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[1]CHANG Zhing-yong,BAO Wei-kai,HE Qi-hua,et al.Evapotranspiration Simulation of Quercus liaotungensis and Corylus heterophylla var.sutchuenensis.Franch During Rainfall Process in the Upper Reaches of Minjiang River[J].Research of Soil and Water Conservation,2009,16(01):78-83.

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Evapotranspiration Simulation of Quercus liaotungensis and Corylus heterophylla var.sutchuenensis.Franch During Rainfall Process in the Upper Reaches of Minjiang River

Research of Soil and Water Conservation[ISSN 1005-3409/CN 61-1272/P] Volume: 16 Number of periods: 2009 01 Page number: 78-83 Column: Public date: 2009-02-20

Title:: Evapotranspiration Simulation of Quercus liaotungensis and Corylus heterophylla var.sutchuenensis.Franch During Rainfall Process in the Upper Reaches of Minjiang River

Author(s):: CHANG Zhing-yong^1,2, BAO Wei-kai², HE Qi-hua², YANG Yi-cui¹, LI Fang-lan²; 1. Guangxi T-energy Engineering Consulting Co., LTD, Nanning 530023, China;
2. Chengdu Institude of Biology, Chinese Academy of Sciences, Chengdu 610041, China

Keywords:: Quercus liaotungensis; Corylus heterophylla var.sutchuenensis.Franch; transpiration rate; water content of branches and leaves; water preserving capability

CLC:: S715.4

DOI:: -

Abstract:: In order to explore evapotranspiration of hypo-vegetal defoliate and broad-leaved shrubs during rainfall process in the Upper Reaches of Minjiang River, an experiment had been conducted to investigate transpiration rate of the two preponderant shrub species,Quercus liaotungensis and Corylus heterophylla var.sutchuenensis.Franch both in June and August.The results showed that two species had higher average transpiration rate(Tr) in June than that in August, which was 1.6 and 1.5 fold in Q. liaotungensis and C.heterophylla var.sutchuenensis.Franch respectively. Tr decreased with increasing water content of branches and leaves in two species. However, Q. liaotungensis with a less Tr than that of C.heterophylla var.sutchuenensis at the same level water content of branches and leaves.The relationships of Tr to water content of branches and leaves were fitted with the power regression equations. Additionally,Tr was closely related to microclimatic factors and biomass of branches and leaves. It increased with increases of wind speed.

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