Your search keyword '"Rascher, Uwe"' showing total 118 results

1. Empirical insights on the use of sun-induced chlorophyll fluorescence to estimate short-term changes in crop transpiration under controlled water limitation

Author

Ahmed, Kazi Rifat, Paul-Limoges, Eugénie, Rascher, Uwe, Hanuš, Jan, Miglietta, Franco, Colombo, Roberto, Peressotti, Alessandro, Genangeli, Andrea, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Ahmed, Kazi Rifat, Paul-Limoges, Eugénie, Rascher, Uwe, Hanuš, Jan, Miglietta, Franco, Colombo, Roberto, Peressotti, Alessandro, Genangeli, Andrea, and Damm, Alexander; https://orcid.org/0000-0001-8965-3427

Abstract

Knowledge of actual crop transpiration (T) is important for advanced crop management but challenging to obtain due to the large spatial and temporal variation of T. Remote sensing offers various possibilities to assess T dynamics, while particularly sun-induced chlorophyll fluorescence (SIF) has been demonstrated as a sensitive empirical proxy for T. Despite this success, the advancement of the mechanistic understanding of how SIF relates to T dynamics is key for the future development and implementation of robust and reliable SIF-based T products. This study aims to contribute insights by experimentally assessing the sensitivity of several SIF-based T estimation strategies for evolving soil water limitation. We investigated extensive in situ and airborne data acquired during a water limitation experiment in a maize canopy in northern Italy. We evaluated five empirical strategies to integrate SIF in a T modelling framework based on the Penman-Monteith (PM) and the Ball-Berry-Leuning (BBL) concepts. Our results indicate that replacing model parameters sensitive to canopy conductance with SIF results in the best agreement between modelled and measured T under evolving water limitation. Our study contributes expanding existing knowledge with empirical insights on the sensitivity of SIF based T approaches under increasing soil water limitation at short time scales.

Published

2023

2. Multi-sensor spectral synergies for crop stress detection and monitoring in the optical domain: A review

Author

Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, Schlerf, Martin, Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, and Schlerf, Martin

Abstract

Remote detection and monitoring of the vegetation responses to stress became relevant for sustainable agriculture. Ongoing developments in optical remote sensing technologies have provided tools to increase our understanding of stress-related physiological processes. Therefore, this study aimed to provide an overview of the main spectral technologies and retrieval approaches for detecting crop stress in agriculture. Firstly, we present integrated views on: i) biotic and abiotic stress factors, the phases of stress, and respective plant responses, and ii) the affected traits, appropriate spectral domains and corresponding methods for measuring traits remotely. Secondly, representative results of a systematic literature analysis are highlighted, identifying the current status and possible future trends in stress detection and monitoring. Distinct plant responses occurring under short-term, medium-term or severe chronic stress exposure can be captured with remote sensing due to specific light interaction processes, such as absorption and scattering manifested in the reflected radiance, i.e. visible (VIS), near infrared (NIR), shortwave infrared, and emitted radiance, i.e. solar-induced fluorescence and thermal infrared (TIR). From the analysis of 96 research papers, the following trends can be observed: increasing usage of satellite and unmanned aerial vehicle data in parallel with a shift in methods from simpler parametric approaches towards more advanced physically-based and hybrid models. Most study designs were largely driven by sensor availability and practical economic reasons, leading to the common usage of VIS-NIR-TIR sensor combinations. The majority of reviewed studies compared stress proxies calculated from single-source sensor domains rather than using data in a synergistic way. We identified new ways forward as guidance for improved synergistic usage of spectral domains for stress detection: (1) combined acquisition of data from multiple sensors for analys

Published

2022

3. Multi-sensor spectral synergies for crop stress detection and monitoring in the optical domain: A review

Author

Global Ecohydrology and Sustainability, Environmental Sciences, Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, Schlerf, Martin, Global Ecohydrology and Sustainability, Environmental Sciences, Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, and Schlerf, Martin

Published

2022

4. Multi-sensor spectral synergies for crop stress detection and monitoring in the optical domain: A review

Author

Global Ecohydrology and Sustainability, Environmental Sciences, Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, Schlerf, Martin, Global Ecohydrology and Sustainability, Environmental Sciences, Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, and Schlerf, Martin

Published

2022

5. Multi-sensor spectral synergies for crop stress detection and monitoring in the optical domain:A review

Author

Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, Schlerf, Martin, Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, and Schlerf, Martin

Abstract

Remote detection and monitoring of the vegetation responses to stress became relevant for sustainable agriculture. Ongoing developments in optical remote sensing technologies have provided tools to increase our understanding of stress-related physiological processes. Therefore, this study aimed to provide an overview of the main spectral technologies and retrieval approaches for detecting crop stress in agriculture. Firstly, we present integrated views on: i) biotic and abiotic stress factors, the phases of stress, and respective plant responses, and ii) the affected traits, appropriate spectral domains and corresponding methods for measuring traits remotely. Secondly, representative results of a systematic literature analysis are highlighted, identifying the current status and possible future trends in stress detection and monitoring. Distinct plant responses occurring under short-term, medium-term or severe chronic stress exposure can be captured with remote sensing due to specific light interaction processes, such as absorption and scattering manifested in the reflected radiance, i.e. visible (VIS), near infrared (NIR), shortwave infrared, and emitted radiance, i.e. solar-induced fluorescence and thermal infrared (TIR). From the analysis of 96 research papers, the following trends can be observed: increasing usage of satellite and unmanned aerial vehicle data in parallel with a shift in methods from simpler parametric approaches towards more advanced physically-based and hybrid models. Most study designs were largely driven by sensor availability and practical economic reasons, leading to the common usage of VIS-NIR-TIR sensor combinations. The majority of reviewed studies compared stress proxies calculated from single-source sensor domains rather than using data in a synergistic way. We identified new ways forward as guidance for improved synergistic usage of spectral domains for stress detection: (1) combined acquisition of data from multiple sensors for analys

Published

2022

6. Multi-sensor spectral synergies for crop stress detection and monitoring in the optical domain: A review

Author

Berger, K, Machwitz, M, Kycko, M, Kefauver, S, Van Wittenberghe, S, Gerhards, M, Verrelst, J, Atzberger, C, van der Tol, C, Damm, A, Rascher, U, Herrmann, I, Paz, V, Fahrner, S, Pieruschka, R, Prikaziuk, E, Buchaillot, M, Halabuk, A, Celesti, M, Koren, G, Gormus, E, Rossini, M, Foerster, M, Siegmann, B, Abdelbaki, A, Tagliabue, G, Hank, T, Darvishzadeh, R, Aasen, H, Garcia, M, Pôças, I, Bandopadhyay, S, Sulis, M, Tomelleri, E, Rozenstein, O, Filchev, L, Stancile, G, Schlerf, M, Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, Schlerf, Martin, Berger, K, Machwitz, M, Kycko, M, Kefauver, S, Van Wittenberghe, S, Gerhards, M, Verrelst, J, Atzberger, C, van der Tol, C, Damm, A, Rascher, U, Herrmann, I, Paz, V, Fahrner, S, Pieruschka, R, Prikaziuk, E, Buchaillot, M, Halabuk, A, Celesti, M, Koren, G, Gormus, E, Rossini, M, Foerster, M, Siegmann, B, Abdelbaki, A, Tagliabue, G, Hank, T, Darvishzadeh, R, Aasen, H, Garcia, M, Pôças, I, Bandopadhyay, S, Sulis, M, Tomelleri, E, Rozenstein, O, Filchev, L, Stancile, G, Schlerf, M, Berger, Katja, Machwitz, Miriam, Kycko, Marlena, Kefauver, Shawn C., Van Wittenberghe, Shari, Gerhards, Max, Verrelst, Jochem, Atzberger, Clement, van der Tol, Christiaan, Damm, Alexander, Rascher, Uwe, Herrmann, Ittai, Paz, Veronica Sobejano, Fahrner, Sven, Pieruschka, Roland, Prikaziuk, Egor, Buchaillot, Ma. Luisa, Halabuk, Andrej, Celesti, Marco, Koren, Gerbrand, Gormus, Esra Tunc, Rossini, Micol, Foerster, Michael, Siegmann, Bastian, Abdelbaki, Asmaa, Tagliabue, Giulia, Hank, Tobias, Darvishzadeh, Roshanak, Aasen, Helge, Garcia, Monica, Pôças, Isabel, Bandopadhyay, Subhajit, Sulis, Mauro, Tomelleri, Enrico, Rozenstein, Offer, Filchev, Lachezar, Stancile, Gheorghe, and Schlerf, Martin

Abstract

Remote detection and monitoring of the vegetation responses to stress became relevant for sustainable agriculture. Ongoing developments in optical remote sensing technologies have provided tools to increase our understanding of stress-related physiological processes. Therefore, this study aimed to provide an overview of the main spectral technologies and retrieval approaches for detecting crop stress in agriculture. Firstly, we present integrated views on: i) biotic and abiotic stress factors, the phases of stress, and respective plant responses, and ii) the affected traits, appropriate spectral domains and corresponding methods for measuring traits remotely. Secondly, representative results of a systematic literature analysis are highlighted, identifying the current status and possible future trends in stress detection and monitoring. Distinct plant responses occurring under short-term, medium-term or severe chronic stress exposure can be captured with remote sensing due to specific light interaction processes, such as absorption and scattering manifested in the reflected radiance, i.e. visible (VIS), near infrared (NIR), shortwave infrared, and emitted radiance, i.e. solar-induced fluorescence and thermal infrared (TIR). From the analysis of 96 research papers, the following trends can be observed: increasing usage of satellite and unmanned aerial vehicle data in parallel with a shift in methods from simpler parametric approaches towards more advanced physically-based and hybrid models. Most study designs were largely driven by sensor availability and practical economic reasons, leading to the common usage of VIS-NIR-TIR sensor combinations. The majority of reviewed studies compared stress proxies calculated from single-source sensor domains rather than using data in a synergistic way. We identified new ways forward as guidance for improved synergistic usage of spectral domains for stress detection: (1) combined acquisition of data from multiple sensors for analys

Published

2022

7. Comparison of a UAV- and an airborne-based system to acquire far-red sun-induced chlorophyll fluorescence measurements over structurally different crops

Author

Wang, Na, Siegmann, Bastian, Rascher, Uwe, Clevers, Jan G.P.W., Muller, Onno, Bartholomeus, Harm, Bendig, Juliane, Masiliūnas, Dainius, Pude, Ralf, Kooistra, Lammert, Wang, Na, Siegmann, Bastian, Rascher, Uwe, Clevers, Jan G.P.W., Muller, Onno, Bartholomeus, Harm, Bendig, Juliane, Masiliūnas, Dainius, Pude, Ralf, and Kooistra, Lammert

Abstract

Sun-induced chlorophyll fluorescence (SIF) is a promising proxy of the dynamic photosynthetic process. Unmanned Aerial Vehicles (UAVs) are flexible and cost-effective for acquiring SIF data at high temporal and spatial resolution. The UAV-based point spectrometer FluorSpec was designed to measure SIF within agricultural fields. To correctly understand SIF values and further photosynthetic research, the ability of the UAV-based FluorSpec to provide reliable SIF information within agricultural fields needs evaluation. In this paper, the UAV-based FluorSpec was compared with the high-performance airborne imaging spectrometer HyPlant using diurnal far-red SIF measurements over different crop types (i.e. two varieties of winter wheat, two varieties of spring barley, bean, and maize), which were acquired by almost simultaneous airborne and UAV flights during a clear sky day in 2019. After improving the footprint geolocation of FluorSpec measurements using concurrent red-green-blue (RGB) images, we compared the FluorSpec and HyPlant SIF measurements, their diurnal developments, and spatial distributions for different crop types. The results from both systems show consistent, clear diurnal patterns that are positively correlated with photosynthetically active radiation (PAR) over most crop types. Similar SIF spatial patterns were shown within crop fields as well. UAV-based FluorSpec SIF showed a good linear correlation with HyPlant SIF with an R2 up to 0.76. The good agreement confirms that the UAV-based FluorSpec system is able to measure meaningful SIF values at the field scale and thus stimulates SIF applications in agriculture. The systematic errors up to 0.3 mW m−2 sr−1 nm−1 from the linear regression between the two systems indicate that the UAV-based FluorSpec system should be improved by considering the main sources of uncertainty discussed in this paper. Future studies with dedicated experiments are recommended to assess the systematic uncertainties of UAV-based Fl

Published

2022

8. GrowliFlower: An image time series dataset for GROWth analysis of cauLIFLOWER

Author

Kierdorf, Jana, Junker-Frohn, Laura Verena, Delaney, Mike, Olave, Mariele Donoso, Burkart, Andreas, Jaenicke, Hannah, Muller, Onno, Rascher, Uwe, Roscher, Ribana, Kierdorf, Jana, Junker-Frohn, Laura Verena, Delaney, Mike, Olave, Mariele Donoso, Burkart, Andreas, Jaenicke, Hannah, Muller, Onno, Rascher, Uwe, and Roscher, Ribana

Abstract

This article presents GrowliFlower, a georeferenced, image-based UAV time series dataset of two monitored cauliflower fields of size 0.39 and 0.60 ha acquired in 2020 and 2021. The dataset contains RGB and multispectral orthophotos from which about 14,000 individual plant coordinates are derived and provided. The coordinates enable the dataset users the extraction of complete and incomplete time series of image patches showing individual plants. The dataset contains collected phenotypic traits of 740 plants, including the developmental stage as well as plant and cauliflower size. As the harvestable product is completely covered by leaves, plant IDs and coordinates are provided to extract image pairs of plants pre and post defoliation, to facilitate estimations of cauliflower head size. Moreover, the dataset contains pixel-accurate leaf and plant instance segmentations, as well as stem annotations to address tasks like classification, detection, segmentation, instance segmentation, and similar computer vision tasks. The dataset aims to foster the development and evaluation of machine learning approaches. It specifically focuses on the analysis of growth and development of cauliflower and the derivation of phenotypic traits to foster the development of automation in agriculture. Two baseline results of instance segmentation at plant and leaf level based on the labeled instance segmentation data are presented. The entire data set is publicly available., Comment: 23 pages, 21 figures, 5 tables

Published

2022

9. Towards consistent assessments of in situ radiometric measurements for the validation of fluorescence satellite missions

Author

Buman, B, Hueni, A, Colombo, R, Cogliati, S, Celesti, M, Julitta, T, Burkart, A, Siegmann, B, Rascher, U, Drusch, M, Damm, A, Buman, Bastian, Hueni, Andreas, Colombo, Roberto, Cogliati, Sergio, Celesti, Marco, Julitta, Tommaso, Burkart, Andreas, Siegmann, Bastian, Rascher, Uwe, Drusch, Matthias, Damm, Alexander, Buman, B, Hueni, A, Colombo, R, Cogliati, S, Celesti, M, Julitta, T, Burkart, A, Siegmann, B, Rascher, U, Drusch, M, Damm, A, Buman, Bastian, Hueni, Andreas, Colombo, Roberto, Cogliati, Sergio, Celesti, Marco, Julitta, Tommaso, Burkart, Andreas, Siegmann, Bastian, Rascher, Uwe, Drusch, Matthias, and Damm, Alexander

Abstract

The upcoming Fluorescence Explorer (FLEX) satellite mission aims to provide high quality radiometric measurements for subsequent retrieval of sun-induced chlorophyll fluorescence (SIF). The combination of SIF with other observations stemming from the FLEX/Sentinel-3 tandem mission holds the potential to assess complex ecosystem processes. The calibration and validation (cal/val) of these radiometric measurements and derived products are central but challenging components of the mission. This contribution outlines strategies for the assessment of in situ radiometric measurements and retrieved SIF. We demonstrate how in situ spectrometer measurements can be analysed in terms of radiometric, spectral and spatial uncertainties. The analysis of more than 200 k spectra yields an average bias between two radiometric measurements by two individual spectrometers of 8%, with a larger variability in measurements of downwelling radiance (25%) compared to upwelling radiance (6%). Spectral shifts in the spectrometer relevant for SIF retrievals are consistently below 1 spectral pixel (up to 0.75). Found spectral shifts appear to be mostly dependent on temperature (as measured by a temperature probe in the instrument). Retrieved SIF shows a low variability of 1.8% compared with a noise reduced SIF estimate based on APAR. A combination of airborne imaging and in situ non-imaging fluorescence spectroscopy highlights the importance of a homogenous sampling surface and holds the potential to further uncover SIF retrieval issues as here shown for early evening acquisitions. Our experiments clearly indicate the need for careful site selection, measurement protocols, as well as the need for harmonized processing. This work thus contributes to guiding cal/val activities for the upcoming FLEX mission.

Published

2022

10. Response times of remote sensing measured sun-induced chlorophyll fluorescence, surface temperature and vegetation indices to evolving soil water limitation in a crop canopy

Author

Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Cogliati, S, Colombo, R, Fritsche, L, Genangeli, A, Genesio, L, Hanus, J, Peressotti, A, Rademske, P, Rascher, Uwe, Schuettemeyer, D, Siegmann, B, Sturm, J, Miglietta, F, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Cogliati, S, Colombo, R, Fritsche, L, Genangeli, A, Genesio, L, Hanus, J, Peressotti, A, Rademske, P, Rascher, Uwe, Schuettemeyer, D, Siegmann, B, Sturm, J, and Miglietta, F

Abstract

Vegetation responds at varying temporal scales to changing soil water availability. These process dynamics complicate assessments of plant-water relations but also offer various access points to advance understanding of vegetation responses to environmental change. Remote sensing (RS) provides large capacity to quantify sensitive and robust information of vegetation responses and underlying abiotic change driver across observational scales. Retrieved RS based vegetation parameters are often sensitive to various environmental and plant specific factors in addition to the targeted plant response. Further, individual plant responses to water limitation act at different temporal and spatial scales, while RS sampling schemes are often not optimized to assess these dynamics. The combination of these aspects complicates the interpretation of RS parameter when assessing plant-water relations. We consequently aim to advance insight on the sensitivity of physiological, biochemical and structural RS parameter for plant adaptation in response to emerging soil water limitation. We made a field experiment in maize in Tuscany (Central Italy), while irrigation was stopped in some areas of the drip-irrigated field. Within a period of two weeks, we measured the hydraulic and physiological state of maize plants in situ and complemented these detailed measurements with extensive airborne observations (e.g. sun-induced chlorophyll fluorescence (SIF), vegetation indices sensitive for photosynthesis, pigment and water content, land surface temperature). We observe a double response of far-red SIF with a short-term increase after manifestation of soil water limitation and a decrease afterwards. We identify different response times of RS parameter representing different plant adaptation mechanisms ranging from short term responses (e.g. stomatal conductance, photosynthesis) to medium term changes (e.g. pigment decomposition, changing leaf water content). Our study demonstrates complementari

Published

2022

11. Towards consistent assessments of in situ radiometric measurements for the validation of fluorescence satellite missions

Author

Buman, Bastian, Hueni, Andreas, Colombo, Roberto, Cogliati, Sergio, Celesti, Marco, Julitta, Tommaso, Burkart, Andreas, Siegmann, Bastian, Rascher, Uwe, Drusch, Matthias, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Buman, Bastian, Hueni, Andreas, Colombo, Roberto, Cogliati, Sergio, Celesti, Marco, Julitta, Tommaso, Burkart, Andreas, Siegmann, Bastian, Rascher, Uwe, Drusch, Matthias, and Damm, Alexander; https://orcid.org/0000-0001-8965-3427

Abstract

The upcoming Fluorescence Explorer (FLEX) satellite mission aims to provide high quality radiometric measurements for subsequent retrieval of sun-induced chlorophyll fluorescence (SIF). The combination of SIF with other observations stemming from the FLEX/Sentinel-3 tandem mission holds the potential to assess complex ecosystem processes. The calibration and validation (cal/val) of these radiometric measurements and derived products are central but challenging components of the mission. This contribution outlines strategies for the assessment of in situ radiometric measurements and retrieved SIF. We demonstrate how in situ spectrometer measurements can be analysed in terms of radiometric, spectral and spatial uncertainties. The analysis of more than 200 k spectra yields an average bias between two radiometric measurements by two individual spectrometers of 8%, with a larger variability in measurements of downwelling radiance (25%) compared to upwelling radiance (6%). Spectral shifts in the spectrometer relevant for SIF retrievals are consistently below 1 spectral pixel (up to 0.75). Found spectral shifts appear to be mostly dependent on temperature (as measured by a temperature probe in the instrument). Retrieved SIF shows a low variability of 1.8% compared with a noise reduced SIF estimate based on APAR. A combination of airborne imaging and in situ non-imaging fluorescence spectroscopy highlights the importance of a homogenous sampling surface and holds the potential to further uncover SIF retrieval issues as here shown for early evening acquisitions. Our experiments clearly indicate the need for careful site selection, measurement protocols, as well as the need for harmonized processing. This work thus contributes to guiding cal/val activities for the upcoming FLEX mission.

