1998
DOI: 10.1046/j.1365-3040.1998.00339.x
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Seasonal variation in net carbon exchange and evapotranspiration in a Brazilian rain forest: a modelling analysis

Abstract: Tropical rain forests account for a significant fraction of global net primary productivity, and are important latent energy (LE) sources, affecting extra-tropical atmospheric circulation. The influence of environmental factors on these fluxes has until recently been poorly understood, largely due to a paucity of data, but in recent years the amount of available data has been increased greatly by use of eddy covariance techniques. In this paper we examine the factors that control daily and seasonal carbon (C) … Show more

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Cited by 233 publications
(193 citation statements)
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“…Moreover, the magnitude of the moisture flux can vary over a range of timescales in response to changes in the environmental conditions influencing ET. One example of this, which has been pointed out by Williams et al (2003), Scott et al (2014), and others, is the rapid and often persistent change in ET in response to a rain event.…”
Section: Introductionmentioning
confidence: 96%
“…Moreover, the magnitude of the moisture flux can vary over a range of timescales in response to changes in the environmental conditions influencing ET. One example of this, which has been pointed out by Williams et al (2003), Scott et al (2014), and others, is the rapid and often persistent change in ET in response to a rain event.…”
Section: Introductionmentioning
confidence: 96%
“…Since the soils in the study site drain rapidly after rainfall, the forest can experience significant drought during the dry season , Williams et al 1998. With drought plants tend to close their stomata due to increasing evaporative demand at the surface of the leaf, which in turn decreases leaf photosynthetic rates (Meinzer et al 1993), and even slight decreases in leaf water potential (Ψ L ) can trigger stomatal closing (Wright et al 1992, Allen andPearcy 2000).…”
Section: Discussionmentioning
confidence: 99%
“…SPA provides WRF with surface fluxes of heat, water and CO 2 exchange in response to meteorological drivers through a close coupling of its hydrological and carbon cycles, based on eco-physiological principles (Williams et al, 1996). Detailed descriptions of the major SPA developments can be found in Williams et al (1996Williams et al ( , 1998Williams et al ( , 2001Williams et al ( , 2005, Sus et al (2010) and Smallman et al (2013). WRF provides SPA with meteorological drivers, including air temperature, precipitation, vapour pressure deficit (VPD), wind speed, friction velocity, atmospheric CO 2 mixing ratios, air pressure, and short-and long-wave incoming radiation.…”
Section: Spamentioning
confidence: 99%