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2. A comparative study of four approaches to assess phenology of Populus in a short-rotation coppice culture

Author

Vanbeveren Stefan PP, Bloemen J, Balzarolo M, Broeckx Laura S, Sarzi-Falchi I, Verlinden Melanie S, and Ceulemans R

Subjects
ExG Index, Leaf Area Index, MODIS, NDVI, WRDVI, POPFULL, Forestry, SD1-669.5
Abstract

We compared four approaches to assess phenology in a short-rotation coppice culture with 12 poplar (Populus) genotypes. The four approaches quantified phenology at different spatial scales and with different temporal resolutions: (i) visual observations of bud phenology; (ii) measurements of leaf area index; (iii) webcam images; and (iv) satellite images. For validation purposes we applied the four approaches during two years: the year preceding a coppice event and the year following the coppice event. The delayed spring greenup and the faster canopy development in the year after coppicing (as compared to the year before coppicing) were similarly quantified by the four approaches. The four approaches detected very similar seasonal changes in phenology, although they had different spatial scales and a different temporal resolution. The onset of autumn senescence after coppicing remained the same as in the year before coppicing according to the bud set observations, but it started earlier according to the webcam images, and later according to the MODIS images. In comparison to the year before coppicing, the growing season - in terms of leaf area duration - was shorter in the year after coppicing, while the leaf area index was higher.

Published
2016
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5. Partitioning European grassland net ecosystem CO 2 exchange into gross primary productivity and ecosystem respiration using light response function analysis

Author

Gilmanov, T.G., Soussana, J.F., Aires, L., Allard, V., Ammann, C., Balzarolo, M., Barcza, Z., Bernhofer, C., Campbell, C.L., Cernusca, A., Cescatti, A., Clifton-Brown, J., Dirks, B.O.M., Dore, S., Eugster, W., Fuhrer, J., Gimeno, C., Gruenwald, T., Haszpra, L., Hensen, A., Ibrom, A., Jacobs, A.F.G., Jones, M.B., Lanigan, G., Laurila, T., Lohila, A., G.Manca, Marcolla, B., Nagy, Z., Pilegaard, K., Pinter, K., Pio, C., Raschi, A., Rogiers, N., Sanz, M.J., Stefani, P., Sutton, M., Tuba, Z., Valentini, R., Williams, M.L., and Wohlfahrt, G.

Published
2007
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7. Carbon, water and energy fluxes of terrestrial ecosystems in Italy

Author

Papale, D., Migliavacca, M., Cremonese, E., Cescatti, A., Alberti, G., Balzarolo, M., Belelli Marchesini, L., Canfora, E., Casa, R., Duce, P., Facini, O., Galvagno, M., Genesio, L., Gianelle, D., Magliulo, V., Matteucci, G., Montagnani, L., Petrella, F., Pitacco, A., Seufert, G., Spano, D., Stefani, P., Vaccari, F.P., Valentini, R., Miglietta, F., Earth and Climate, and Amsterdam Global Change Institute

Published
2015

8. EUROSPEC: at the interface between remote-sensing and ecosystem CO₂ flux measurements in Europe

Author

Porcar-Castell, Albert, Mac Arthur, Alasdair, Rossini, Micol, Eklundh, Lars, Pacheco-Labrador, Javier, Anderson, Karen, Balzarolo, M, Martín, M P, Jin, Hongxiao, Tomelleri, Enrico, Cerasoli, Sofia, Sakowska, Karolina, Hueni, Andreas, Julitta, T, Nichol, C J, Vescovo, L, University of Zurich, and Porcar-Castell, Albert

Subjects
10122 Institute of Geography, 1105 Ecology, Evolution, Behavior and Systematics, Surface Processes, Ecology, Behavior and Systematics, Evolution, 1904 Earth-Surface Processes, Earth, 910 Geography & travel
Published
2015

13. Drought responses in forests of different leaf type and climate: how do remote sensing indicators reflect field measurements?

Author

Vicca, S., Balzarolo, M., Filella, I, Verger, Aleixandre, Zhang, C., Peñuelas, J., Janssens, I., Research Group of Plant and Vegetation Ecology (PLECO), Department of Biology, University of Antwerp, B-2610 Wilrijk, Belgium, DIBAF, University of Tuscia, Via S.C. de Lellis, 01100 Viterbo, Italy, Global Ecology Unit, Spanish National Research Council (CSIC), Centre de Recerca Ecològica i Aplicacions Forestals (CREAF), Environnement Méditerranéen et Modélisation des Agro-Hydrosystèmes (EMMAH), Avignon Université (AU)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Research Group of Plant and Vegetation Ecology, Department of Biology, and Déposants HAL-Avignon, bibliothèque Universitaire

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2014

14. Carbon, water and energy fluxes of terrestrial ecosystems in Italy

Author

Papale D., Migliavacca M., Cremonese E., Cescatti A., Alberti G., Balzarolo M., Belelli Marchesini L., Canfora E., Casa R., Duce P., Facini O., Galvagno M., Genesio L., Gianelle D., Magliulo V., Matteucci G., Montagnani L., Petrella F., Pitacco A., Seufert G., Spano D., Stefani P., Vaccari F.P., and Valentini R.

Subjects
Climate Change, Terrestrial Ecosysytems, Carbon cycle, Eddy Covariance, Net Ecosystem Exchange
Abstract

In this chapter the Eddy Covariance network of Italy is presented, with a short introduction to each of the 29 sites that were active during the CarboItaly project. These sites provided a unique dataset for a better study and understanding of the carbon cycle of terrestrial ecosystems and the links between carbon sink capacity and the main environmental factors. After a number of examples of Eddy Covariance time series where it is possible to see the effect of interannual climate variability and disturbances and managements practices, an analysis of the role of the Carbon Uptake Period in the total Net Ecosystem Exchange (NEE) definition and a study of the effect of temperature and precipitation on the interannual variability of NEE are presented in order to show the way these data can contribute to a better understanding of the role and response of ecosystems to climate change.

Published
2014
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15. EUROSPEC: At the interface between remote-sensing and ecosystem CO2 flux measurements in Europe

Author

Porcar Castell, A, Mac Arthur, A, Rossini, M, Eklundh, L, Pacheco Labrador, J, Anderson, K, Balzarolo, M, Martín, M, Jin, H, Tomelleri, E, Cerasoli, S, Sakowska, K, Hueni, A, Julitta, T, Nichol, C, Vescovo, L, Vescovo, L., ROSSINI, MICOL, JULITTA, TOMMASO, Porcar Castell, A, Mac Arthur, A, Rossini, M, Eklundh, L, Pacheco Labrador, J, Anderson, K, Balzarolo, M, Martín, M, Jin, H, Tomelleri, E, Cerasoli, S, Sakowska, K, Hueni, A, Julitta, T, Nichol, C, Vescovo, L, Vescovo, L., ROSSINI, MICOL, and JULITTA, TOMMASO

Abstract

Resolving the spatial and temporal dynamics of gross primary productivity (GPP) of terrestrial ecosystems across different scales remains a challenge. Remote sensing is regarded as the solution to upscale point observations conducted at the ecosystem level, using the eddy covariance (EC) technique, to the landscape and global levels. In addition to traditional vegetation indices, the photochemical reflectance index (PRI) and the emission of solar-induced chlorophyll fluorescence (SIF), now measurable from space, provide a new range of opportunities to monitor the global carbon cycle using remote sensing. However, the scale mismatch between EC observations and the much coarser satellite-derived data complicate the integration of the two sources of data. The solution is to establish a network of in situ spectral measurements that can act as a bridge between EC measurements and remote-sensing data. In situ spectral measurements have already been conducted for many years at EC sites, but using variable instrumentation, setups, and measurement standards. In Europe in particular, in situ spectral measurements remain highly heterogeneous. The goal of EUROSPEC Cost Action ES0930 was to promote the development of common measuring protocols and new instruments towards establishing best practices and standardization of these measurements. In this review we describe the background and main tradeoffs of in situ spectral measurements, review the main results of EUROSPEC Cost Action, and discuss the future challenges and opportunities of in situ spectral measurements for improved estimation of local and global estimates of GPP over terrestrial ecosystems.