Published

2022

12. Can Vegetation Indices Serve as Proxies for Potential Sun-Induced Fluorescence (SIF)? A Fuzzy Simulation Approach on Airborne Imaging Spectroscopy Data

Author

Bandopadhyay, S, Rastogi, A, Cogliati, S, Rascher, U, Gąbka, M, Juszczak, R, Bandopadhyay, Subhajit, Rastogi, Anshu, Cogliati, Sergio, Rascher, Uwe, Gąbka, Maciej, Juszczak, Radosław, Bandopadhyay, S, Rastogi, A, Cogliati, S, Rascher, U, Gąbka, M, Juszczak, R, Bandopadhyay, Subhajit, Rastogi, Anshu, Cogliati, Sergio, Rascher, Uwe, Gąbka, Maciej, and Juszczak, Radosław

Abstract

In this study, we are testing a proxy for red and far-red Sun-induced fluorescence (SIF) using an integrated fuzzy logic modelling approach, termed as SIFfuzzy and SIFfuzzy-APAR. The SIF emitted from the core of the photosynthesis and observed at the top-of-canopy is regulated by three major controlling factors: (1) light interception and absorption by canopy plant cover; (2) escape fraction of SIF photons (fesc); (3) light use efficiency and non-photochemical quenching (NPQ) processes. In our study, we proposed and validated a fuzzy logic modelling approach that uses different combinations of spectral vegetation indices (SVIs) reflecting such controlling factors to approximate the potential SIF signals at 760 nm and 687 nm. The HyPlant derived and field validated SVIs (i.e., SR, NDVI, EVI, NDVIre, PRI) have been processed through the membership transformation in the first stage, and in the next stage the membership transformed maps have been processed through the Fuzzy Gamma simulation to calculate the SIFfuzzy. To test whether the inclusion of absorbed photosynthetic active radiation (APAR) increases the accuracy of the model, the SIFfuzzy was multiplied by APAR (SIFfuzzy-APAR). The agreement between the modelled SIFfuzzy and actual SIF airborne retrievals expressed by R2 ranged from 0.38 to 0.69 for SIF760 and from 0.85 to 0.92 for SIF687. The inclusion of APAR improved the R2 value between SIFfuzzy-APAR and actual SIF. This study showed, for the first time, that a diverse set of SVIs considered as proxies of different vegetation traits, such as biochemical, structural, and functional, can be successfully combined to work as a first-order proxy of SIF. The previous studies mainly included the far-red SIF whereas, in this study, we have also focused on red SIF along with far-red SIF. The analysis carried out at 1 m spatial resolution permits to better infer SIF behaviour at an ecosystem-relevant scale.

Published

2021

13. The SARSense Campaign: Air- and Space-Borne C- and L-Band SAR for the Analysis of Soil and Plant Parameters in Agriculture

Author

UCL - SST/ELI/ELIE - Environmental Sciences, Mengen, David, Montzka, Carsten, Jagdhuber, Thomas, Fluhrer, Anke, Brogi, Cosimo, Baum, Stephani, Schüttemeyer, Dirk, Bayat, Bagher, Bogena, Heye, Coccia, Alex, Masalias, Gerard, Trinkel, Verena, Jakobi, Jannis, Jonard, François, Ma, Yueling, Mattia, Francesco, Palmisano, Davide, Rascher, Uwe, Satalino, Giuseppe, Schumacher, Maike, Koyama, Christian, Schmidt, Marius, Vereecken, Harry, UCL - SST/ELI/ELIE - Environmental Sciences, Mengen, David, Montzka, Carsten, Jagdhuber, Thomas, Fluhrer, Anke, Brogi, Cosimo, Baum, Stephani, Schüttemeyer, Dirk, Bayat, Bagher, Bogena, Heye, Coccia, Alex, Masalias, Gerard, Trinkel, Verena, Jakobi, Jannis, Jonard, François, Ma, Yueling, Mattia, Francesco, Palmisano, Davide, Rascher, Uwe, Satalino, Giuseppe, Schumacher, Maike, Koyama, Christian, Schmidt, Marius, and Vereecken, Harry

Abstract

With the upcoming L-band Synthetic Aperture Radar (SAR) satellite mission Radar Observing System for Europe L-band SAR (ROSE-L) and its integration into existing C-band satellite missions such as Sentinel-1, multi-frequency SAR observations with high temporal and spatial resolution will become available. The SARSense campaign was conducted between June and August 2019 to investigate the potential for estimating soil and plant parameters at the agricultural test site in Selhausen (Germany). It included C- and L-band air- and space-borne observations accompanied by extensive in situ soil and plant sampling as well as unmanned aerial system (UAS) based multispectral and thermal infrared measurements. In this regard, we introduce a new publicly available SAR data set and present the first analysis of C- and L-band co- and cross-polarized backscattering signals regarding their sensitivity to soil and plant parameters. Results indicate that a multi-frequency approach is relevant to disentangle soil and plant contributions to the SAR signal and to identify specific scattering mechanisms associated with the characteristics of different crop type, especially for root crops and cereals.

Published

2021

14. The SARSense campaign: A dataset for comparing C- and L-band SAR backscattering behaviour to changes of soil and plant paramters in agricultural areas

Author

UCL - SST/ELI/ELIE - Environmental Sciences, Mengen, David, Montzka, Carsten, Jagdhuber, Thomas, Fluhrer, Anke, Brogi, Cosimo, Matveeva, Maria, Baum, Stephani, Schüttemeyer, Dirk, Bayat, Bagher, Bogena, Heye, Coccia, Alex, Masalias, Gérard, Trinkel, Verena, Jakobi, Jannis, Jonard, François, Ma, Yueling, Mattia, Francesco, Palmisano, Davide, Rascher, Uwe, Satalino, Guiseppe, Schumacher, Maike, Koyama, Christian, Schmidt, Marius, Vereecken, Harry, EGU General Assembly 2021, UCL - SST/ELI/ELIE - Environmental Sciences, Mengen, David, Montzka, Carsten, Jagdhuber, Thomas, Fluhrer, Anke, Brogi, Cosimo, Matveeva, Maria, Baum, Stephani, Schüttemeyer, Dirk, Bayat, Bagher, Bogena, Heye, Coccia, Alex, Masalias, Gérard, Trinkel, Verena, Jakobi, Jannis, Jonard, François, Ma, Yueling, Mattia, Francesco, Palmisano, Davide, Rascher, Uwe, Satalino, Guiseppe, Schumacher, Maike, Koyama, Christian, Schmidt, Marius, Vereecken, Harry, and EGU General Assembly 2021

Abstract

With the upcoming L-band Synthetic Aperture Radar (SAR) satellite mission Radar Observing System for Europe at L-band (ROSE-L) and its combination with existing C-band satellite missions such as Sentinel-1, multi-frequency SAR observations with high temporal and spatial resolution will become available. To investigate the potential for estimating soil and plant parameters, the SARSense campaign was conducted between June and August 2019 at the agricultural test site Selhausen in Germany. In this regard, we introduce a new publicly available, extensive SAR dataset and present a first analysis of C- and L-band co- and cross-polarized backscattering signals regarding their sensitivity to soil and plant parameters. The analysis includes C- and L-band airborne recordings as well as Senitnel-1 and ALOS-2 acquisitions, accompanied by in-situ soil moisture measurements and plant samplings. In addition, soil moisture was measured using cosmic-ray neutron sensing as well as unmanned aerial system (UAS) based multispectral and temperature measurements were taken during the campaign period. First analysis of the dataset revealed, that due to misalignments of corner reflectors during the SAR acquisition, temporal consistency of airborne SAR data is not given. In this regard, a scene-based, spatial analysis of backscatter behaviour from airborne SAR data was conducted, while the spaceborne SAR data enabled the analysis of temporal changes in backscatter behaviour. Focusing on root crops with radial canopy structure (sugar beet and potato) and cereal crops with elongated canopy structure (wheat, barley), the lowest correlations can be observed between backscattering signal and soil moisture, with R² values ranging below 0.35 at C-band and below 0.36 at L-band. Higher correlations can be observed focusing on vegetation water content, with R² values ranging between 0.12 and 0.64 at C-band and 0.06 and 0.64 at L-band. Regarding plant height, at C-band higher correlations with R² up t

Published

2021

15. Heatwave breaks down the linearity between sun-induced fluorescence and gross primary production

Author

European Commission, Alexander von Humboldt Foundation, European Space Agency, Martini David [0000-0003-2180-5126], Sakowska, Karolina [0000-0003-4186-2558], Wohlfahrt, Georg [0000-0003-3080-6702], Pacheco-Labrador, Javier [0000-0003-3401-7081], van der Tol, Christiaan [0000-0002-2484-8191], Porcar-Castell, Albert [0000-0003-1357-9982], Magney, Troy S.[0000-0002-9033-0024], Carrara, Arnaud [0000-0002-9095-8807], El-Madany, Taker S.[0000-0002-0726-7141], González-Cascón, Rosario [0000-0003-3468-0967], Martín, M. Pilar [0000-0002-5563-8461], Martini, David, Sakowska, Karolina, Wohlfahrt, Georg, Pacheco-Labrador, Javier, Van der Tol, Christiaan, Porcar-Castell, Albert, Magney, Troy S., Carrara, Arnaud, Colombo, Roberto, El-Madany, Tarek S., González-Cascón, Rosario, Martin, M. Pilar, Julitta, Tommaso, Moreno, Gerardo, Rascher, Uwe, Reichstein, Markus, Rossini, Micol, Migliavacca, Mirco, European Commission, Alexander von Humboldt Foundation, European Space Agency, Martini David [0000-0003-2180-5126], Sakowska, Karolina [0000-0003-4186-2558], Wohlfahrt, Georg [0000-0003-3080-6702], Pacheco-Labrador, Javier [0000-0003-3401-7081], van der Tol, Christiaan [0000-0002-2484-8191], Porcar-Castell, Albert [0000-0003-1357-9982], Magney, Troy S.[0000-0002-9033-0024], Carrara, Arnaud [0000-0002-9095-8807], El-Madany, Taker S.[0000-0002-0726-7141], González-Cascón, Rosario [0000-0003-3468-0967], Martín, M. Pilar [0000-0002-5563-8461], Martini, David, Sakowska, Karolina, Wohlfahrt, Georg, Pacheco-Labrador, Javier, Van der Tol, Christiaan, Porcar-Castell, Albert, Magney, Troy S., Carrara, Arnaud, Colombo, Roberto, El-Madany, Tarek S., González-Cascón, Rosario, Martin, M. Pilar, Julitta, Tommaso, Moreno, Gerardo, Rascher, Uwe, Reichstein, Markus, Rossini, Micol, and Migliavacca, Mirco

Abstract

Sun-induced fluorescence in the far-red region (SIF) is increasingly used as a remote and proximal-sensing tool capable of tracking vegetation gross primary production (GPP). However, the use of SIF to probe changes in GPP is challenged during extreme climatic events, such as heatwaves. Here, we examined how the 2018 European heatwave (HW) affected the GPP–SIF relationship in evergreen broadleaved trees with a relatively invariant canopy structure. To do so, we combined canopy-scale SIF measurements, GPP estimated from an eddy covariance tower, and active pulse amplitude modulation fluorescence. The HW caused an inversion of the photosynthesis–fluorescence relationship at both the canopy and leaf scales. The highly nonlinear relationship was strongly shaped by nonphotochemical quenching (NPQ), that is, a dissipation mechanism to protect from the adverse effects of high light intensity. During the extreme heat stress, plants experienced a saturation of NPQ, causing a change in the allocation of energy dissipation pathways towards SIF. Our results show the complex modulation of the NPQ–SIF–GPP relationship at an extreme level of heat stress, which is not completely represented in state-of-the-art coupled radiative transfer and photosynthesis models.

