Please wait a minute...
Shopping Cart Email List Chinese
Advanced Search Fig/Tab
Frontiers of Forestry in China

ISSN 1673-3517

ISSN 1673-3630(Online)

CN 11-5728/S

Featured Articles  |  Most Downloaded  |  Most Reading
Online Submission Subscribe to Our RSS Content Feed
Front. For. China    2008, Vol. 3 Issue (3) : 264-270    https://doi.org/10.1007/s11461-008-0053-4
Effects of canopy interception on energy conversion processes in a Chinese fir plantation ecosystem
KANG Wenxing, DENG Xiangwen, ZHAO Zhonghui
Central South University of Forestry and Technology
 Download: PDF(95 KB)   HTML
 Export: BibTeX | EndNote | Reference Manager | ProCite | RefWorks
Abstract The functions of canopy interception on energy conversion processes in a Chinese fir plantation ecosystem were studied with the aid of long-term observation data in Huitong. The results showed that the absorbed, penetrated and reflected amounts of solar radiation were, respectively, 2.5543 × 109 J/(m2year) (absorption rate of 0.827), 2.5306 × 108 J/(m2year) (penetration rate of 0.082), and 2.7432 × 108 J/(m2year) (reflection rate of 0.091) by the canopy. The conversion of net solar radiation to latent heat in the process of evaporation from canopy interception amounted to 6.3695 × 108 J/(m2year) (accounting for 22.9% of total ecosystem net radiation and 30.4% of ecosystem evaporation), which was an important part of the budget of the energy system. Canopy interception consumed kinetic energy of raindrops in overcoming resistance of branches and leaves, which collected raindrops, followed with the conversion of potential energy in raindrops to kinetic energy with falling raindrops. In general, the diameter of raindrops from the canopy is larger than that of the raindrops above the canopy as a result of the collection effort by the canopy. The kinetic energy of raindrops from the canopy, therefore, was higher than that of raindrops in the atmosphere. The drop-size distribution from the canopy was affected by the structure of the canopy layer rather than the amount of precipitation and precipitation intensity. The canopy had no important nor efficient effects on decreasing the kinetic energy of raindrops in our case study with a first branch height of 7 m and precipitation amounts over 3 mm. However, the canopy would play a key role in decreasing kinetic energy of raindrops in two cases, that of a small amount of precipitation and one of heavy precipitation intensity, in which the canopy could intercept the largest amount of precipitation in the former condition and the canopy could scatter bigger raindrops to smaller raindrops with striking leaves in the case of heavy precipitation.
Issue Date: 05 September 2008
 Cite this article:   
DENG Xiangwen,KANG Wenxing,ZHAO Zhonghui. Effects of canopy interception on energy conversion processes in a Chinese fir plantation ecosystem[J]. Front. For. China, 2008, 3(3): 264-270.
 URL:  
https://academic.hep.com.cn/ffc/EN/10.1007/s11461-008-0053-4
https://academic.hep.com.cn/ffc/EN/Y2008/V3/I3/264
1 Best A C 1950 The size distribution of raindropsQuart J Royal Meteorol76(16)1636.
doi:10.1002/qj.49707632704
2 Cai L J Wang G D 2003 The effectsof the wind vector on the distribution of raindrop kinetic energyover sloping fieldJ China Agric Univ8(6)1517 (in Chinese)
3 Cai L J Wang G D Zhang S Q 2003 Kinetic Energy Distribution of Raindropson Loess PlateauBull Water Soil Conserv23(4)2832 (in Chinese)
4 Chen Y Z He F Zhang H J Wen X S 2005 Preliminary analysis on factors influencing canopy interception inJinyun mountainSci Soil Water Conserv3(3)318323 (in Chinese)
5 Disrud L A 1970 Magnitude, probability and effect of kinetic energy ofwinds associated with rains in KansasKansasAcad Sci(73)237246
6 Gong L 2005 Erosion calculation of raindrops' kinetic energy of LoessPlateau's rainfallJ Lanzhou Jiaotong Univ24(4)4345 (in Chinese)
7 Jiang Z S Song W J Li X Y 1983 Characteristics of natural raindrop inLoess PlateauWater Soil Conserv China11(3)3236 (in Chinese)
8 Kinnell P I A 1981 Rainfall intensity-kinetic energy relationship for soilloss prediction. Soil Science SocietyAmerProcess45153155
9 Laiton L 1980 Liquid Characteristics of Biological SystemBeijingScience Press287290
10 Lei L D 1994 Study on China's Forest Ecosystem LocationHarbinNortheast Forest UniversityPress245251 (in Chinese)
11 Liu J G Zhang W J 1985 Transmissionof light in canopySci Silv Sin21(3)234240 (in Chinese)
12 Qian Y Q Tao S Y 1998 Distributionof raindrop's terminal velocity in the Loess PlateauJ Northwest Agric Univ26(5)2024 (in Chinese)
13 Salles C Poesev J Sempere-Torres D 2002 Kinetic energy of rain and its functionalrelationship with intensityJ Hydrol257(1–4)257271
14 Ulbrich C W Atlas D 1985 The effectsof drop size distribution truncation on rainfall integral parametersand empirical relationsJ Climat Appl Meteorol24580590.
doi:10.1175/1520‐0450(1985)024<0580:TEODSD>2.0.CO;2
15 Wang W Z 1987 Study on index of erosivity (R) of rainfall in loess areaSoil Water Conserv China15(12)1822 (in Chinese)
16 Wang Y H 1986 A quantitative study on the benefits of block locust (Robinia pseudoacacia L.) on water and soilconservation in the eastern loess area in Gansu provinceJ Beijing For Univ8(1)3542 (in Chinese)
17 Wei Z X Li S H 1997 Study on characteristicsof different forest canopy interceptionWater Soil Conserv China25(5)524530 (in Chinese)
18 Wen S Z Pan W C Tian D L 1989 Hydrological effects of fir plantationecosystemJ Central South Univ For Tech9(Suppl)2936
19 Xie C H Guan W B Wu J G Cheng G W Luo J 2002 Interception capability of dark coniferousforest ecosystem in Gongga MountainJ BeijingFor Univ24(1)6871 (in Chinese)
20 Xu R 1983 Kinetic energy calculation methods for natural precipitationand artificial precipitationWater SoilConserv China11(3)3739 (in Chinese)
21 Yao W Y Tang L Q 2001 Process andSimulation of Water Power Erosion to SandZhengzhouYellow River ConservancyPress103109 (in Chinese)
22 Zhou G Y 1997 Distribution of rainfall kinetic energy by canopies ofartificial forest tree species, and its ecological effectsActa Phytoecol Sin21(3)250259 (in Chinese)
23 Zhou G Y Zen Q B Huang Q Chen B F Wu Z M Li Y D Du Z H 1995 Influenceof canopy upon rainfall in a regenerative tropical mountain rain forestat Jianfengling of Hainan islandActa PhytoecolSin19(2)201207 (in Chinese)
24 Zhou P H Dou B Z Sun Q F 1981 Primary report on the test of precipitationenergyBull Water Soil Conserv2(1)5160 (in Chinese)
25 Zhu J W Cui Q W 1982 Theory oflight distribution and absorption in relation with forest canopy structureSci Silv Sin18(3)258265 (in Chinese)
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed