Variations in snowmelt energy and energy balance characteristics with larch forest density on Mt Iwate, Japan: observations and energy balance analyses

Suzuki, Katsuhiko; Ohta, Takeshi; Kojima, Atsushi; Hashimoto, Tadao

doi:10.1002/(sici)1099-1085(19991215)13:17<2675::aid-hyp841>3.0.co;2-#

Cited by 23 publications

(42 citation statements)

References 16 publications

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“…It can be considered as a small-scale snowmelt lysimeter that works for short periods of time during which the device is not left unattended. This methodology has been commonly used in alpine environments (Kaser, 1982;Suzuki et al, 1999;Jackson and Prowse, 2009;Froyland, 2013) where rough meteorological conditions prevent the use of the more precise but delicate instrumentation. The main disadvantage of this method is that it provides us with discrete results that have to be obtained manually and, with respect to EC, that it needs some adequate measures or estimates of the parameters used for calculating the turbulent exchange of latent and sensible heat.…”

Section: Introductionmentioning

confidence: 99%

Evaposublimation from the snow in the Mediterranean mountains of Sierra Nevada (Spain)

Herrero

Polo

2016

The Cryosphere

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Abstract. In this study we quantify the evaposublimation and the energy balance of the seasonal snowpack in the Mediterranean semiarid region of Sierra Nevada, Spain (37 • N). In these kinds of regions, the incidence of this return of water to the atmosphere is particularly important to the hydrology and water availability. The analysis of the evaposublimation from snow allows us to deduct the losses of water expected in the short and medium term and is critical for the efficient planning of this basic and scarce resource. To achieve this, we performed 10 field campaigns from 2009 to 2015, during which detailed measurements of mass fluxes of a controlled volume of snow were recorded using a modified version of an evaporation pan with lysimeter. Meteorological data at the site of the snow control volume were extensively monitored during the tests. With these data, a point energy balance snowmelt model was validated for the area. This model, fed with the complete meteorological data set available at the Refugio Poqueira Station (2500 m a.s.l.), let us estimate that evaposublimation losses for this site can range from 24 to 33 % of total annual ablation. This ratio is very variable throughout the year and between years, depending on the particular occurrence of snowfall and mild weather events, which is generally quite erratic in this semiarid region. Evaposublimation proceeds at maximum rates of up to 0.49 mm h −1 , an order of magnitude less than maximum melt rates. However, evaposublimation occurs during 60 % of the time that snow lies, while snowmelt only takes up 10 % of this time. Hence, both processes remain close in magnitude on the annual scale.

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Section: Introductionmentioning

confidence: 99%

Evaposublimation from the snow in the Mediterranean mountains of Sierra Nevada (Spain)

Herrero

Polo

2016

The Cryosphere

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“…For dry snow conditions at forest and open sites, snow albedo was assumed to be 0.8. Wet snow surface albedo values for open and forest sites during a thaw period were taken from our previous snowmelt research in northern Japan (Suzuki et al, 1999a) as 0.57 and 0.51, respectively. We assumed the roughness length over snow surfaces as constant.…”

Section: Description Of the Land Surface Modelmentioning

confidence: 99%

“…13(b)-(d) because snow surface temperature never exceeded 0 • C. This result was similar to that of Berris & Harr (1987), who reported large discharges in deforested watersheds in comparison to forested watersheds, due to larger turbulent fluxes. Suzuki et al (1999a) also reported that the sensible heat flux was the dominant energy balance component causing differences in snowmelt energy due to forest density.…”

Section: Snowmeltmentioning

confidence: 99%

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Impact of land-use changes on snow in a forested region with heavy snowfall in Hokkaido, Japan

Suzuki¹,

Kodama²,

Nakai³

et al. 2011

Hydrological Sciences Journal

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We simulated snow processes in a forested region with heavy snowfall in Japan, and evaluated both the regional-scale snow distribution and the potential impact of land-use changes on the snow cover and water balances over the entire domain. SnowModel reproduced the snow processes at open and forested sites, which were confirmed by snow water equivalent (SWE) measurements at two intensive observation sites and snow depth measurements at the Automated Meteorological Data Acquisition System sites. SnowModel also reproduced the observed snow distribution (from the MODIS snow cover data) over the simulation domain during thaw. The observed SWE was less at the forested site than at the open site. The SnowModel simulations showed that this difference was caused mainly by differences in sublimation. The type of land use changed the maximum SWE, onset and duration of snowmelt, and the daily snowmelt rate due to canopy snow interception.Key words deforestation; canopy snow interception; sublimation; snowmelt rate; turbulent flux Impact de changements d'occupation du sol sur la neige dans une région forestière fortement enneigée de Hokkaido, Japon Résumé Nous avons simulé les processus neigeux dans une région forestière fortement enneigée au Japon, et évalué à la fois la répartition de la neige à l'échelle régionale et l'impact potentiel des changements d'occupation du sol sur le couvert neigeux et sur le bilan hydrologique pour l'ensemble du domaine. SnowModel reproduit les processus neigeux dans les sites ouverts et forestiers, ce qui est confirmé par des mesures d'équivalent en eau de la neige en deux sites d'observation intensive et des mesures de la profondeur de la neige sur les sites du système automatique d'acquisition de données météorologiques. SnowModel reproduit également la distribution de la neige observée (à partir de données MODIS de couvert neigeux) sur le domaine de la simulation au cours de la fonte nivale. L'équivalent en eau de la neige observé est inférieur pour le site forestier que pour le site ouvert. Les simulations avec SnowModel montrent que cette différence est principalement causée par des différences en matière de sublimation. Le type d'occupation du sol change l'équivalent en eau de la neige maximum, le début et la durée de la fonte nivale, et le taux de fonte journalier en raison de l'interception de la neige par la canopée.

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“…Accumulation of needles, leaves, bark, and other debris on sub-canopy snow can reduce the albedo (Link and Marks 1999). Turbulent fluxes and short wave radiation are lower and longwave radiation is greater in the forest compared to open areas and these effects increase with forest density (Suzuki et al 1999). The lower energy inputs to the snow surface can sometimes be offset by the increased longwave radiation from the canopy (Hardy et al 1997;Pomeroy et al 2009).…”

Section: Energy Budget In Mountainous Terrainmentioning

confidence: 99%

Assessment of optimum snowmelt model complexity, Cariboo Highlands, British Columbia, Canada.

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Variations in snowmelt energy and energy balance characteristics with larch forest density on Mt Iwate, Japan: observations and energy balance analyses

Cited by 23 publications

References 16 publications

Evaposublimation from the snow in the Mediterranean mountains of Sierra Nevada (Spain)

Evaposublimation from the snow in the Mediterranean mountains of Sierra Nevada (Spain)

Impact of land-use changes on snow in a forested region with heavy snowfall in Hokkaido, Japan

Assessment of optimum snowmelt model complexity, Cariboo Highlands, British Columbia, Canada.

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