Your search keyword '"Magenau, Elena"' showing total 29 results

1. Early impacts of marginal land‐use transition to Miscanthus on soil quality and soil carbon storage across Europe

Author

Bertola, Marta, primary, Magenau, Elena, additional, Martani, Enrico, additional, Kontek, Mislav, additional, Ashman, Chris, additional, Jurišić, Vanja, additional, Lamy, Isabelle, additional, Kam, Jason, additional, Fornasier, Flavio, additional, McCalmont, Jon, additional, Trindade, Luisa M., additional, Amaducci, Stefano, additional, Clifton‐Brown, John, additional, Kiesel, Andreas, additional, and Ferrarini, Andrea, additional

Published

2024

2. Four years of sustainability impact assessments accompanying the implementation of improved cooking stoves in Tanzania

Author

Hafner, Johannes Michael, Magenau, Elena, Uckert, Götz, Sieber, Stefan, Graef, Frieder, and König, Hannes Jochen

Published

2020

3. Early impacts of marginal land-use transition to Miscanthus on soil quality and soil carbon storage across Europe

Author

Bertola, Marta, Magenau, Elena, Martani, Enrico, Kontek, Mislav, Ashman, Chris, Jurišić, Vanja, Lamy, Isabelle, Kam, Jason, Fornasier, Flavio, McCalmont, Jon, Trindade, Luisa M., Amaducci, Stefano, Clifton-Brown, John, Kiesel, Andreas, Ferrarini, Andrea, Bertola, Marta, Magenau, Elena, Martani, Enrico, Kontek, Mislav, Ashman, Chris, Jurišić, Vanja, Lamy, Isabelle, Kam, Jason, Fornasier, Flavio, McCalmont, Jon, Trindade, Luisa M., Amaducci, Stefano, Clifton-Brown, John, Kiesel, Andreas, and Ferrarini, Andrea

Abstract

Miscanthus, a C4 perennial rhizomatous grass, is a low-input energy crop suitable for marginal land, which cultivation can improve soil quality and promote soil organic carbon (SOC) sequestration. In this study, four promising Miscanthus hybrids were chosen to evaluate their short-term potential, in six European marginal sites, to sequester SOC and improve physical, chemical, and biological soil quality in topsoil. Overall, no differences among Miscanthus hybrids were detected in terms of impacts on soil quality and SOC sequestration. SOC sequestration rate after 4 years was of +0.4 Mg C ha−1 year−1, but land-use transition from former cropland or grassland showed contrasting SOC sequestration trajectories. In unfertilized marginal lands, cultivation of high-yielding Miscanthus genotypes caused a depletion of K (−216 kg ha−1 year−1), followed by Ca (−56 kg ha−1 year−1), Mg (−102 kg ha−1 year−1) and to a lesser extent of N. On the contrary, the biological turnover of organic matter increased the available P content (+164 kg P2O5 ha−1 year−1). SOC content was identified as the main driver of changes in biological soil quality. High input of labile plant C stimulated an increment of microbial biomass and enzymatic activity. Here, a novel approach was applied to estimate C input to soil from different Miscanthus organs. Despite the high estimated plant C input to soil (0.98 Mg C ha−1 year−1), with significant differences among sites and Miscanthus hybrids, it was not identified as a driver of SOC sequestration. On the contrary, initial SOC and nutrients (N, P) content, as well as their elemental stoichiometric ratios with C, were the key factors controlling SOC dynamics. Introducing Miscanthus on marginal lands impacts positively soil biological quality over the short term, but targeted fertilization plans are needed to secure crop yield over the long term as well as the C sink capacity of this perennial cropping system.

Published

2024

4. Yield development and nutrient offtake in contrasting miscanthus hybrids under green and brown harvest regimes.

Author

Lewin, Eva, Clifton Brown, John, Magenau, Elena, Jensen, Elaine, Mangold, Anja, Lewandowski, Iris, and Kiesel, Andreas

Subjects

PLANT breeding, MISCANTHUS, SPRING, HARVESTING time, BIOGAS

Abstract

Harvest time is an important variable that determines the yield of miscanthus biomass, its possible end uses, and the nutrient offtake from the field. Green harvests result in a higher yield and greater nutrient removal from the field. Brown miscanthus harvests, carried out in late winter or early spring, result in lower yields and a lower nutrient offtake, whereby the harvested biomass is better suited to use in combustion. To look at the long‐term impact of green harvests on miscanthus, this experiment followed the yield development of two miscanthus hybrids subjected to green and brown harvests over a period of seven years at one site in Southern Germany. The standard commercial hybrid Miscanthus × giganteus (Mxg) was compared with a novel late‐ripening Miscanthus sinensis hybrid: Syn55. Average yields of Mxg were 19.9 t ha−1 for green harvests and 13.2 t ha−1 for brown harvests compared to 13.9 and 12.9 t ha−1 for green and brown harvested Syn55, respectively. Yields of Mxg were very different for green and brown harvests; green harvested Mxg had very high nutrient offtake, while brown harvested Mxg had the lowest nutrient offtakes of all treatments. Syn55 showed a less marked difference between green and brown harvests likely due to its tendency to retain its leaves over winter. Syn55 was however not tolerant of a green harvest, with yields of brown harvested stands surpassing the yield of green harvested stands in several years. Although Mxg demonstrated consistently high yields when harvested in October, some signs of yield decline were detected in both hybrids when harvested green, which was due to insufficient carbohydrate relocation. Alternating green and brown harvests are recommended to allow stands to replenish carbohydrate stores and to form a litter layer. [ABSTRACT FROM AUTHOR]

Published

2024

5. An Adapted Indicator Framework for Evaluating the Potential Contribution of Bioeconomy Approaches to Agricultural Systems Resilience.

Author

Lewandowski, Iris, von Cossel, Moritz, Winkler, Bastian, Bauerle, Andrea, Gaudet, Nicole, Kiesel, Andreas, Lewin, Eva, Magenau, Elena, Marting Vidaurre, Nirvana Angela, Müller, Benedikt, Schlecht, Valentin, Thumm, Ulrich, Trenkner, Marielle, Vargas‐Carpintero, Ricardo, Weickert, Sebastian, Weik, Jan, and Reinmuth, Evelyn

Subjects

AGRICULTURE, SUSTAINABLE development, URBAN agriculture, SUSTAINABILITY, PUBLIC goods, NATURAL resources, FLOWERING of plants