Published

2021

16. Bridging the Gap Between Remote Sensing and Plant Phenotyping—Challenges and Opportunities for the Next Generation of Sustainable Agriculture

Author

European Cooperation in Science and Technology, European Commission, German Centre for Air and Space Travel, Federal Ministry of Economics and Technology (Germany), Machwitz, Miriam, Pieruschka, Roland, Berger, Katja, Schlerf, Martin, Aasen, Helge, Fahrner, Sven, Jiménez-Berni, José A., Baret, Frédéric, Rascher, Uwe, European Cooperation in Science and Technology, European Commission, German Centre for Air and Space Travel, Federal Ministry of Economics and Technology (Germany), Machwitz, Miriam, Pieruschka, Roland, Berger, Katja, Schlerf, Martin, Aasen, Helge, Fahrner, Sven, Jiménez-Berni, José A., Baret, Frédéric, and Rascher, Uwe

Published

2021

17. Assessing the contribution of understory sun-induced chlorophyll fluorescence through 3-D radiative transfer modelling and field data

Author

Ministerio de Economía y Competitividad (España), European Commission, European Space Agency, Hornero, Alberto, North, Peter R. J., Zarco-Tejada, Pablo J., Rascher, Uwe, Martín, M. Pilar, Migliavacca, Mirco, Hernández-Clemente, Rocío, Ministerio de Economía y Competitividad (España), European Commission, European Space Agency, Hornero, Alberto, North, Peter R. J., Zarco-Tejada, Pablo J., Rascher, Uwe, Martín, M. Pilar, Migliavacca, Mirco, and Hernández-Clemente, Rocío

Abstract

A major international effort has been made to monitor sun-induced chlorophyll fluorescence (SIF) from space as a proxy for the photosynthetic activity of terrestrial vegetation. However, the effect of spatial heterogeneity on the SIF retrievals from canopy radiance derived from images with medium and low spatial resolution remains uncharacterised. In images from forest and agricultural landscapes, the background comprises a mixture of soil and understory and can generate confounding effects that limit the interpretation of the SIF at the canopy level. This paper aims to improve the understanding of SIF from coarse spatial resolutions in heterogeneous canopies by considering the separated contribution of tree crowns, understory and background components, using a modified version of the FluorFLIGHT radiative transfer model (RTM). The new model is compared with others through the RAMI model intercomparison framework and is validated with airborne data. The airborne campaign includes high-resolution data collected over a tree-grass ecosystem with the HyPlant imaging spectrometer within the FLuorescence EXplorer (FLEX) preparatory missions. Field data measurements were collected from plots with a varying fraction of tree and understory vegetation cover. The relationship between airborne SIF calculated from pure tree crowns and aggregated pixels shows the effect of the understory at different resolutions. For a pixel size smaller than the mean crown size, the impact of the background was low (R2 > 0.99; NRMSE < 0.01). By contrast, for a pixel size larger than the crown size, the goodness of fit decreased (R2 < 0.6; NRMSE > 0.2). This study demonstrates that using a 3D RTM model improves the calculation of SIF significantly (R2 = 0.83, RMSE = 0.03 mW m−2 sr−1 nm−1) when the specific contribution of the soil and understory layers are accounted for, in comparison with the SIF calculated from mixed pixels that considers only one layer as background (R2 = 0.4, RMSE = 0.28 mW m

Published

2021

18. Can Vegetation Indices Serve as Proxies for Potential Sun-Induced Fluorescence (SIF)? A Fuzzy Simulation Approach on Airborne Imaging Spectroscopy Data

Author

Bandopadhyay, S, Rastogi, A, Cogliati, S, Rascher, U, Gąbka, M, Juszczak, R, Bandopadhyay, Subhajit, Rastogi, Anshu, Cogliati, Sergio, Rascher, Uwe, Gąbka, Maciej, Juszczak, Radosław, Bandopadhyay, S, Rastogi, A, Cogliati, S, Rascher, U, Gąbka, M, Juszczak, R, Bandopadhyay, Subhajit, Rastogi, Anshu, Cogliati, Sergio, Rascher, Uwe, Gąbka, Maciej, and Juszczak, Radosław

Abstract

In this study, we are testing a proxy for red and far-red Sun-induced fluorescence (SIF) using an integrated fuzzy logic modelling approach, termed as SIFfuzzy and SIFfuzzy-APAR. The SIF emitted from the core of the photosynthesis and observed at the top-of-canopy is regulated by three major controlling factors: (1) light interception and absorption by canopy plant cover; (2) escape fraction of SIF photons (fesc); (3) light use efficiency and non-photochemical quenching (NPQ) processes. In our study, we proposed and validated a fuzzy logic modelling approach that uses different combinations of spectral vegetation indices (SVIs) reflecting such controlling factors to approximate the potential SIF signals at 760 nm and 687 nm. The HyPlant derived and field validated SVIs (i.e., SR, NDVI, EVI, NDVIre, PRI) have been processed through the membership transformation in the first stage, and in the next stage the membership transformed maps have been processed through the Fuzzy Gamma simulation to calculate the SIFfuzzy. To test whether the inclusion of absorbed photosynthetic active radiation (APAR) increases the accuracy of the model, the SIFfuzzy was multiplied by APAR (SIFfuzzy-APAR). The agreement between the modelled SIFfuzzy and actual SIF airborne retrievals expressed by R2 ranged from 0.38 to 0.69 for SIF760 and from 0.85 to 0.92 for SIF687. The inclusion of APAR improved the R2 value between SIFfuzzy-APAR and actual SIF. This study showed, for the first time, that a diverse set of SVIs considered as proxies of different vegetation traits, such as biochemical, structural, and functional, can be successfully combined to work as a first-order proxy of SIF. The previous studies mainly included the far-red SIF whereas, in this study, we have also focused on red SIF along with far-red SIF. The analysis carried out at 1 m spatial resolution permits to better infer SIF behaviour at an ecosystem-relevant scale.

Published

2021

19. Spatio-spectral deconvolution for high resolution spectral imaging with an application to the estimation of sun-induced fluorescence

Author

Scharr, H, Rademske, P, Alonso, L, Cogliati, S, Rascher, U, Scharr, Hanno, Rademske, Patrick, Alonso, Luis, Cogliati, Sergio, Rascher, Uwe, Scharr, H, Rademske, P, Alonso, L, Cogliati, S, Rascher, U, Scharr, Hanno, Rademske, Patrick, Alonso, Luis, Cogliati, Sergio, and Rascher, Uwe

Abstract

We propose a signal deconvolution procedure for imaging spectrometer data, where a measured point spread function (PSF) is deconvolved itself before being used for deconvolution of the signal. We evaluate the effectiveness of our procedure for improvement of the spatio-spectral signal, as well as our target application, i.e. estimation of sun-induced fluorescence (SIF). Imaging spectrometers are well established instruments for remote sensing. When used for scientific purposes these instruments are usually calibrated on a regular basis. In our case the point spread function of the optics is measured in an elaborate procedure with a tunable monochromator point light source. PSFs are measured at different pixel positions of the imaging sensor, i.e. at different spatio-spectral locations, and averaged in order to get an as accurate PSF as possible. We investigate error sources in this calibration process by simulating the procedure in silico. Averaging as well as the spectral and spatial width of the point source introduce some smoothness in the measured PSF. We propose corrective measures, i.e. deconvolution of the PSF itself and median instead of mean averaging, leading to a set of sharper PSFs. We test the performance of these PSFs in deconvolving simulated as well as real hyperspectral images. For deconvolution we test a set of well-known, off the shelf deconvolution algorithms. Quantitatively in terms of PSNR (Peak Signal to Noise Ratio) a combination of Wiener filtering and sharpened PSFs yields strongest improvements, while using Wiener filtering with non-sharpened PSFs even deteriorates the signal. Comparing deconvolution results of the simulated data with results of real data reveals, that visually very similar effects can be observed. This well supports the assumption, that our findings are also valid for real spatio-spectral data. Surprisingly, the choice of PSF, sharpened or not, is of little effect for SIF estimation with the iFLD algorithm in the O2A band

Published

2021

20. A first assessment of the 2018 European drought impact on ecosystem evapotranspiration

Author

Ahmed, Kazi Rifat, Paul-Limoges, Eugénie, Rascher, Uwe, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Ahmed, Kazi Rifat, Paul-Limoges, Eugénie, Rascher, Uwe, and Damm, Alexander; https://orcid.org/0000-0001-8965-3427

Abstract

The combined heatwave and drought in 2018 notably affected the state and functioning of European ecosystems. The severity and distribution of this extreme event across ecosystem types and its possible implication on ecosystem water fluxes are still poorly understood. This study estimates spatio-temporal changes in evapotranspiration (ET) during the 2018 drought and heatwave and assesses how these changes are distributed in European ecosystems along climatic gradients. We used the ET eight-day composite product from the MODerate Resolution Imaging Spectroradiometer (MODIS) together with meteorological data from the European Centre for Medium-Range Weather Forecasts (ECMWF ERA5). Our results indicate that ecosystem ET was strongly reduced (up to −50% compared to a 10-year reference period) in areas with extreme anomalies in surface air temperature (Tsa) and precipitation (P) in central, northern, eastern, and western Europe. Northern and Eastern Europe had prolonged anomalies of up to seven months with extreme intensities (relative and absolute) of Tsa, P, and ET. Particularly, agricultural areas, mixed natural vegetation, and non-irrigated agricultural areas were the most affected by the increased temperatures in northern Europe. Our results show contrasting drought impacts on ecosystem ET between the North and South of Europe as well as on ecosystem types.

