王中建), Liu H (柳辉) (2007). Ecological benefit of soil and water conservation of Eucommia ulmoides and Vernica fordii plantation in hilly red soil region, southern China. Scientia Silvae Sinicae (林业科学), 43(8),8-14. (in Chinese with English abstract) |
| [7] | James SA, Clearwater MJ, Meinzer FC, Goldstein G (2002). Heat dissipation sensors of variable length for the measurement of sap flow in trees with deep sapwood. Tree Physiology, 22,277-283. |
| [8] | Jiang GM (蒋高明), Chang J (常杰), Gao YB (高玉葆), Li YG (李永庚) (2004). Plant Ecophysiology (植物生理生态学). Higher Education Press, Beijing. (in Chinese) |
| [9] | Kobayashi Y, Tanaka T (2001). Water flow and hydraulic characteristics of Japanese red pine and oak trees. Hydrological Processes, 15,1731-1750. |
| [10] | Logullo MA, Salleo S (1992). Water storage in the wood and xylem cavitation in 1-year-old twigs of Populus deltoides Bartr. Plant, Cell & Environment, 15,431-438. |
| [11] | Loustau D, Domec JC, Bosc A (1998). Interpreting the variations in xylem sap flux density within the trunk of maritime pine ( Pinus pinaster Ait.): application of a model for calculating water flows at tree and stand levels. Annals of Forest Science, 55,29-46. |
| [12] | Maherali H, DeLucia EH (2001). Influence of climate-driven shifts in biomass allocation on water transport and storage in ponderosa pine. Oecologia, 129,481-491. |
| [13] | Meinzer FC (2002). Co-ordination of vapour and liquid phase water transport properties in plants. Plant, Cell & Environment, 25,265-274. |
| [14] | Meinzer FC, Bond BJ, Karanian JA (2008). Biophysical constraints on leaf expansion in a tall conifer. Tree Physiology, 28,197-206. |
| [15] |
Meinzer FC, James SA, Goldstein G (2004). Dynamics of transpiration, sap flow and use of stored water in tropical forest canopy trees. Tree Physiology, 24,901-909.
URL PMID |
| [16] | Phillips NG, Ryan MG, Bond BJ, McDowell NG, Hinckley TM, Čermák J (2003). Reliance on stored water increases with tree size in three species in the Pacific Northwest. Tree Physiology, 23,237-245. |
| [17] | Ryan MG, Yoder BJ (1997). Hydraulic limits to tree height and tree growth. BioScience, 47,235-242. |
| [18] |
Scholz FG, Bucci SJ, Goldstein G, Meinzer FC, Franco AC, Miralles-Wilhelm F (2007). Biophysical properties and functional significance of stem water storage tissues in neotropical savanna trees. Plant, Cell & Environment, 30,236-248.
URL PMID |
| [19] |
Steppe K, Lemeur R (2007). Effects of ring-porous and diffuse- porous stem wood anatomy on the hydraulic parameters used in a water flow and storage model. Tree Physiology, 27,43-52.
URL PMID |
| [20] | Sun HZ (孙慧珍), Li YP (李夷平), Wang C (王翠), Zhou XF (周晓峰) (2005a). Comparative study on stem sap flow of non- and ring-porous tree species. Chinese Journal of Ecology (生态学杂志), 24,1434-1439. (in Chinese with English abstract) |
| [21] | Sun HZ (孙慧珍), Sun L (孙龙), Wang CK (王传宽), Zhou XF (周晓峰) (2005b). Sap flow of the major tree species in the eastern mountainous region in Northeast China. Scientia Silvae Sinicae(林业科学), 41(3),36-42. (in Chinese with English abstract) |
| [22] | Tan HC (谭红朝), Li YY (李秧秧) (2007). Advance in tree stem diameter changes and its relationship to water transport and water storage. Journal of Northwest Forestry University (西北林学院学报), 22(6),51-55. (in Chinese with English abstract) |
| [23] |
Verbeeck H, Steppe K, Nadezhdina N, Op de Beeck M, Deckmyn G, Meiresonne L, Lemeur R, Cermak J, Ceulemans R, Janssens IA (2007). Stored water use and transpiration in Scots pine: a modeling analysis with ANAFORE. Tree Physiology, 27,1671-1685.
URL PMID |
| [24] | Wang XC, Wang CK, Zhang QZ, Quan XK (2010). Heartwood and sapwood allometry of seven Chinese temperate tree species. Annals of Forest Science, 67,410. |
| [25] |
Wullschleger SD, Meinzer FC, Vertessy RA (1998). A review of whole-plant water use studies in trees. Tree Physiology, 18,499-512.