Published
2015

16. Interpreting canopy development and physiology using a European phenology camera network at flux sites

Author

Wingate, L., Ogee, J., Cremonese, E., Filippa, G., Mizunuma, T., Migliavacca, M., Moisy, C., Wilkinson, M., Moureaux, C., Wohlfahrt, G., Hammerle, A., Hoertnagl, L., Gimeno, C., Porcar-Castell, A., Galvagno, M., Nakaji, T., Morison, J., Kolle, O., Knohl, A., Kutsch, W., Kolari, P., Nikinmaa, E., Ibrom, A., Gielen, B., Eugster, W., Balzarolo, M., Papale, D., Klumpp, K., Koestner, B., Gruenwald, T., Joffre, R., Ourcival, J. -M., Hellstrom, M., Lindroth, A., George, C., Longdoz, B., Genty, B., Levula, J., Heinesch, B., Sprintsin, M., Yakir, D., Manise, T., Guyon, D., Ahrends, H., Plaza-Aguilar, A., Guan, J. H., Grace, J., Wingate, L., Ogee, J., Cremonese, E., Filippa, G., Mizunuma, T., Migliavacca, M., Moisy, C., Wilkinson, M., Moureaux, C., Wohlfahrt, G., Hammerle, A., Hoertnagl, L., Gimeno, C., Porcar-Castell, A., Galvagno, M., Nakaji, T., Morison, J., Kolle, O., Knohl, A., Kutsch, W., Kolari, P., Nikinmaa, E., Ibrom, A., Gielen, B., Eugster, W., Balzarolo, M., Papale, D., Klumpp, K., Koestner, B., Gruenwald, T., Joffre, R., Ourcival, J. -M., Hellstrom, M., Lindroth, A., George, C., Longdoz, B., Genty, B., Levula, J., Heinesch, B., Sprintsin, M., Yakir, D., Manise, T., Guyon, D., Ahrends, H., Plaza-Aguilar, A., Guan, J. H., and Grace, J.

Abstract

Plant phenological development is orchestrated through subtle changes in photoperiod, temperature, soil moisture and nutrient availability. Presently, the exact timing of plant development stages and their response to climate and management practices are crudely represented in land surface models. As visual observations of phenology are laborious, there is a need to supplement long-term observations with automated techniques such as those provided by digital repeat photography at high temporal and spatial resolution. We present the first synthesis from a growing observational network of digital cameras installed on towers across Europe above deciduous and evergreen forests, grasslands and croplands, where vegetation and atmosphere CO2 fluxes are measured continuously. Using colour indices from digital images and using piecewise regression analysis of time series, we explored whether key changes in canopy phenology could be detected automatically across different land use types in the network. The piecewise regression approach could capture the start and end of the growing season, in addition to identifying striking changes in colour signals caused by flowering and management practices such as mowing. Exploring the dates of green-up and senescence of deciduous forests extracted by the piecewise regression approach against dates estimated from visual observations, we found that these phenological events could be detected adequately (RMSE < 8 and 11 days for leaf out and leaf fall, respectively). We also investigated whether the seasonal patterns of red, green and blue colour fractions derived from digital images could be modelled mechanistically using the PROSAIL model parameterised with information of seasonal changes in canopy leaf area and leaf chlorophyll and carotenoid concentrations. From a model sensitivity analysis we found that variations in colour fractions, and in particular the late spring 'green hump' observed repeatedly in deciduous broadleaf canopies ac

Published
2015

17. EUROSPEC: at the interface between remote-sensing and ecosystem CO2 flux measurements in Europe

Author

Porcar-Castell, A., Mac Arthur, A., Rossini, M., Eklundh, Lars, Pacheco-Labrador, J., Anderson, K., Balzarolo, M., Martín, M.P., Jin, Hongxiao, Tomelleri, E., Cerasoli, S., Sakowska, K., Hueni, A., Julitta, T., Nichol, C. J., Vescovo, L., Porcar-Castell, A., Mac Arthur, A., Rossini, M., Eklundh, Lars, Pacheco-Labrador, J., Anderson, K., Balzarolo, M., Martín, M.P., Jin, Hongxiao, Tomelleri, E., Cerasoli, S., Sakowska, K., Hueni, A., Julitta, T., Nichol, C. J., and Vescovo, L.

Abstract

Resolving the spatial and temporal dynamics of gross primary productivity (GPP) of terrestrial ecosystems across different scales remains a challenge. Remote sensing is regarded as the solution to upscale point observations conducted at the ecosystem level, using the eddy covariance (EC) technique, to the landscape and global levels. In addition to traditional vegetation indices, the photochemical reflectance index (PRI) and the emission of solar-induced chlorophyll fluorescence (SIF), now measurable from space, provide a new range of opportunities to monitor the global carbon cycle using remote sensing. However, the scale mismatch between EC observations and the much coarser satellite-derived data complicates the integration of the two sources of data. The solution is to establish a network of in situ spectral measurements that can act as bridge between EC measurements and remote sensing data. In situ spectral measurements have been already conducted for many years at EC sites, but using variable instrumentation, setups, and measurement standards. In Europe in particular, in situ spectral measurements remain highly heterogeneous. The goal of EUROSPEC Cost Action ES0930 was to promote the development of common measuring protocols and new instruments towards establishing best practices and standardization of in situ spectral measurements. In this review we describe the background and main tradeoffs of in situ spectral measurements, review the main results of EUROSPEC Cost Action, and discuss the future challenges and opportunities of in situ spectral measurements for improved estimation of local and global carbon cycle.

Published
2015

18. Natural land carbon dioxide exchanges in the ECMWF integrated forecasting system : implementation and offline validation

Author

Boussetta, S., Balsamo, G., Beljaars, A., Panareda, A. A., Calvet, J. C., Jacobs, C., van den Hurk, B., Viterbo, P., Lafont, S., Dutra, E., Jarlan, Lionel, Balzarolo, M., Papale, D., and van der Werf, G.

Subjects
Latent heat, Sensible heat, Net ecosystem exchange, Canopy resistance, Atmospheric CO2 growth
Abstract

The European Centre for Medium-Range Weather Forecasts land surface model has been extended to include a carbon dioxide module. This relates photosynthesis to radiation, atmospheric carbon dioxide (CO2) concentration, soil moisture, and temperature. Furthermore, it has the option of deriving a canopy resistance from photosynthesis and providing it as a stomatal control to the transpiration formulation. Ecosystem respiration is based on empirical relations dependent on temperature, soil moisture, snow depth, and land use. The CO2 model is designed for the numerical weather prediction (NWP) environment where it benefits from good quality meteorological input (i.e., radiation, temperature, and soil moisture). This paper describes the CO2 model formulation and the way it is optimized making use of off-line simulations for a full year of tower observations at 34 sites. The model is then evaluated against the same observations for a different year. A correlation coefficient of 0.65 is obtained between model simulations and observations based on 10 day averaged CO2 fluxes. For sensible and latent heat fluxes there is a correlation coefficient of 0.80. To study the impact on atmospheric CO2, coupled integrations are performed for the 2003 to 2008 period. The global atmospheric growth is well reproduced. The simulated interannual variability is shown to reproduce the observationally based estimates with a correlation coefficient of 0.70. The main conclusions are (i) the simple carbon dioxide model is highly suitable for the numerical weather prediction environment where environmental factors are controlled by data assimilation, (ii) the use of a carbon dioxide model for stomatal control has a positive impact on evapotranspiration, and (iii) even using a climatological leaf area index, the interannual variability of the global atmospheric CO2 budget is well reproduced due to the interannual variability in the meteorological forcing (i.e., radiation, precipitation, temperature, humidity, and soil moisture) despite the simplified or missing processes. This highlights the importance of meteorological forcing but also cautions the use of such a simple model for process attribution.

Published
2013

20. Ground-Based Optical Measurements at European Flux Sites

Author

Balzarolo, M., Anderson, K., Nichol, C., Elbers, J.A., Rossini, M., and Vescovo, L.