Abstract

This study reviews a variety of "bioeconomy approaches" (BAs) to assess their potential contribution to resilience in agricultural systems, focusing on benefits that can improve multi‐functionality regarding private and public goods. It is based on Meuwissen et al.'s framework to assess the resilience of farming systems. Drawing on literature and expert knowledge, this indicator framework is adapted to develop a new framework which is then applied to seven contrasting BAs (miscanthus, perennial flowering wild plant mixtures, permanent grassland, nutrient recycling, agrivoltaics, urban agriculture, and microalgae). The major outcomes are: 1) the extended indicator framework can help evaluate BAs for their potential to foster resilience in future agricultural systems, 2) all BAs are characterized by their ability to provide multiple private and public goods simultaneously, 3) the strongest contribution of BAs to public goods is their function in maintaining the good condition of natural resources and resource‐use efficiency, 4) all BAs can enhance resilience in agricultural systems by contributing diversity, multifunctionality, environmental sustainability, and autonomy, 5) the mitigation of potential drawbacks of BAs implementation requires ex‐ante assessment, favorable BAs combinations, and stakeholder involvement, 6) context‐specific analysis of each BAs is required to assess their qualitative and quantitative contribution to resilience. [ABSTRACT FROM AUTHOR]

Published

2024

6. Integrating perennial biomass crops into crop rotations: How to remove miscanthus and switchgrass without glyphosate

Author

Lewin, Eva, primary, Kiesel, Andreas, additional, Magenau, Elena, additional, and Lewandowski, Iris, additional

Published

2023

7. Spring emergence and canopy development strategies in miscanthus hybrids in Mediterranean, continental and maritime European climates

Author

Magenau, Elena, Clifton‐Brown, John, Parry, Catherine, Ashman, Chris, Awty‐Carroll, Danny, Ferrarini, Andrea, Kontek, Mislav, Martani, Enrico, Amaducci, Stefano, Davey, Chris, Dolstra, Oene, Jurišić, Vanja, Kam, Jason, Trindade, Luisa M., Lewandowski, Iris, and Kiesel, Andreas

Subjects

Renewable Energy, Sustainability and the Environment, shoot sprouting, Forestry, base temperature, Plant Breeding, perennial rhizomatous grass, thermal time, Laboratorium voor Plantenveredeling, miscanthus, EPS, number of shoots, late spring frost, Waste Management and Disposal, Agronomy and Crop Science, Settore AGR/02 - AGRONOMIA E COLTIVAZIONI ERBACEE

Abstract

Due to its versatility and storability, biomass is an important resource for renewable materials and energy. Miscanthus hybrids combine high yield potential, low input demand, tolerance of certain marginal land types and several ecosystem benefits. To date, miscanthus breeding has focussed on increasing yield potential by maximising radiation interception through: (1) selection for early emergence, (2) increasing the growth rate to reach canopy closure as fast as possible, and (3) delayed flowering and senescence. The objective of this study is to compare early season re-growth in miscanthus hybrids cultivated across Europe. Determination of differences in early canopy development on end-of-year yield traits is required to provide information for breeding decisions to improve future crop performance. For this purpose, a trial was planted with four miscanthus hybrids (two novel seed-based hybrids M. sinensis × sinensis [M sin × sin] and M. sacchariflorus × sinensis [M sac × sin], a novel rhizome-based M sac × sin and a standard Miscanthus × giganteus [M × g] clone) in the UK, Germany, Croatia and Italy, and was monitored in the third and fourth growing season. We determined differences between the hybrids in base temperature, frost sensitivity and emergence strategy. M × g and M sac × sin mainly emerged from belowground plant organs, producing fewer but thicker shoots at the beginning of the growing season but these shoots were susceptible to air frosts (determined by recording 0°C 2 m above ground surface). By contrast, M sin × sin emerged 10 days earlier, avoiding damage by late spring frosts and producing a high number of thinner shoots from aboveground shoots. Therefore, we recommend cultivating M sac × sin at locations with low risk and M sin × sin at locations with higher risk of late spring frosts. Selecting miscanthus hybrids that produce shoots throughout the vegetation period is an effective strategy to limit the risk of late frost damage and avoid reduction in yield from a shortened growing season.

Published

2023

8. Building the Policy Ecosystem in Europe for Cultivation and Use of Periennial Biomass Crops

Author

Clifton-Brown, John, Hastings, Astley, von Cossel, Moritz, Murphy-Bokern, Donal, McCalmont, Jon, Whitaker, Jeanette, Alexopoulou, Efi, Amaducci, Stefano, Andronic, Larisa, Ashman, Christopher, Awty-Carroll, Danny, Bhatia, Rakesh, Breuer, Lutz, Cosentino, Salvatore, Cracroft-Eley, William, Donnison, Iain, Elbersen, Berien, Ferrarini, Andrea, Ford, Judith, Gattinger, Andreas, Golicz, Karolina, Greef, Jörg, Ingram, Julie, Jensen, Elaine, Kuhn, Uwe, Lewandowski, Iris, Magenau, Elena, Mos, Michal, Meyer, Heike, Kasperczyk, Nadja, Petrick, Martin, Pogrzeba, Marta, Pude, Ralf, Robson, Paul, Retzler, Carmen, Rowe, Rebecca L., Sandu, Anatolii, Alexander, E.A., Schmitt, Anja, Schwarz, Kai Uwe, Scordia, Danilo, Scurlock, Jonathan, Shepherd, Anita, Thornton, Judith, Trindade, Luisa M., Vetter, Sylvia, Wagner, Moritz, Yamada, Toshihiko, Kiese, Andreas, Clifton-Brown, John, Hastings, Astley, von Cossel, Moritz, Murphy-Bokern, Donal, McCalmont, Jon, Whitaker, Jeanette, Alexopoulou, Efi, Amaducci, Stefano, Andronic, Larisa, Ashman, Christopher, Awty-Carroll, Danny, Bhatia, Rakesh, Breuer, Lutz, Cosentino, Salvatore, Cracroft-Eley, William, Donnison, Iain, Elbersen, Berien, Ferrarini, Andrea, Ford, Judith, Gattinger, Andreas, Golicz, Karolina, Greef, Jörg, Ingram, Julie, Jensen, Elaine, Kuhn, Uwe, Lewandowski, Iris, Magenau, Elena, Mos, Michal, Meyer, Heike, Kasperczyk, Nadja, Petrick, Martin, Pogrzeba, Marta, Pude, Ralf, Robson, Paul, Retzler, Carmen, Rowe, Rebecca L., Sandu, Anatolii, Alexander, E.A., Schmitt, Anja, Schwarz, Kai Uwe, Scordia, Danilo, Scurlock, Jonathan, Shepherd, Anita, Thornton, Judith, Trindade, Luisa M., Vetter, Sylvia, Wagner, Moritz, Yamada, Toshihiko, and Kiese, Andreas

Abstract

Perennial biomass crops (PBCs) can potentially contribute to all ten Common Agricultural Policy (2023-27) objectives and up to eleven of the seventeen UN Sustainable Development Goals. This paper discusses interlinked issues that must be considered in the expansion of PBC production: i) available land; ii) yield potential; iii) integration into farming systems; iv) research and development requirements; v) utilisation options; and vi) market systems and the socio-economic environment. The challenge to create development pathways that are acceptable for all actors, relies on measurement, reporting and verification of greenhouse gas emissions reduction in combination with other environmental, economic and social aspects. This paper makes the following policy recommendations to enable greater PBC deployment: 1) incentivise farmers and land managers through specific policy measures, including carbon pricing, to allocate their less productive and less profitable land for uses which deliver demonstrable greenhouse gas reductions; 2) enable greenhouse gas mitigation markets to develop and offer secure contracts for commercial developers of verifiable low carbon bioenergy and bio-products; 3) support innovation in biomass utilisation value chains; and 4) continue long-term, strategic research and development and education for positive environmental, economic and social sustainability impacts.

