Your search keyword '"Mac Arthur, Alasdair"' showing total 25 results

1. FluoCat: A cable-suspended multi-sensor system for the vegetation SIF Cal/Val monitoring and estimation of effective sunlit surface fluorescence

Author

Moncholi-Estornell, Adrián, Van Wittenberghe, Shari, Pilar Cendrero-Mateo, Maria, Alonso, Luis, Jiménez, Marcos, Urrego, Patricia, Mac Arthur, Alasdair, and Moreno, José

Published

2023

2. Real surface vegetation functioning and and early stress detection using visible-NIR-thermal sensor synergies: from UAS to future satellite applications 

Author

Moncholi, Adrián, primary, Van Wittenberghe, Shari, additional, Cendrero-Mateo, Maria Pilar, additional, Alonso, Luis, additional, Jiménez, Marcos, additional, Berger, Katja, additional, Mac Arthur, Alasdair, additional, and Moreno, José, additional

Published

2023

3. Can the atmospheric aerosol impact on the functioning of a peatland?

Author

Harenda, Kamila, primary, Markowicz, Krzysztof, additional, Poczta, Patryk, additional, Stachlewska, Iwona, additional, Bojanowski, Jędrzej, additional, Czernecki, Bartosz, additional, Mac Arthur, Alasdair, additional, Schüttemeyer, Dirk, additional, and Chojnicki, Bogdan, additional

Published

2023

4. A comparison of methods to estimate photosynthetic light absorption in leaves with contrasting morphology

Author

Olascoaga, Beñat, Mac Arthur, Alasdair, Atherton, Jon, and Porcar-Castell, Albert

Published

2016

5. Comparison of Sun-Induced Chlorophyll Fluorescence Estimates Obtained from Four Portable Field Spectroradiometers

Author

Julitta, Tommaso, Corp, Lawrence A, Rossini, Micol, Burkart, Andreas, Cogliati, Sergio, Davies, Neville, Hom, Milton, Mac Arthur, Alasdair, Middleton, Elizabeth M, Rascher, Uwe, Schickling, Anke, and Colombo, Roberto

Subjects

Earth Resources And Remote Sensing

Abstract

Remote Sensing of Sun-Induced Chlorophyll Fluorescence (SIF) is a research field of growing interest because it offers the potential to quantify actual photosynthesis and to monitor plant status. New satellite missions from the European Space Agency, such as the Earth Explorer 8 FLuorescence EXplorer (FLEX) mission-scheduled to launch in 2022 and aiming at SIF mapping-and from the National Aeronautics and Space Administration (NASA) such as the Orbiting Carbon Observatory-2 (OCO-2) sampling mission launched in July 2014, provide the capability to estimate SIF from space. The detection of the SIF signal from airborne and satellite platform is difficult and reliable ground level data are needed for calibration/validation. Several commercially available spectroradiometers are currently used to retrieve SIF in the field. This study presents a comparison exercise for evaluating the capability of four spectroradiometers to retrieve SIF. The results show that an accurate far-red SIF estimation can be achieved using spectroradiometers with an ultrafine resolution (less than 1 nm), while the red SIF estimation requires even higher spectral resolution (less than 0.5 nm). Moreover, it is shown that the Signal to Noise Ratio (SNR) plays a significant role in the precision of the far-red SIF measurements.

Published

2016

6. Unmanned Aerial Systems (UAS)-Based Methods for Solar Induced Chlorophyll Fluorescence (SIF) Retrieval with Non-Imaging Spectrometers: State of the Art

Author

Vargas, Juan Quirós, Bendig, Juliane, Mac Arthur, Alasdair, Burkart, Andreas, Julitta, Tommaso, Maseyk, Kadmiel, Thomas, Rick, Siegmann, Bastian, Rossini, Micol, Celesti, Marco, Schüttemeyer, Dirk, Kraska, Thorsten, Muller, Onno, Rascher, Uwe, Vargas, J, Bendig, J, Mac Arthur, A, Burkart, A, Julitta, T, Maseyk, K, Thomas, R, Siegmann, B, Rossini, M, Celesti, M, Schüttemeyer, D, Kraska, T, Muller, O, and Rascher, U

Subjects

VNIR, Telluric band, ESA-FLEX, telluric bands, SIF, hyperspectral remote sensing, lcsh:Q, UAS, ddc:620, light weight spectroradiometer, lcsh:Science