Published

2021

21. CloudRoots: Integration of advanced instrumental techniques and process modelling of sub-hourly and sub-kilometre land-Atmosphere interactions

Author

Vilà-Guerau De Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, F. Moene, Arnold, Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, Graf, Alexander, Vilà-Guerau De Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, F. Moene, Arnold, Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, and Graf, Alexander

Abstract

The CloudRoots field experiment was designed to obtain a comprehensive observational dataset that includes soil, plant, and atmospheric variables to investigate the interaction between a heterogeneous land surface and its overlying atmospheric boundary layer at the sub-hourly and sub-kilometre scale. Our findings demonstrate the need to include measurements at leaf level to better understand the relations between stomatal aperture and evapotranspiration (ET) during the growing season at the diurnal scale. Based on these observations, we obtain accurate parameters for the mechanistic representation of photosynthesis and stomatal aperture. Once the new parameters are implemented, the model reproduces the stomatal leaf conductance and the leaf-level photosynthesis satisfactorily. At the canopy scale, we find a consistent diurnal pattern on the contributions of plant transpiration and soil evaporation using different measurement techniques. From highly resolved vertical profile measurements of carbon dioxide (

Published

2020

22. CloudRoots: Integration of advanced instrumental techniques and process modelling of sub-hourly and sub-kilometre land-Atmosphere interactions

Author

Environmental Sciences, Global Ecohydrology and Sustainability, Sub Atmospheric physics and chemistry, Marine and Atmospheric Research, Vilà-Guerau De Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, F. Moene, Arnold, Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, Graf, Alexander, Environmental Sciences, Global Ecohydrology and Sustainability, Sub Atmospheric physics and chemistry, Marine and Atmospheric Research, Vilà-Guerau De Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, F. Moene, Arnold, Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, and Graf, Alexander

Published

2020

23. 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

24. SARSense: A C- and L-band SAR rehearsal campaign in Germany in preparation for ROSE-L

Author

UCL - SST/ELI/ELIE - Environmental Sciences, Montzka, Carsten, Brogi, Cosimo, Mengen, David, Matveeva, Maria, Baum, Stephani, Schüttemeyer, Dirk, Bayat, Bagher, Bogena, Heye, Coccia, Alex, Masalias, Gérard, Graf, Verena, Jakobi, Jannis, Jonard, François, Ma, Yueling, Mattia, Francesco, Palmisano, Davide, Rascher, Uwe, Satalino, Guiseppe, Jagdhuber, Thomas, Fluhrer, Anke, Schumacher, Maide, Schmidt, Marius, Vereecken, Harry, IEEE International Geoscience and Remote Sensing Symposium (IGARSS), UCL - SST/ELI/ELIE - Environmental Sciences, Montzka, Carsten, Brogi, Cosimo, Mengen, David, Matveeva, Maria, Baum, Stephani, Schüttemeyer, Dirk, Bayat, Bagher, Bogena, Heye, Coccia, Alex, Masalias, Gérard, Graf, Verena, Jakobi, Jannis, Jonard, François, Ma, Yueling, Mattia, Francesco, Palmisano, Davide, Rascher, Uwe, Satalino, Guiseppe, Jagdhuber, Thomas, Fluhrer, Anke, Schumacher, Maide, Schmidt, Marius, Vereecken, Harry, and IEEE International Geoscience and Remote Sensing Symposium (IGARSS)

Abstract

In summer 2019 the SARSense campaign was held in Jülich, Germany, to provide insights into the potentials and specifications of the ESA Copernicus candidate mission ROSE-L (Radar Observation System for Europe). ROSE-L will consist of two satellites that carry a polarimetric L-band SAR. Since the L-band signal can penetrate through many natural materials such as vegetation, dry snow and ice, the mission will provide additional information that cannot be gathered by the Copernicus Sentinel-1 C-band SAR mission. The overall objective of the SARSense 2019 campaign is to analyze the mission design concerning its potential for agricultural monitoring services including target applications such as soil moisture monitoring, irrigation management, crop type discrimination, food security and precision farming. The SARSense in situ measurements of soil moisture, soil temperature, vegetation properties, UAS-based multispectral and thermal mapping, as well as the airborne SAR observations are presented as well as strategies for soil moisture retrieval and first analysis.

Published

2020

25. CloudRoots: Integration of advanced instrumental techniques and process modelling of sub-hourly and sub-kilometre land-Atmosphere interactions

Author

Environmental Sciences, Global Ecohydrology and Sustainability, Sub Atmospheric physics and chemistry, Marine and Atmospheric Research, Vilà-Guerau De Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, F. Moene, Arnold, Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, Graf, Alexander, Environmental Sciences, Global Ecohydrology and Sustainability, Sub Atmospheric physics and chemistry, Marine and Atmospheric Research, Vilà-Guerau De Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, F. Moene, Arnold, Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, and Graf, Alexander

Published

2020

26. CloudRoots: Integration of advanced instrumental techniques and process modelling of sub-hourly and sub-kilometre land-Atmosphere interactions

Author

Environmental Sciences, Global Ecohydrology and Sustainability, Sub Atmospheric physics and chemistry, Marine and Atmospheric Research, Vilà-Guerau De Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, F. Moene, Arnold, Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, Graf, Alexander, Environmental Sciences, Global Ecohydrology and Sustainability, Sub Atmospheric physics and chemistry, Marine and Atmospheric Research, Vilà-Guerau De Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, F. Moene, Arnold, Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, and Graf, Alexander

Published

2020

27. 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

28. Dynamics of sun-induced chlorophyll fluorescence and reflectance to detect stress-induced variations in canopy photosynthesis

Author

Pinto, F, Celesti, M, Acebron, K, Alberti, G, Cogliati, S, Colombo, R, Juszczak, R, Matsubara, S, Miglietta, F, Palombo, A, Panigada, C, Pignatti, S, Rossini, M, Sakowska, K, Schickling, A, Schüttemeyer, D, Stróżecki, M, Tudoroiu, M, Rascher, U, Pinto, Francisco, Celesti, Marco, Acebron, Kelvin, Alberti, Giorgio, Cogliati, Sergio, Colombo, Roberto, Juszczak, Radosław, Matsubara, Shizue, Miglietta, Franco, Palombo, Angelo, Panigada, Cinzia, Pignatti, Stefano, Rossini, Micol, Sakowska, Karolina, Schickling, Anke, Schüttemeyer, Dirk, StróŻecki, Marcin, Tudoroiu, Marin, Rascher, Uwe, Pinto, F, Celesti, M, Acebron, K, Alberti, G, Cogliati, S, Colombo, R, Juszczak, R, Matsubara, S, Miglietta, F, Palombo, A, Panigada, C, Pignatti, S, Rossini, M, Sakowska, K, Schickling, A, Schüttemeyer, D, Stróżecki, M, Tudoroiu, M, Rascher, U, Pinto, Francisco, Celesti, Marco, Acebron, Kelvin, Alberti, Giorgio, Cogliati, Sergio, Colombo, Roberto, Juszczak, Radosław, Matsubara, Shizue, Miglietta, Franco, Palombo, Angelo, Panigada, Cinzia, Pignatti, Stefano, Rossini, Micol, Sakowska, Karolina, Schickling, Anke, Schüttemeyer, Dirk, StróŻecki, Marcin, Tudoroiu, Marin, and Rascher, Uwe

Abstract

Passive measurement of sun-induced chlorophyll fluorescence (F) represents the most promising tool to quantify changes in photosynthetic functioning on a large scale. However, the complex relationship between this signal and other photosynthesis-related processes restricts its interpretation under stress conditions. To address this issue, we conducted a field campaign by combining daily airborne and ground-based measurements of F (normalized to photosynthetically active radiation), reflectance and surface temperature and related the observed changes to stress-induced variations in photosynthesis. A lawn carpet was sprayed with different doses of the herbicide Dicuran. Canopy-level measurements of gross primary productivity indicated dosage-dependent inhibition of photosynthesis by the herbicide. Dosage-dependent changes in normalized F were also detected. After spraying, we first observed a rapid increase in normalized F and in the Photochemical Reflectance Index, possibly due to the blockage of electron transport by Dicuran and the resultant impairment of xanthophyll-mediated non-photochemical quenching. This initial increase was followed by a gradual decrease in both signals, which coincided with a decline in pigment-related reflectance indices. In parallel, we also detected a canopy temperature increase after the treatment. These results demonstrate the potential of using F coupled with relevant reflectance indices to estimate stress-induced changes in canopy photosynthesis.

Published

2020

29. CloudRoots: integration of advanced instrumental techniques and process modelling of sub-hourly and sub-kilometre land–atmosphere interactions

Author

Vilà-Guerau de Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, Moene, Arnold F., Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, Graf, Alexander, Vilà-Guerau de Arellano, Jordi, Ney, Patrizia, Hartogensis, Oscar, De Boer, Hugo, Van Diepen, Kevin, Emin, Dzhaner, De Groot, Geiske, Klosterhalfen, Anne, Langensiepen, Matthias, Matveeva, Maria, Miranda-García, Gabriela, Moene, Arnold F., Rascher, Uwe, Röckmann, Thomas, Adnew, Getachew, Brüggemann, Nicolas, Rothfuss, Youri, and Graf, Alexander

Abstract

The CloudRoots field experiment was designed to obtain a comprehensive observational dataset that includes soil, plant, and atmospheric variables to investigate the interaction between a heterogeneous land surface and its overlying atmospheric boundary layer at the sub-hourly and sub-kilometre scale. Our findings demonstrate the need to include measurements at leaf level to better understand the relations between stomatal aperture and evapotranspiration (ET) during the growing season at the diurnal scale. Based on these observations, we obtain accurate parameters for the mechanistic representation of photosynthesis and stomatal aperture. Once the new parameters are implemented, the model reproduces the stomatal leaf conductance and the leaf-level photosynthesis satisfactorily. At the canopy scale, we find a consistent diurnal pattern on the contributions of plant transpiration and soil evaporation using different measurement techniques. From highly resolved vertical profile measurements of carbon dioxide (CO2) and other state variables, we infer a profile of the CO2 assimilation in the canopy with non-linear variations with height. Observations taken with a laser scintillometer allow us to quantify the non-steadiness of the surface turbulent fluxes during the rapid changes driven by perturbation of photosynthetically active radiation by cloud flecks. More specifically, we find 2 min delays between the cloud radiation perturbation and ET. To study the relevance of advection and surface heterogeneity for the land–atmosphere interaction, we employ a coupled surface–atmospheric conceptual model that integrates the surface and upper-air observations made at different scales from leaf to the landscape. At the landscape scale, we calculate a composite sensible heat flux by weighting measured fluxes with two different land use categories, which is consistent with the diurnal evolution of the boundary layer depth. Using sun-induced fluorescence measurements, we also quantify

Published

2020

30. Filtering Fluorescence Time Series Acquired with the FloX Monitoring Field Spectrometer for the Investigation of Vegetation Dynamic Seasonal Trends over Grassland

Author

UCL - SST/ELI/ELIE - Environmental Sciences, Näthe, Paul, Burkart, Andreas, Julitta, Tommaso, Junker, Laura, Knaps, Axel, Bohn, Birger, Pospichal, Bernhard, Jonard, François, Lud, Daniela, Rascher, Uwe, International Network on Remote Sensing of Terrestrial And Aquatic Fluorescence, UCL - SST/ELI/ELIE - Environmental Sciences, Näthe, Paul, Burkart, Andreas, Julitta, Tommaso, Junker, Laura, Knaps, Axel, Bohn, Birger, Pospichal, Bernhard, Jonard, François, Lud, Daniela, Rascher, Uwe, and International Network on Remote Sensing of Terrestrial And Aquatic Fluorescence

Abstract

The process of photosynthesis feeds almost all living organisms on the planet, plays an important role in the global carbon cycle and directly impacts the climate on earth. Remote sensing of sun induced chlorophyll fluorescence (SIF) is applied for non-invasive monitoring of photosynthesis in terrestrial vegetation on various scales. However, the direct understanding of SIF as a proxy for photosynthesis is a field of ongoing research. Tower-based SIF retrieval by field spectrometers for autonomous long-term observation of vegetation aspires to gain further insight into ecosystem-specific seasonal dynamics of photosynthesis activity.