Published

2023

9. Perennial biomass cropping and use: shaping the policy ecosystem in European countries

Author

Clifton‐Brown, John, Hastings, Astley, von Cossel, Moritz, Murphy‐Bokern, Donal, McCalmont, Jon, Whitaker, Jeanette, Alexopoulou, Efi, Amaducci, Stefano, Andronic, Larisa, Ashman, Christopher, Awty‐Carroll, Danny, Bhatia, Rakesh, Breuer, Lutz, Cosentino, Salvatore, Cracroft‐Eley, William, Donnison, Iain, Elbersen, Berien, Ferrarini, Andrea, Ford, Judith, Greef, Jörg, Ingram, Julie, Lewandowski, Iris, Magenau, Elena, Mos, Michal, Petrick, Martin, Pogrzeba, Marta, Robson, Paul, Rowe, Rebecca L., Sandu, Anatolii, Schwarz, Kai‐Uwe, Scordia, Danilo, Scurlock, Jonathan, Shepherd, Anita, Thornton, Judith, Trindade, Luisa M., Vetter, Sylvia, Wagner, Moritz, Wu, Pei‐Chen, Yamada, Toshihiko, Kiesel, Andreas, Clifton‐Brown, John, Hastings, Astley, von Cossel, Moritz, Murphy‐Bokern, Donal, McCalmont, Jon, Whitaker, Jeanette, Alexopoulou, Efi, Amaducci, Stefano, Andronic, Larisa, Ashman, Christopher, Awty‐Carroll, Danny, Bhatia, Rakesh, Breuer, Lutz, Cosentino, Salvatore, Cracroft‐Eley, William, Donnison, Iain, Elbersen, Berien, Ferrarini, Andrea, Ford, Judith, Greef, Jörg, Ingram, Julie, Lewandowski, Iris, Magenau, Elena, Mos, Michal, Petrick, Martin, Pogrzeba, Marta, Robson, Paul, Rowe, Rebecca L., Sandu, Anatolii, Schwarz, Kai‐Uwe, Scordia, Danilo, Scurlock, Jonathan, Shepherd, Anita, Thornton, Judith, Trindade, Luisa M., Vetter, Sylvia, Wagner, Moritz, Wu, Pei‐Chen, Yamada, Toshihiko, and Kiesel, Andreas

Abstract

Demand for sustainably produced biomass is expected to increase with the need to provide renewable commodities, improve resource security and reduce greenhouse gas emissions in line with COP26 commitments. Studies have demonstrated additional environmental benefits of using perennial biomass crops (PBCs), when produced appropriately, as a feedstock for the growing bioeconomy, including utilisation for bioenergy (with or without carbon capture and storage). PBCs can potentially contribute to Common Agricultural Policy (CAP) (2023–27) objectives provided they are carefully integrated into farming systems and landscapes. Despite significant research and development (R&D) investment over decades in herbaceous and coppiced woody PBCs, deployment has largely stagnated due to social, economic and policy uncertainties. This paper identifies the challenges in creating policies that are acceptable to all actors. Development will need to be informed by measurement, reporting and verification (MRV) of greenhouse gas emissions reductions and other environmental, economic and social metrics. It discusses interlinked issues that must be considered in the expansion of PBC production: (i) available land; (ii) yield potential; (iii) integration into farming systems; (iv) R&D requirements; (v) utilisation options; and (vi) market systems and the socio-economic environment. It makes policy recommendations that would enable greater PBC deployment: (1) incentivise farmers and land managers through specific policy measures, including carbon pricing, to allocate their less productive and less profitable land for uses which deliver demonstrable greenhouse gas reductions; (2) enable greenhouse gas mitigation markets to develop and offer secure contracts for commercial developers of verifiable low-carbon bioenergy and bioproducts; (3) support innovation in biomass utilisation value chains; and (4) continue long-term, strategic R&D and education for positive environmental, economic and social

Published

2023

10. Novel Miscanthus hybrids: modelling productivity on marginal land in Europe using dynamics of canopy development determined by light interception

Author

Shepherd, Anita, Awty‐Carroll, Danny, Kam, Jason, Ashman, Chris, Magenau, Elena, Martani, Enrico, Kontek, Mislav, Ferrarini, Andrea, Amaducci, Stefano, Davey, Chris, Jurišić, Vanja, Petrie, Gert‐Jan, Al Hassan, Mohamad, Lamy, Isabelle, Lewandowski, Iris, de Maupeou, Emmanuel, McCalmont, Jon, Trindade, Luisa, van der Cruijsen, Kasper, van der Pluijm, Philip, Rowe, Rebecca, Lovett, Andrew, Donnison, Iain, Kiesel, Andreas, Clifton‐Brown, John, Hastings, Astley, Shepherd, Anita, Awty‐Carroll, Danny, Kam, Jason, Ashman, Chris, Magenau, Elena, Martani, Enrico, Kontek, Mislav, Ferrarini, Andrea, Amaducci, Stefano, Davey, Chris, Jurišić, Vanja, Petrie, Gert‐Jan, Al Hassan, Mohamad, Lamy, Isabelle, Lewandowski, Iris, de Maupeou, Emmanuel, McCalmont, Jon, Trindade, Luisa, van der Cruijsen, Kasper, van der Pluijm, Philip, Rowe, Rebecca, Lovett, Andrew, Donnison, Iain, Kiesel, Andreas, Clifton‐Brown, John, and Hastings, Astley