Abstract

Chlorophyll fluorescence (ChlF) information offers a deep insight into the plant physiological status by reason of the close relationship it has with the photosynthetic activity. The unmanned aerial systems (UAS)-based assessment of solar induced ChlF (SIF) using non-imaging spectrometers and radiance-based retrieval methods, has the potential to provide spatio-temporal photosynthetic performance information at field scale. The objective of this manuscript is to report the main advances in the development of UAS-based methods for SIF retrieval with non-imaging spectrometers through the latest scientific contributions, some of which are being developed within the frame of the Training on Remote Sensing for Ecosystem Modelling (TRuStEE) program. Investigations from the Universities of Edinburgh (School of Geosciences) and Tasmania (School of Technology, Environments and Design) are first presented, both sharing the principle of the spectroradiometer optical path bifurcation throughout, the so called 'Piccolo-Doppio' and 'AirSIF' systems, respectively. Furthermore, JB Hyperspectral Devices' ongoing investigations towards the closest possible characterization of the atmospheric interference suffered by orbital platforms are outlined. The latest approach focuses on the observation of one single ground point across a multiple-kilometer atmosphere vertical column using the high altitude UAS named as AirFloX, mounted on a specifically designed and manufactured fixed wing platform: 'FloXPlane'. We present technical details and preliminary results obtained from each instrument, a summary of their main characteristics, and finally the remaining challenges and open research questions are addressed. On the basis of the presented findings, the consensus is that SIF can be retrieved from low altitude spectroscopy. However, the UAS-based methods for SIF retrieval still present uncertainties associated with the current sensor characteristics and the spatio-temporal mismatching between aerial and ground measurements, which complicate robust validations. Complementary studies regarding the standardization of calibration methods and the characterization of spectroradiometers and data processing workflows are also required. Moreover, other open research questions such as those related to the implementation of atmospheric correction, bidirectional reflectance distribution function (BRDF) correction, and accurate surface elevation models remain to be addressed.

Published

2020

7. Unmanned Aerial Systems (UAS)-Based Methods for Solar Induced Chlorophyll Fluorescence (SIF) Retrieval with Non-Imaging Spectrometers: State of the Art

Author

Vargas, J, Bendig, J, Mac Arthur, A, Burkart, A, Julitta, T, Maseyk, K, Thomas, R, Siegmann, B, Rossini, M, Celesti, M, Schüttemeyer, D, Kraska, T, Muller, O, Rascher, U, Vargas, Juan Quirós, Bendig, Juliane, Mac Arthur, Alasdair, Burkart, Andreas, Julitta, Tommaso, Maseyk, Kadmiel, Thomas, Rick, Siegmann, Bastian, Rossini, Micol, Celesti, Marco, Schüttemeyer, Dirk, Kraska, Thorsten, Muller, Onno, Rascher, Uwe, Vargas, J, Bendig, J, Mac Arthur, A, Burkart, A, Julitta, T, Maseyk, K, Thomas, R, Siegmann, B, Rossini, M, Celesti, M, Schüttemeyer, D, Kraska, T, Muller, O, Rascher, U, Vargas, Juan Quirós, Bendig, Juliane, Mac Arthur, Alasdair, Burkart, Andreas, Julitta, Tommaso, Maseyk, Kadmiel, Thomas, Rick, Siegmann, Bastian, Rossini, Micol, Celesti, Marco, Schüttemeyer, Dirk, Kraska, Thorsten, Muller, Onno, and Rascher, Uwe

Abstract

Chlorophyll fluorescence (ChlF) information offers a deep insight into the plant physiological status by reason of the close relationship it has with the photosynthetic activity. The unmanned aerial systems (UAS)-based assessment of solar induced ChlF (SIF) using non-imaging spectrometers and radiance-based retrieval methods, has the potential to provide spatio-temporal photosynthetic performance information at field scale. The objective of this manuscript is to report the main advances in the development of UAS-based methods for SIF retrieval with non-imaging spectrometers through the latest scientific contributions, some of which are being developed within the frame of the Training on Remote Sensing for Ecosystem Modelling (TRuStEE) program. Investigations from the Universities of Edinburgh (School of Geosciences) and Tasmania (School of Technology, Environments and Design) are first presented, both sharing the principle of the spectroradiometer optical path bifurcation throughout, the so called 'Piccolo-Doppio' and 'AirSIF' systems, respectively. Furthermore, JB Hyperspectral Devices' ongoing investigations towards the closest possible characterization of the atmospheric interference suffered by orbital platforms are outlined. The latest approach focuses on the observation of one single ground point across a multiple-kilometer atmosphere vertical column using the high altitude UAS named as AirFloX, mounted on a specifically designed and manufactured fixed wing platform: 'FloXPlane'. We present technical details and preliminary results obtained from each instrument, a summary of their main characteristics, and finally the remaining challenges and open research questions are addressed. On the basis of the presented findings, the consensus is that SIF can be retrieved from low altitude spectroscopy. However, the UAS-based methods for SIF retrieval still present uncertainties associated with the current sensor characteristics and the spatio-temporal mismatching betwe

Published

2020

8. Sun-induced chlorophyll fluorescence II: Review of passive measurement setups, protocols, and their application at the leaf to canopy level

Author

Aasen, Helge, Van Wittenberghe, Shari, Medina, Neus Sabater, Damm, Alexander, Goulas, Yves, Wieneke, Sebastian, Hueni, Andreas, Malenovský, Zbyněk, Alonso, Luis, Pacheco-Labrador, Javier, Cendrero-Mateo, M Pilar, Tomelleri, Enrico, Burkart, Andreas, Cogliati, Sergio, Rascher, Uwe, Mac Arthur, Alasdair, Aasen, H, Van Wittenberghe, S, Medina, N, Damm, A, Goulas, Y, Wieneke, S, Hueni, A, Malenovsky, Z, Alonso, L, Pacheco-Labrador, J, Cendrero-Mateo, M, Tomelleri, E, Burkart, A, Cogliati, S, Rascher, U, Arthur, A, University of Zurich, and Aasen, Helge

