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151. Extending miscanthus cultivation with novel germplasm at six contrasting sites

Author

Kalinina, Olena, Nunn, Christopher, Sanderson, Ruth, Hastings, Astley F.S., van der Weijde, Tim, Özgüven, Mensure, Tarakanov, Ivan, Schüle, Heinrich, Trindade, Luisa M., Dolstra, Oene, Schwarz, Kai Uwe, Iqbal, Yasir, Kiesel, Andreas, Mos, Michal, Lewandowski, Iris, Clifton-Brown, John C., Kalinina, Olena, Nunn, Christopher, Sanderson, Ruth, Hastings, Astley F.S., van der Weijde, Tim, Özgüven, Mensure, Tarakanov, Ivan, Schüle, Heinrich, Trindade, Luisa M., Dolstra, Oene, Schwarz, Kai Uwe, Iqbal, Yasir, Kiesel, Andreas, Mos, Michal, Lewandowski, Iris, and Clifton-Brown, John C.

Abstract

Miscanthus is a genus of perennial rhizomatous grasses with C4 photosynthesis which is indigenous in a wide geographic range of Asian climates. The sterile clone, Miscanthus × giganteus (M. × giganteus), is a naturally occurring interspecific hybrid that has been used commercially in Europe for biomass production for over a decade. Although, M. × giganteus has many outstanding performance characteristics including high yields and low nutrient offtakes, commercial expansion is limited by cloning rates, slow establishment to a mature yield, frost, and drought resistance. In this paper, we evaluate the performance of 13 novel germplasm types alongside M. × giganteus and horticultural “Goliath” in trials in six sites (in Germany, Russia, The Netherlands, Turkey, UK, and Ukraine). Mean annual yields across all the sites and genotypes increased from 2.3 ± 0.2 t dry matter ha−1 following the first year of growth, to 7.3 ± 0.3, 9.5 ± 0.3, and 10.5 ± 0.2 t dry matter ha−1 following the second, third, and fourth years, respectively. The highest average annual yields across locations and four growth seasons were observed for M. × giganteus (9.9 ± 0.7 t dry matter ha−1) and interspecies hybrid OPM-6 (9.4 ± 0.6 t dry matter ha−1). The best of the new hybrid genotypes yielded similarly to M. × giganteus at most of the locations. Significant effects of the year of growth, location, species, genotype, and interplay between these factors have been observed demonstrating strong genotype × environment interactions. The highest yields were recorded in Ukraine. Time needed for the crop establishment varied depending on climate: in colder climates such as Russia the crop has not achieved its peak yield by the fourth year, whereas in the hot climate of Turkey and under irrigation the yields were already high in the first growing season. We have identified several alternatives to M. × giganteus which have provided stable yields across wide climatic ranges, mostly interspecies hybrids, and

Published
2017

155. Extending Miscanthus Cultivation with Novel Germplasm at Six Contrasting Sites

Author

Kalinina, Olena, primary, Nunn, Christopher, additional, Sanderson, Ruth, additional, Hastings, Astley F. S., additional, van der Weijde, Tim, additional, Özgüven, Mensure, additional, Tarakanov, Ivan, additional, Schüle, Heinrich, additional, Trindade, Luisa M., additional, Dolstra, Oene, additional, Schwarz, Kai-Uwe, additional, Iqbal, Yasir, additional, Kiesel, Andreas, additional, Mos, Michal, additional, Lewandowski, Iris, additional, and Clifton-Brown, John C., additional

Published
2017
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158. Collecting wild Miscanthus germplasm in Asia for crop improvement and conservation in Europe whilst adhering to the guidelines of the United Nations' Convention on Biological Diversity.