Abstract

New biomass crop hybrids for bioeconomic expansion require yield projections to determine their potential for strategic land use planning in the face of global challenges. Our biomass growth simulation incorporates radiation interception and conversion efficiency. Models often use leaf area to predict interception which is demanding to determine accurately, so instead we use low-cost rapid light interception measurements using a simple laboratory-made line ceptometer and relate the dynamics of canopy closure to thermal time, and to measurements of biomass. We apply the model to project the European biomass potentials of new market-ready hybrids for 2020–2030. Field measurements are easier to collect, the calibration is seasonally dynamic and reduces influence of weather variation between field sites. The model obtained is conservative, being calibrated by crops of varying establishment and varying maturity on less productive (marginal) land. This results in conservative projections of miscanthus hybrids for 2020–2030 based on 10% land use conversion of the least (productive) grassland and arable for farm diversification, which show a European potential of 80.7–89.7 Mt year−1 biomass, with potential for 1.2–1.3 EJ year−1 energy and 36.3–40.3 Mt year−1 carbon capture, with seeded Miscanthus sacchariflorus × sinensis displaying highest yield potential. Simulated biomass projections must be viewed in light of the field measurements on less productive land with high soil water deficits. We are attempting to model the results from an ambitious and novel project combining new hybrids across Europe with agronomy which has not been perfected on less productive sites. Nevertheless, at the time of energy sourcing issues, seed-propagated miscanthus hybrids for the upscaled provision of bioenergy offer an alternative source of renewable energy. If European countries provide incentives for growers to invest, seeded hybrids can improve product availability and biomass yields over

Published

2023

11. Perennial biomass cropping and use : Shaping the policy ecosystem in European countries

Author

Clifton-Brown, John, Hastings, Astley, von Cossel, Moritz, Murphy-Bokern, Donal, McCalmont, Jon, Whitaker, Jeanette, Alexopoulou, Efi, Amaducci, Stefano, Andronic, Larisa, Ashman, Christopher, Awty-Carroll, Danny, Bhatia, Rakesh, Breuer, Lutz, Cosentino, Salvatore, Cracroft-Eley, William, Donnison, Iain, Elbersen, Berien, Ferrarini, Andrea, Ford, Judith, Greef, Jörg, Ingram, Julie, Lewandowski, Iris, Magenau, Elena, Mos, Michal, Petrick, Martin, Pogrzeba, Marta, Robson, Paul, Rowe, Rebecca L., Sandu, Anatolii, Schwarz, Kai Uwe, Scordia, Danilo, Scurlock, Jonathan, Shepherd, Anita, Thornton, Judith, Trindade, Luisa M., Vetter, Sylvia, Wagner, Moritz, Wu, Pei Chen, Yamada, Toshihiko, Kiesel, Andreas, Clifton-Brown, John, Hastings, Astley, von Cossel, Moritz, Murphy-Bokern, Donal, McCalmont, Jon, Whitaker, Jeanette, Alexopoulou, Efi, Amaducci, Stefano, Andronic, Larisa, Ashman, Christopher, Awty-Carroll, Danny, Bhatia, Rakesh, Breuer, Lutz, Cosentino, Salvatore, Cracroft-Eley, William, Donnison, Iain, Elbersen, Berien, Ferrarini, Andrea, Ford, Judith, Greef, Jörg, Ingram, Julie, Lewandowski, Iris, Magenau, Elena, Mos, Michal, Petrick, Martin, Pogrzeba, Marta, Robson, Paul, Rowe, Rebecca L., Sandu, Anatolii, Schwarz, Kai Uwe, Scordia, Danilo, Scurlock, Jonathan, Shepherd, Anita, Thornton, Judith, Trindade, Luisa M., Vetter, Sylvia, Wagner, Moritz, Wu, Pei Chen, Yamada, Toshihiko, and Kiesel, Andreas

Abstract

Demand for sustainably produced biomass is expected to increase with the need to provide renewable commodities, improve resource security and reduce greenhouse gas emissions in line with COP26 commitments. Studies have demonstrated additional environmental benefits of using perennial biomass crops (PBCs), when produced appropriately, as a feedstock for the growing bioeconomy, including utilisation for bioenergy (with or without carbon capture and storage). PBCs can potentially contribute to Common Agricultural Policy (CAP) (2023–27) objectives provided they are carefully integrated into farming systems and landscapes. Despite significant research and development (R&D) investment over decades in herbaceous and coppiced woody PBCs, deployment has largely stagnated due to social, economic and policy uncertainties. This paper identifies the challenges in creating policies that are acceptable to all actors. Development will need to be informed by measurement, reporting and verification (MRV) of greenhouse gas emissions reductions and other environmental, economic and social metrics. It discusses interlinked issues that must be considered in the expansion of PBC production: (i) available land; (ii) yield potential; (iii) integration into farming systems; (iv) R&D requirements; (v) utilisation options; and (vi) market systems and the socio-economic environment. It makes policy recommendations that would enable greater PBC deployment: (1) incentivise farmers and land managers through specific policy measures, including carbon pricing, to allocate their less productive and less profitable land for uses which deliver demonstrable greenhouse gas reductions; (2) enable greenhouse gas mitigation markets to develop and offer secure contracts for commercial developers of verifiable low-carbon bioenergy and bioproducts; (3) support innovation in biomass utilisation value chains; and (4) continue long-term, strategic R&D and education for positive environmental, economic and social

Published

2023

12. Introducing new miscanthus hybrids into the European bioeconomy : the effect of environment and management on biomass quantity and quality