Subjects

Vegetation, UFSP13-8 Global Change and Biodiversity, FIS/06 - FISICA PER IL SISTEMA TERRA E PER IL MEZZO CIRCUMTERRESTRE, Science, 1900 General Earth and Planetary Sciences, GEO/12 - OCEANOGRAFIA E FISICA DELL'ATMOSFERA, Sun-induced fluorescence, Spectroradiometer, Spectrometer, Radiance, Reflectance, Remote sensing, FLEX, GEO/11 - GEOFISICA APPLICATA, 10122 Institute of Geography, GEO/10 - GEOFISICA DELLA TERRA SOLIDA, General Earth and Planetary Sciences, ddc:620, 910 Geography & travel

Abstract

Imaging and non-imaging spectroscopy employed in the field and from aircraft is frequently used to assess biochemical, structural, and functional plant traits, as well as their dynamics in an environmental matrix. With the increasing availability of high-resolution spectroradiometers, it has become feasible to measure fine spectral features, such as those needed to estimate sun-induced chlorophyll fluorescence (F), which is a signal related to the photosynthetic process of plants. The measurement of F requires highly accurate and precise radiance measurements in combination with very sophisticated measurement protocols. Additionally, because F has a highly dynamic nature (compared with other vegetation information derived from spectral data) and low signal intensity, several environmental, physiological, and experimental aspects have to be considered during signal acquisition and are key for its reliable interpretation. The European Cooperation in Science and Technology (COST) Action ES1309 OPTIMISE has produced three articles addressing the main challenges in the field of F measurements. In this paper, which is the second of three, we review approaches that are available to measure F from the leaf to the canopy scale using ground-based and airborne platforms. We put specific emphasis on instrumental aspects, measurement setups, protocols, quality checks, and data processing strategies. Furthermore, we review existing techniques that account for atmospheric influences on F retrieval, address spatial scaling effects, and assess quality checks and the metadata and ancillary data required to reliably interpret retrieved F signals. ISSN:2072-4292

Published

2019

9. Hyplant-derived sun-induced fluorescence—a new opportunity to disentangle complex vegetation signals from diverse vegetation types

Author

Bandopadhyay, Subhajit; https://orcid.org/0000-0002-8657-3488, Rastogi, Anshu; https://orcid.org/0000-0002-0953-7045, Rascher, Uwe; https://orcid.org/0000-0002-9993-4588, Rademske, Patrick, Schickling, Anke; https://orcid.org/0000-0001-7446-7752, Cogliati, Sergio; https://orcid.org/0000-0002-7192-2032, Julitta, Tommaso, Mac Arthur, Alasdair, Hueni, Andreas; https://orcid.org/0000-0002-4283-2484, Tomelleri, Enrico, Celesti, Marco, Burkart, Andreas, Stróżecki, Marcin; https://orcid.org/0000-0003-0901-9894, Sakowska, Karolina, Gabka, Maciej, Rosadziński, Stanisław, Sojka, Mariusz; https://orcid.org/0000-0002-1453-0374, Iordache, Marian-Daniel, Reusen, Ils, van der Tol, Christiaan, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Schuettemeyer, Dirk, Juszczak, Radosław, Bandopadhyay, Subhajit; https://orcid.org/0000-0002-8657-3488, Rastogi, Anshu; https://orcid.org/0000-0002-0953-7045, Rascher, Uwe; https://orcid.org/0000-0002-9993-4588, Rademske, Patrick, Schickling, Anke; https://orcid.org/0000-0001-7446-7752, Cogliati, Sergio; https://orcid.org/0000-0002-7192-2032, Julitta, Tommaso, Mac Arthur, Alasdair, Hueni, Andreas; https://orcid.org/0000-0002-4283-2484, Tomelleri, Enrico, Celesti, Marco, Burkart, Andreas, Stróżecki, Marcin; https://orcid.org/0000-0003-0901-9894, Sakowska, Karolina, Gabka, Maciej, Rosadziński, Stanisław, Sojka, Mariusz; https://orcid.org/0000-0002-1453-0374, Iordache, Marian-Daniel, Reusen, Ils, van der Tol, Christiaan, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Schuettemeyer, Dirk, and Juszczak, Radosław