Author

Huang, Lin S, Flavell, Richard, Donnison, Iain S, Chiang, Yu-Chung, Hastings, Astley, Hayes, Charlotte, Heidt, Chris, Hong, Hao, Hsu, Tsai-Wen, Humphreys, Mervyn, Jackson, Julian, Norris, John, Schwarz, Kai-Uwe, Squance, Michael, Swaller, Timothy, Thomas, Ian David, Assche, Wilfriede Van, Xi, Qingguo, Yamada, Toshihiko, and Youell, Sue

Subjects
CONVENTION on Biological Diversity (1992), CROP improvement, GERMPLASM, MISCANTHUS, ENERGY crops, PLANT breeding
Abstract

Background and Aims Germplasm with diverse, agronomically relevant traits forms the foundation of a successful plant breeding programme. Since 1993, the United Nations has been advocating the implementation of the Convention on Biological Diversity (CBD) and the subsequent 2002 Bonn Guidelines as international best practice on germplasm collection and use. In 2006, a European team made an expedition to Asia to collect wild germplasm of Miscanthus , a C4 perennial rhizomatous grass, for breeding an environmentally adaptable, resilient and high-yielding bioenergy crop. We outline general aspects of germplasm collection, conservation, breeding and biomass production evaluation while following the CBD's guidelines, respecting biodiversity and conservation needs, and the ethical use of genetic resources. Methods Effective protocols, quarantine, methods for collecting seed and rhizomes, and a genebank for conservation were established. Versatile informatics and database architecture were used to assist in selection, flowering synchronization, crossing, evaluation, phenotyping and data integration. Approaches were formulated to comply with the CBD guidelines. Key Results A total of 303 accessions of M. sinensis , M. sacchariflorus and M. floridulus were collected from 158 geographically and environmentally diverse locations. These species were shown to accumulate different amounts of aerial biomass due to combinations of stem count, height and thickness. Progeny from one interspecies cross accumulated more biomass in early trials and has shown double the yield performance in years 3–4 compared with the existing commercial cultivar M. × giganteus. An example of an F1 hybrid has already demonstrated the long-term potential of exploiting this collection for a breeding programme. Conclusions By conforming to the CBD principles, the authors' international collaboration provides a practical example of implementing the CBD. The collection widened the genetic diversity of Miscanthus available to allow for breeding of novel hybrids that exhibit more diverse traits to increase yield and resilience for growth on marginal land and in climate-challenged environments. [ABSTRACT FROM AUTHOR]

Published
2019
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159. The potential of Miscanthus to sequester carbon in soils: Comparing field measurements in Carlow, Ireland to model predictions

Author

Hastings, Astley [0000-0001-9863-7613], Saiz, Gustavo [0000-0001-7794-4403], Smith, Pete [0000-0002-3784-1124], Dondini, Marta, Hastings, Astley, Saiz, Gustavo, Jones, Michael B., Smith, Pete, Hastings, Astley [0000-0001-9863-7613], Saiz, Gustavo [0000-0001-7794-4403], Smith, Pete [0000-0002-3784-1124], Dondini, Marta, Hastings, Astley, Saiz, Gustavo, Jones, Michael B., and Smith, Pete

Abstract

Growing bioenergy crops such as Miscanthus has the potential to mitigate atmospheric carbon dioxide emissions by the replacement of fossil fuels and by storing carbon (C) in the soil due to land use change. Here we compare direct measurements of soil organic C fractions made in Carlow (Ireland) to model predictions made by RothC and a cohort model. Our results show that when Miscanthus is grown on land previously under arable agriculture, the soil organic C will increase to a level above that of native pasture, as Miscanthus organic material is shown to have a slow decomposition rate. In addition we demonstrate that for measured organic C, fractions of different lability are similar to the C pools used in RothC. Using the model predictions from RothC and Miscanthus yields from MISCANFOR, we predict that in Ireland, changing the land use from arable to Miscanthus plantations has the potential to store between 2 and 3MgCha-1 y-1 depending on the crop yield and the initial soil organic C level.

Published
2010

160. Synergies and trade-offs between renewable energy expansion and biodiversity conservation - a cross-national multifactor analysis

Author

University of Helsinki, Finnish Museum of Natural History, University of Helsinki, Department of Geosciences and Geography, University of Helsinki, Department of Biosciences, Santangeli, Andrea, Di Minin, Enrico, Toivonen, Tuuli, Pogson, Mark, Hastings, Astley, Smith, Pete, Moilanen, Atte, University of Helsinki, Finnish Museum of Natural History, University of Helsinki, Department of Geosciences and Geography, University of Helsinki, Department of Biosciences, Santangeli, Andrea, Di Minin, Enrico, Toivonen, Tuuli, Pogson, Mark, Hastings, Astley, Smith, Pete, and Moilanen, Atte