Author

Magenau, Elena and Magenau, Elena

Abstract

Miscanthus has been identified as a promising lignocellulosic perennial biomass crop for temperate climates and different (marginal) soils in terms of yield and ecological benefits. The cultivation of miscanthus brings numerous ecological advantages, such as a reduction in soil erosion, protection of aquatic ecosystems from alteration through eutrophication, and increasing heterogeneity in annual arable landscapes leading to increased biodiversity compared to annual crops. Reasons for this are its perenniality, the long period of time it stands on the field, and its low fertiliser and plant protection demands. Nevertheless, the area under cultivation in Europe is limited. The reasons are that the scientific yield levels are not reached commercially, and the only commercially cultivated hybrid Miscanthus × giganteus (M×g) is sterile. Miscanthus is therefore currently propagated and established via rhizomes, which limits upscaling. However, the seed-based hybrids tested so far do not reach the potential of M×g in terms of yield, quality, and ecological impact under a wide range of climatic conditions. To improve the integration of miscanthus as a biomass crop in the growing European bioeconomy, it is required to reach high and stable yields over several years (security of biomass supply) and a low ecological impact by low nutrient offtakes under different European climates. Therefore, it is essential to gain agronomic knowledge on how genetic (G), location-specific environment (E), and management (M) factors and the interactions between them affect the security of biomass supply and ecosystem services of novel seed-based hybrids. Against this background, the research objectives of this study are: 1) to investigate the effect of the onset of the growing season on biomass supply security and how it is affected by late spring frosts, 2) to assess G × E interaction effects on miscanthus biomass security, and 3) to assess G × E × M interaction effects on nutrient offtake, Miscanthus ist bezüglich Ertrag und Umweltauswirkung eine vielversprechende, mehrjährige Biomassepflanze für gemäßigte Klimazonen und unterschiedliche (marginale) Böden. Der Anbau von Miscanthus bringt zahlreiche ökologische Vorteile mit sich, wie z. B. die Verringerung der Bodenerosion, den Schutz aquatischer Ökosysteme vor Eutrophierung und die Erhöhung der Heterogenität innerhalb einjähriger Ackerbaukulturen, wodurch die biologische Vielfalt gefördert wird. Zusätzlich verbessert Miscanthus die Biodiversität als Dauerkultur und durch seine lange Standzeit auf dem Feld bis zur Ernte sowie den geringen Bedarf an Dünger und Pflanzenschutzmitteln. Dennoch ist die Anbaufläche in Europa begrenzt. Ein Grund dafür ist, dass in der landwirtschaftlichen Praxis die Erträge aus dem Versuchsanbau bisher nicht erreicht werden und der einzige kommerziell angebaute Miscanthushybrid Miscanthus × giganteus (M×g) steril ist. Die Vermehrung und Etablierung basieren daher auf Rhizomen, was den Anbau im großen Maßstab erschwert. Die bis jetzt getesteten saatgutbasierten Hybride erreichen jedoch nicht das Potenzial von M×g in Bezug auf Ertrag, Qualität und Umweltwirkung unter verschiedensten Klimabedingungen. Um die Integration von Miscanthus als Biomassepflanze in die wachsende europäische Bioökonomie zu verbessern, müssen jedoch sowohl hohe und stabile Erträge über mehrere Jahre (Biomasseversorgungssicherheit) als auch geringe ökologische Auswirkungen durch geringe Nährstoffabfuhr unter verschiedenen europäischen Klimabedingungen erreicht werden. Daher ist es wichtig, wissenschaftliche Erkenntnisse darüber zu gewinnen, wie genetische (G), Umwelt- (E), Management- (M) Faktoren und deren Wechselwirkungen die Sicherheit der Biomasseversorgung und die Ökosystemleistungen neuer samenbasierter Hybride beeinflussen. Vor diesem Hintergrund sind die Forschungsziele der vorliegenden Studie folgende: 1) die Untersuchung der Auswirkungen von Vegetationsbeginn und späten Frühjahrsfrösten auf die B

Published

2023

13. Yield performance of 14 novel inter- and intra-species Miscanthus hybrids across Europe

Author

Awty-Carroll, Danny, Magenau, Elena, Al Hassan, Mohamad, Martani, Enrico, Kontek, Mislav, van der Pluijm, Philip, Ashman, Chris, de Maupeou, Emmanuel, McCalmont, Jon, Petrie, Gert Jan, Davey, Chris, van der Cruijsen, Kasper, Jurišić, Vanja, Amaducci, Stefano, Lamy, Isabelle, Shepherd, Anita, Kam, Jason, Hoogendam, Annick, Croci, Michele, Dolstra, Oene, Ferrarini, Andrea, Lewandowski, Iris, Trindade, Luisa M., Kiesel, Andreas, Clifton-Brown, John, Awty-Carroll, Danny, Magenau, Elena, Al Hassan, Mohamad, Martani, Enrico, Kontek, Mislav, van der Pluijm, Philip, Ashman, Chris, de Maupeou, Emmanuel, McCalmont, Jon, Petrie, Gert Jan, Davey, Chris, van der Cruijsen, Kasper, Jurišić, Vanja, Amaducci, Stefano, Lamy, Isabelle, Shepherd, Anita, Kam, Jason, Hoogendam, Annick, Croci, Michele, Dolstra, Oene, Ferrarini, Andrea, Lewandowski, Iris, Trindade, Luisa M., Kiesel, Andreas, and Clifton-Brown, John

Abstract

Miscanthus, a C4 perennial rhizomatous grass from Asia is a leading candidate for the supply of sustainable biomass needed to grow the bioeconomy. European Miscanthus breeding programmes have recently produced a new range of seeded hybrids with the objective of increasing scalability to large acreages limited by current clonal propagation. For the EU-GRACE project, new replicated field trials were established in seven locations across Europe in 2018 with eight intraspecific M. sinensis hybrids (sin × sin) and six M. sacchariflorus × M. sinensis (sac × sin) from Dutch and UK breeding programmes, respectively, with clonal Miscanthus × giganteus. The planting density of the sin × sin was double that of sac × sin (30,000 & 15,000 plants ha−1), creating commercially relevant upscaling comparisons between systems. Over the first 3 years, the establishment depended on location and hybrid. The mature sin × sin hybrids formed tight tufts of shoots up to 2.5 m tall which flower and senesce earlier than the taller sac × sin hybrids. Following the third growing season, the highest yields were recorded in Northern Italy at a low altitude (average 13.7 (max 21) Mg DM ha−1) and the lowest yielding was on the industrially damaged marginal land site in Northern France (average 7.0 (max 10) Mg DM ha−1). Moisture contents at spring harvest were lowest in Croatia (21.7%) and highest in Wales, UK (41.6%). Overall, lower moisture contents at harvest, which are highly desirable for transport, storage and for most end-use applications, were found in sin × sin hybrids than sac × sin (30% and 40%, respectively). Yield depended on climate interactions with the hybrid and their associated planting systems. The sin × sin hybrids appeared better adapted to northern Europe and sac × sin hybrids to southern Europe. Longer-term yield observations over crop lifespans will be needed to explore the biological (yield persistence) and economic costs and benefits of the different hybrid systems.

Published

2023

14. Social assessment of miscanthus cultivation in Croatia: Assessing farmers' preferences and willingness to cultivate the crop

Author

Marting Vidaurre, Nirvana A., primary, Jurišić, Vanja, additional, Bieling, Claudia, additional, Magenau, Elena, additional, Wagner, Moritz, additional, Kiesel, Andreas, additional, and Lewandowski, Iris, additional

Published

2023

15. Perennial biomass cropping and use: shaping the policy ecosystem in European countries

Author

Clifton‐Brown, John, primary, Hastings, Astley, additional, von Cossel, Moritz, additional, Murphy‐Bokern, Donal, additional, McCalmont, Jon, additional, Whittaker, Jeanette, additional, Alexopoulou, Efi, additional, Amaducci, Stefano, additional, Andronic, Larisa, additional, Ashman, Christopher, additional, Awty‐Carroll, Danny, additional, Bhatia, Rakesh, additional, Breuer, Lutz, additional, Cosentino, Salvatore, additional, Cracroft‐Eley, William, additional, Donnison, Iain, additional, Elbersen, Berien, additional, Ferrarini, Andrea, additional, Ford, Judith, additional, Greef, Jörg, additional, Ingram, Julie, additional, Lewandowski, Iris, additional, Magenau, Elena, additional, Mos, Michal, additional, Petrick, Martin, additional, Pogrzeba, Marta, additional, Robson, Paul, additional, Rowe, Rebecca L., additional, Sandu, Anatolii, additional, Schwarz, Kai‐Uwe, additional, Scordia, Danilo, additional, Scurlock, Jonathan, additional, Shepherd, Anita, additional, Thornton, Judith, additional, Trindade, Luisa M., additional, Vetter, Sylvia, additional, Wagner, Moritz, additional, Wu, Pei‐Chen, additional, Yamada, Toshihiko, additional, and Kiesel, Andreas, additional

