Your search keyword '"Fonteyne S"' showing total 9 results

1. Creation and Evaluation of Novel Cold Tolerant Miscanthus Hybrids

Author

Münnich, C., Kørup, K., Klaas, M., Barth, S., Kjeldsen, J. B., Finnan, J., Fonteyne, S., Jankowska, M., Jørgensen, U., Barth, Susanne, editor, Murphy-Bokern, Donal, editor, Kalinina, Olena, editor, Taylor, Gail, editor, and Jones, Michael, editor

Published

2016

2. A Review of Frost and Chilling Stress in Miscanthus and Its Importance to Biomass Yield

Author

Fonteyne, S., Roldán-Ruiz, I., Muylle, H., De Swaef, T., Reheul, D., Lootens, P., Barth, Susanne, editor, Murphy-Bokern, Donal, editor, Kalinina, Olena, editor, Taylor, Gail, editor, and Jones, Michael, editor

Published

2016

3. Chilling tolerance and early vigour-related characteristics evaluated in two Miscanthus genotypes

Author

Fonteyne, S., Lootens, P., Muylle, H., van den Ende, W., de Swaef, T., Reheul, D., and Roldan-Ruiz, I.

Published

2016

4. Creation of novel cold tolerant miscanthus hybrids

Author

Muennich C, Klaas, M., Kirsten Kørup, Barth, S., Jens Bonderup Kjeldsen, Finnan, J., Fonteyne, S., Jankowska, M., and Uffe Jørgensen

Published

2015

5. OPTIMISC - Developing Miscanthus Production Systems for Marginal Lands

Author

Lewandowski, I., Kalinina, O., Kiesel, A., Clifton-Brown, J., Farrar, K., Donnison, I., Huxley, L., Nunn, C., Trindade, L., Dolstra, O., Van Der Weijde, T., Van Der Linden, G., Chen, C.-L., Roland-Ruiz, I., Muylle, H., Lootens, P., Fonteyne, S., Harding, G., Mos, M., Schwarz, K.U., Meyer, H., Muller-Samann, K., Xi, Q., Özgüven, M., Khokhlov, N., Tarakanov, I., and Schüle, H.

Subjects

food and beverages, Biomass

Abstract

Land can be characterized marginal either under economic or biophysical limitations. In the EU project OPTIMISC (Optimizing Miscanthus Biomass Production) miscanthus production systems for biophysically marginal production conditions, such as water limitations, chilling temperatures, frost and salinity are developed by screening elite germplasm under controlled conditions and trialling it over a range of sites across central Europe, Ukraine, Russia and China, analysing the key traits that currently limit the potential of Miscanthus. To reduce the risks and costs of growing Miscanthus under marginal site conditions specific establishment methods and harvest and logistic systems were developed. By the application of life cycle assessments (LCA) and cost analyses miscanthus-based value chains with the highest income and area-related GHG saving for different site conditions were identified. Compared to other crops, miscanthus-based value chains can be economically feasible under marginal site conditions because miscanthus benefits from the perennial growth and the availability of stress-tolerant genotypes., Proceedings of the 23rd European Biomass Conference and Exhibition, 1-4 June 2015, Vienna, Austria, pp. 6-8

Published

2015

6. Multiyear Maize Management Dataset collected in Chiapas, Mexico.

Author

Trevisan RG, Martin NF, Fonteyne S, Verhulst N, Dorado Betancourt HA, Jimenez D, and Gardeazabal A