Abstract

Hyperspectral remote sensing (RS) provides unique possibilities to monitor peatland vegetation traits and their temporal dynamics at a fine spatial scale. Peatlands provide a vital contribution to ecosystem services by their massive carbon storage and wide heterogeneity. However, monitoring, understanding, and disentangling the diverse vegetation traits from a heterogeneous landscape using complex RS signal is challenging, due to its wide biodiversity and distinctive plant species composition. In this work, we aim to demonstrate, for the first time, the large heterogeneity of peatland vegetation traits using well-established vegetation indices (VIs) and Sun-Induced Fluorescence (SIF) for describing the spatial heterogeneity of the signals which may correspond to spatial diversity of biochemical and structural traits. SIF originates from the initial reactions in photosystems and is emitted at wavelengths between 650–780 nm, with the first peak at around 687 nm and the second peak around 760 nm. We used the first HyPlant airborne data set recorded over a heterogeneous peatland area and its surrounding ecosystems (i.e., forest, grassland) in Poland. We deployed a comparative analysis of SIF and VIs obtained from differently managed and natural vegetation ecosystems, as well as from diverse small-scale peatland plant communities. Furthermore, spatial relationships between SIF and VIs from large-scale vegetation ecosystems to small-scale peatland plant communities were examined. Apart from signal variations, we observed a positive correlation between SIF and greenness-sensitive VIs, whereas a negative correlation between SIF and a VI sensitive to photosynthesis was observed for large-scale vegetation ecosystems. In general, higher values of SIF were associated with higher biomass of vascular plants (associated with higher Leaf Area Index (LAI)). SIF signals, especially SIF760, were strongly associated with the functional diversity of the peatland vegetation. At the peatl

Published

2019

10. Sun-induced chlorophyll fluorescence III: benchmarking retrieval methods and sensor characteristics for proximal sensing

Author

Cendrero-Mateo, M Pilar, Wieneke, Sebastian; https://orcid.org/0000-0001-8729-9751, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Alonso, Luis; https://orcid.org/0000-0002-8221-5739, Pinto, Francisco, Moreno, Jose, Guanter, Luis, Celesti, Marco; https://orcid.org/0000-0001-7249-7106, Rossini, Micol; https://orcid.org/0000-0002-6052-3140, Sabater, Neus, Cogliati, Sergio; https://orcid.org/0000-0002-7192-2032, Julitta, Tommaso, Rascher, Uwe, Goulas, Yves, Aasen, Helge, Pacheco-Labrador, Javier; https://orcid.org/0000-0003-3401-7081, Mac Arthur, Alasdair, Cendrero-Mateo, M Pilar, Wieneke, Sebastian; https://orcid.org/0000-0001-8729-9751, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Alonso, Luis; https://orcid.org/0000-0002-8221-5739, Pinto, Francisco, Moreno, Jose, Guanter, Luis, Celesti, Marco; https://orcid.org/0000-0001-7249-7106, Rossini, Micol; https://orcid.org/0000-0002-6052-3140, Sabater, Neus, Cogliati, Sergio; https://orcid.org/0000-0002-7192-2032, Julitta, Tommaso, Rascher, Uwe, Goulas, Yves, Aasen, Helge, Pacheco-Labrador, Javier; https://orcid.org/0000-0003-3401-7081, and Mac Arthur, Alasdair

Abstract

The interest of the scientific community on the remote observation of sun‐induced chlorophyll fluorescence (SIF) has increased in the recent years. In this context, hyperspectral ground measurements play a crucial role in the calibration and validation of future satellite missions. For this reason, the European cooperation in science and technology (COST) Action ES1309 OPTIMISE has compiled three papers on instrument characterization, measurement setups and protocols, and retrieval methods (current paper). This study is divided in two sections; first, we evaluated the uncertainties in SIF retrieval methods (e.g., Fraunhofer line depth (FLD) approaches and spectral fitting method (SFM)) for a combination of off-the-shelf commercial spectrometers. Secondly, we evaluated how an erroneous implementation of the retrieval methods increases the uncertainty in the estimated SIF values. Results show that the SFM approach applied to high-resolution spectra provided the most reliable SIF retrieval with a relative error (RE) ≤6% and <5% for F687 and F760, respectively. Furthermore, although the SFM was the least affected by an inaccurate definition of the absorption spectral window (RE = 5%) and/or interpolation strategy (RE = 15%–30%), we observed a sensitivity of the SIF retrieval for the simulated training data underlying the SFM model implementation.

Published

2019

11. Sun-Induced Chlorophyll Fluorescence III: Benchmarking Retrieval Methods and Sensor Characteristics for Proximal Sensing

Author

Pacheco-Labrador, Javier [0000-0003-3401-7081], Cendrero-Mateo, M. Pilar, Wieneke, Sebastian, Damm, Alexander, Alonso, Luis, Pinto, Francisco, Moreno, José, Guanter, Luis, Celesti, Marco, Rossini, Micol, Sabater, Neus, Cogliati, Sergio, Julitta, Tommaso, Rascher, Uwe, Goulas, Yves, Aasen, Helge, Pacheco-Labrador, Javier, Mac Arthur, Alasdair, Pacheco-Labrador, Javier [0000-0003-3401-7081], Cendrero-Mateo, M. Pilar, Wieneke, Sebastian, Damm, Alexander, Alonso, Luis, Pinto, Francisco, Moreno, José, Guanter, Luis, Celesti, Marco, Rossini, Micol, Sabater, Neus, Cogliati, Sergio, Julitta, Tommaso, Rascher, Uwe, Goulas, Yves, Aasen, Helge, Pacheco-Labrador, Javier, and Mac Arthur, Alasdair