Abstract

Increased deployment of renewable energy can contribute towards mitigating climate change and improving air quality, wealth and development. However, renewable energy technologies are not free of environmental impacts; thus, it is important to identify opportunities and potential threats from the expansion of renewable energy deployment. Currently, there is no cross-national comprehensive analysis linking renewable energy potential simultaneously to socio-economic and political factors and biodiversity priority locations. Here, we quantify the relationship between the fraction of land-based renewable energy (including solar photovoltaic, wind and bioenergy) potential available outside the top biodiversity areas (i.e. outside the highest ranked 30% priority areas for biodiversity conservation) within each country, with selected socio-economic and geopolitical factors as well as biodiversity assets. We do so for two scenarios that identify priority areas for biodiversity conservation alternatively in a globally coordinated manner vs. separately for individual countries. We show that very different opportunities and challenges emerge if the priority areas for biodiversity protection are identified globally or designated nationally. In the former scenario, potential for solar, wind and bioenergy outside the top biodiversity areas is highest in developing countries, in sparsely populated countries and in countries of low biodiversity potential but with high air pollution mortality. Conversely, when priority areas for biodiversity protection are designated nationally, renewable energy potential outside the top biodiversity areas is highest in countries with good governance but also in countries with high biodiversity potential and population density. Overall, these results identify both clear opportunities but also risks that should be considered carefully when making decisions about renewable energy policies.

Published
2016

161. Global change synergies and trade-offs between renewable energy and biodiversity

Author

University of Helsinki, Department of Biosciences, University of Helsinki, Department of Geosciences and Geography, Santangeli, Andrea, Toivonen, Tuuli, Pouzols, Federico Montesino, Pogson, Mark, Hastings, Astley, Smith, Pete, Moilanen, Atte, University of Helsinki, Department of Biosciences, University of Helsinki, Department of Geosciences and Geography, Santangeli, Andrea, Toivonen, Tuuli, Pouzols, Federico Montesino, Pogson, Mark, Hastings, Astley, Smith, Pete, and Moilanen, Atte

Abstract

Reliance on fossil fuels is causing unprecedented climate change and is accelerating environmental degradation and global biodiversity loss. Together, climate change and biodiversity loss, if not averted urgently, may inflict severe damage on ecosystem processes, functions and services that support the welfare of modern societies. Increasing renewable energy deployment and expanding the current protected area network represent key solutions to these challenges, but conflicts may arise over the use of limited land for energy production as opposed to biodiversity conservation. Here, we compare recently identified core areas for the expansion of the global protected area network with the renewable energy potential available from land-based solar photovoltaic, wind energy and bioenergy (in the form of Miscanthusxgiganteus). We show that these energy sources have very different biodiversity impacts and net energy contributions. The extent of risks and opportunities deriving from renewable energy development is highly dependent on the type of renewable source harvested, the restrictions imposed on energy harvest and the region considered, with Central America appearing at particularly high potential risk from renewable energy expansion. Without restrictions on power generation due to factors such as production and transport costs, we show that bioenergy production is a major potential threat to biodiversity, while the potential impact of wind and solar appears smaller than that of bioenergy. However, these differences become reduced when energy potential is restricted by external factors including local energy demand. Overall, we found that areas of opportunity for developing solar and wind energy with little harm to biodiversity could exist in several regions of the world, with the magnitude of potential impact being particularly dependent on restrictions imposed by local energy demand. The evidence provided here helps guide sustainable development of renewable energy an

Published
2016

162. Progress on optimizing miscanthus biomass production for the european bioeconomy : Results of the EU FP7 project OPTIMISC