Subjects
ecosystem, validation, WIMEK, resolution ndvi, footprint, carbon-dioxide, spectral reflectance, CWC - Earth System Science and Climate Change, ndvi measurements, photosynthetic efficiency, CWK - Earth System Science and Climate Change, Wageningen Environmental Research, co2 fluxes, vegetation indexes
Abstract

This paper reviews the currently available optical sensors, their limitations and opportunities for deployment at Eddy Covariance (EC) sites in Europe. This review is based on the results obtained from an online survey designed and disseminated by the Co-cooperation in Science and Technology (COST) Action ESO903—“Spectral Sampling Tools for Vegetation Biophysical Parameters and Flux Measurements in Europe” that provided a complete view on spectral sampling activities carried out within the different research teams in European countries. The results have highlighted that a wide variety of optical sensors are in use at flux sites across Europe, and responses further demonstrated that users were not always fully aware of the key issues underpinning repeatability and the reproducibility of their spectral measurements. The key findings of this survey point towards the need for greater awareness of the need for standardisation and development of a common protocol of optical sampling at the European EC sites

Published
2011

21. EUROSPEC: at the interface between remote-sensing and ecosystem CO&lt;sub&gt;2&lt;/sub&gt; flux measurements in Europe

Author

Porcar-Castell, A., primary, Mac Arthur, A., additional, Rossini, M., additional, Eklundh, L., additional, Pacheco-Labrador, J., additional, Anderson, K., additional, Balzarolo, M., additional, Martín, M. P., additional, Jin, H., additional, Tomelleri, E., additional, Cerasoli, S., additional, Sakowska, K., additional, Hueni, A., additional, Julitta, T., additional, Nichol, C. J., additional, and Vescovo, L., additional

Published
2015
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22. Interpreting canopy development and physiology using a European phenology camera network at flux sites

Author

Wingate, L., primary, Ogée, J., additional, Cremonese, E., additional, Filippa, G., additional, Mizunuma, T., additional, Migliavacca, M., additional, Moisy, C., additional, Wilkinson, M., additional, Moureaux, C., additional, Wohlfahrt, G., additional, Hammerle, A., additional, Hörtnagl, L., additional, Gimeno, C., additional, Porcar-Castell, A., additional, Galvagno, M., additional, Nakaji, T., additional, Morison, J., additional, Kolle, O., additional, Knohl, A., additional, Kutsch, W., additional, Kolari, P., additional, Nikinmaa, E., additional, Ibrom, A., additional, Gielen, B., additional, Eugster, W., additional, Balzarolo, M., additional, Papale, D., additional, Klumpp, K., additional, Köstner, B., additional, Grünwald, T., additional, Joffre, R., additional, Ourcival, J.-M., additional, Hellstrom, M., additional, Lindroth, A., additional, George, C., additional, Longdoz, B., additional, Genty, B., additional, Levula, J., additional, Heinesch, B., additional, Sprintsin, M., additional, Yakir, D., additional, Manise, T., additional, Guyon, D., additional, Ahrends, H., additional, Plaza-Aguilar, A., additional, Guan, J. H., additional, and Grace, J., additional

Published
2015
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24. Interpreting canopy development and physiology using the EUROPhen camera network at flux sites

Author

Wingate, L., primary, Ogée, J., additional, Cremonese, E., additional, Filippa, G., additional, Mizunuma, T., additional, Migliavacca, M., additional, Moisy, C., additional, Wilkinson, M., additional, Moureaux, C., additional, Wohlfahrt, G., additional, Hammerle, A., additional, Hörtnagl, L., additional, Gimeno, C., additional, Porcar-Castell, A., additional, Galvagno, M., additional, Nakaji, T., additional, Morison, J., additional, Kolle, O., additional, Knohl, A., additional, Kutsch, W., additional, Kolari, P., additional, Nikinmaa, E., additional, Ibrom, A., additional, Gielen, B., additional, Eugster, W., additional, Balzarolo, M., additional, Papale, D., additional, Klumpp, K., additional, Köstner, B., additional, Grünwald, T., additional, Joffre, R., additional, Ourcival, J.-M., additional, Hellstrom, M., additional, Lindroth, A., additional, Charles, G., additional, Longdoz, B., additional, Genty, B., additional, Levula, J., additional, Heinesch, B., additional, Sprintsin, M., additional, Yakir, D., additional, Manise, T., additional, Guyon, D., additional, Ahrends, H., additional, Plaza-Aguilar, A., additional, Guan, J. H., additional, and Grace, J., additional

Published
2015
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25. Supplementary material to "Interpreting canopy development and physiology using the EUROPhen camera network at flux sites"

Author

Wingate, L., primary, Ogée, J., additional, Cremonese, E., additional, Filippa, G., additional, Mizunuma, T., additional, Migliavacca, M., additional, Moisy, C., additional, Wilkinson, M., additional, Moureaux, C., additional, Wohlfahrt, G., additional, Hammerle, A., additional, Hörtnagl, L., additional, Gimeno, C., additional, Porcar-Castell, A., additional, Galvagno, M., additional, Nakaji, T., additional, Morison, J., additional, Kolle, O., additional, Knohl, A., additional, Kutsch, W., additional, Kolari, P., additional, Nikinmaa, E., additional, Ibrom, A., additional, Gielen, B., additional, Eugster, W., additional, Balzarolo, M., additional, Papale, D., additional, Klumpp, K., additional, Köstner, B., additional, Grünwald, T., additional, Joffre, R., additional, Ourcival, J.-M., additional, Hellstrom, M., additional, Lindroth, A., additional, Charles, G., additional, Longdoz, B., additional, Genty, B., additional, Levula, J., additional, Heinesch, B., additional, Sprintsin, M., additional, Yakir, D., additional, Manise, T., additional, Guyon, D., additional, Ahrends, H., additional, Plaza-Aguilar, A., additional, Guan, J. H., additional, and Grace, J., additional

Published
2015
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28. Evaluating the potential of large-scale simulations to predict carbon fluxes of terrestrial ecosystems over a European Eddy Covariance network

Author

Balzarolo, M., primary, Boussetta, S., additional, Balsamo, G., additional, Beljaars, A., additional, Maignan, F., additional, Calvet, J.-C., additional, Lafont, S., additional, Barbu, A., additional, Poulter, B., additional, Chevallier, F., additional, Szczypta, C., additional, and Papale, D., additional

Published
2014
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30. Inter-comparison of hemispherical conical reflectance factors (HCRF) measured with four fibre-based spectrometers

Author

Anderson, K, Rossini, M, Pacheco Labrador, J, Balzarolo, M, Mac Arthur, A, Fava, F, Julitta, T, Vescovo, L, ROSSINI, MICOL, FAVA, FRANCESCO PIETRO, JULITTA, TOMMASO, Vescovo, L., Anderson, K, Rossini, M, Pacheco Labrador, J, Balzarolo, M, Mac Arthur, A, Fava, F, Julitta, T, Vescovo, L, ROSSINI, MICOL, FAVA, FRANCESCO PIETRO, JULITTA, TOMMASO, and Vescovo, L.

Abstract

We describe the results of an experiment designed to compare the radiometric performance of four different spectroradiometers in ideal field conditions. A carefully designed experiment where instruments were simultaneously triggered was used to measure the Hemispherical Conical Reflectance Factors (HCRF) of four targets of varying reflectance. The experiment was in two parts. Stage 1 covered a 2 hour period finishing at solar noon, where 50 measurements of the targets were collected in sequence. Stage 2 comprised 10 rapid sequential measurements over each target. We applied a method for normalising full width half maximum (FWHM) differences between the instruments, which was a source of variability in the raw data. The work allowed us to determine data reproducibility, and we found that lower-cost instruments (Ocean Optics and PP Systems) produced data of similar radiometric quality to those manufactured by Analytical Spectral Devices (ASD –here we used the ASD FieldSpec Pro) in the spectral range 400-850 nm, which is the most significant region for research communities interested in measuring vegetation dynamics. Over the longer time-series there were changes in HCRF caused by the structural and spectral characteristics of some targets.

Published
2013

32. Ground-Based optical measurements at European flux sites: A review of methods, instruments and current controversies

Author

Balzarolo, M., Anderson, K., Nichol, C., Rossini, M., Vescovo, L., Arriga, N., Wohlfahrt, G., Calvet, J-C, Carrara, A., Cerasoli, S., Cogliati, S., Daumard, F., Eklundh, L., Elbers, J.A., Evrendilek, F., Handcock, R.N., Kaduk, J., Klumpp, K., Longdoz, B., Matteucci, G., Meroni, M., Montagnani, L., Ourcival, J-M, Sánchez-Cañete, E.P., Pontailler, J-Y, Juszczak, R., Scholes, B., Martín, M.P., Balzarolo, M., Anderson, K., Nichol, C., Rossini, M., Vescovo, L., Arriga, N., Wohlfahrt, G., Calvet, J-C, Carrara, A., Cerasoli, S., Cogliati, S., Daumard, F., Eklundh, L., Elbers, J.A., Evrendilek, F., Handcock, R.N., Kaduk, J., Klumpp, K., Longdoz, B., Matteucci, G., Meroni, M., Montagnani, L., Ourcival, J-M, Sánchez-Cañete, E.P., Pontailler, J-Y, Juszczak, R., Scholes, B., and Martín, M.P.