Published

2023

16. Yield performance of 14 novel inter‐ and intra‐species Miscanthus hybrids across Europe

Author

Awty‐Carroll, Danny, primary, Magenau, Elena, additional, Al Hassan, Mohamad, additional, Martani, Enrico, additional, Kontek, Mislav, additional, van der Pluijm, Philip, additional, Ashman, Chris, additional, de Maupeou, Emmanuel, additional, McCalmont, Jon, additional, Petrie, Gert‐Jan, additional, Davey, Chris, additional, van der Cruijsen, Kasper, additional, Jurišić, Vanja, additional, Amaducci, Stefano, additional, Lamy, Isabelle, additional, Shepherd, Anita, additional, Kam, Jason, additional, Hoogendam, Annick, additional, Croci, Michele, additional, Dolstra, Oene, additional, Ferrarini, Andrea, additional, Lewandowski, Iris, additional, Trindade, Luisa M., additional, Kiesel, Andreas, additional, and Clifton‐Brown, John, additional

Published

2023

17. Novel Miscanthus hybrids: Modelling productivity on marginal land in Europe using dynamics of canopy development determined by light interception

Author

Shepherd, Anita, primary, Awty‐Carroll, Danny, additional, Kam, Jason, additional, Ashman, Chris, additional, Magenau, Elena, additional, Martani, Enrico, additional, Kontek, Mislav, additional, Ferrarini, Andrea, additional, Amaducci, Stefano, additional, Davey, Chris, additional, Jurišić, Vanja, additional, Petrie, Gert‐Jan, additional, Al Hassan, Mohamad, additional, Lamy, Isabelle, additional, Lewandowski, Iris, additional, de Maupeou, Emmanuel, additional, McCalmont, Jon, additional, Trindade, Luisa, additional, van der Cruijsen, Kasper, additional, van der Pluijm, Philip, additional, Rowe, Rebecca, additional, Lovett, Andrew, additional, Donnison, Iain, additional, Kiesel, Andreas, additional, Clifton‐Brown, John, additional, and Hastings, Astley, additional

Published

2023

18. Data for yield performance of fourteen novel inter- and intra-species Miscanthus hybrids across Europe

Author

Awty-Carroll, Danny, Magenau, Elena, Hassan, Mohamad, Martani, Enrico, Kontek, Mislav, van der Pluijm, Philip, Ashman, Chris, de Maupeou, Emmanuel, McCalmont, Jon, Petrie, Gert-Jan, Davey, Chris, van der Cruijsen, Kasper, Jurišić, Vanja, Amaducci, Stefano, Lamy, Isabelle, Shepherd, Anita, Kam, Jason, Hoogendam, Annick, Croci, Michele, Dolstra, Oene, Ferrarini, Andrea, Lewandowski, Iris, Trindade, Luisa, Kiesel, Andreas, and Clifton-Brown, John

Subjects

M × giganteus, GRACE, Miscanthus, M. sinensis

Abstract

Data used in the paper of the same title

Published

2022

19. Site impacts nutrient translocation efficiency in intraspecies and interspecies miscanthus hybrids on marginal lands

Author

Magenau, Elena, primary, Clifton‐Brown, John, additional, Awty‐Carroll, Danny, additional, Ashman, Chris, additional, Ferrarini, Andrea, additional, Kontek, Mislav, additional, Martani, Enrico, additional, Roderick, Kevin, additional, Amaducci, Stefano, additional, Davey, Chris, additional, Jurišić, Vanja, additional, Kam, Jason, additional, Trindade, Luisa M., additional, Lewandowski, Iris, additional, and Kiesel, Andreas, additional

Published

2022

20. Site impacts nutrient translocation efficiency in intraspecies and interspecies miscanthus hybrids on marginal lands

Author

Magenau, Elena, Clifton-Brown, John, Awty-Carroll, Danny, Ashman, Chris, Ferrarini, Andrea, Kontek, Mislav, Martani, Enrico, Roderick, Kevin, Amaducci, Stefano, Davey, Chris, Jurišić, Vanja, Kam, Jason, Trindade, Luisa M., Lewandowski, Iris, Kiesel, Andreas, Magenau, Elena, Clifton-Brown, John, Awty-Carroll, Danny, Ashman, Chris, Ferrarini, Andrea, Kontek, Mislav, Martani, Enrico, Roderick, Kevin, Amaducci, Stefano, Davey, Chris, Jurišić, Vanja, Kam, Jason, Trindade, Luisa M., Lewandowski, Iris, and Kiesel, Andreas

Abstract

Miscanthus, a C4 perennial rhizomatous grass, is capable of growing in varied climates and soil types in Europe, including on marginal lands. It can produce high yields with low nutrient inputs when harvested after complete senescence. Senescence induction and rate depend on complex genetic, environmental, and management interactions. To explore these interactions, we analysed four miscanthus hybrids (two novel seed-based hybrids, GRC 3 [Miscanthus sinensis × sinensis] and GRC 14 [M. sacchariflorus × sinensis]; GRC 15, a novel M. sacchariflorus × sinensis clone; and GRC 9, a standard Miscanthus × giganteus clone) in Italy, Croatia, Germany and the UK. Over all trial locations and hybrids, the average aboveground biomass of the 3-year-old stands in August 2020 was 15 t DM ha−1 with nutrient contents of 7.6 mg N g−1 and 14.6 mg K g−1. As expected, delaying the harvest until spring reduced overall yield and nutrient contents (12 t DM ha−1, 3.3 mg N g−1, and 5.5 mg K g−1). At lower latitudes, the late-ripening M. sacchariflorus × sinensis GRC 14 and GRC 15 combined high yields with low nutrient contents. At the most elevated latitude location (UK), the early-ripening M. sinensis × sinensis combined high biomass yields with low nutrient offtakes. The clonal Miscanthus × giganteus with intermediate flowering and senescence attained similar low nutrient contents by spring harvest at all four locations. Seasonal changes in yield and nutrient levels analysed in this study provide: (1) a first step towards recommending hybrids for specific locations and end uses in Europe; (2) crucial data for determination of harvest time and practical steps in the valorization of biomass; and (3) key sustainability data for life cycle assessments. Identification of trade-offs resulting from genetic × environment × management interactions is critical for increasing sustainable biomass supply from miscanthus grown on marginal lands.