Author

Lewandowski, Iris, Clifton-Brown, John, Trindade, Luisa M., van der Linden, Gerard C., Schwarz, Kai Uwe, Müller-Sämann, Karl, Anisimov, Alexander, Chen, C.L., Dolstra, Oene, Donnison, Iain S., Farrar, Kerrie, Fonteyne, Simon, Harding, Graham, Hastings, Astley, Huxley, Laurie M., Iqbal, Yasir, Khokhlov, Nikolay, Kiesel, Andreas, Lootens, Peter, Meyer, Heike, Mos, Michal, Muylle, Hilde, Nunn, Chris, Özgüven, Mensure, Roldán-Ruiz, Isabel, Schüle, Heinrich, Tarakanov, Ivan, van der Weijde, Tim, Wagner, Moritz, Xi, Qingguo, Kalinina, Olena, Lewandowski, Iris, Clifton-Brown, John, Trindade, Luisa M., van der Linden, Gerard C., Schwarz, Kai Uwe, Müller-Sämann, Karl, Anisimov, Alexander, Chen, C.L., Dolstra, Oene, Donnison, Iain S., Farrar, Kerrie, Fonteyne, Simon, Harding, Graham, Hastings, Astley, Huxley, Laurie M., Iqbal, Yasir, Khokhlov, Nikolay, Kiesel, Andreas, Lootens, Peter, Meyer, Heike, Mos, Michal, Muylle, Hilde, Nunn, Chris, Özgüven, Mensure, Roldán-Ruiz, Isabel, Schüle, Heinrich, Tarakanov, Ivan, van der Weijde, Tim, Wagner, Moritz, Xi, Qingguo, and Kalinina, Olena

Abstract

This paper describes the complete findings of the EU-fundedresearch 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. Asmall selection of germplasmtypes 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 andbetween 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 productio

Published
2016

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

Author

Lewandowski, Iris, primary, Clifton-Brown, John, additional, Trindade, Luisa M., additional, van der Linden, Gerard C., additional, Schwarz, Kai-Uwe, additional, Müller-Sämann, Karl, additional, Anisimov, Alexander, additional, Chen, C.-L., additional, Dolstra, Oene, additional, Donnison, Iain S., additional, Farrar, Kerrie, additional, Fonteyne, Simon, additional, Harding, Graham, additional, Hastings, Astley, additional, Huxley, Laurie M., additional, Iqbal, Yasir, additional, Khokhlov, Nikolay, additional, Kiesel, Andreas, additional, Lootens, Peter, additional, Meyer, Heike, additional, Mos, Michal, additional, Muylle, Hilde, additional, Nunn, Chris, additional, Özgüven, Mensure, additional, Roldán-Ruiz, Isabel, additional, Schüle, Heinrich, additional, Tarakanov, Ivan, additional, van der Weijde, Tim, additional, Wagner, Moritz, additional, Xi, Qingguo, additional, and Kalinina, Olena, additional

Published
2016
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167. Progress in upscalingMiscanthusbiomass production for the European bio-economy with seed-based hybrids

Author

Clifton-Brown, John, primary, Hastings, Astley, additional, Mos, Michal, additional, McCalmont, Jon P., additional, Ashman, Chris, additional, Awty-Carroll, Danny, additional, Cerazy, Joanna, additional, Chiang, Yu-Chung, additional, Cosentino, Salvatore, additional, Cracroft-Eley, William, additional, Scurlock, Jonathan, additional, Donnison, Iain S., additional, Glover, Chris, additional, Gołąb, Izabela, additional, Greef, Jörg M., additional, Gwyn, Jeff, additional, Harding, Graham, additional, Hayes, Charlotte, additional, Helios, Waldemar, additional, Hsu, Tsai-Wen, additional, Huang, Lin S., additional, Jeżowski, Stanisław, additional, Kim, Do-Soon, additional, Kiesel, Andreas, additional, Kotecki, Andrzej, additional, Krzyzak, Jacek, additional, Lewandowski, Iris, additional, Lim, Soo Hyun, additional, Liu, Jianxiu, additional, Loosely, Marc, additional, Meyer, Heike, additional, Murphy-Bokern, Donal, additional, Nelson, Walter, additional, Pogrzeba, Marta, additional, Robinson, George, additional, Robson, Paul, additional, Rogers, Charlie, additional, Scalici, Giovanni, additional, Schuele, Heinrich, additional, Shafiei, Reza, additional, Shevchuk, Oksana, additional, Schwarz, Kai-Uwe, additional, Squance, Michael, additional, Swaller, Tim, additional, Thornton, Judith, additional, Truckses, Thomas, additional, Botnari, Vasile, additional, Vizir, Igor, additional, Wagner, Moritz, additional, Warren, Robin, additional, Webster, Richard, additional, Yamada, Toshihiko, additional, Youell, Sue, additional, Xi, Qingguo, additional, Zong, Junqin, additional, and Flavell, Richard, additional