Abstract

This paper reviews the currently available optical sensors, their limitations and opportunities for deployment at Eddy Covariance (EC) sites in Europe. This review is based on the results obtained from an online survey designed and disseminated by the Co-cooperation in Science and Technology (COST) Action ESO903—“Spectral Sampling Tools for Vegetation Biophysical Parameters and Flux Measurements in Europe” that provided a complete view on spectral sampling activities carried out within the different research teams in European countries. The results have highlighted that a wide variety of optical sensors are in use at flux sites across Europe, and responses further demonstrated that users were not always fully aware of the key issues underpinning repeatability and the reproducibility of their spectral measurements. The key findings of this survey point towards the need for greater awareness of the need for standardisation and development of a common protocol of optical sampling at the European EC sites.

Published
2011

33. Spectral measurements at flux tower sites: initial findings from the Eurospec project

Author

Hill, RA, Baines, N, Anderson, K, Rossini, M, Balzarolo, M, Vescovo, L, Nichol, C, Martin, M, Macarthur, A, Anderson, K., Martin, MP, MacArthur, A., ROSSINI, MICOL, Hill, RA, Baines, N, Anderson, K, Rossini, M, Balzarolo, M, Vescovo, L, Nichol, C, Martin, M, Macarthur, A, Anderson, K., Martin, MP, MacArthur, A., and ROSSINI, MICOL

Published
2011

34. Ground-Based Optical Measurements at European Flux Sites: A Review of Methods, Instruments and Current Controversies

Author

Balzarolo, M, Anderson, K, Nichol, C, Rossini, M, Vescovo, L, Arriga, N, Wohlfahrt, G, Calvet, J, Carrara, A, Cerasoli, S, Cogliati, S, Daumard, F, Eklundh, L, Elbers, J, Evrendilek, F, Handcock, R, Kaduk, J, Klumpp, K, Longdoz, B, Matteucci, G, Meroni, M, Montagnani, L, Ourcival, J, Sanchez Canete, E, Pontailler, J, Juszczak, R, Scholes, B, Martin, M, Calvet, JC, Elbers, JA, Handcock, RN, Ourcival, JM, Sanchez Canete, EP, Pontailler, JY, Martin, MP, ROSSINI, MICOL, COGLIATI, SERGIO, Balzarolo, M, Anderson, K, Nichol, C, Rossini, M, Vescovo, L, Arriga, N, Wohlfahrt, G, Calvet, J, Carrara, A, Cerasoli, S, Cogliati, S, Daumard, F, Eklundh, L, Elbers, J, Evrendilek, F, Handcock, R, Kaduk, J, Klumpp, K, Longdoz, B, Matteucci, G, Meroni, M, Montagnani, L, Ourcival, J, Sanchez Canete, E, Pontailler, J, Juszczak, R, Scholes, B, Martin, M, Calvet, JC, Elbers, JA, Handcock, RN, Ourcival, JM, Sanchez Canete, EP, Pontailler, JY, Martin, MP, ROSSINI, MICOL, and COGLIATI, SERGIO

Abstract

This paper reviews the currently available optical sensors, their limitations and opportunities for deployment at Eddy Covariance (EC) sites in Europe. This review is based on the results obtained from an online survey designed and disseminated by the Co-cooperation in Science and Technology (COST) Action ESO903—“Spectral Sampling Tools for Vegetation Biophysical Parameters and Flux Measurements in Europe” that provided a complete view on spectral sampling activities carried out within the different research teams in European countries. The results have highlighted that a wide variety of optical sensors are in use at flux sites across Europe, and responses further demonstrated that users were not always fully aware of the key issues underpinning repeatability and the reproducibility of their spectral measurements. The key findings of this survey point towards the need for greater awareness of the need for standardisation and development of a common protocol of optical sampling at the European EC sites.

Published
2011

35. Evaluating the potential of large scale simulations to predict carbon fluxes of terrestrial ecosystems over a European Eddy Covariance network

Author

Balzarolo, M., primary, Boussetta, S., additional, Balsamo, G., additional, Beljaars, A., additional, Maignan, F., additional, Calvet, J.-C., additional, Lafont, S., additional, Barbu, A., additional, Poulter, B., additional, Chevallier, F., additional, Szczypta, C., additional, and Papale, D., additional

Published
2013
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37. Partitioning European grassland net ecosystem CO2 exchange into gross primary productivity and ecosystem respiration using light response function analysis

Author

Gilmanov, T. G., Soussana, J. F., Aires, L., Allard, V., Ammann, C., Balzarolo, M., Barcza, Z., Bernhofer, C., Campbell, C. L., Cernusca, A., Cescatti, A., Clifton-Brown, J., Dirks, B. O. M., Dore, S., Eugste, W., Fuhrer, S. J., Gimeno, C, Gruenwald, T., Haszpra, L., Hensen, A., Ibrom, A., Jacobs, A. F. G., Jones, M. B., Lanigan, G., Laurila, T., Lohila, A., Manca, G., Marcolla, B., Nagy, Z., Pilegaard, K., Pinter, K., Pio, C., Raschi, A., Rogiers, N., Sanz, M. J., Stefani, P., Sutton, M., Tuba, Z., Valentini, R., Williams, M. L., Wohlfahrt, G., Gilmanov, T. G., Soussana, J. F., Aires, L., Allard, V., Ammann, C., Balzarolo, M., Barcza, Z., Bernhofer, C., Campbell, C. L., Cernusca, A., Cescatti, A., Clifton-Brown, J., Dirks, B. O. M., Dore, S., Eugste, W., Fuhrer, S. J., Gimeno, C, Gruenwald, T., Haszpra, L., Hensen, A., Ibrom, A., Jacobs, A. F. G., Jones, M. B., Lanigan, G., Laurila, T., Lohila, A., Manca, G., Marcolla, B., Nagy, Z., Pilegaard, K., Pinter, K., Pio, C., Raschi, A., Rogiers, N., Sanz, M. J., Stefani, P., Sutton, M., Tuba, Z., Valentini, R., Williams, M. L., and Wohlfahrt, G.

Abstract

Tower CO2 flux measurements from 20 European grasslands in the EUROGRASSFLUX data set covering a wide range of environmental and management conditions were analyzed with respect to their ecophysiological characteristics and CO2 exchange (gross primary production, Pg, and ecosystem respiration, Re) using light-response function analysis. Photosynthetically active radiation (Q) and top-soil temperature (Ts) were identified as key factors controlling CO2 exchange between grasslands and the atmosphere at the 30-min scale. A nonrectangular hyperbolic light-response model P(Q) and modified nonrectangular hyperbolic light–temperature-response model P(Q, Ts) proved to be flexible tools for modeling CO2 exchange in the light. At night, it was not possible to establish robust instantaneous relationships between CO2 evolution rate rn and environmental drivers, though under certain conditions, a significant relationship rn=r0 ekTTs was found using observation windows 7–14 days wide. Principal light-response parameters—apparent quantum yield, saturated gross photosynthesis, daytime ecosystem respiration, and gross ecological light-use efficiency, = Pg/Q, display patterns of seasonal dynamics which can be formalized and used for modeling. Maximums of these parameters were found in intensively managed grasslands of Atlantic climate. Extensively used semi-natural grasslands of southern and central Europe have much lower production, respiration, and light-use efficiency, while temperate and mountain grasslands of central Europe ranged between these two extremes. Parameters from light–temperature-response analysis of tower data are in agreement with values obtained using closed chambers and free-air CO2 enrichment. Correlations between light-response and productivity parameters provides the possibility to use the easier to measure parameters to estimate the parameters that are more difficult to measure. Gross primary production (Pg) of European grasslands ranges from 1700 g CO2 m−2 y

Published
2007

38. Partitioning European grassland net ecosystem CO2 exchange into gross primary productivity and ecosystem respiration using light response function analysis

Author

Gilmanov, T.G., Soussana, J.E., Aires, L., Allard, V., Ammann, C., Balzarolo, M., Barcza, Z., Bernhofer, C., Campbell, C.L., Cernusca, A., Cescatti, A., Clifton-Brown, J., Dirks, B.O.M., Dore, S., Eugster, W., Fuhrer, J., Gimeno, C., Gruenwald, T., Haszpra, L., Hensen, A., Ibrom, Andreas, Jacobs, A.F.G., Jones, M.B., Lanigan, G., Laurila, T., Lohila, A., Manca, G., Marcolla, B., Nagy, Z., Pilegaard, Kim, Pinter, K., Pio, C., Raschi, A., Rogiers, N., Sanz, M.J., Stefani, P., Sutton, M., Tuba, Z., Valentini, R., Williams, M.L., Wohlfahrt, G., Gilmanov, T.G., Soussana, J.E., Aires, L., Allard, V., Ammann, C., Balzarolo, M., Barcza, Z., Bernhofer, C., Campbell, C.L., Cernusca, A., Cescatti, A., Clifton-Brown, J., Dirks, B.O.M., Dore, S., Eugster, W., Fuhrer, J., Gimeno, C., Gruenwald, T., Haszpra, L., Hensen, A., Ibrom, Andreas, Jacobs, A.F.G., Jones, M.B., Lanigan, G., Laurila, T., Lohila, A., Manca, G., Marcolla, B., Nagy, Z., Pilegaard, Kim, Pinter, K., Pio, C., Raschi, A., Rogiers, N., Sanz, M.J., Stefani, P., Sutton, M., Tuba, Z., Valentini, R., Williams, M.L., and Wohlfahrt, G.