Abstract

The interest of the scientific community on the remote observation of sun-induced chlorophyll fluorescence (SIF) has increased in the recent years. In this context, hyperspectral ground measurements play a crucial role in the calibration and validation of future satellite missions. For this reason, the European cooperation in science and technology (COST) Action ES1309 OPTIMISE has compiled three papers on instrument characterization, measurement setups and protocols, and retrieval methods (current paper). This study is divided in two sections; first, we evaluated the uncertainties in SIF retrieval methods (e.g., Fraunhofer line depth (FLD) approaches and spectral fitting method (SFM)) for a combination of off-the-shelf commercial spectrometers. Secondly, we evaluated how an erroneous implementation of the retrieval methods increases the uncertainty in the estimated SIF values. Results show that the SFM approach applied to high-resolution spectra provided the most reliable SIF retrieval with a relative error (RE) ≤6% and <5% for F687 and F760, respectively. Furthermore, although the SFM was the least affected by an inaccurate definition of the absorption spectral window (RE = 5%) and/or interpolation strategy (RE = 15–30%), we observed a sensitivity of the SIF retrieval for the simulated training data underlying the SFM model implementation.

Published

2019

12. Sun-Induced Chlorophyll Fluorescence I: Instrumental Considerations for Proximal Spectroradiometers

Author

Pacheco-Labrador, Javier [0000-0003-3401-7081], Pacheco-Labrador, Javier, Hueni, Andreas, Mihai, Laura, Sakowska, Karolina, Julitta, Tommaso, Kuusk, Joel, Sporea, Dan, Alonso, Luis, Burkart, Andreas, Cendrero-Mateo, M. Pilar, Aasen, Helge, Goulas, Yves, Mac Arthur, Alasdair, Pacheco-Labrador, Javier [0000-0003-3401-7081], Pacheco-Labrador, Javier, Hueni, Andreas, Mihai, Laura, Sakowska, Karolina, Julitta, Tommaso, Kuusk, Joel, Sporea, Dan, Alonso, Luis, Burkart, Andreas, Cendrero-Mateo, M. Pilar, Aasen, Helge, Goulas, Yves, and Mac Arthur, Alasdair

Abstract

first_pagesettingsOrder Article Reprints Open AccessArticle Sun-Induced Chlorophyll Fluorescence I: Instrumental Considerations for Proximal Spectroradiometers by Javier Pacheco-Labrador 1,*ORCID,Andreas Hueni 2ORCID,Laura Mihai 3ORCID,Karolina Sakowska 4,Tommaso Julitta 5,Joel Kuusk 6ORCID,Dan Sporea 3,Luis Alonso 7ORCID,Andreas Burkart 5,M. Pilar Cendrero-Mateo 7,Helge Aasen 8ORCID,Yves Goulas 9 andAlasdair Mac Arthur 10 1 Max Planck Institute for Biogeochemistry, Hanks Knöll Straße 10, D-07745 Jena, Germany 2 Remote Sensing Laboratories, University of Zurich, 8057 Zurich, Switzerland 3 CETAL, Photonic Investigations Laboratory, National Institute for Laser, Plasma and Radiation Physics, Măgurele 77125, Romania 4 Institute of Ecology, University of Innsbruck, 6020 Innsbruck, Austria 5 JB Hyperspectral Devices, 40225 Düsseldorf, Germany 6 Tartu Observatory, University of Tartu, 61602 Tõravere, Estonia 7 Image Processing Laboratory (IPL), Parc Científic, Universitat de València, 46980 Paterna, València, Spain 8 Crop Science Group, Institute of Agricultural Sciences, ETH Zurich, 8092 Zurich, Switzerland 9 LMD/IPSL, CNRS, ENS, PSL Research University, Ecole polytechnique, Université Paris-Saclay, UPMC Univ Paris 06, Sorbonne Universités, 91128 Palaiseau, France 10 School of Geosciences, University of Edinburgh, Edinburgh EH9 3FF, UK * Author to whom correspondence should be addressed. Remote Sens. 2019, 11(8), 960; https://doi.org/10.3390/rs11080960 Submission received: 28 February 2019 / Revised: 11 April 2019 / Accepted: 18 April 2019 / Published: 22 April 2019 (This article belongs to the Special Issue OPTIMISE: Innovative Optical Tools for Proximal Sensing of Ecophysiological Processes) Downloadkeyboard_arrow_down Browse Figures Versions Notes Abstract Growing interest in the proximal sensing of sun-induced chlorophyll fluorescence (SIF) has been boosted by space-based retrievals and up-coming missions such as the FLuorescence EXplorer (FLEX). The European COST Ac

Published

2019

13. Sun-Induced Chlorophyll Fluorescence II: Review of Passive Measurement Setups, Protocols, and Their Application at the Leaf to Canopy Level