Published

2019

31. Field-scale monitoring of drought stress using chlorophyll fluorescence with the coupled SCOPE-AgroC model

Author

UCL - SST/ELI/ELIE - Environmental Sciences, De Canniere, Simon, Herbst, Michael, Rascher, Uwe, Vereecken, Harry, Defourny, Pierre, Jonard, François, International Network on Remote Sensing of Terrestrial And Aquatic Fluorescence, UCL - SST/ELI/ELIE - Environmental Sciences, De Canniere, Simon, Herbst, Michael, Rascher, Uwe, Vereecken, Harry, Defourny, Pierre, Jonard, François, and International Network on Remote Sensing of Terrestrial And Aquatic Fluorescence

Abstract

Plant physiological link between drought stress and SIF emission  Drought stress is the combined effect of high VPD and low soil water potential  Stomata are closed, reducing sub stomatal CO2 concentrations  Drought stress slows down Calvin cycle but drought stress as such does not reduce light absorption  Fluorescence and NPQ provide alternative electron sinks Research questions 1. How does the SIF signal react to drought stress at different time horizons and stress levels? 2. How is the SIF emission related to plant processes? 3. Can we improve the estimations of transpiration and photosynthesis rates of crops under stress conditions by assimilating SIF observations into plant growth models?

Published

2019

32. A spectral fitting algorithm to retrieve the fluorescence spectrum from canopy radiance

Author

Cogliati, S, Celesti, M, Cesana, I, Miglietta, F, Genesio, L, Julitta, T, Schuettemeyer, D, Drusch, M, Rascher, U, Jurado, P, Colombo, R, Cogliati, Sergio, Celesti, Marco, CESANA, ILARIA, Miglietta, Franco, Genesio, Lorenzo, Julitta, Tommaso, Schuettemeyer, Dirk, Drusch, Matthias, Rascher, Uwe, Jurado, Pedro, Colombo, Roberto, Cogliati, S, Celesti, M, Cesana, I, Miglietta, F, Genesio, L, Julitta, T, Schuettemeyer, D, Drusch, M, Rascher, U, Jurado, P, Colombo, R, Cogliati, Sergio, Celesti, Marco, CESANA, ILARIA, Miglietta, Franco, Genesio, Lorenzo, Julitta, Tommaso, Schuettemeyer, Dirk, Drusch, Matthias, Rascher, Uwe, Jurado, Pedro, and Colombo, Roberto

Abstract

Retrieval of Sun-Induced Chlorophyll Fluorescence (F) spectrum is one of the challenging perspectives for further advancing F studies towards a better characterization of vegetation structure and functioning. In this study, a simplified Spectral Fitting retrieval algorithm suitable for retrieving the F spectrum with a limited number of parameters is proposed (two parameters for F). The novel algorithm is developed and tested on a set of radiative transfer simulations obtained by coupling SCOPE and MODTRAN5 codes, considering different chlorophyll content, leaf area index and noise levels to produce a large variability in fluorescence and reflectance spectra. The retrieval accuracy is quantified based on several metrics derived from the F spectrum (i.e., red and far-red peaks, O2 bands and spectrally-integrated values). Further, the algorithm is employed to process experimental field spectroscopy measurements collected over different crops during a long-lasting field campaign. The reliability of the retrieval algorithm on experimental measurements is evaluated by cross-comparison with F values computed by an independent retrieval method (i.e., SFM at O2 bands). For the first time, the evolution of the F spectrum along the entire growing season for a forage crop is analyzed and three diverse F spectra are identified at different growing stages. The results show that red F is larger for young canopy; while red and far-red F have similar intensity in an intermediate stage; finally, far-red F is significantly larger for the rest of the season.

Published

2019

33. 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

34. 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

35. The high-performance airborne imaging spectrometer HyPlant—from raw images to top-of-canopy reflectance and fluorescence products: introduction of an automatized processing chain

Author

Siegmann, Bastian; https://orcid.org/0000-0002-1232-7102, Alonso, Luis; https://orcid.org/0000-0002-8221-5739, Celesti, Marco; https://orcid.org/0000-0001-7249-7106, Cogliati, Sergio; https://orcid.org/0000-0002-7192-2032, Colombo, Roberto, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Douglas, Sarah, Guanter, Luis, Hanuš, Jan, Kataja, Kari, Kraska, Thorsten, Matveeva, Maria; https://orcid.org/0000-0002-1627-0182, Moreno, Jóse; https://orcid.org/0000-0002-5283-3333, Muller, Onno, Pikl, Miroslav, Pinto, Francisco; https://orcid.org/0000-0003-3000-9084, Quirós Vargas, Juan; https://orcid.org/0000-0001-6524-7504, Rademske, Patrick, Rodriguez-Morene, Fernando, Sabater, Neus, Schickling, Anke, Schüttemeyer, Dirk, Zemek, František; https://orcid.org/0000-0001-7564-7296, Rascher, Uwe, Siegmann, Bastian; https://orcid.org/0000-0002-1232-7102, Alonso, Luis; https://orcid.org/0000-0002-8221-5739, Celesti, Marco; https://orcid.org/0000-0001-7249-7106, Cogliati, Sergio; https://orcid.org/0000-0002-7192-2032, Colombo, Roberto, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, Douglas, Sarah, Guanter, Luis, Hanuš, Jan, Kataja, Kari, Kraska, Thorsten, Matveeva, Maria; https://orcid.org/0000-0002-1627-0182, Moreno, Jóse; https://orcid.org/0000-0002-5283-3333, Muller, Onno, Pikl, Miroslav, Pinto, Francisco; https://orcid.org/0000-0003-3000-9084, Quirós Vargas, Juan; https://orcid.org/0000-0001-6524-7504, Rademske, Patrick, Rodriguez-Morene, Fernando, Sabater, Neus, Schickling, Anke, Schüttemeyer, Dirk, Zemek, František; https://orcid.org/0000-0001-7564-7296, and Rascher, Uwe

Abstract

The HyPlant imaging spectrometer is a high-performance airborne instrument consisting of two sensor modules. The DUAL module records hyperspectral data in the spectral range from 400–2500 nm, which is useful to derive biochemical and structural plant properties. In parallel, the FLUO module acquires data in the red and near infrared range (670–780 nm), with a distinctly higher spectral sampling interval and finer spectral resolution. The technical specifications of HyPlant FLUO allow for the retrieval of sun-induced chlorophyll fluorescence (SIF), a small signal emitted by plants, which is directly linked to their photosynthetic efficiency. The combined use of both HyPlant modules opens up new opportunities in plant science. The processing of HyPlant image data, however, is a rather complex procedure, and, especially for the FLUO module, a precise characterization and calibration of the sensor is of utmost importance. The presented study gives an overview of this unique high-performance imaging spectrometer, introduces an automatized processing chain, and gives an overview of the different processing steps that must be executed to generate the final products, namely top of canopy (TOC) radiance, TOC reflectance, reflectance indices and SIF maps.

Published

2019

36. Assessing vegetation function with imaging spectroscopy

Author

Gamon, J A; https://orcid.org/0000-0002-8269-7723, Somers, B, Malenovský, Zbyněk, Middleton, E M, Rascher, Uwe, Schaepman, Michael E; https://orcid.org/0000-0002-9627-9565, Gamon, J A; https://orcid.org/0000-0002-8269-7723, Somers, B, Malenovský, Zbyněk, Middleton, E M, Rascher, Uwe, and Schaepman, Michael E; https://orcid.org/0000-0002-9627-9565

Abstract

Healthy vegetation function supports diverse biological communities and ecosystem processes, and provides crops, forest products, forage, and countless other benefits. Vegetation function can be assessed by examining dynamic processes and by evaluating plant traits, which themselves are dynamic. Using both trait-based and process-based approaches, spectroscopy can assess vegetation function at multiple scales using a variety of sensors and platforms ranging from proximal to airborne and satellite measurements. Since spectroscopic data are defined by the instruments and platforms available, along with their corresponding spatial, temporal and spectral scales, and since these scales may not always match those of the function of interest, consideration of scale is a necessary focus. For a full understanding of vegetation processes, combined (multi-scale) sampling methods using empirical and theoretical approaches are required, along with improved informatics.

Published

2019

37. 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; https://orcid.org/0000-0001-8965-3427, 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, Helge, Van Wittenberghe, Shari, Medina, Neus Sabater, Damm, Alexander; https://orcid.org/0000-0001-8965-3427, 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, 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

38. A spectral fitting algorithm to retrieve the fluorescence spectrum from canopy radiance

Author

Cogliati, S, Celesti, M, Cesana, I, Miglietta, F, Genesio, L, Julitta, T, Schuettemeyer, D, Drusch, M, Rascher, U, Jurado, P, Colombo, R, Cogliati, Sergio, Celesti, Marco, CESANA, ILARIA, Miglietta, Franco, Genesio, Lorenzo, Julitta, Tommaso, Schuettemeyer, Dirk, Drusch, Matthias, Rascher, Uwe, Jurado, Pedro, Colombo, Roberto, Cogliati, S, Celesti, M, Cesana, I, Miglietta, F, Genesio, L, Julitta, T, Schuettemeyer, D, Drusch, M, Rascher, U, Jurado, P, Colombo, R, Cogliati, Sergio, Celesti, Marco, CESANA, ILARIA, Miglietta, Franco, Genesio, Lorenzo, Julitta, Tommaso, Schuettemeyer, Dirk, Drusch, Matthias, Rascher, Uwe, Jurado, Pedro, and Colombo, Roberto

Abstract

Retrieval of Sun-Induced Chlorophyll Fluorescence (F) spectrum is one of the challenging perspectives for further advancing F studies towards a better characterization of vegetation structure and functioning. In this study, a simplified Spectral Fitting retrieval algorithm suitable for retrieving the F spectrum with a limited number of parameters is proposed (two parameters for F). The novel algorithm is developed and tested on a set of radiative transfer simulations obtained by coupling SCOPE and MODTRAN5 codes, considering different chlorophyll content, leaf area index and noise levels to produce a large variability in fluorescence and reflectance spectra. The retrieval accuracy is quantified based on several metrics derived from the F spectrum (i.e., red and far-red peaks, O2 bands and spectrally-integrated values). Further, the algorithm is employed to process experimental field spectroscopy measurements collected over different crops during a long-lasting field campaign. The reliability of the retrieval algorithm on experimental measurements is evaluated by cross-comparison with F values computed by an independent retrieval method (i.e., SFM at O2 bands). For the first time, the evolution of the F spectrum along the entire growing season for a forage crop is analyzed and three diverse F spectra are identified at different growing stages. The results show that red F is larger for young canopy; while red and far-red F have similar intensity in an intermediate stage; finally, far-red F is significantly larger for the rest of the season.