Abstract

For several decades, maize ( Zea mays L.) management decisions in smallholder farming in tropical regions have been a puzzle. To best balance alternative management practices' environmental and economic outcomes, an extensive dataset was gathered through CIMMYT's knowledge hub in Chiapas, a state in southern Mexico. In a knowledge hub, farmers, with the support of farm advisors, compare conventional and improved agronomic practices side-by-side and install demonstration fields where they implement improved practices. In all these fields data on on-farm operations and results is collected. The dataset was assembled using field variables (yield, cultivars, fertilization and tillage practice), as well as environment variables from soil mapping (slope, elevation, soil texture, pH and organic matter concentration) and gridded weather datasets (precipitation, temperature, radiation and evapotranspiration). The dataset contains observations from 4585 fields and comprises a period of 7 years between 2012 and 2018. This dataset will facilitate analytical approaches to represent spatial and temporal variability of alternative crop management decisions based on observational data and explain model-generated predictions for maize in Chiapas, Mexico. In addition, this data can serve as an example for similar efforts in Big Data in Agriculture., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Author(s). Published by Elsevier Inc.)

Published

2022

7. One CGIAR and the Integrated Agri-food Systems Initiative: From short-termism to transformation of the world's food systems.

Author

Govaerts B, Negra C, Camacho Villa TC, Chavez Suarez X, Espinosa AD, Fonteyne S, Gardeazabal A, Gonzalez G, Gopal Singh R, Kommerell V, Kropff W, Lopez Saavedra V, Mena Lopez G, Odjo S, Palacios Rojas N, Ramirez-Villegas J, Van Loon J, Vega D, Verhulst N, Woltering L, Jahn M, and Kropff M

Subjects

Humans, Colombia, Mexico, Food Supply methods, Agriculture methods

Abstract

Agri-food systems are besieged by malnutrition, yield gaps, and climate vulnerability, but integrated, research-based responses in public policy, agricultural, value chains, and finance are constrained by short-termism and zero sum thinking. As they respond to current and emerging agri-food system challenges, decision makers need new tools that steer toward multi-sector, evidence-based collaboration. To support national agri-food system policy processes, the Integrated Agri-food System Initiative (IASI) methodology was developed and validated through case studies in Mexico and Colombia. This holistic, multi-sector methodology builds on diverse existing data resources and leverages situation analysis, modeled predictions, and scenarios to synchronize public and private action at the national level toward sustainable, equitable, and inclusive agri-food systems. Culminating in collectively agreed strategies and multi-partner tactical plans, the IASI methodology enabled a multi-level systems approach by mobilizing design thinking to foster mindset shifts and stakeholder consensus on sustainable and scalable innovations that respond to real-time dynamics in complex agri-food systems. To build capacity for these types of integrated, context-specific approaches, greater investment is needed in supportive international institutions that function as trusted in-region 'innovation brokers.' This paper calls for a structured global network to advance adaptation and evolution of essential tools like the IASI methodology in support of the One CGIAR mandate and in service of positive agri-food systems transformation., Competing Interests: No competing interests. Versant Vision LLC has no competing commercial affiliation and therefore this does not alter our adherence to PLOS ONE policies on sharing data and materials.”

Published

2021

8. Physiological basis of chilling tolerance and early-season growth in miscanthus.

Author

Fonteyne S, Muylle H, Lootens P, Kerchev P, Van den Ende W, Staelens A, Reheul D, and Roldán-Ruiz I

Subjects

Carbohydrate Metabolism, Carbohydrates, Chlorophyll metabolism, Cold Temperature, Cold-Shock Response, Genetic Association Studies, Oxidation-Reduction, Photosynthesis, Poaceae genetics, Poaceae growth & development, Poaceae metabolism, Quantitative Trait, Heritable, Poaceae physiology