Author

European Research Council, Generalitat Valenciana, Ministerio de Economía y Competitividad (España), Centre National D'Etudes Spatiales (France), Australian Research Council, University of Edinburgh, University of Zurich, European Space Agency, German Centre for Air and Space Travel, Federal Ministry for Economic Affairs and Climate Action (Germany), Alexander von Humboldt Foundation, Pacheco-Labrador, Javier [0000-0003-3401-7081], Aasen, Helge, Van Wittenberghe, Shari, Sabater Medina, Neus, Damm, Alexander, Goulas, Yves, Wieneke, Sebastian, Hueni, Andreas, Malenovský, Zbynek, Alonso, Luis, Pacheco-Labrador, Javier, Cendrero-Mateo, M. Pilar, Tomelleri, Enrico, Burkart, Andreas, Cogliati, Sergio, Rascher, Uwe, Mac Arthur, Alasdair, European Research Council, Generalitat Valenciana, Ministerio de Economía y Competitividad (España), Centre National D'Etudes Spatiales (France), Australian Research Council, University of Edinburgh, University of Zurich, European Space Agency, German Centre for Air and Space Travel, Federal Ministry for Economic Affairs and Climate Action (Germany), Alexander von Humboldt Foundation, Pacheco-Labrador, Javier [0000-0003-3401-7081], Aasen, Helge, Van Wittenberghe, Shari, Sabater Medina, Neus, Damm, Alexander, Goulas, Yves, Wieneke, Sebastian, Hueni, Andreas, Malenovský, Zbynek, Alonso, Luis, Pacheco-Labrador, Javier, Cendrero-Mateo, M. Pilar, Tomelleri, Enrico, Burkart, Andreas, Cogliati, Sergio, Rascher, Uwe, and Mac Arthur, Alasdair

Abstract

Imaging and non-imaging spectroscopy employed in the field and from aircraft is frequently used to assess biochemical, structural, and functional plant traits, as well as their dynamics in an environmental matrix. With the increasing availability of high-resolution spectroradiometers, it has become feasible to measure fine spectral features, such as those needed to estimate sun-induced chlorophyll fluorescence (F), which is a signal related to the photosynthetic process of plants. The measurement of F requires highly accurate and precise radiance measurements in combination with very sophisticated measurement protocols. Additionally, because F has a highly dynamic nature (compared with other vegetation information derived from spectral data) and low signal intensity, several environmental, physiological, and experimental aspects have to be considered during signal acquisition and are key for its reliable interpretation. The European Cooperation in Science and Technology (COST) Action ES1309 OPTIMISE has produced three articles addressing the main challenges in the field of F measurements. In this paper, which is the second of three, we review approaches that are available to measure F from the leaf to the canopy scale using ground-based and airborne platforms. We put specific emphasis on instrumental aspects, measurement setups, protocols, quality checks, and data processing strategies. Furthermore, we review existing techniques that account for atmospheric influences on F retrieval, address spatial scaling effects, and assess quality checks and the metadata and ancillary data required to reliably interpret retrieved F signals.

Published

2019

14. Sun-Induced Chlorophyll Fluorescence I: Instrumental Considerations for Proximal Spectroradiometers

Author

Pacheco-Labrador, Javier; https://orcid.org/0000-0003-3401-7081, Hueni, Andreas; https://orcid.org/0000-0002-4283-2484, Mihai, Laura; https://orcid.org/0000-0003-3869-1890, Sakowska, Karolina, Julitta, Tommaso, Kuusk, Joel; https://orcid.org/0000-0001-7565-1244, Sporea, Dan, Alonso, Luis; https://orcid.org/0000-0002-8221-5739, Burkart, Andreas, Cendrero-Mateo, M Pilar, Aasen, Helge; https://orcid.org/0000-0003-4343-0476, Goulas, Yves, Mac Arthur, Alasdair, Pacheco-Labrador, Javier; https://orcid.org/0000-0003-3401-7081, Hueni, Andreas; https://orcid.org/0000-0002-4283-2484, Mihai, Laura; https://orcid.org/0000-0003-3869-1890, Sakowska, Karolina, Julitta, Tommaso, Kuusk, Joel; https://orcid.org/0000-0001-7565-1244, Sporea, Dan, Alonso, Luis; https://orcid.org/0000-0002-8221-5739, Burkart, Andreas, Cendrero-Mateo, M Pilar, Aasen, Helge; https://orcid.org/0000-0003-4343-0476, Goulas, Yves, and Mac Arthur, Alasdair

Abstract

Growing interest in the proximal sensing of sun‐induced chlorophyll fluorescence (SIF) has been boosted by space-based retrievals and up-coming missions such as the FLuorescence EXplorer (FLEX). The European COST Action ES1309 “Innovative optical tools for proximal sensing of ecophysiological processes” (OPTIMISE, ES1309; https://optimise.dcs.aber.ac.uk/) has produced three manuscripts addressing the main current challenges in this field. This article provides a framework to model the impact of different instrument noise and bias on the retrieval of SIF; and to assess uncertainty requirements for the calibration and characterization of state-of-the-art SIF-oriented spectroradiometers. We developed a sensor simulator capable of reproducing biases and noises usually found in field spectroradiometers. First the sensor simulator was calibrated and characterized using synthetic datasets of known uncertainties defined from laboratory measurements and literature. Secondly, we used the sensor simulator and the characterized sensor models to simulate the acquisition of atmospheric and vegetation radiances from a synthetic dataset. Each of the sensor models predicted biases with propagated uncertainties that modified the simulated measurements as a function of different factors. Finally, the impact of each sensor model on SIF retrieval was analyzed. Results show that SIF retrieval can be significantly affected in situations where reflectance factors are barely modified. SIF errors were found to correlate with drivers of instrumental-induced biases which are as also drivers of plant physiology. This jeopardizes not only the retrieval of SIF, but also the understanding of its relationship with vegetation function, the study of diel and seasonal cycles and the validation of remote sensing SIF products. Further work is needed to determine the optimal requirements in terms of sensor design, characterization and signal correction for SIF retrieval by proximal sensing. In addition