Published
2007

39. EUROSPEC: at the interface between remote-sensing and ecosystem CO2 flux measurements in Europe.

Author

Porcar-Castell, A., Mac Arthur, A., Rossini, M., Eklundh, L., Pacheco-Labrador, J., Anderson, K., Balzarolo, M., Martín, M. P., Jin, H., Tomelleri, E., Cerasoli, S., Sakowska, K., Hueni, A., Julitta, T., Nichol, C. J., and Vescovo, L.

Subjects
PHOTOCHEMISTRY, CHLOROPHYLL spectra, VEGETATION & climate, CARBON cycle, PRIMARY productivity (Biology), CARBON dioxide & the environment, REMOTE sensing
Abstract

Resolving the spatial and temporal dynamics of gross primary productivity (GPP) of terrestrial ecosystems across different scales remains a challenge. Remote sensing is regarded as the solution to upscale point observations conducted at the ecosystem level, using the eddy covariance (EC) technique, to the landscape and global levels. In addition to traditional vegetation indices, the photochemical reflectance index (PRI) and the emission of solarinduced chlorophyll fluorescence (SIF), now measurable from space, provide a new range of opportunities to monitor the global carbon cycle using remote sensing. However, the scale mismatch between EC observations and the much coarser satellite-derived data complicate the integration of the two sources of data. The solution is to establish a network of in situ spectral measurements that can act as a bridge between EC measurements and remote-sensing data. In situ spectral measurements have already been conducted for many years at EC sites, but using variable instrumentation, setups, and measurement standards. In Europe in particular, in situ spectral measurements remain highly heterogeneous. The goal of EUROSPEC Cost Action ES0930 was to promote the development of common measuring protocols and new instruments towards establishing best practices and standardization of these measurements. In this review we describe the background and main tradeoffs of in situ spectral measurements, review the main results of EUROSPEC Cost Action, and discuss the future challenges and opportunities of in situ spectral measurements for improved estimation of local and global estimates of GPP over terrestrial ecosystems. [ABSTRACT FROM AUTHOR]

Published
2015
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40. On the relationship between ecosystem-scale hyperspectral reflectance and CO2 exchange in European mountain grasslands.

Author

Balzarolo, M., Vescovo, L., Hammerle, A., Gianelle, D., Papale, D., Tomelleri, E., and Wohlfahrt, G.

Subjects
ECOPHYSIOLOGY, HYPERSPECTRAL imaging systems, CARBON dioxide, MOUNTAIN grasslands, CHLOROPHYLL
Abstract

In this paper we explore the skill of hyperspectral reflectance measurements and vegetation indices (VIs) derived from these in estimating carbon dioxide (CO2) fluxes of grasslands. Hyperspectral reflectance data, CO2 fluxes and biophysical parameters were measured at three grassland sites located in European mountain regions using standardized protocols. The relationships between CO2 fluxes, ecophysiological variables, traditional VIs and VIs derived using all two-band combinations of wavelengths available from the whole hyperspectral data space were analysed.We found that VIs derived from hyperspectral data generally explained a large fraction of the variability in the investigated dependent variables but differed in their ability to estimate midday and daily average CO2 fluxes and various derived ecophysiological parameters. Relationships between VIs and CO2 fluxes and ecophysiological parameters were site-specific, likely due to differences in soils, vegetation parameters and environmental conditions. Chlorophyll and water-content-related VIs explained the largest fraction of variability in most of the dependent variables. Band selection based on a combination of a genetic algorithm with random forests (GA-rF) confirmed that it is difficult to select a universal band region suitable across the investigated ecosystems. Our findings have major implications for upscaling terrestrial CO2 fluxes to larger regions and for remote- and proximal-sensing sampling and analysis strategies and call for more cross-site synthesis studies linking ground-based spectral reflectance with ecosystem-scale CO2 fluxes. [ABSTRACT FROM AUTHOR]

Published
2015
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41. Evaluating the potential of large scale simulations to predict carbon fluxes of terrestrial ecosystems over a European Eddy Covariance network.

Author

Balzarolo, M., Boussetta, S., Balsamo, G., Beljaars, A., Maignan, F., Calvet, J.-C., Lafont, S., Barbu, A., Poulter, B., Chevallier, F., Szczypta, C., and Papale, D.

Subjects
COMPUTER simulation, PREDICTION models, CARBON cycle, ECOSYSTEMS, ANALYSIS of covariance, BIOSPHERE
Abstract

Understanding and simulating land biosphere processes happening at the interface between plants and atmosphere are important research activities with operational applications for monitoring and predicting seasonal and inter-annual variability of terrestrial carbon fluxes in connection to a changing climate. This paper reports a comparison between three different Land Surface Models (LSMs), ORCHIDEE, ISBA-A-gs and CTES- SEL used in the Copernicus-Land project precursor, forced with the same meteorological data, and compared with the carbon fluxes measured at 32 Eddy Covariance (EC) flux tower sites in Europe. The results show that the three models have the best performance for forest sites and the poorest performance for cropland and grassland sites. In addition, the three models have difficulties capturing the seasonality of Mediterranean and Sub-tropical biomes, characterized by dry summers. This reduced simulation performance is also reflected in deficiencies in diagnosed Light Use Efficiency (LUE) and Vapour Pressure Deficit (VPD) dependencies compared to observations. Shortcomings in the forcing data may also play a role. These results indicate that more research is needed on the LUE and VPD functions for Mediterranean and Sub-tropical biomes. Finally, this study highlights the importance well representing phenology (i.e. Leaf Area evolution) and management (i.e. rotation/irrigation for cropland, and grazing/harvesting for grassland) to simulate the carbon dynamics of European ecosystems and the importance of ecosystem level observation in models development and validation. [ABSTRACT FROM AUTHOR]

Published
2013
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42. Partitioning European grassland net ecosystem CO2 exchange into gross primary productivity and ecosystem respiration using light response function analysis

Author

Gilmanov, T.G., Soussana, J.F., Aires, L., Allard, V., Ammann, C., Balzarolo, M., Barcza, Z., Bernhofer, C., Campbell, C.L., Cernusca, A., Cescatti, A., Clifton-Brown, J., Dirks, B.O.M., Dore, S., Eugster, W., Fuhrer, J., Gimeno, C., Gruenwald, T., Haszpra, L., and Hensen, A.

Subjects
*GRASSLANDS, *ECOLOGY, *GASES from plants, *ECOSYSTEM health, *ECOSYSTEM management
Abstract

Abstract: Tower CO2 flux measurements from 20 European grasslands in the EUROGRASSFLUX data set covering a wide range of environmental and management conditions were analyzed with respect to their ecophysiological characteristics and CO2 exchange (gross primary production, P g, and ecosystem respiration, R e) using light-response function analysis. Photosynthetically active radiation (Q) and top-soil temperature (T s) were identified as key factors controlling CO2 exchange between grasslands and the atmosphere at the 30-min scale. A nonrectangular hyperbolic light-response model P(Q) and modified nonrectangular hyperbolic light–temperature-response model P(Q, T s) proved to be flexible tools for modeling CO2 exchange in the light. At night, it was not possible to establish robust instantaneous relationships between CO2 evolution rate r n and environmental drivers, though under certain conditions, a significant relationship was found using observation windows 7–14 days wide. Principal light-response parameters—apparent quantum yield, saturated gross photosynthesis, daytime ecosystem respiration, and gross ecological light-use efficiency, ɛ = P g/Q, display patterns of seasonal dynamics which can be formalized and used for modeling. Maximums of these parameters were found in intensively managed grasslands of Atlantic climate. Extensively used semi-natural grasslands of southern and central Europe have much lower production, respiration, and light-use efficiency, while temperate and mountain grasslands of central Europe ranged between these two extremes. Parameters from light–temperature-response analysis of tower data are in agreement with values obtained using closed chambers and free-air CO2 enrichment. Correlations between light-response and productivity parameters provides the possibility to use the easier to measure parameters to estimate the parameters that are more difficult to measure. Gross primary production (P g) of European grasslands ranges from 1700gCO2 m−2 year−1 in dry semi-natural pastures to 6900gCO2 m−2 year−1 in intensively managed Atlantic grasslands. Ecosystem respiration (R e) is in the range 1800< R e <6000gCO2 m−2 year−1. Annual net ecosystem CO2 exchange (NEE) varies from significant net uptake (>2400gCO2 m−2 year−1) to significant release (<−600gCO2 m−2 year−1), though in 15 out of 19 cases grasslands performed as net CO2 sinks. The carbon source was associated with organic rich soils, grazing, and heat stress. Comparison of P g, R e, and NEE for tower sites with the same characteristics from previously published papers obtained with other methods did not reveal significant discrepancies. Preliminary results indicate relationships of grassland P g and R e to macroclimatic factors (precipitation and temperature), but these relationships cannot be reduced to simple monofactorial models. [Copyright &y& Elsevier]