Published

2019

39. Nitrogen and Phosphorus Effect on Sun-Induced Fluorescence and Gross Primary Productivity in Mediterranean Grassland

Author

Martini, David, Pacheco-Labrador, Javier, Perez-Priego, Oscar, van der Tol, Christiaan, El-Madany, Tarek S., Julitta, Tommaso, Rossini, Micol, Reichstein, Markus, Christiansen, Rune, Rascher, Uwe, Moreno, Gerardo, Martin, M. Pilar, Yang, Peiqi, Carrara, Arnaud, Guan, Jinhong, Gonzalez-Cascon, Rosario, Migliavacca, Mirco, Martini, David, Pacheco-Labrador, Javier, Perez-Priego, Oscar, van der Tol, Christiaan, El-Madany, Tarek S., Julitta, Tommaso, Rossini, Micol, Reichstein, Markus, Christiansen, Rune, Rascher, Uwe, Moreno, Gerardo, Martin, M. Pilar, Yang, Peiqi, Carrara, Arnaud, Guan, Jinhong, Gonzalez-Cascon, Rosario, and Migliavacca, Mirco

Published

2019

40. Remote sensing of solar-induced chlorophyll fluorescence (SIF) in vegetation: 50 years of progress

Author

Mohammed, G, Colombo, R, Middleton, E, Rascher, U, van der Tol, C, Nedbal, L, Goulas, Y, Pérez-Priego, O, Damm, A, Meroni, M, Joiner, J, Cogliati, S, Verhoef, W, Malenovský, Z, Gastellu-Etchegorry, J, Miller, J, Guanter, L, Moreno, J, Moya, I, Berry, J, Frankenberg, C, Zarco-Tejada, P, Mohammed, Gina H., Colombo, Roberto, Middleton, Elizabeth M., Rascher, Uwe, van der Tol, Christiaan, Nedbal, Ladislav, Goulas, Yves, Pérez-Priego, Oscar, Damm, Alexander, Meroni, Michele, Joiner, Joanna, Cogliati, Sergio, Verhoef, Wouter, Malenovský, Zbyněk, Gastellu-Etchegorry, Jean-Philippe, Miller, John R., Guanter, Luis, Moreno, Jose, Moya, Ismael, Berry, Joseph A., Frankenberg, Christian, Zarco-Tejada, Pablo J., Mohammed, G, Colombo, R, Middleton, E, Rascher, U, van der Tol, C, Nedbal, L, Goulas, Y, Pérez-Priego, O, Damm, A, Meroni, M, Joiner, J, Cogliati, S, Verhoef, W, Malenovský, Z, Gastellu-Etchegorry, J, Miller, J, Guanter, L, Moreno, J, Moya, I, Berry, J, Frankenberg, C, Zarco-Tejada, P, Mohammed, Gina H., Colombo, Roberto, Middleton, Elizabeth M., Rascher, Uwe, van der Tol, Christiaan, Nedbal, Ladislav, Goulas, Yves, Pérez-Priego, Oscar, Damm, Alexander, Meroni, Michele, Joiner, Joanna, Cogliati, Sergio, Verhoef, Wouter, Malenovský, Zbyněk, Gastellu-Etchegorry, Jean-Philippe, Miller, John R., Guanter, Luis, Moreno, Jose, Moya, Ismael, Berry, Joseph A., Frankenberg, Christian, and Zarco-Tejada, Pablo J.

Abstract

Remote sensing of solar-induced chlorophyll fluorescence (SIF) is a rapidly advancing front in terrestrial vegetation science, with emerging capability in space-based methodologies and diverse application prospects. Although remote sensing of SIF – especially from space – is seen as a contemporary new specialty for terrestrial plants, it is founded upon a multi-decadal history of research, applications, and sensor developments in active and passive sensing of chlorophyll fluorescence. Current technical capabilities allow SIF to be measured across a range of biological, spatial, and temporal scales. As an optical signal, SIF may be assessed remotely using high-resolution spectral sensors in tandem with state-of-the-art algorithms to distinguish the emission from reflected and/or scattered ambient light. Because the red to far-red SIF emission is detectable non-invasively, it may be sampled repeatedly to acquire spatio-temporally explicit information about photosynthetic light responses and steady-state behaviour in vegetation. Progress in this field is accelerating with innovative sensor developments, retrieval methods, and modelling advances. This review distills the historical and current developments spanning the last several decades. It highlights SIF heritage and complementarity within the broader field of fluorescence science, the maturation of physiological and radiative transfer modelling, SIF signal retrieval strategies, techniques for field and airborne sensing, advances in satellite-based systems, and applications of these capabilities in evaluation of photosynthesis and stress effects. Progress, challenges, and future directions are considered for this unique avenue of remote sensing.

Published

2019

41. Nitrogen and Phosphorus Effect on Sun-Induced Fluorescence and Gross Primary Productivity in Mediterranean Grassland

Author

European Commission, Ministerio de Economía y Competitividad (España), Federal Ministry of Economics and Technology (Germany), Carrara, Arnaud [0000-0002-9095-8807], Martín, M. Pilar [0000-0002-5563-8461], Pacheco-Labrador, Javier [0000-0003-3401-7081], Pérez Priego, Oscar [0000-0002-3138-3177], Martini, David, Pacheco-Labrador, Javier, Pérez Priego, Oscar, Van der Tol, Christiaan, El Madany Tarek, S, Julitta, Tommaso, Rossini, Micol, Reichstein, Markus, Christiansen, R, Rascher, Uwe, Moreno, Gerardo, Martín, M. Pilar, Yang, Peiqi, Carrara, Arnaud, Guan, J., González Cascón, M.R., Migliavacca, Mirco, European Commission, Ministerio de Economía y Competitividad (España), Federal Ministry of Economics and Technology (Germany), Carrara, Arnaud [0000-0002-9095-8807], Martín, M. Pilar [0000-0002-5563-8461], Pacheco-Labrador, Javier [0000-0003-3401-7081], Pérez Priego, Oscar [0000-0002-3138-3177], Martini, David, Pacheco-Labrador, Javier, Pérez Priego, Oscar, Van der Tol, Christiaan, El Madany Tarek, S, Julitta, Tommaso, Rossini, Micol, Reichstein, Markus, Christiansen, R, Rascher, Uwe, Moreno, Gerardo, Martín, M. Pilar, Yang, Peiqi, Carrara, Arnaud, Guan, J., González Cascón, M.R., and Migliavacca, Mirco

Abstract

Sun-Induced fluorescence at 760 nm (F760) is increasingly being used to predict gross primary production (GPP) through light use efficiency (LUE) modeling, even though the mechanistic processes that link the two are not well understood. We analyzed the effect of nitrogen (N) and phosphorous (P) availability on the processes that link GPP and F760 in a Mediterranean grassland manipulated with nutrient addition. To do so, we used a combination of process-based modeling with Soil-Canopy Observation of Photosynthesis and Energy (SCOPE), and statistical analyses such as path modeling. With this study, we uncover the mechanisms that link the fertilization-driven changes in canopy nitrogen concentration (N%) to the observed changes in F760 and GPP. N addition changed plant community structure and increased canopy chlorophyll content, which jointly led to changes in photosynthetic active radiation (APAR), ultimately affecting both GPP and F760. Changes in the abundance of graminoids, (%graminoids) driven by N addition led to changes in structural properties of the canopy such as leaf angle distribution, that ultimately influenced observed F760 by controlling the escape probability of F760 (Fesc). In particular, we found a change in GPP¿F760 relationship between the first and the second year of the experiment that was largely driven by the effect of plant type composition on Fesc, whose best predictor is %graminoids. The P addition led to a statistically significant increase on light use efficiency of fluorescence emission (LUEf), in particular in plots also with N addition, consistent with leaf level studies. The N addition induced changes in the biophysical properties of the canopy that led to a trade-off between surface temperature (Ts), which decreased, and F760 at leaf scale (F760leaf,fw), which increased. We found that Ts is an important predictor of the light use efficiency of photosynthesis, indicating the importance of Ts in LUE modeling approaches to predict GPP

Published

2019

42. Remote sensing of solar-induced chlorophyll fluorescence (SIF) in vegetation: 50 years of progress

Author

Australian Research Council, European Space Agency, Mohammed, G. H., Colombo, Roberto, Middleton, Elizabeth M., Rascher, Uwe, van der Tol, Christiaan, Nedbal, Ladislav, Goulas, Yves, Pérez-Priego, Óscar, Damm, Alexander, Meroni, Michele, Joiner, Joana, Cogliati, Sergio, Verhoef, Wout, Malenovský, Zbyněk, Gastellu-Etchegorry, J. P., Miller, John R., Guanter, Luis, Moreno, José, Moya, Ismael, Berry, Joseph A., Frankenberg, Christian, Zarco-Tejada, Pablo J., Australian Research Council, European Space Agency, Mohammed, G. H., Colombo, Roberto, Middleton, Elizabeth M., Rascher, Uwe, van der Tol, Christiaan, Nedbal, Ladislav, Goulas, Yves, Pérez-Priego, Óscar, Damm, Alexander, Meroni, Michele, Joiner, Joana, Cogliati, Sergio, Verhoef, Wout, Malenovský, Zbyněk, Gastellu-Etchegorry, J. P., Miller, John R., Guanter, Luis, Moreno, José, Moya, Ismael, Berry, Joseph A., Frankenberg, Christian, and Zarco-Tejada, Pablo J.

Abstract

Remote sensing of solar-induced chlorophyll fluorescence (SIF) is a rapidly advancing front in terrestrial vegetation science, with emerging capability in space-based methodologies and diverse application prospects. Although remote sensing of SIF – especially from space – is seen as a contemporary new specialty for terrestrial plants, it is founded upon a multi-decadal history of research, applications, and sensor developments in active and passive sensing of chlorophyll fluorescence. Current technical capabilities allow SIF to be measured across a range of biological, spatial, and temporal scales. As an optical signal, SIF may be assessed remotely using high-resolution spectral sensors in tandem with state-of-the-art algorithms to distinguish the emission from reflected and/or scattered ambient light. Because the red to far-red SIF emission is detectable non-invasively, it may be sampled repeatedly to acquire spatio-temporally explicit information about photosynthetic light responses and steady-state behaviour in vegetation. Progress in this field is accelerating with innovative sensor developments, retrieval methods, and modelling advances. This review distills the historical and current developments spanning the last several decades. It highlights SIF heritage and complementarity within the broader field of fluorescence science, the maturation of physiological and radiative transfer modelling, SIF signal retrieval strategies, techniques for field and airborne sensing, advances in satellite-based systems, and applications of these capabilities in evaluation of photosynthesis and stress effects. Progress, challenges, and future directions are considered for this unique avenue of remote sensing.