Published

2019

15. Examination of sun-induced fluorescence (SIF) signal on heterogeneous ecosystem platforms using ‘HyPlant’

Author

Bandopadhyay, Subhajit, Rastogi, Anshu, Juszczak, Radosław, Rademske, Patrick, Schickling, Anke, Cogliati, Sergio, Julitta, Tommaso, Mac Arthur, Alasdair, Hueni, Andreas, Tomelleri, Enrico, Strózecki, Marcin, Gabka, Maciej, Sojka, Mariusz, Iordache, Marian-Daniel, Reusen, Ils, Damm, Alexander, Schuettemeyer, Dirk, Rascher, Uwe, and University of Zurich

Subjects

10122 Institute of Geography, 910 Geography & travel

Published

2018

16. Hyplant-Derived Sun-Induced Fluorescence—A New Opportunity to Disentangle Complex Vegetation Signals from Diverse Vegetation Types

Author

Bandopadhyay, Subhajit, primary, Rastogi, Anshu, additional, Rascher, Uwe, additional, Rademske, Patrick, additional, Schickling, Anke, additional, Cogliati, Sergio, additional, Julitta, Tommaso, additional, Mac Arthur, Alasdair, additional, Hueni, Andreas, additional, Tomelleri, Enrico, additional, Celesti, Marco, additional, Burkart, Andreas, additional, Stróżecki, Marcin, additional, Sakowska, Karolina, additional, Gąbka, Maciej, additional, Rosadziński, Stanisław, additional, Sojka, Mariusz, additional, Iordache, Marian-Daniel, additional, Reusen, Ils, additional, Van Der Tol, Christiaan, additional, Damm, Alexander, additional, Schuettemeyer, Dirk, additional, and Juszczak, Radosław, additional

Published

2019

17. Investigating Forest Photosynthetic Response to Elevated CO2 Using Uav-Based Measurements of Solar Induced Fluorescence

Author

Maseyk, Kadmiel, primary, Atherton, Jon, additional, Thomas, Rick, additional, Wood, Kieran, additional, Tausz-Posch, Sabine, additional, Mac Arthur, Alasdair, additional, Porcar-Castell, Albert, additional, and Tausz, Michael, additional

Published

2018

18. Optimized Spectrometers Characterization Procedure for Near Ground Support of ESA FLEX Observations: Part 1 Spectral Calibration and Characterisation

Author

Mihai, Laura, primary, Mac Arthur, Alasdair, additional, Hueni, Andreas, additional, Robinson, Iain, additional, and Sporea, Dan, additional

Published

2018

19. 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

20. The Fields of View and Directional Response Functions of Two Field Spectroradiometers

Author

Mac Arthur, Alasdair, primary, MacLellan, Christopher J., additional, and Malthus, Tim, additional

Published

2012

21. Calluna vulgarisfoliar pigments and spectral reflectance modelling

Author

Mac Arthur, Alasdair, primary and Malthus, Tim, additional

Published

2012

22. The implications of non-uniformity in fields-of-view of commonly used field spectroradiometers

Author

Mac Arthur, Alasdair A, primary, MacLellan, Chris, additional, and Malthus, Tim J, additional

Published

2007

23. Calluna vulgaris foliar pigments and spectral reflectance modelling.

Author

Mac Arthur, Alasdair and Malthus, Tim

Subjects

*MOLECULAR spectroscopy, *ABSORPTION spectra, *PLANT shoots, *ANTHOCYANINS, *SPECTRAL reflectance

Abstract

Biochemical and leaf structural state variables influencing the reflectance of Calluna vulgaris, a dwarf shrub, in the 400–950 nm spectral region have been measured over a 2 year period and were found to display considerable intra- and inter-annual variability. For the leaf structural parameters, the annual variability observed may be attributed to systematic seasonal fluctuations following Calluna growth and senescent cycle, and the inter-annual variation may be attributed to its response to each year's prevailing meteorological and solar illumination conditions. Chlorophyll-a and -b (chl-a and -b), total carotenoids and anthocyanins have been identified within the ‘shoots and leaves’ samples and their change over two growth and senescent cycles quantified. The LIBERTY radiative transfer model was adapted and used to estimate the Calluna chl-a and -b, total carotenoid and anthocyanin content in vivo absorption spectra. The modified LIBERTY model (LIBERTY3P), incorporating the in vivo pigment absorption spectra and parameterized with the biochemical variables measured, and leaf structural parameters determined during this work, has enabled the reflectance of Calluna ‘shoots and leaves’ to be modelled and compared with reflectances measured from the same samples, in time-series, through the 2005 and 2006 growth cycles. The relative error between modelled and measured reflectances was found to vary from between ±5% to ±15% dependent on wavelength and the time of year of the sampling interval. Greatest errors between measured and modelled reflectances were noted at the beginning of seasonal growth and lowest during midsummer. Differences between the chl-a and -b in vivo absorption spectrum determined during this work and the chlorophyll-a (chl-a) and chlorophyll-b (chl-b) in vivo absorption spectra, caused by a varying chl-a:chl-b ratios, are a possible cause for the inconsistencies between measured and modelled reflectance spectra. [ABSTRACT FROM AUTHOR]