Abstract

Background and Aims: The high productivity of Miscanthus × giganteus has been at least partly ascribed to its high chilling tolerance compared with related C4 crops, allowing for a longer productive growing season in temperate climates. However, the chilling tolerance of M. × giganteus has been predominantly studied under controlled environmental conditions. The understanding of the underlying mechanisms contributing to chilling tolerance in the field and their variation in different miscanthus genotypes is largely unexplored., Methods: Five miscanthus genotypes with different sensitivities to chilling were grown in the field and scored for a comprehensive set of physiological traits throughout the spring season. Chlorophyll fluorescence was measured as an indication of photosynthesis, and leaf samples were analysed for biochemical traits related to photosynthetic activity (chlorophyll content and pyruvate, Pi dikinase activity), redox homeostasis (malondialdehyde, glutathione and ascorbate contents, and catalase activity) and water-soluble carbohydrate content., Key Results: Chilling-tolerant genotypes were characterized by higher levels of malondialdehyde, raffinose and sucrose, and higher catalase activity, while the chilling-sensitive genotypes were characterized by higher concentrations of glucose and fructose, and higher pyruvate, Pi dikinase activity later in the growing season. On the early sampling dates, the biochemical responses of M. × giganteus were similar to those of the chilling-tolerant genotypes, but later in the season they became more similar to those of the chilling-sensitive genotypes., Conclusions: The overall physiological response of chilling-tolerant genotypes was distinguishable from that of chilling-sensitive genotypes, while M. × giganteus was intermediate between the two. There appears to be a trade-off between high and efficient photosynthesis and chilling stress tolerance. Miscanthus × giganteus is able to overcome this trade-off and, while it is more similar to the chilling-sensitive genotypes in early spring, its photosynthetic capacity is similar to that of the chilling-tolerant genotypes later on., (© The Author(s) 2017. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2018

9. Progress on Optimizing Miscanthus Biomass Production for the European Bioeconomy: Results of the EU FP7 Project OPTIMISC.

Author

Lewandowski I, Clifton-Brown J, Trindade LM, van der Linden GC, Schwarz KU, Müller-Sämann K, Anisimov A, Chen CL, Dolstra O, Donnison IS, Farrar K, Fonteyne S, Harding G, Hastings A, Huxley LM, Iqbal Y, Khokhlov N, Kiesel A, Lootens P, Meyer H, Mos M, Muylle H, Nunn C, Özgüven M, Roldán-Ruiz I, Schüle H, Tarakanov I, van der Weijde T, Wagner M, Xi Q, and Kalinina O

Abstract

This paper describes the complete findings of the EU-funded research project OPTIMISC, which investigated methods to optimize the production and use of miscanthus biomass. Miscanthus bioenergy and bioproduct chains were investigated by trialing 15 diverse germplasm types in a range of climatic and soil environments across central Europe, Ukraine, Russia, and China. The abiotic stress tolerances of a wider panel of 100 germplasm types to drought, salinity, and low temperatures were measured in the laboratory and a field trial in Belgium. A small selection of germplasm types was evaluated for performance in grasslands on marginal sites in Germany and the UK. The growth traits underlying biomass yield and quality were measured to improve regional estimates of feedstock availability. Several potential high-value bioproducts were identified. The combined results provide recommendations to policymakers, growers and industry. The major technical advances in miscanthus production achieved by OPTIMISC include: (1) demonstration that novel hybrids can out-yield the standard commercially grown genotype Miscanthus x giganteus; (2) characterization of the interactions of physiological growth responses with environmental variation within and between sites; (3) quantification of biomass-quality-relevant traits; (4) abiotic stress tolerances of miscanthus genotypes; (5) selections suitable for production on marginal land; (6) field establishment methods for seeds using plugs; (7) evaluation of harvesting methods; and (8) quantification of energy used in densification (pellet) technologies with a range of hybrids with differences in stem wall properties. End-user needs were addressed by demonstrating the potential of optimizing miscanthus biomass composition for the production of ethanol and biogas as well as for combustion. The costs and life-cycle assessment of seven miscanthus-based value chains, including small- and large-scale heat and power, ethanol, biogas, and insulation material production, revealed GHG-emission- and fossil-energy-saving potentials of up to 30.6 t CO 2eq C ha -1 y -1 and 429 GJ ha -1 y -1 , respectively. Transport distance was identified as an important cost factor. Negative carbon mitigation costs of -78€ t -1 CO 2eq C were recorded for local biomass use. The OPTIMISC results demonstrate the potential of miscanthus as a crop for marginal sites and provide information and technologies for the commercial implementation of miscanthus-based value chains.

Published

2016