Published
2016
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169. High-resolution spatial modelling of greenhouse gas emissions from land-use change to energy crops in the United Kingdom

Author

Richards, Mark, primary, Pogson, Mark, additional, Dondini, Marta, additional, Jones, Edward O., additional, Hastings, Astley, additional, Henner, Dagmar N., additional, Tallis, Matthew J., additional, Casella, Eric, additional, Matthews, Robert W., additional, Henshall, Paul A., additional, Milner, Suzanne, additional, Taylor, Gail, additional, McNamara, Niall P., additional, Smith, Jo U., additional, and Smith, Pete, additional

Published
2016
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171. The potential for land sparing to offset greenhouse gas emissions from agriculture

Author

Lamb, Anthony, primary, Green, Rhys, additional, Bateman, Ian, additional, Broadmeadow, Mark, additional, Bruce, Toby, additional, Burney, Jennifer, additional, Carey, Pete, additional, Chadwick, David, additional, Crane, Ellie, additional, Field, Rob, additional, Goulding, Keith, additional, Griffiths, Howard, additional, Hastings, Astley, additional, Kasoar, Tim, additional, Kindred, Daniel, additional, Phalan, Ben, additional, Pickett, John, additional, Smith, Pete, additional, Wall, Eileen, additional, zu Ermgassen, Erasmus K. H. J., additional, and Balmford, Andrew, additional

Published
2016
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172. Mapping the global potential exposure of soaring birds to terrestrial wind energy expansion.

Author

Santangeli, Andrea, Butchart, Stuart H. M., Pogson, Mark, Hastings, Astley, Smith, Pete, Girardello, Marco, and Moilanen, Atte

Subjects
BIRD ecology, WIND power, WIND turbines, CLIMATE change, BIRD migration
Abstract

The wind energy sector is steadily growing, and the number of wind turbines is expected to expand across large areas of the globe in the near future. While the development of wind energy can contribute tomitigating climate change, it also poses challenges towildlife, particularly birds, due to increased collision risk with wind turbines. Here we quantify and map potential conflicts between the potential for wind energy development and the distribution of terrestrial soaring birds. We explore the relationship between species traits (including body mass, migration ecology and extinction risk) and exposure to potential wind energy development, and identified areas of potential conflict between wind power production and soaring bird conservation. We considered the full range of each species, as well as separately analyzing the breeding, non-breeding and passage ranges for migratory species. We show that exposure to potential wind energy development is similar for soaring and non-soaring bird species. Within different parts of the range of soaring bird species, passage distributions have significantly higher potential for wind energy development than the full, breeding or non-breeding ranges.Moreover, exposure to potential wind energy development was higher within the ranges of heavier soaring bird species and those that are migratory.We show that areas of conflict between soaring bird conservation and potential wind energy development could be very large, particularly when the passage ranges of soaring bird species are considered. Such areas of potential conflict are largely unprotected. This highlights a risk for soaring birds from potential wind energy development wherever it is not carefully sited in order to minimise environmental impacts. [ABSTRACT FROM AUTHOR]

Published
2018
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176. Progress in upscaling Miscanthus biomass production for the European bio-economy with seed-based hybrids.

Author

Clifton‐Brown, John, Hastings, Astley, Mos, Michal, McCalmont, Jon P., Ashman, Chris, Awty‐Carroll, Danny, Cerazy, Joanna, Chiang, Yu‐Chung, Cosentino, Salvatore, Cracroft‐Eley, William, Scurlock, Jonathan, Donnison, Iain S., Glover, Chris, Gołąb, Izabela, Greef, Jörg M., Gwyn, Jeff, Harding, Graham, Hayes, Charlotte, Helios, Waldemar, and Hsu, Tsai‐Wen