Published

2022

21. Influence of cutting height on biomass yield and quality of miscanthus genotypes

Author

Magenau, Elena, primary, Kiesel, Andreas, additional, Clifton‐Brown, John, additional, and Lewandowski, Iris, additional

Published

2021

22. Perennial rhizomatous grasses: Can they really increase species richness and abundance in arable land?—A meta‐analysis

Author

Lask, Jan, primary, Magenau, Elena, additional, Ferrarini, Andrea, additional, Kiesel, Andreas, additional, Wagner, Moritz, additional, and Lewandowski, Iris, additional

Published

2020

23. Bioenergy cropping systems of tomorrow

Author

Von Cossel, Moritz, Wagner, Moritz, Iqbal, Yasir, Jablonowski, Nicolai David, Happe, Stefan, Fernando, Ana Luisa, Scordia, Danilo, Cosentino, Salvatore Luciano, Wulfmeyer, Volker, Lewandowski, Iris, Winkler, Bastian, Lask, Jan, Magenau, Elena, Bauerle, Andrea, Von Cossel, Viktoria, Warrach-Sagi, Kirsten, Elbersen, Berien, Staritsky, Igor, and Van Eupen, Michiel

Abstract

The research objective of this study is the development of long-term sustainable Marginal Agricultural Land Low-Input Systems for industrial crop cultivation. And the research question of this study is: How bioenergy cropping systems of tomorrow could be made more sustainable under social-ecological terms. It was found that there are five main requirements for the development of social-ecologically more sustainable bioenergy cropping systems. And here, four of them are presented and discussed.

Published

2020

24. Prospects of bioenergy cropping systems for a more social‐ecologically sound bioeconomy

Author

Cossel, Moritz Von, Wagner, Moritz, Lask, Jan, Magenau, Elena, Bauerle, Andrea, Cossel, Viktoria Von, Warrach‐Sagi, Kirsten, Elbersen, Berien, Staritsky, Igor, van Eupen, Michiel, Iqbal, Yasir, Jablonowski, Nicolai David, Happe, Stefan, Fernando, Ana Luisa, Scordia, Danilo, Cosentino, Salvatore Luciano, Wulfmeyer, Volker, Lewandowski, Iris, Winkler, Bastian, MEtRICS - Centro de Engenharia Mecânica e Sustentabilidade de Recursos, and DCTB - Departamento de Ciências e Tecnologia da Biomassa (ex-GDEH)

Subjects

Industrial crop, Marginal land, Resilience, SDG 13 - Climate Action, Bioenergy crop, Climate change adaptation, Biodiversity, Biomass, Bioeconomy, Carbon capture, Agronomy and Crop Science, Cropping system, SDG 15 - Life on Land

Abstract

NRWStrategieprojekt BioSC (no. 313/323-400-002 13) The growing bioeconomy will require a greater supply of biomass in the future for both bioenergy and bio‐based products. Today, many bioenergy cropping systems (BCS) are suboptimal due to either social‐ecological threats or technical limitations. In addition, the competition for land between bioenergy‐crop cultivation, food‐crop cultivation, and biodiversity conservation is expected to increase as a result of both continuous world population growth and expected severe climate change effects. This study investigates how BCS can become more social‐ecologically sustainable in future. It brings together expert opinions from the fields of agronomy, economics, meteorology, and geography. Potential solutions to the following five main requirements for a more holistically sustainable supply of biomass are summarized: (i) bioenergy‐crop cultivation should provide a beneficial social‐ecological contribution, such as an increase in both biodiversity and landscape aesthetics, (ii) bioenergy crops should be cultivated on marginal agricultural land so as not to compete with food‐crop production, (iii) BCS need to be resilient in the face of projected severe climate change effects, (iv) BCS should foster rural development and support the vast number of small‐scale family farmers, managing about 80% of agricultural land and natural resources globally, and (v) bioenergy‐crop cultivation must be planned and implemented systematically, using holistic approaches. Further research activities and policy incentives should not only consider the economic potential of bioenergy‐crop cultivation, but also aspects of biodiversity, soil fertility, and climate change adaptation specific to site conditions and the given social context. This will help to adapt existing agricultural systems in a changing world and foster the development of a more social‐ecologically sustainable bioeconomy. publishersversion published

Published

2019

25. Prospects of Bioenergy Cropping Systems for A More Social-Ecologically Sound Bioeconomy.

Author

Von Cossel, Moritz, Wagner, Moritz, Lask, Jan, Magenau, Elena, Bauerle, Andrea, Von Cossel, Viktoria, Warrach-Sagi, Kirsten, Elbersen, Berien, Staritsky, Igor, Van Eupen, Michiel, Iqbal, Yasir, Jablonowski, Nicolai David, Happe, Stefan, Fernando, Ana Luisa, Scordia, Danilo, Cosentino, Salvatore Luciano, Wulfmeyer, Volker, Lewandowski, Iris, and Winkler, Bastian

Subjects

CROPPING systems, FARMS, NATURAL resources, LAND resource, ECOLOGICAL resilience, SOIL fertility, BIOMASS production, BIODIVERSITY conservation

Abstract

The growing bioeconomy will require a greater supply of biomass in the future for both bioenergy and bio-based products. Today, many bioenergy cropping systems (BCS) are suboptimal due to either social-ecological threats or technical limitations. In addition, the competition for land between bioenergy-crop cultivation, food-crop cultivation, and biodiversity conservation is expected to increase as a result of both continuous world population growth and expected severe climate change effects. This study investigates how BCS can become more social-ecologically sustainable in future. It brings together expert opinions from the fields of agronomy, economics, meteorology, and geography. Potential solutions to the following five main requirements for a more holistically sustainable supply of biomass are summarized: (i) bioenergy-crop cultivation should provide a beneficial social-ecological contribution, such as an increase in both biodiversity and landscape aesthetics, (ii) bioenergy crops should be cultivated on marginal agricultural land so as not to compete with food-crop production, (iii) BCS need to be resilient in the face of projected severe climate change effects, (iv) BCS should foster rural development and support the vast number of small-scale family farmers, managing about 80% of agricultural land and natural resources globally, and (v) bioenergy-crop cultivation must be planned and implemented systematically, using holistic approaches. Further research activities and policy incentives should not only consider the economic potential of bioenergy-crop cultivation, but also aspects of biodiversity, soil fertility, and climate change adaptation specific to site conditions and the given social context. This will help to adapt existing agricultural systems in a changing world and foster the development of a more social-ecologically sustainable bioeconomy. [ABSTRACT FROM AUTHOR]