Published
2007
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43. Inter-comparison of hemispherical conical reflectance factors (HCRF) measured with four fibre-based spectrometers

Author

A. Mac Arthur, Loris Vescovo, Manuela Balzarolo, Tommaso Julitta, Javier Pacheco-Labrador, Micol Rossini, Karen Anderson, Francesco Fava, Ministerio de Ciencia e Innovación (España), Pacheco-Labrador, Javier [0000-0003-3401-7081], Anderson, K, Rossini, M, Pacheco Labrador, J, Balzarolo, M, Mac Arthur, A, Fava, F, Julitta, T, Vescovo, L, and Pacheco-Labrador, Javier

Subjects
Chlorophyll, Time Factors, Noon, Optics, Quality (physics), Settore BIO/07 - ECOLOGIA, Hemispherical Conical Reflectance Factors (HCRF), spectroradiometer,radiometric performance, reproducibility, vegetation, Optical depth, Plant Physiological Phenomena, Remote sensing, Reproducibility, Models, Statistical, Spectroscopy, Near-Infrared, Spectrometer, business.industry, Reproducibility of Results, Agriculture, Equipment Design, Plants, Atomic and Molecular Physics, and Optics, Full width at half maximum, Spectroradiometer, GEO/10 - GEOFISICA DELLA TERRA SOLIDA, Spectrophotometry, Environmental science, Stage (hydrology), business, Algorithms, Environmental Monitoring
Abstract

We describe the results of an experiment designed to compare the radiometric performance of four different spectroradiometers in ideal field conditions. A carefully designed experiment where instruments were simultaneously triggered was used to measure the Hemispherical Conical Reflectance Factors (HCRF) of four targets of varying reflectance. The experiment was in two parts. Stage 1 covered a 2 hour period finishing at solar noon, where 50 measurements of the targets were collected in sequence. Stage 2 comprised 10 rapid sequential measurements over each target. We applied a method for normalising full width half maximum (FWHM) differences between the instruments, which was a source of variability in the raw data. The work allowed us to determine data reproducibility, and we found that lower-cost instruments (Ocean Optics and PP Systems) produced data of similar radiometric quality to those manufactured by Analytical Spectral Devices (ASD -here we used the ASD FieldSpec Pro) in the spectral range 400-850 nm, which is the most significant region for research communities interested in measuring vegetation dynamics. Over the longer time-series there were changes in HCRF caused by the structural and spectral characteristics of some targets. © 2013 Optical Society of America., The field experiment described in this paper was undertaken by participants in the EU funded COST Action (ES0903 “Eurospec”; http://cost-es0903.fem-environment.eu/) as part of a Summer School exercise in July 2011. Travel to the field site in Monte Bondone was part-funded by the EU COST action (PI: Loris Vescovo) through travel reimbursement to the Summer School instructors who are the authors of this paper. We are grateful to the participants of the Summer School for their help in setting up the experiment. We also wish to thank PP Systems, who lent Javier Pacheco-Labrador the 2m fibre optic cables used in the experiment and we are grateful to the BIOSPEC project (CGL2008-02301/CLI; http://www.lineas.cchs.csic.es/biospec) funded by the Spanish Ministry of Science and Innovation which has provided funding for Javier Pacheco-Labrador’s research

Published
2013

44. Ground-based optical measurements at European flux sites: a review of methods, instruments and current controversies

Author

Manuela Balzarolo 1, Karen Anderson 2, Caroline Nichol 3, Micol Rossini 4, Loris Vescovo 5, Nicola Arriga 1, Georg Wohlfahrt 6, Jean-Christophe Calvet 7, Arnaud Carrara 8, Sofia Cerasoli 9, Sergio Cogliati 4, Fabrice Daumard 10, Lars Eklundh 11, Jan A. Elbers 12, Fatih Evrendilek 13, Rebecca N. Handcock 14, Joerg Kaduk 15, Katja Klumpp 16, Bernard Longdoz 17, Giorgio Matteucci 18, Michele Meroni 4, Lenoardo Montagnani 20, Jean-Marc Ourcival 22, Enrique P. Sánchez-Cañete 23, Jean-Yves Pontailler 24, Radoslaw Juszczak 25, Bob Scholes 26, M. Pilar Martín 27, DIBAF, University of Tuscia, Via S.C. de Lellis, 01100 Viterbo, Italy, Department of Geography, University of Exeter, Rennes Drive, Exeter, United Kingdom, School of Geosciences [Edinburgh], University of Edinburgh, DISAT, University of Milan-Bicocca, piazza della Scienza 1, 20126 Milano, Italy, CRI, Fondazione E. Mach, Viote del Monte Bondone, Trento, Italy, Institut für Ökologie, Universität Innsbruck, Sternwartestr. 15, 6020 Innsbruck, Austria, Groupe d'étude de l'atmosphère météorologique (CNRM-GAME), Institut national des sciences de l'Univers (INSU - CNRS)-Météo France-Centre National de la Recherche Scientifique (CNRS), Fundacion CEAM, Parque Tecnologico, Calle C.R. Darwin, Paterna, SP-46980, Valencia, Spain, Forest Research Centre, School of Agriculture, Technical University of Lisbon, Tapada da Ajuda, 1349-017, Lisboa, Portugal, Laboratoire de Météorologie Dynamique (UMR 8539) (LMD), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-École polytechnique (X)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS)-Département des Géosciences - ENS Paris, École normale supérieure - Paris (ENS Paris)-École normale supérieure - Paris (ENS Paris), Department of Earth and Ecosystem Sciences [Lund], Lund University [Lund], Alterra, ESS-CC Group, PO Box 47, 6700 AA Wageningen, Netherlands, Department of Environmental Engineering, Abant Izzet Baysal University, Gölköy Campus, 14280 Bolu, Turkey, CSIRO, Private Bag 5, Wembley, WA, 6913, Australia, Department of Geography [Leicester], University of Leicester, INRA, Grassland Ecosystem Research Unite, UR874, 63100 Clermont Ferrand, France, Ecologie et Ecophysiologie Forestières [devient SILVA en 2018] (EEF), Institut National de la Recherche Agronomique (INRA)-Université de Lorraine (UL), CNR, Institute for Agricultural and Forestry Systems in the Mediterranean, Via Cavour, 4-6 I-87036, Rende, Italy, JRC Institute for Environment and Sustainability (IES), European Commission - Joint Research Centre [Ispra] (JRC), Forest Services and Agency for the Environment, Autonomous Province of Bolzano, Bolzano, Italy, Faculty of Science and Technology, Free University of Bolzano, Bolzano, Italy, Centre d’Ecologie Fonctionnelle et Evolutive (CEFE), Université Paul-Valéry - Montpellier 3 (UM3)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-École pratique des hautes études (EPHE)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Instituto de Astrofísica de Andalucía (IAA), Consejo Superior de Investigaciones Científicas [Spain] (CSIC), Laboratoire d'Ecologie Végétale, Université Paris Sud-Orsay, CNRS URA 1492 Bât. 362, 91405 Orsay Cedex, France, Dept. of Meteorology, Poznan University of Life Sciences, Piatkowska 94, 60-649 Poznan, Poland, CSIR, Ecosystem Processes and Dynamics, PO Box 395, 0001 Pretoria, South Africa, Centro de Ciencias Humanas y Sociales (CCHS), Balzarolo, Manuela, University of Exeter, Università degli Studi di Milano-Bicocca = University of Milano-Bicocca (UNIMIB), Centre national de recherches météorologiques (CNRM), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire Midi-Pyrénées (OMP), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS), École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Unité de recherche sur l'Ecosystème Prairial (UREP), Institut National de la Recherche Agronomique (INRA), Université Paul-Valéry - Montpellier 3 (UPVM)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), Council for Scientific and Industrial Research [Pretoria] (CSIR), Fundación Centro de Estudios Ambientales del Mediterráneo, University of Innsbruck, Austrian Science Fund, Tyrolean Science Fund, Natural Environment Research Council (UK), European Commission, European Cooperation in Science and Technology, Martín, M. Pilar [0000-0002-5563-8461], Balzarolo, Manuela [0000-0002-7888-1501], Rossini, Micol [0000-0002-6052-3140], Arriga, Nicola [0000-0001-5321-3497], Carrara, Arnaud [0000-0002-9095-8807], Cerasoli, Sofia [0000-0002-9118-193X], Eklundh, Lars [0000-0001-7644-6517], Elbers, Jan A. [0000-0002-0631-3505], Handcock, Rebecca N. [0000-0001-5903-6620], Sánchez-Cañete, Enrique P. [0000-0003-0482-6726], Juszczak, Radoslaw [0000-0002-5212-7383], Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Département des Géosciences - ENS Paris, École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-École des Ponts ParisTech (ENPC)-École polytechnique (X)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC), Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut National de la Recherche Agronomique (INRA)-Université Paul-Valéry - Montpellier 3 (UPVM)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut de Recherche pour le Développement (IRD [France-Sud]), Balzarolo, M, Anderson, K, Nichol, C, Rossini, M, Vescovo, L, Arriga, N, Wohlfahrt, G, Calvet, J, Carrara, A, Cerasoli, S, Cogliati, S, Daumard, F, Eklundh, L, Elbers, J, Evrendilek, F, Handcock, R, Kaduk, J, Klumpp, K, Longdoz, B, Matteucci, G, Meroni, M, Montagnani, L, Ourcival, J, Sanchez Canete, E, Pontailler, J, Juszczak, R, Scholes, B, Martin, M, Martín, M. Pilar, Rossini, Micol, Arriga, Nicola, Carrara, Arnaud, Cerasoli, Sofia, Eklundh, Lars, Elbers, Jan A., Handcock, Rebecca N., Sánchez-Cañete, Enrique P., and Juszczak, Radoslaw

