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Source Region of Turbulent Fluxes from a Surface (Footprint): Concept and Estimation Methods
Izvestiya, Atmospheric and Oceanic Physics. 2025. Vol. 61. No. 6. P. 643–669.
Sogachev A., Repina I. A.
The source region of a turbulent flux from a surface or the coverage area when measuring from towers is subject to spatial and temporal variability. The need for accurate estimation of the source region of the measured flux or the footprint has significantly increased with the establishment of stations for long-term monitoring of turbulent exchange over forests and other heterogeneous landscapes and the creation of observation networks for determining the intensity of matter and energy exchange between ecosystems and the atmosphere (FLUXNET, AsiaFlux, RuFlux, and others). The footprint plays a crucial role in optimizing the instrument placement, interpreting time series of measured fluxes, analyzing the variability of fluxes in response to changes in the underlying surface, and estimating the quality of the data collected. However, estimating the footprint remains challenging due to the diversity of the studied fluxes and concentrations of substances. This paper provides an overview of available methods for modeling footprints and discusses their advantages and disadvantages. It also identifies current challenges and ways to improve existing approaches.
Language:
English
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Ceramic superconductors exhibit remarkable properties, including zero electrical resistance and potent magnetic behavior, operating at temperatures as high as the boiling points of liquid nitrogen (77 K) and liquid hydrogen (20 K). These characteristics position them as key enablers for sustainable technologies spanning electric propulsion, lossless energy transmission, advanced medical imaging, and quantum computation. This review presents ...
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V. Mamkin, Avilov V., Dmitrichenko A. et al., Global Biogeochemical Cycles 2026 Vol. 40 No. 1 Article e2025GB008592
Northern peatlands (>50°N) account for approximately 70% of the global peatland area and play a key role in the global carbon cycle. However, their role as long‐term carbon sinks is vulnerable to modern climate warming at high latitudes. Future climate predictions require data on how peatlands respond to observed changes in global environmental parameters, particularly ...
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Алексеева Н. Н., Банчева А. И., Гринфельдт Ю. С. et al., География и природные ресурсы 2024 Т. 45 № 1 С. 15–26
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Куричева О. А., Авилов В. К., Варлагин А. В. et al., Известия РАН. Серия географическая 2023 Т. 87 № 4 С. 512–535
For the first time, the information is summarized on the history of establishment, the state of observations and the main scientific results on sites included in RuFlux, the Russian eddy covariance network for the monitoring of greenhouse gases (GHG). Eddy covariance technique provides estimates of GHG fluxes at the level of ecosystems. The long-term series ...
Added: August 25, 2023
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