Published

2019

43. Nitrogen and Phosphorus Effect on Sun-Induced Fluorescence and Gross Primary Productivity in Mediterranean Grassland

Author

Martini, David, Pacheco-Labrador, Javier, Perez-Priego, Oscar, van der Tol, Christiaan, El-Madany, Tarek S., Julitta, Tommaso, Rossini, Micol, Reichstein, Markus, Christiansen, Rune, Rascher, Uwe, Moreno, Gerardo, Martin, M. Pilar, Yang, Peiqi, Carrara, Arnaud, Guan, Jinhong, Gonzalez-Cascon, Rosario, Migliavacca, Mirco, Martini, David, Pacheco-Labrador, Javier, Perez-Priego, Oscar, van der Tol, Christiaan, El-Madany, Tarek S., Julitta, Tommaso, Rossini, Micol, Reichstein, Markus, Christiansen, Rune, Rascher, Uwe, Moreno, Gerardo, Martin, M. Pilar, Yang, Peiqi, Carrara, Arnaud, Guan, Jinhong, Gonzalez-Cascon, Rosario, and Migliavacca, Mirco

Published

2019

44. Downscaling of solar-induced chlorophyll fluorescence from canopy level to photosystem level using a random forest model

Author

Liu, Xinjie, Guanter, Luis, Liu, Liangyun, Damm, Alexander, Malenovky, Zbynek, Rascher, Uwe, Peng, Dailiang, Du, Shanshan, Gastellu-Etchegorry, Jean-Philippe, Liu, Xinjie, Guanter, Luis, Liu, Liangyun, Damm, Alexander, Malenovky, Zbynek, Rascher, Uwe, Peng, Dailiang, Du, Shanshan, and Gastellu-Etchegorry, Jean-Philippe

Abstract

Solar-induced chlorophyll fluorescence (SIF), an electromagnetic signal that can potentially indicate vegetation photosynthetic activity, can be retrieved from ground-based, airborne and satellite measurements. However, due to the scattering and re-absorption effects inside the leaves and canopy, SIF measured at the canopy level is only a small part of the total SIF emission at the photosystem level. Therefore, a downscaling mechanism of SIF from the canopy level to the photosystem level is important for better understanding the relationship between SIF and the vegetation gross primary production (GPP). In this study, firstly, we analyzed the canopy scattering effects using a simple parameterization model based on the spectral invariant theory. The probability for SIF photons to escape from the canopy was found to be related to the anisotropic spectral reflectance, canopy interception of the upward solar radiation, and leaf absorption. An empirical approach based on a Random Forest (RF) regression algorithm was applied to downscale SIF constrained by the red, red-edge and far-red anisotropic reflectance. The RF was trained using simulations conducted with the Soil Canopy Observation, Photochemistry and Energy fluxes (SCOPE) model. The performance of the SIF downscaling method was evaluated with SCOPE and Discrete Anisotropic Radiative Transfer (DART) model simulations, ground measurements and airborne data. Results show that estimated SIF at the photosystem level matches well with simulated reference data, and the relationship between SIF and photosynthetically active radiation absorbed by chlorophyll is improved by SIF downscaling. This finding in combination with other evaluation criteria suggests the downscaling of canopy SIF as an efficient strategy to normalize species dependent effects of canopy structure and varying solar-view geometries. Based on our results for the SIF-APAR relationship, we expect that such normalization approaches can be helpful to improve

Published

2019

45. 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

46. 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

47. 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; https://orcid.org/0000-0001-8965-3427, Schuettemeyer, Dirk, Rascher, Uwe, 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; https://orcid.org/0000-0001-8965-3427, Schuettemeyer, Dirk, and Rascher, Uwe

Published

2018

48. Variability of sun-induced chlorophyll fluorescence according to stand age-related processes in a managed loblolly pine forest

Author

Colombo, R, Celesti, M, Bianchi, R, Campbell, P, Cogliati, S, Cook, B, Corp, L, Damm, A, Domec, J, Guanter, L, Julitta, T, Middleton, E, Noormets, A, Panigada, C, Pinto, F, Rascher, U, Rossini, M, Schickling, A, Colombo, Roberto, Celesti, Marco, Bianchi, Remo, Campbell, Petya K E, Cogliati, Sergio, Cook, Bruce D, Corp, Lawrence A, Damm, Alexander, Domec, Jean-Christophe, Guanter, Luis, Julitta, Tommaso, Middleton, Elizabeth M, Noormets, Asko, Panigada, Cinzia, Pinto, Francisco, Rascher, Uwe, Rossini, Micol, Schickling, Anke, Colombo, R, Celesti, M, Bianchi, R, Campbell, P, Cogliati, S, Cook, B, Corp, L, Damm, A, Domec, J, Guanter, L, Julitta, T, Middleton, E, Noormets, A, Panigada, C, Pinto, F, Rascher, U, Rossini, M, Schickling, A, Colombo, Roberto, Celesti, Marco, Bianchi, Remo, Campbell, Petya K E, Cogliati, Sergio, Cook, Bruce D, Corp, Lawrence A, Damm, Alexander, Domec, Jean-Christophe, Guanter, Luis, Julitta, Tommaso, Middleton, Elizabeth M, Noormets, Asko, Panigada, Cinzia, Pinto, Francisco, Rascher, Uwe, Rossini, Micol, and Schickling, Anke

Abstract

Leaf fluorescence can be used to track plant development and stress, and is considered the most direct measurement of photosynthetic activity available from remote sensing techniques. Red and far-red Sun Induced chlorophyll Fluorescence (SIF) maps were generated from high spatial resolution images collected with the HyPlant airborne spectrometer over even-aged loblolly pine plantations in North Carolina (USA). Canopy fluorescence yield (i.e., the fluorescence flux normalized by the light absorbed) in the red and far-red peaks was computed. This quantifies the fluorescence emission efficiencies that is more directly linked to canopy function compared to SIF radiances. Fluorescence fluxes and yields were investigated in relation to tree age to infer new insights on the potential of those measurements in better describing ecosystem processes. The results showed that red fluorescence yield varies with stand age. Young stands exhibited a nearly 2-fold higher red fluorescence yield than mature forest plantations, while the far-red fluorescence yield remained constant. We interpreted this finding in a context of photosynthetic stomatal limitation in aging loblolly pine stands. Current and future satellite missions provide global datasets of SIF at coarse spatial resolution, resulting in intra-pixel mixture effects, which could be a confounding factor for fluorescence signal interpretation. To mitigate this effect, we propose a surrogate of the fluorescence yield, namely the Canopy Cover Fluorescence Index (CCFI) that accounts for the spatial variability in canopy structure by exploiting the vegetation fractional cover. It was found that spatial aggregation tended to mask the effective relationships, while the CCFI was still able to maintain this link. This study is a first attempt in interpreting the fluorescence variability in aging forest stands and it may open new perspectives in understanding long-term forest dynamics in response to future climatic conditions from remo

Published

2018

49. In Memoriam: Gunter Menz

Author

Thonfeld, Frank, Rienow, Andreas, Dubovyk, Olena, Abdel-Hamid, Ayman, Akpeokhai, Agatha, Amler, Esther, Bareth, Georg, Basukala, Amit Kumar, Canty, Morton, Denich, Manfred, Dobrzeniecki, Tomasz, Ferner, Jessica, Fluegel, Hendrik, Ghazaryan, Gohar, Goetz, Ellen, Graw, Valerie, Greve, Klaus, Guuroh, Reginald, Heinemann, Sascha, Henning, Tobias, Hentze, Konrad, Hollberg, Jens L., Kirimi, Fridah, Kocherscheidt, Sophie, Konermann-Krueger, Baerbel, Liu, Di, Muro, Javier, Oldenburg, Carsten, Ortwein, Annette, Piroska, Ruben, Santos, Fabian, Schellberg, Juergen, Schultz, Johannes, Schurr, Ulrich, Selg, Fabian, Staar, Kilian, Steinbach, Stefanie, Strauch, Adrian, Szarzynski, Joerg, Tewes, Andreas, Thiong'o, Kuria Bartholomew, Vetter, Anna, Wirkus, Lars, Rascher, Uwe, Thonfeld, Frank, Rienow, Andreas, Dubovyk, Olena, Abdel-Hamid, Ayman, Akpeokhai, Agatha, Amler, Esther, Bareth, Georg, Basukala, Amit Kumar, Canty, Morton, Denich, Manfred, Dobrzeniecki, Tomasz, Ferner, Jessica, Fluegel, Hendrik, Ghazaryan, Gohar, Goetz, Ellen, Graw, Valerie, Greve, Klaus, Guuroh, Reginald, Heinemann, Sascha, Henning, Tobias, Hentze, Konrad, Hollberg, Jens L., Kirimi, Fridah, Kocherscheidt, Sophie, Konermann-Krueger, Baerbel, Liu, Di, Muro, Javier, Oldenburg, Carsten, Ortwein, Annette, Piroska, Ruben, Santos, Fabian, Schellberg, Juergen, Schultz, Johannes, Schurr, Ulrich, Selg, Fabian, Staar, Kilian, Steinbach, Stefanie, Strauch, Adrian, Szarzynski, Joerg, Tewes, Andreas, Thiong'o, Kuria Bartholomew, Vetter, Anna, Wirkus, Lars, and Rascher, Uwe

Published

2017

50. In Memoriam: Gunter Menz

Author

Thonfeld, Frank, Rienow, Andreas, Dubovyk, Olena, Abdel-Hamid, Ayman, Akpeokhai, Agatha, Amler, Esther, Bareth, Georg, Basukala, Amit, Canty, Morton, Denich, Manfred, Dobrzeniecki, Tomasz, Ferner, Jessica, Flügel, Hendrik, Ghazaryan, Gohar, Götz, Ellen, Graw, Valerie, Greve, Klaus, Guuroh, Reginald, Heinemann, Sascha, Henning, Tobias, Hentze, Konrad, Hollberg, Jens, Kirimi, Fridah, Kocherscheidt, Sophie, Konermann-Krüger, Bärbel, Liu, Di, Muro, Javier, Oldenburg, Carsten, Ortwein, Annette, Piroska, Ruben, Santos, Fabián, Schellberg, Jürgen, Schultz, Johannes, Schurr, Ulrich, Selg, Fabian, Staar, Kilian, Steinbach, Stefanie, Strauch, Adrian, Szarzynski, Jörg, Tewes, Andreas, Thiong’o, Kuria, Vetter, Anna, Wirkus, Lars, Rascher, Uwe, Thonfeld, Frank, Rienow, Andreas, Dubovyk, Olena, Abdel-Hamid, Ayman, Akpeokhai, Agatha, Amler, Esther, Bareth, Georg, Basukala, Amit, Canty, Morton, Denich, Manfred, Dobrzeniecki, Tomasz, Ferner, Jessica, Flügel, Hendrik, Ghazaryan, Gohar, Götz, Ellen, Graw, Valerie, Greve, Klaus, Guuroh, Reginald, Heinemann, Sascha, Henning, Tobias, Hentze, Konrad, Hollberg, Jens, Kirimi, Fridah, Kocherscheidt, Sophie, Konermann-Krüger, Bärbel, Liu, Di, Muro, Javier, Oldenburg, Carsten, Ortwein, Annette, Piroska, Ruben, Santos, Fabián, Schellberg, Jürgen, Schultz, Johannes, Schurr, Ulrich, Selg, Fabian, Staar, Kilian, Steinbach, Stefanie, Strauch, Adrian, Szarzynski, Jörg, Tewes, Andreas, Thiong’o, Kuria, Vetter, Anna, Wirkus, Lars, and Rascher, Uwe

Published

2017