Subjects
*BIOMASS energy, *ENERGY crops, *MISCANTHUS, *LIGNOCELLULOSE, *BIOECONOMICS, *RENEWABLE energy sources
Abstract

Field trials in Europe with Miscanthus over the past 25 years have demonstrated that interspecies hybrids such as M. × giganteus ( M × g) combine both high yield potentials and low inputs in a wide range of soils and climates. Miscanthus hybrids are expected to play a major role in the provision of perennial lignocellulosic biomass across much of Europe as part of a lower carbon economy. However, even with favourable policies in some European countries, uptake has been slow. M × g, as a sterile clone, can only be propagated vegetatively, which leads to high establishment costs and low multiplication rates. Consequently, a decade ago, a strategic decision to develop rapidly multiplied seeded hybrids was taken. To make progress on this goal, we have (1) harnessed the genetic diversity in Miscanthus by crossing and progeny testing thousands of parental combinations to select several candidate seed-based hybrids adapted to European environments, (2) established field scale seed production methods with annual multiplication factors >1500×, (3) developed the agronomy for establishing large stands from seed sown plug plants to reduce establishment times by a year compared to M × g, (4) trialled a range of harvest techniques to improve compositional quality and logistics on a large scale, (5) performed spatial analyses of yield potential and land availability to identify regional opportunities across Europe and doubled the area within the bio-climatic envelope, (6) considered on-farm economic, practical and environmental benefits that can be attractive to growers. The technical barriers to adoption have now been overcome sufficiently such that Miscanthus is ready to use as a low-carbon feedstock in the European bio-economy. [ABSTRACT FROM AUTHOR]

Published
2017
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182. The potential for bioenergy crops to contribute to meeting GB heat and electricity demands

Author

Wang, Shifeng, primary, Hastings, Astley, additional, Wang, Sicong, additional, Sunnenberg, Gilla, additional, Tallis, Matthew J., additional, Casella, Eric, additional, Taylor, Simon, additional, Alexander, Peter, additional, Cisowska, Iwona, additional, Lovett, Andrew, additional, Taylor, Gail, additional, Firth, Steven, additional, Moran, Dominic, additional, Morison, James, additional, and Smith, Pete, additional

Published
2013
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185. Global change synergies and trade-offs between renewable energy and biodiversity.

Author

Santangeli, Andrea, Toivonen, Tuuli, Pouzols, Federico Montesino, Pogson, Mark, Hastings, Astley, Smith, Pete, and Moilanen, Atte

Subjects
GLOBAL environmental change, RENEWABLE energy sources, BIODIVERSITY, CLIMATE change, ENVIRONMENTAL degradation
Abstract

Reliance on fossil fuels is causing unprecedented climate change and is accelerating environmental degradation and global biodiversity loss. Together, climate change and biodiversity loss, if not averted urgently, may inflict severe damage on ecosystem processes, functions and services that support the welfare of modern societies. Increasing renewable energy deployment and expanding the current protected area network represent key solutions to these challenges, but conflicts may arise over the use of limited land for energy production as opposed to biodiversity conservation. Here, we compare recently identified core areas for the expansion of the global protected area network with the renewable energy potential available from land-based solar photovoltaic, wind energy and bioenergy (in the form of Miscanthus × giganteus). We show that these energy sources have very different biodiversity impacts and net energy contributions. The extent of risks and opportunities deriving from renewable energy development is highly dependent on the type of renewable source harvested, the restrictions imposed on energy harvest and the region considered, with Central America appearing at particularly high potential risk from renewable energy expansion. Without restrictions on power generation due to factors such as production and transport costs, we show that bioenergy production is a major potential threat to biodiversity, while the potential impact of wind and solar appears smaller than that of bioenergy. However, these differences become reduced when energy potential is restricted by external factors including local energy demand. Overall, we found that areas of opportunity for developing solar and wind energy with little harm to biodiversity could exist in several regions of the world, with the magnitude of potential impact being particularly dependent on restrictions imposed by local energy demand. The evidence provided here helps guide sustainable development of renewable energy and contributes to the targeting of global efforts in climate mitigation and biodiversity conservation. [ABSTRACT FROM AUTHOR]

Published
2016
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186. Potential impacts on ecosystem services of land use transitions to second-generation bioenergy crops in GB.

