Home
  >  
Section 7
  >  
Chapter 6,662

The effects of canopy structure on stemflow throughfall and interception loss in a young sitka spruce plantation

Ford, E.D.; Deans, J.D.

Journal of Applied Ecology 15(3): 905-918

1978

ISSN/ISBN: 0021-8901
DOI: 10.2307/2402786
Accession: 006661486
Download citation:  
Text
  |  
BibTeX
  |  
RIS
The partitioning of incident precipitation into throughfall, stemflow and interception loss was assessed in a 14 yr old Picea sitchensis plantation in South Scotland [UK]. The tree crowns overlapped to form a dense canopy with 25, 44, 28 and 3% of ground area covered respectively by foliage from 1, 2, 3 and 4 trees. All main branches sloped down inwards to the tree trunk. Over a single calendar year the incident precipitation was 1639 mm. Stemflow accounted for 27% of this, throughfall 43% and interception loss, estimated by difference, accounted for 30%. Percentage stemflow was consistent throughout the year but, during the winter period (Jan.-March), throughfall increased to 57% and interception loss decreased to 15%. The amount of stemflow for individual trees was positively correlated (P = 0.05) with the projected area of tree crowns. The amount of throughfall was greatest close to the tree trunks and between trees in the same row, particularly for intermediate levels of rainfall (20-40 mm wk-1). The spatial pattern of throughfall parallels the distribution of fine roots in the soil.

Full Text Article emailed within 0-6 h: $19.90




Related References

Loustau, D.; Berbigier, P.; Granier, A.; El Hadj Moussa, F. 1992: Interception loss, throughfall and stemflow in a maritime pine stand. I. Variability of throughfall and stemflow beneath the pine canopy Journal of Hydrology Amsterdam 138(3/4): 449-467
Dong, S.R.; Guo, J.T.; Man, R.Z. 1987: Throughfall, stemflow and canopy interception in a Pinus tabulaeformis plantation of north China Journal of Beijing Forestry University 9(1): 58-68
Milne, R. 1979: Water loss and canopy resistance of a young sitka spruce plantation Boundary-Layer Meteorology 16(1): 67-82
Milne, R. 1979: Water Loss and Canopy Resistance of a Young Sitka Spruce Plantation Boundary-Layer Meteorology 16(3): 67-81
Zheng, J.; Fan, J.; Zhang, F.; Yan, S.; Xiang, Y. 2018: Rainfall partitioning into throughfall, stemflow and interception loss by maize canopy on the semi-arid Loess Plateau of China Agricultural Water Management 195: 25-36
Carlyle Moses, D.E. 2004: Throughfall, stemflow, and canopy interception loss fluxes in a semi-arid Sierra Madre Oriental matorral community Journal of Arid Environments 58(2): 181-202
Chiwa, M.; Crossley, A.; Sheppard, L.J.; Sakugawa, H.; Cape, J.N. 2004: Throughfall chemistry and canopy interactions in a Sitka spruce plantation sprayed with six different simulated polluted mist treatments Environmental Pollution 127(1): 57-64
Chiwa, M.; Crossley, A.; Sheppard, L.J.; Sakugawa, H.; Cape, J.N. 2004: Throughfall chemistry and canopy interactions in a Sitka spruce plantation sprayed with six different simulated polluted mist treatments Environmental Pollution (1987) 127(1): 57-64
Limin, S.G.; Oue, H.; Sato, Y.; Budiasa, I W.; setiawan, B.I. 2015: Partitioning Rainfall into Throughfall, Stemflow, and Interception Loss in Clove (Syzygium Aromaticum) Plantation in Upstream Saba River Basin, Bali Procedia Environmental Sciences 28: 280-285
George, M. 1978: Interception, stemflow and throughfall in a Eucalyptus hybrid plantation Indian Forester 104(11): 719-726
Loustau, D.; Berbigier, P.; Granier, A. 1992: Interception loss, throughfall and stemflow in a maritime pine stand. II. An application of Gash's analytical model of interception Journal of Hydrology Amsterdam 138(3/4): 469-485
George, M.; Varghese, G. 1985: Interrelationship between rainfall, stemflow, throughfall and interception in Eucalyptus hybrid plantation Myforest 21(3): 175-178
Suzuki, M.; Kato, H.; Tani, M.; Fukushima, Y. 1979: Throughfall, stemflow and rainfall interception in Kiryu Experimental Catchment. I. Throughfall and stemflow Journal of the Japanese Forestry Society 61(6): 202-210
Opakunle, J.S. 1989: Throughfall stemflow and rainfall interception in a cacao plantation in south western nigeria Tropical Ecology 30(2): 244-252
Whelan, M.J.; Anderson, J.M. 1996: Modelling spatial patterns of throughfall and interception loss in a Norway spruce (Picea abies) plantation at the plot scale Journal of Hydrology Amsterdam 186(1/4): 335-354
Sood, V.K.; Room Singh; Monika Bhatia 1993: Throughfall, stemflow and canopy interception in three hardwood tree species around Shimla, Himachal Pradesh Indian Journal of Forestry 16(1): 39-44
Pei TieTao; Zheng YuanChang 1996: Simulation and modelling of the rainfall distribution process in the forest canopy I. Models of throughfall, stemflow and canopy interception under constant rainfall intensity Scientia Silvae Sinicae 32(1): 1-10
Neal, C.; Robson, A.J.; Bhardwaj, C.L.; Conway, T.; Jeffery, H.A.; Neal, M.; Ryland, G.P.; Smith, C.J.; Walls, J. 1993: Relationships between precipitation, stemflow and throughfall for a lowland beech plantation, Black Wood, Hampshire, southern England: findings on interception at a forest edge and the effects of storm damage Journal of Hydrology Amsterdam 146(1/4): 221-233
Santa Regina, L.; Gallardo, J.F.; San Miguel, C.; Moyano, A. 1989: Interception, throughfall and stemflow in a Pinus sylvestris plantation in the Candelario basin (west-central Spain) Bosque 10(1-2): 19-27
Park, A.; Cameron, J.-Lee 2008: The influence of canopy traits on throughfall and stemflow in five tropical trees growing in a Panamanian plantation Forest Ecology and Management 255(5-6): 1915-1925