Subjects
Optics and Photonics, Time Factors, Light, 010504 meteorology & atmospheric sciences, Computer science, Climate, Cost-Benefit Analysis, International Cooperation, resolution ndvi, 0211 other engineering and technologies, standardisation, Review, 02 engineering and technology, lcsh:Chemical technology, spectral reflectance, sensors, 7. Clean energy, 01 natural sciences, Biochemistry, Analytical Chemistry, european flux networks, protocol standardization, optical measurements, vegetation indexes, co2 fluxes, photosynthetic efficiency, ndvi measurements, carbon dioxide, ecosystem, calibration, validation, CARBON-DIOXIDE, sensor, Surveys and Questionnaires, Environmental monitoring, lcsh:TP1-1185, Instrumentation, protocole, [PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics], efficience photosynthétique, Sampling (statistics), NDVI MEASUREMENTS, Atomic and Molecular Physics, and Optics, Variety (cybernetics), Europe, indice de végétation, Protocol standardisation, European flux networks, Environmental Monitoring, Underpinning, Conservation of Natural Resources, PHOTOSYNTHETIC EFFICIENCY, Climate Change, Eddy covariance, Biophysics, Climate change, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, protocol standardisation, Optical measurements, écosystème, VALIDATION, dioxyde de carbone, Settore BIO/07 - ECOLOGIA, optical measurement, Electrical and Electronic Engineering, Radiometry, SPECTRAL REFLECTANCE, Remote sensing, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Protocol (science), FOOTPRINT, Electronic Data Processing, VEGETATION INDEXES, CO2 FLUXES, Sensors, mesure optique, flux de co2, Reproducibility of Results, Data science, reflectance spectrale, GEO/10 - GEOFISICA DELLA TERRA SOLIDA, Software deployment, Autre (Sciences de l'ingénieur), capteur, ndvi, RESOLUTION NDVI, ECOSYSTEM
Abstract

This paper reviews the currently available optical sensors, their limitations and opportunities for deployment at Eddy Covariance (EC) sites in Europe. This review is based on the results obtained from an online survey designed and disseminated by the Co-cooperation in Science and Technology (COST) Action ESO903—“Spectral Sampling Tools for Vegetation Biophysical Parameters and Flux Measurements in Europe” that provided a complete view on spectral sampling activities carried out within the different research teams in European countries. The results have highlighted that a wide variety of optical sensors are in use at flux sites across Europe, and responses further demonstrated that users were not always fully aware of the key issues underpinning repeatability and the reproducibility of their spectral measurements. The key findings of this survey point towards the need for greater awareness of the need for standardisation and development of a common protocol of optical sampling at the European EC sites., This work was supported by the EU COST Office in the framework of the Action ES0903. C.Nichol’s project on spectral sensing is funded through a UK Natural Environment Research Council standard grant (NE/F017294/1). G.W. acknowledges financial support by the Austrian National Science Fund and the Tyrolean Science Fund through grants P17560-B16 and P19849-B16 and Uni-404/33 and Uni-404/486, respectively, as well as the University of Innsbruck. A.C. acknowledges financial support provide to Foundation CEAM by the programs CONSOLIDER- INGENIO 2010 (GRACCIE), and CARBORED-II (CGL2010-22193-C04-01).

Published
2011
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45. The Flt3-inhibitor quizartinib augments apoptosis and promotes maladaptive remodeling after myocardial infarction in mice.

Author

Monogiou Belik D, Bernasconi R, Xu L, Della Verde G, Lorenz V, Grüterich V, Balzarolo M, Mochizuki M, Pfister O, and Kuster GM

Subjects
Humans, Mice, Rats, Animals, fms-Like Tyrosine Kinase 3 genetics, Hydrogen Peroxide, Apoptosis, Benzothiazoles pharmacology, Phenylurea Compounds pharmacology, Protein Kinase Inhibitors pharmacology, Leukemia, Myeloid, Acute metabolism, Myocardial Infarction drug therapy, Myocardial Infarction genetics
Abstract

Background: Tyrosine kinase inhibitors (TKIs) targeting fms-like tyrosine kinase 3 (Flt3) such as quizartinib were specifically designed for acute myeloid leukemia treatment, but also multi-targeting TKIs applied to solid tumor patients inhibit Flt3. Flt3 is expressed in the heart and its activation is cytoprotective in myocardial infarction (MI) in mice., Objectives: We sought to test whether Flt3-targeting TKI treatment aggravates cardiac injury after MI., Methods and Results: Compared to vehicle, quizartinib (10 mg/kg/day, gavage) did not alter cardiac dimensions or function in healthy mice after four weeks of therapy. Pretreated mice were randomly assigned to MI or sham surgery while receiving quizartinib or vehicle for one more week. Quizartinib did not aggravate the decline in ejection fraction, but significantly enhanced ventricular dilatation one week after infarction. In addition, apoptotic cell death was significantly increased in the myocardium of quizartinib-treated compared to vehicle-treated mice. In vitro, quizartinib dose-dependently decreased cell viability in neonatal rat ventricular myocytes and in H9c2 cells, and increased apoptosis as assessed in the latter. Together with H 2 O 2, quizartinib potentiated the phosphorylation of the pro-apoptotic mitogen activated protein kinase p38 and augmented H 2 O 2 -induced cell death and apoptosis beyond additive degree. Pretreatment with a p38 inhibitor abolished apoptosis under quizartinib and H 2 O 2 ., Conclusion: Quizartinib potentiates apoptosis and promotes maladaptive remodeling after MI in mice at least in part via a p38-dependent mechanism. These findings are consistent with the multi-hit hypothesis of cardiotoxicity and make cardiac monitoring in patients with ischemic heart disease under Flt3- or multi-targeting TKIs advisable., (© 2023. The Author(s).)

Published
2024
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46. NOX1 mediates metabolic heart disease in mice and is upregulated in monocytes of humans with diastolic dysfunction.