URL PMID |
| [26] | Xi RC (奚如春), Ma LY (马履一), Fan M (樊敏), Li LP (李丽萍), Kong JJ (孔俊杰), Wang RH (王瑞辉) (2007). Water capacity of branches and stems of Pinus tabulaeformis and its impact on transpiring water consumption. Journal of Beijing Forestry University (北京林业大学学报), 29(1),160-165. (in Chinese with English abstract) |
| [27] | Zhao P (赵平) (2010). Compensation of tree water storage for hydraulic limitation: research progress. Chinese Journal of Applied Ecology(应用生态学报), 21,1565-1572. (in Chinese with English abstract) |
| [28] | Zhao P (赵平), Rao XQ (饶兴权), Ma L (马玲), Cai XA (蔡锡安), Zeng XP (曾小平) (2006). The variations of sap flux density and whole-tree transpiration across individuals of Acacia mangium. Acta Ecologica Sinica (生态学报), 26,4050-4058. (in Chinese with English abstract) |
| [1] | 李 佳泽, 贾 德彬, 郝 玉胜, 郝 帅, 尚 紫琴, 纪 明宇. Diurnal Variation of Oxygen Isotopes and Quantitative Partitioning of Evapotranspiration in the Larix gmelinii Ecosystem in the Greater Khingan Mountains of Inner Mongolia [J]. , 2026, 50(预发表): 0-. |
| [2] | ZHENG Jia-Qi, SONG Jin-Feng, SANG Ying, SUN Hui-Zhen, ZHANG Wei-Zhi, ZHANG Min, QUAN Xian-Kui, JIN Guang-Ze. Response of transpiration to root pressure of hydroponic Dracaena sanderiana under different stress factors [J]. Chin J Plant Ecol, 2026, 50(1): 213-221. |
| [3] | ZHAO Meng-Yang, ZHUANG Hao-Ran, XU De-Hao, MA Guo-Rong, MA Yong-Cheng, FENG Ke-Peng. Hydrogen and oxygen stable isotope characteristics of maize fields in arid and semi-arid oasis irrigation areas with SPAC system: variability traits and influencing factors [J]. Chin J Plant Ecol, 2025, 49(2): 256-267. |
| [4] | JIA Hui-Lin, NI Long-Kang, QIN Jia-Shuang, LIAO Su-Hui, TAN Yu, HE Jia-Yi, GU Da-Xing. Dynamics of hydraulic function recovery of karst trees following extreme drought and its influencing factors [J]. Chin J Plant Ecol, 2025, 49(12): 2004-2014. |
| [5] | ZHU Wan-Kuan, XU Yu-Xing, HUANG Run-Xia, DU A-Peng, WANG Zhi-Chao. Differences in water use efficiency between dry and rainy seasons and their controlling factors in Eucalyptus plantation in Leizhou Peninsula [J]. Chin J Plant Ecol, 2025, 49(12): 2015-2029. |
| [6] | ZHOU Hong-Juan, LIU Zi-He, LIU Ke-Yan, ZHANG Chu-Rui, HU Xu, HAN Lu, CHEN Li-Xin. Water uptake and niche characteristics of neighboring plants for arbors and shrubs under different rainfall conditions in a rocky mountainous area, Beijing [J]. Chin J Plant Ecol, 2024, 48(9): 1089-1103. |
| [7] | NIU Yun-Ming, JIA Guo-Dong, WANG Xin, LIU Zi-He. Dynamic changes of transpiration water age and water utilization strategies for trees at different altitudes in Lushan area [J]. Chin J Plant Ecol, 2024, 48(9): 1104-1117. |
| [8] | TONG Yu-Qiang, WU Meng-Ge, WANG Ling, ZHAO Shi, HAN Xu, ZHANG Tong, LIU Jing, QIN Sheng-Jin, DONG Ying-Hao, WEI Ya-Wei, ZHOU Yong-Bin. Transpiration estimates in Pinus sylvestris var. mongolica plantation based on the radial pattern of sap flow and its influencing factors [J]. Chin J Plant Ecol, 2024, 48(9): 1118-1127. |
| [9] | WU Feng-Yan, WU Yong-Sheng, CHEN Xiao-Han, FENG Ji, LU Li-Yuan, CHASINA , WANG Chao-Yu, MENG Yuan-Fa, YIN Qiang. Spatial-temporal variation of water use efficiency in three species of sand-fixing shrubs on the Ordos Plateau [J]. Chin J Plant Ecol, 2024, 48(9): 1180-1191. |
| [10] | WANG Yin, TONG Xiao-Juan, ZHANG Jin-Song, LI Jun, MENG Ping, LIU Pei-Rong, ZHANG Jing-Ru. Impact of drought on carbon and water fluxes and their coupling in a Quercus variabilis plantation [J]. Chin J Plant Ecol, 2024, 48(9): 1157-1171. |
| [11] | FU Zhao-Qi, HU Xu, TIAN Qin-Rui, GE Yan-Ling, ZHOU Hong-Juan, WU Xiao-Yun, CHEN Li-Xin. Nocturnal sap flow characteristics of two typical forest tree species and responses to environmental factors in the loess region of West Shanxi, China [J]. Chin J Plant Ecol, 2024, 48(9): 1128-1142. |
| [12] | YANG Shang-Jin, FAN Yun-Xiang, ZHANG Yu-Wen, HAN Qiao-Ling, ZHAO Yue, DUAN Jie, DI Nan, XI Ben-Ye. Comparison of methods for dividing nighttime sap flow components in Populus tomentosa trees [J]. Chin J Plant Ecol, 2024, 48(4): 496-507. |
| [13] | HUANG Li-Cheng, MO Xing-Guo. Response and resilience of net primary productivity of the Hai River Basin ecosystems under meteorological droughts [J]. Chin J Plant Ecol, 2024, 48(10): 1256-1273. |
| [14] | LI Wei-Bin, ZHANG Hong-Xia, ZHANG Yu-Shu, CHEN Ni-Na. Influence of diurnal asymmetric warming on carbon sink capacity in a broadleaf Korean pine forest in Changbai Mountains, China [J]. Chin J Plant Ecol, 2023, 47(9): 1225-1233. |
| [15] | JIANG Hai-Gang, ZENG Yun-Hong, TANG Hua-Xin, LIU Wei, LI Jie-Lin, HE Guo-Hua, QIN Hai-Yan, WANG Li-Chao, Victor RESCO de DIOS, YAO Yin-An. Rhythmic regulation of carbon fixation and water dissipation in three mosses [J]. Chin J Plant Ecol, 2023, 47(7): 988-997. |
| Viewed | ||||||
|
Full text |
|
|||||
|
Abstract |
|
|||||
Copyright © 2026 Chinese Journal of Plant Ecology
Tel: 010-62836134, 62836138, E-mail: apes@ibcas.ac.cn, cjpe@ibcas.ac.cn