Energy Fluxes above Three Disparate Surfaces in a Temperate Mesoscale Coastal Catchment

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Energy Fluxes above Three Disparate Surfaces in a Temperate Mesoscale Coastal Catchment. / Ringgaard, Rasmus; Herbst, Mathias; Friborg, Thomas; Schelde, Kirsten; Thomsen, Anton Gårde; Søgaard, Henrik.

In: Vadose Zone Journal, Vol. 10, No. 1, 01.02.2011, p. 54-66.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Ringgaard, R, Herbst, M, Friborg, T, Schelde, K, Thomsen, AG & Søgaard, H 2011, 'Energy Fluxes above Three Disparate Surfaces in a Temperate Mesoscale Coastal Catchment', Vadose Zone Journal, vol. 10, no. 1, pp. 54-66. https://doi.org/10.2136/vzj2009.0181

APA

Ringgaard, R., Herbst, M., Friborg, T., Schelde, K., Thomsen, A. G., & Søgaard, H. (2011). Energy Fluxes above Three Disparate Surfaces in a Temperate Mesoscale Coastal Catchment. Vadose Zone Journal, 10(1), 54-66. https://doi.org/10.2136/vzj2009.0181

Vancouver

Ringgaard R, Herbst M, Friborg T, Schelde K, Thomsen AG, Søgaard H. Energy Fluxes above Three Disparate Surfaces in a Temperate Mesoscale Coastal Catchment. Vadose Zone Journal. 2011 Feb 1;10(1):54-66. https://doi.org/10.2136/vzj2009.0181

Author

Ringgaard, Rasmus ; Herbst, Mathias ; Friborg, Thomas ; Schelde, Kirsten ; Thomsen, Anton Gårde ; Søgaard, Henrik. / Energy Fluxes above Three Disparate Surfaces in a Temperate Mesoscale Coastal Catchment. In: Vadose Zone Journal. 2011 ; Vol. 10, No. 1. pp. 54-66.

Bibtex

@article{066df4a1ce4b443dbcf6525be7d12c9c,
title = "Energy Fluxes above Three Disparate Surfaces in a Temperate Mesoscale Coastal Catchment",
abstract = "This study is part of the long-term catchment-scale hydrological observatory, HOBE, situated in the Skjern River catchment covering 2500 km2 on the western coast of Denmark. To gain a more detailed knowledge of how evapotranspiration is controlled by the local surface and atmospheric processes, eddy-covariance systems have been installed over an agricultural field, over a spruce [Picea abies (L.) H. Karst.] plantation, and on wet grassland. Measurements started in fall 2008, and the first annual series showed large differences in evaporative response among the surfaces. The annual sum was about 500 mm for the wet grassland and spruce plantation, while it was about 300 mm for the irrigated agricultural site. In winter, the actual evapotranspiration rate of the grassland and the forest were much larger than the available energy evaluated from the radiation balance, while at the same time large-scale sensible heat flux directed toward the ground was measured. At the agricultural site, the evapotranspirtion rate was controlled by crop development with a leaf area index =3 being the threshold where actual evapotranspiration reached the potential rate. At the forest site, transpiration rates were severely limited due to stomatal control, which could be related to soil moisture and vapor pressure defi cits. The interception evaportion was very important for total evapotranspiration. At the meadow, summer low fl ow in the river coincided with drying out of the meadows, which limited evapotranspiration. In late summer, evapotranspiration rates at the meadow and forest sites again increased signifi cantly compared with radiative available energy, and again sensible heat flux directed toward the ground was observed.",
author = "Rasmus Ringgaard and Mathias Herbst and Thomas Friborg and Kirsten Schelde and Thomsen, {Anton G{\aa}rde} and Henrik S{\o}gaard",
year = "2011",
month = feb,
day = "1",
doi = "10.2136/vzj2009.0181",
language = "English",
volume = "10",
pages = "54--66",
journal = "Vadose Zone Journal",
issn = "1539-1663",
publisher = "GeoScienceWorld",
number = "1",

}

RIS

TY - JOUR

T1 - Energy Fluxes above Three Disparate Surfaces in a Temperate Mesoscale Coastal Catchment

AU - Ringgaard, Rasmus

AU - Herbst, Mathias

AU - Friborg, Thomas

AU - Schelde, Kirsten

AU - Thomsen, Anton Gårde

AU - Søgaard, Henrik

PY - 2011/2/1

Y1 - 2011/2/1

N2 - This study is part of the long-term catchment-scale hydrological observatory, HOBE, situated in the Skjern River catchment covering 2500 km2 on the western coast of Denmark. To gain a more detailed knowledge of how evapotranspiration is controlled by the local surface and atmospheric processes, eddy-covariance systems have been installed over an agricultural field, over a spruce [Picea abies (L.) H. Karst.] plantation, and on wet grassland. Measurements started in fall 2008, and the first annual series showed large differences in evaporative response among the surfaces. The annual sum was about 500 mm for the wet grassland and spruce plantation, while it was about 300 mm for the irrigated agricultural site. In winter, the actual evapotranspiration rate of the grassland and the forest were much larger than the available energy evaluated from the radiation balance, while at the same time large-scale sensible heat flux directed toward the ground was measured. At the agricultural site, the evapotranspirtion rate was controlled by crop development with a leaf area index =3 being the threshold where actual evapotranspiration reached the potential rate. At the forest site, transpiration rates were severely limited due to stomatal control, which could be related to soil moisture and vapor pressure defi cits. The interception evaportion was very important for total evapotranspiration. At the meadow, summer low fl ow in the river coincided with drying out of the meadows, which limited evapotranspiration. In late summer, evapotranspiration rates at the meadow and forest sites again increased signifi cantly compared with radiative available energy, and again sensible heat flux directed toward the ground was observed.

AB - This study is part of the long-term catchment-scale hydrological observatory, HOBE, situated in the Skjern River catchment covering 2500 km2 on the western coast of Denmark. To gain a more detailed knowledge of how evapotranspiration is controlled by the local surface and atmospheric processes, eddy-covariance systems have been installed over an agricultural field, over a spruce [Picea abies (L.) H. Karst.] plantation, and on wet grassland. Measurements started in fall 2008, and the first annual series showed large differences in evaporative response among the surfaces. The annual sum was about 500 mm for the wet grassland and spruce plantation, while it was about 300 mm for the irrigated agricultural site. In winter, the actual evapotranspiration rate of the grassland and the forest were much larger than the available energy evaluated from the radiation balance, while at the same time large-scale sensible heat flux directed toward the ground was measured. At the agricultural site, the evapotranspirtion rate was controlled by crop development with a leaf area index =3 being the threshold where actual evapotranspiration reached the potential rate. At the forest site, transpiration rates were severely limited due to stomatal control, which could be related to soil moisture and vapor pressure defi cits. The interception evaportion was very important for total evapotranspiration. At the meadow, summer low fl ow in the river coincided with drying out of the meadows, which limited evapotranspiration. In late summer, evapotranspiration rates at the meadow and forest sites again increased signifi cantly compared with radiative available energy, and again sensible heat flux directed toward the ground was observed.

U2 - 10.2136/vzj2009.0181

DO - 10.2136/vzj2009.0181

M3 - Journal article

VL - 10

SP - 54

EP - 66

JO - Vadose Zone Journal

JF - Vadose Zone Journal

SN - 1539-1663

IS - 1

ER -

ID: 34353604