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Modelling rainfall interception in unlogged and logged forest areas of Central Kalimantan, Indonesia (1998)

Asdak, C. ; Jarvis, P. G. ; Gardingen, P. V.

Copernicus

In: Hydrology and Earth System Sciences. 1998; 2(2/3): 211-220. Published 1998 Sep 30. doi: 10.5194/hess-2-211-1998.

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Publication Date: 1998-09-30

Description: Rainfall interception losses were monitored for twelve months and related to vegetation and rainfall characteristics at the Wanariset Sangai on the upper reaches of the Mentaya river, Central Kalimantan. The rainfall interception losses were quantified for one hectare each of unlogged and logged humid tropical rainforests. The results show that interception loss is higher in the unlogged forest (11% of total gross rainfall) than in the logged forest (6%). Interception loss was also simulated by the modified Rutter model and Gash's original and revised models. Both the Rutter and revised Gash models predicted total interception loss over a long period adequately, and resulted in estimates of the interception loss that deviated by 6 to 14% of the measured values, for both the unlogged and logged plots.

Print ISSN: 1027-5606

Electronic ISSN: 1607-7938

Topics: Geography , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Fluxes of carbon dioxide at Thetford Forest (2007)

Jarvis, P. G. ; Stewart, J. B. ; Meir, P.

Copernicus

In: Hydrology and Earth System Sciences. 2007; 11(1): 245-255. Published 2007 Jan 17. doi: 10.5194/hess-11-245-2007.

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Publication Date: 2007-01-17

Description: The Thetford Project (1968–1976) was a keystone project for the newly established Institute of Hydrology. Its primary objective was to elucidate the processes underlying evaporation of transpired water and intercepted rainfall from plantation forest, so as to explain hydrological observations that more water was apparently returned to the atmosphere from plantations than from grassland and heathland. The primary approach was to determine the fluxes of water vapour from a stand of Scots pine, situated within a larger area of plantations of Scots and Corsican pine, in Thetford Forest, East Anglia, UK, using the Bowen ratio approach. In 1976, advantage was taken of the methodology developed to add measurement of profiles of carbon dioxide concentration so as to enable the fluxes of CO2 also to be calculated. A team from Aberdeen and Edinburgh Universities collected 914 hours of 8-point CO2 concentration profiles, largely between dawn and dusk, on days from March to October, and the data from an "elite" data set of 710 hours have been analysed. In conditions of moderate temperature (

Print ISSN: 1027-5606

Electronic ISSN: 1607-7938

Topics: Geography , Geosciences

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The sensitivity of stand-scale photosynthesis and transpiration to changes in atmospheric CO2 concentration and climate (1999)

Kruijt, B. ; Barton, C. ; Rey, A. ; [et al.]

Copernicus

In: Hydrology and Earth System Sciences. 1999; 3(1): 55-69. Published 1999 Mar 31. doi: 10.5194/hess-3-55-1999.

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Publication Date: 1999-03-31

Description: The 3-dimensional forest model MAESTRO was used to simulate daily and annual photosynthesis and transpiration fluxes of forest stands and the sensitivity of these fluxes to potential changes in atmospheric CO2 concentration ([CO2]), temperature, water stress and phenology. The effects of possible feed-backs from increased leaf area and limitations to leaf nutrition were simulated by imposing changes in leaf area and nitrogen content. Two different tree species were considered: Picea sitchensis (Bong.) Carr., a conifer with long needle longevity and large leaf area, and Betula pendula Roth., a broad-leaved deciduous species with an open canopy and small leaf area. Canopy photosynthetic production in trees was predicted to increase with atmospheric [CO2] and length of the growing season and to decrease with increased water stress. Associated increases in leaf area increased production further only in the B. pendula canopy, where the original leaf area was relatively small. Assumed limitations in N uptake affected B. pendula more than P. sitchensis. The effect of increased temperature was shown to depend on leaf area and nitrogen content. The different sensitivities of the two species were related to their very different canopy structure. Increased [CO2] reduced transpiration, but larger leaf area, early leaf growth, and higher temperature all led to increased water use. These effects were limited by feedbacks from soil water stress. The simulations suggest that, with the projected climate change, there is some increase in stand annual `water use efficiency', but the actual water losses to the atmosphere may not always decrease.

Print ISSN: 1027-5606

Electronic ISSN: 1607-7938

Topics: Geography , Geosciences

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