Published

2019

26. Bioenergy cropping systems of tomorrow

Author

Von Cossel, Moritz, Wagner, Moritz, Lask, Jan, Magenau, Elena, Bauerle, Andrea, Von Cossel, Viktoria, Warrach-Sagi, Kirsten, Elbersen, Berien, Staritsky, Igor, Van Eupen, Michiel, Iqbal, Yasir, Jablonowski, Nicolai David, Happe, Stefan, Fernando, Ana Luisa, Scordia, Danilo, Cosentino, Salvatore Luciano, Wulfmeyer, Volker, Lewandowski, Iris, and Winkler, Bastian

Subjects

diversification, industrial crop, wild plant, bioenergy, castor bean, precipitation, cropping system, 7. Clean energy, climate change mitigation, temperature sum, agrobiodiversity, biomass production, wild plant mixture, resilience, bioeconomy, climate change adaptation, 2. Zero hunger, perennial crop, cup plant, marginal land, marginal agricultural land, 15. Life on land, groundwater protection, climate change, social-ecological sustainability, miscanthus, growth suitability, erosion mitigation

Abstract

The research objective of this study is the development of long-term sustainable Marginal Agricultural Land Low-Input Systems for industrial crop cultivation. And the research question of this study is: How bioenergy cropping systems of tomorrow could be made more sustainable under social-ecological terms. It was found that there are five main requirements for the development of social-ecologically more sustainable bioenergy cropping systems. And here, four of them are presented and discussed., This research received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 727698 and the University of Hohenheim. N.D.J. received funding from the Bioeconomy Science Center (BioSC), supported in the project AP3 Focus Lab. The scientific activities of the Bioeconomy Science Center were financially supported by the Ministry of Innovation, Science and Research within the framework of the NRW Strategieprojekt BioSC (no. 313/323‐400‐002 13)., {"references":["https://www.mdpi.com/1996-1073/12/16/3123","https://www.mdpi.com/2073-4395/9/10/605","https://onlinelibrary.wiley.com/doi/10.1002/adsu.202000037","https://link.springer.com/article/10.1007/s12155-015-9690-2"]}

27. Bioenergy cropping systems of tomorrow

Author

Von Cossel, Moritz, Wagner, Moritz, Lask, Jan, Magenau, Elena, Bauerle, Andrea, Von Cossel, Viktoria, Warrach-Sagi, Kirsten, Elbersen, Berien, Staritsky, Igor, Van Eupen, Michiel, Iqbal, Yasir, Jablonowski, Nicolai David, Happe, Stefan, Fernando, Ana Luisa, Scordia, Danilo, Cosentino, Salvatore Luciano, Wulfmeyer, Volker, Lewandowski, Iris, and Winkler, Bastian

Subjects

diversification, industrial crop, wild plant, bioenergy, castor bean, precipitation, cropping system, 7. Clean energy, climate change mitigation, temperature sum, agrobiodiversity, biomass production, wild plant mixture, resilience, bioeconomy, climate change adaptation, 2. Zero hunger, perennial crop, cup plant, marginal land, marginal agricultural land, 15. Life on land, groundwater protection, climate change, social-ecological sustainability, miscanthus, growth suitability, erosion mitigation

Abstract

The research objective of this study is the development of long-term sustainable Marginal Agricultural Land Low-Input Systems for industrial crop cultivation. And the research question of this study is: How bioenergy cropping systems of tomorrow could be made more sustainable under social-ecological terms. It was found that there are five main requirements for the development of social-ecologically more sustainable bioenergy cropping systems. And here, four of them are presented and discussed.

28. Bioenergy cropping systems of tomorrow

Author

Cossel, Moritz Von, Wagner, Moritz, Lask, Jan, Magenau, Elena, Bauerle, Andrea, Cossel, Viktoria Von, Warrach-Sagi, Kirsten, Berien Elbersen, Staritsky, Igor, Eupen, Michiel Van, Iqbal, Yasir, Jablonowski, Nicolai David, Happe, Stefan, Fernando, Ana Luisa, Scordia, Danilo, Cosentino, Salvatore Luciano, Wulfmeyer, Volker, Lewandowski, Iris, and Winkler, Bastian

Subjects

2. Zero hunger, 15. Life on land, 7. Clean energy

29. Perennial biomass cropping and use: Shaping the policy ecosystem in European countries.

Author

Clifton-Brown J, Hastings A, von Cossel M, Murphy-Bokern D, McCalmont J, Whitaker J, Alexopoulou E, Amaducci S, Andronic L, Ashman C, Awty-Carroll D, Bhatia R, Breuer L, Cosentino S, Cracroft-Eley W, Donnison I, Elbersen B, Ferrarini A, Ford J, Greef J, Ingram J, Lewandowski I, Magenau E, Mos M, Petrick M, Pogrzeba M, Robson P, Rowe RL, Sandu A, Schwarz KU, Scordia D, Scurlock J, Shepherd A, Thornton J, Trindade LM, Vetter S, Wagner M, Wu PC, Yamada T, and Kiesel A

Abstract

Demand for sustainably produced biomass is expected to increase with the need to provide renewable commodities, improve resource security and reduce greenhouse gas emissions in line with COP26 commitments. Studies have demonstrated additional environmental benefits of using perennial biomass crops (PBCs), when produced appropriately, as a feedstock for the growing bioeconomy, including utilisation for bioenergy (with or without carbon capture and storage). PBCs can potentially contribute to Common Agricultural Policy (CAP) (2023-27) objectives provided they are carefully integrated into farming systems and landscapes. Despite significant research and development (R&D) investment over decades in herbaceous and coppiced woody PBCs, deployment has largely stagnated due to social, economic and policy uncertainties. This paper identifies the challenges in creating policies that are acceptable to all actors. Development will need to be informed by measurement, reporting and verification (MRV) of greenhouse gas emissions reductions and other environmental, economic and social metrics. It discusses interlinked issues that must be considered in the expansion of PBC production: (i) available land; (ii) yield potential; (iii) integration into farming systems; (iv) R&D requirements; (v) utilisation options; and (vi) market systems and the socio-economic environment. It makes policy recommendations that would enable greater PBC deployment: (1) incentivise farmers and land managers through specific policy measures, including carbon pricing, to allocate their less productive and less profitable land for uses which deliver demonstrable greenhouse gas reductions; (2) enable greenhouse gas mitigation markets to develop and offer secure contracts for commercial developers of verifiable low-carbon bioenergy and bioproducts; (3) support innovation in biomass utilisation value chains; and (4) continue long-term, strategic R&D and education for positive environmental, economic and social sustainability impacts., Competing Interests: The authors declare that progress reported in this paper, which includes input from industrial partners, is not biased by their business interests., (© 2023 The Authors. GCB Bioenergy Published by John Wiley & Sons Ltd.)

Published

2023