Author

Xu L, Balzarolo M, Robinson EL, Lorenz V, Della Verde G, Joray L, Mochizuki M, Kaufmann BA, Valstar G, de Jager SCA, den Ruijter HM, Heymans S, Pfister O, and Kuster GM

Subjects
Humans, Mice, Male, Animals, Monocytes, Lipopolysaccharides, Endothelial Cells, Inflammation, Mice, Inbred C57BL, Mice, Knockout, Heart Diseases, Metabolic Diseases
Abstract

Aims: Microvascular inflammation plays an important role in the pathogenesis of diastolic dysfunction (DD) and metabolic heart disease. NOX1 is expressed in vascular and immune cells and has been implicated in the vascular pathology of metabolic disease. However, its contribution to metabolic heart disease is less understood., Methods and Results: NOX1-deficient mice (KO) and male wild-type (WT) littermates were fed a high-fat high-sucrose diet (HFHS) and injected streptozotocin (75 mg/kg i.p.) or control diet (CTD) and sodium citrate. Despite similar weight gain and increase in fasting blood glucose and insulin, only WT-HFHS but not KO-HFHS mice developed concentric cardiac hypertrophy and elevated left ventricular filling pressure. This was associated with increased endothelial adhesion molecule expression, accumulation of Mac-2-, IL-1β-, and NLRP3-positive cells and nitrosative stress in WT-HFHS but not KO-HFHS hearts. Nox1 mRNA was solidly expressed in CD45+ immune cells isolated from healthy mouse hearts but was negligible in cardiac CD31+ endothelial cells. However, in vitro, Nox1 expression increased in response to lipopolysaccharide (LPS) in endothelial cells and contributed to LPS-induced upregulation of Icam-1. Nox1 was also upregulated in mouse bone marrow-derived macrophages in response to LPS. In peripheral monocytes from age- and sex-matched symptomatic patients with and without DD, NOX1 was significantly higher in patients with DD compared to those without DD., Conclusions: NOX1 mediates endothelial activation and contributes to myocardial inflammation and remodelling in metabolic disease in mice. Given its high expression in monocytes of humans with DD, NOX1 may represent a potential target to mitigate heart disease associated with DD., Competing Interests: Conflict of interest: none declared., (© The Author(s) 2021. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published
2022
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47. Effects of land use and climate on carbon and nitrogen pool partitioning in European mountain grasslands.

Author

Seeber J, Tasser E, Rubatscher D, Loacker I, Lavorel S, Robson TM, Balzarolo M, Altimir N, Drösler M, Vescovo L, Gamper S, Barančok P, Staszewski T, Wohlfahrt G, Cernusca A, Sebastia MT, Tappeiner U, and Bahn M

Subjects
Grassland, Plants, Soil chemistry, Carbon, Nitrogen analysis
Abstract

European mountain grasslands are increasingly affected by land-use changes and climate, which have been suggested to exert important controls on grassland carbon (C) and nitrogen (N) pools. However, so far there has been no synthetic study on whether and how land-use changes and climate interactively affect the partitioning of these pools amongst the different grassland compartments. We analyzed the partitioning of C and N pools of 36 European mountain grasslands differing in land-use and climate with respect to above- and belowground phytomass, litter and topsoil (top 23 cm). We found that a reduction of management intensity and the abandonment of hay meadows and pastures increased above-ground phytomass, root mass and litter as well as their respective C and N pools, concurrently decreasing the fractional contribution of the topsoil to the total organic carbon pool. These changes were strongly driven by the cessation of cutting and grazing, a shift in plant functional groups and a related reduction in litter quality. Across all grasslands studied, variation in the impact of land management on the topsoil N pool and C/N-ratio were mainly explained by soil clay content combined with pH. Across the grasslands, below-ground phytomass as well as phytomass- and litter C concentrations were inversely related to the mean annual temperature; furthermore, C/N-ratios of phytomass and litter increased with decreasing mean annual precipitation. Within the topsoil compartment, C concentrations decreased from colder to warmer sites, and increased with increasing precipitation. Climate generally influenced effects of land use on C and N pools mainly through mean annual temperature and less through mean annual precipitation. We conclude that site-specific conditions need to be considered for understanding the effects of land use and of current and future climate changes on grassland C and N pools., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022. Published by Elsevier B.V.)

Published
2022
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48. Amendment with halophytes and wind deposit allow subsequent cultivation of sorghum on a saline-sodic soil in the arid region of Yazd (Iran).

Author

KhavaninZade AR, Sodaeizadeh H, Akhavan Ghalibaf M, Veroustraete F, and Balzarolo M

Subjects
Salt-Tolerant Plants, Wind, Calcium Sulfate, Iran, Biodegradation, Environmental, Saline Solution, Soil, Sorghum
Abstract

Aridity and salinity limit sustainable biomass production and agricultural practices in desert areas. The capability of halophytes plantation with wind deposits containing around 10% gypsum was evaluated for reclamation of saline soil and its effect on the production of Sorghum bicolar L., in an arid area. Two substance treatments at concentrations of 25 and 50 ton ha -1 gypsum and wind deposits at levels of 85 and 170 ton ha -1 were applied. Biological treatments were applied using halophyte plantation as a pioneer species. Sorghum was cultivated for all substance treatments and the production of sorghum was determined for the different treatments. Results indicated that the method leads to a reduction of salinity from 139 to <4 dS m -1 and SAR declined from 129.6 to 6.2 after a period of 15 months. The performance of wind deposits used in these experiments was higher than pure gypsum to reclaim saline soils. Maximum production of sorghum has been obtained by the treatment of 85 ton ha -1 wind deposit. Results indicated land reclamation and biomass production of forage seems possible when using wind deposit in the study area and therefore the wind deposit can effectively be used for reclamation of saline soil and plant production in arid environments.

Published
2022
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49. m6A methylation potentiates cytosolic dsDNA recognition in a sequence-specific manner.

Author

Balzarolo M, Engels S, de Jong AJ, Franke K, van den Berg TK, Gulen MF, Ablasser A, Janssen EM, van Steensel B, and Wolkers MC

Subjects
Adenine metabolism, Animals, Antigens, CD metabolism, Antigens, Differentiation, T-Lymphocyte metabolism, B7-2 Antigen metabolism, Cells, Cultured, Chemokine CXCL10 metabolism, Cytoplasm metabolism, Dendritic Cells immunology, Humans, Interferon-beta metabolism, Lectins, C-Type metabolism, Macrophages immunology, Mice, Mice, Inbred C57BL, Nitric Oxide Synthase Type II metabolism, Oligodeoxyribonucleotides chemistry, Toll-Like Receptors metabolism, Adenine analogs & derivatives, DNA Methylation, Immunity, Innate, Oligodeoxyribonucleotides immunology
Abstract

Nucleic acid sensing through pattern recognition receptors is critical for immune recognition of microbial infections. Microbial DNA is frequently methylated at the N 6 position of adenines (m6A), a modification that is rare in mammalian host DNA. We show here how that m6A methylation of 5'-GATC-3' motifs augments the immunogenicity of synthetic double-stranded (ds)DNA in murine macrophages and dendritic cells. Transfection with m6A-methylated DNA increased the expression of the activation markers CD69 and CD86, and of Ifnβ , iNos and Cxcl10 mRNA. Similar to unmethylated cytosolic dsDNA, recognition of m6A DNA occurs independently of TLR and RIG-I signalling, but requires the two key mediators of cytosolic DNA sensing, STING and cGAS. Intriguingly, the response to m6A DNA is sequence-specific. m6A is immunostimulatory in some motifs, but immunosuppressive in others, a feature that is conserved between mouse and human macrophages. In conclusion, epigenetic alterations of DNA depend on the context of the sequence and are differentially perceived by innate cells, a feature that could potentially be used for the design of immune-modulating therapeutics.

Published
2021
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50. Detecting the onset of autumn leaf senescence in deciduous forest trees of the temperate zone.

Author

Mariën B, Balzarolo M, Dox I, Leys S, Lorène MJ, Geron C, Portillo-Estrada M, AbdElgawad H, Asard H, and Campioli M

Subjects
Species Specificity, Time Factors, Forests, Plant Leaves growth & development, Seasons, Trees growth & development
Abstract

Information on the onset of leaf senescence in temperate deciduous trees and comparisons on its assessment methods are limited, hampering our understanding of autumn dynamics. We compare five field proxies, five remote sensing proxies and two data analysis approaches to assess leaf senescence onset at one main beech stand, two stands of oak and birch, and three ancillary stands of the same species in Belgium during 2017 and 2018. Across species and sites, onset of leaf senescence was not significantly different for the field proxies based on Chl leaf content and canopy coloration, except for an advanced canopy coloration during the extremely dry and warm 2018. Two remote sensing indices provided results fully consistent with the field data. A significant lag emerged between leaf senescence onset and leaf fall, and when a threshold of 50% change in the seasonal variable under study (e.g. Chl content) was used to derive the leaf senescence onset. Our results provide unprecedented information on the quality and applicability of different proxies to assess leaf senescence onset in temperate deciduous trees. In addition, a sound base is offered to select the most suited methods for the different disciplines that need this type of data., (© 2019 The Authors. New Phytologist © 2019 New Phytologist Trust.)

Published
2019
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