Author

Milner, Suzanne, Holland, Robert A., Lovett, Andrew, Sunnenberg, Gilla, Hastings, Astley, Smith, Pete, Wang, Shifeng, and Taylor, Gail

Subjects
ECOSYSTEM services, LAND use, ENERGY crops, SHORT rotation forestry, MISCANTHUS, AGRICULTURE
Abstract

We present the first assessment of the impact of land use change ( LUC) to second-generation (2G) bioenergy crops on ecosystem services ( ES) resolved spatially for Great Britain ( GB). A systematic approach was used to assess available evidence on the impacts of LUC from arable, semi-improved grassland or woodland/forest, to 2G bioenergy crops, for which a quantitative 'threat matrix' was developed. The threat matrix was used to estimate potential impacts of transitions to either Miscanthus, short-rotation coppice ( SRC, willow and poplar) or short-rotation forestry ( SRF). The ES effects were found to be largely dependent on previous land uses rather than the choice of 2G crop when assessing the technical potential of available biomass with a transition from arable crops resulting in the most positive effect on ES. Combining these data with constraint masks and available land for SRC and Miscanthus ( SRF omitted from this stage due to lack of data), south-west and north-west England were identified as areas where Miscanthus and SRC could be grown, respectively, with favourable combinations of economic viability, carbon sequestration, high yield and positive ES benefits. This study also suggests that not all prospective planting of Miscanthus and SRC can be allocated to agricultural land class (ALC) ALC 3 and ALC 4 and suitable areas of ALC 5 are only minimally available. Beneficial impacts were found on 146 583 and 71 890 ha when planting Miscanthus or SRC, respectively, under baseline planting conditions rising to 293 247 and 91 318 ha, respectively, under 2020 planting scenarios. The results provide an insight into the interplay between land availability, original land uses, bioenergy crop type and yield in determining overall positive or negative impacts of bioenergy cropping on ecosystems services and go some way towards developing a framework for quantifying wider ES impacts of this important LUC. [ABSTRACT FROM AUTHOR]

Published
2016
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190. Land‐use change to bioenergy production in Europe: implications for the greenhouse gas balance and soil carbon

Author

Don, Axel, primary, Osborne, Bruce, additional, Hastings, Astley, additional, Skiba, Ute, additional, Carter, Mette S., additional, Drewer, Julia, additional, Flessa, Heinz, additional, Freibauer, Annette, additional, Hyvönen, Niina, additional, Jones, Mike B., additional, Lanigan, Gary J., additional, Mander, Ülo, additional, Monti, Andrea, additional, Djomo, Sylvestre Njakou, additional, Valentine, John, additional, Walter, Katja, additional, Zegada‐Lizarazu, Walter, additional, and Zenone, Terenzio, additional

Published
2011
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199. In‐line walkaway processing and integration

Author

Leaney, Scott, primary, Tcherkashnev, Sergei, additional, Wheeler, Mark, additional, Idrees, Muhammad, additional, Hastings, Astley, additional, Touami, M., additional, Mekmouche, S., additional, and Kasmi, R., additional

Published
2003
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200. List of Contributors

Author

Alexopoulou, Efthymia, Casler, Michael D., Christou, Myrsini, Clifton-Brown, John, Copani, Venera, Cosentino, Salvatore L., Daza Montaño, Claudia M., Donnison, Iain S., Elbersen, H. Wolter, Farrar, Kerrie, Fernando, Ana L., Finnan, John M., Hastings, Astley, Iqbal, Yasir, Jensen, Elaine F., Kiesel, Andreas, Lewandowski, Iris, Lord, Richard, Millioni, Dimitra, Monti, Andrea, Nogues, Salvador, Palmborg, Cecilia, Panoutsou, Calliope, Papazoglou, Eleni G., Pari, Luigi, Rettenmaier, Nils, Sanchez, Elena, Scarfone, Antonio, Scordia, Danilo, Soldatos, Peter, Testa, Giorgio, Valentine, John, van Dam, Jan E.G., van den Berg, Douwe, Zanetti, Federica, and Zegada-Lizarazu, Walter

Published
2018
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