Published

2012

24. Sun-Induced Chlorophyll Fluorescence III: Benchmarking Retrieval Methods and Sensor Characteristics for Proximal Sensing.

Author

Cendrero-Mateo, M. Pilar, Wieneke, Sebastian, Damm, Alexander, Alonso, Luis, Pinto, Francisco, Moreno, Jose, Guanter, Luis, Celesti, Marco, Rossini, Micol, Sabater, Neus, Cogliati, Sergio, Julitta, Tommaso, Rascher, Uwe, Goulas, Yves, Aasen, Helge, Pacheco-Labrador, Javier, and Mac Arthur, Alasdair

Subjects

CHLOROPHYLL spectra, INFORMATION retrieval, HIGH resolution spectroscopy, SPECTROMETERS, SCIENCE

Abstract

The interest of the scientific community on the remote observation of sun-induced chlorophyll fluorescence (SIF) has increased in the recent years. In this context, hyperspectral ground measurements play a crucial role in the calibration and validation of future satellite missions. For this reason, the European cooperation in science and technology (COST) Action ES1309 OPTIMISE has compiled three papers on instrument characterization, measurement setups and protocols, and retrieval methods (current paper). This study is divided in two sections; first, we evaluated the uncertainties in SIF retrieval methods (e.g., Fraunhofer line depth (FLD) approaches and spectral fitting method (SFM)) for a combination of off-the-shelf commercial spectrometers. Secondly, we evaluated how an erroneous implementation of the retrieval methods increases the uncertainty in the estimated SIF values. Results show that the SFM approach applied to high-resolution spectra provided the most reliable SIF retrieval with a relative error (RE) ≤6% and <5% for F687 and F760, respectively. Furthermore, although the SFM was the least affected by an inaccurate definition of the absorption spectral window (RE = 5%) and/or interpolation strategy (RE = 15–30%), we observed a sensitivity of the SIF retrieval for the simulated training data underlying the SFM model implementation. [ABSTRACT FROM AUTHOR]

Published

2019

25. Sun-Induced Chlorophyll Fluorescence I: Instrumental Considerations for Proximal Spectroradiometers.

Author

Pacheco-Labrador, Javier, Hueni, Andreas, Mihai, Laura, Sakowska, Karolina, Julitta, Tommaso, Kuusk, Joel, Sporea, Dan, Alonso, Luis, Burkart, Andreas, Cendrero-Mateo, M. Pilar, Aasen, Helge, Goulas, Yves, and Mac Arthur, Alasdair

Subjects

CHLOROPHYLL spectra, FLUORESCENCE, SPECTRORADIOMETER, WIRELESS sensor networks, MONTE Carlo method

Abstract

Growing interest in the proximal sensing of sun-induced chlorophyll fluorescence (SIF) has been boosted by space-based retrievals and up-coming missions such as the FLuorescence EXplorer (FLEX). The European COST Action ES1309 "Innovative optical tools for proximal sensing of ecophysiological processes" (OPTIMISE, ES1309; https://optimise.dcs.aber.ac.uk/) has produced three manuscripts addressing the main current challenges in this field. This article provides a framework to model the impact of different instrument noise and bias on the retrieval of SIF; and to assess uncertainty requirements for the calibration and characterization of state-of-the-art SIF-oriented spectroradiometers. We developed a sensor simulator capable of reproducing biases and noises usually found in field spectroradiometers. First the sensor simulator was calibrated and characterized using synthetic datasets of known uncertainties defined from laboratory measurements and literature. Secondly, we used the sensor simulator and the characterized sensor models to simulate the acquisition of atmospheric and vegetation radiances from a synthetic dataset. Each of the sensor models predicted biases with propagated uncertainties that modified the simulated measurements as a function of different factors. Finally, the impact of each sensor model on SIF retrieval was analyzed. Results show that SIF retrieval can be significantly affected in situations where reflectance factors are barely modified. SIF errors were found to correlate with drivers of instrumental-induced biases which are as also drivers of plant physiology. This jeopardizes not only the retrieval of SIF, but also the understanding of its relationship with vegetation function, the study of diel and seasonal cycles and the validation of remote sensing SIF products. Further work is needed to determine the optimal requirements in terms of sensor design, characterization and signal correction for SIF retrieval by proximal sensing. In addition, evaluation/validation methods to characterize and correct instrumental responses should be developed and used to test sensors performance in operational conditions. [ABSTRACT FROM AUTHOR]

Published

2019