TY - JOUR
T1 - Breeding Strategies to Improve Miscanthus as a Sustainable Source of Biomass for Bioenergy and Biorenewable Products
AU - Clifton-Brown, John
AU - Schwarz, Kai-Uwe
AU - Awty-Carroll, Danny
AU - Iurato, Antonella
AU - Meyer, Heike
AU - Greef, Jörg
AU - Gwyn, Jeff
AU - Mos, Michal
AU - Ashman, Christopher Ross
AU - Hayes, Charlotte
AU - Huang, Lin
AU - Norris, John
AU - Rodgers, Charlie
AU - Scordia, Danilo
AU - Shafiei, Reza
AU - Squance, Michael
AU - Swaller, Timothy
AU - Youell, Susan
AU - Salvatore, Cosentino
AU - Flavell, Richard
AU - Donnison, Iain
AU - Robson, Paul
N1 - Funding Information:
Funding: The breeding was mainly supported by the Biotechnology and Biological Sciences Research Council (BBSRC), Department for Environment, Food and Rural Affairs (Defra), the BBSRC CSP strategic funding grant BB/CSP1730/1, Innovate UK/BBSRC ‘MUST’ (Miscanthus Up-Scaling Technology, 2016–2019) BB/N016149/1, CERES Inc., Terravesta Ltd. and Blankney Estates, through the GIANT-LINK project (LK0863). Genomic selection and Genome-wide association study activities were supported by BBSRC grant BB/K01711X/1, the BBSRC strategic programme grant on Energy Grasses & Bio-refining BBS/E/W/10963A01. EU projects OPTIMISC (Optimising Miscanthus Biomass Production, 2012–2016) and GRACE (Growing advanced industrial crops on marginal lands for biorefineries, 2017–2022) supported multi-location trial networks.
Funding Information:
The breeding was mainly supported by the Biotechnology and Biological Sciences Research Council (BBSRC), Department for Environment, Food and Rural Affairs (Defra), the BBSRC CSP strategic funding grant BB/CSP1730/1, Innovate UK/BBSRC ?MUST? (Miscanthus Up-Scaling Technology, 2016?2019) BB/N016149/1, CERES Inc., Terravesta Ltd. and Blankney Estates, through the GIANT-LINK project (LK0863). Genomic selection and Genome-wide association study activities were supported by BBSRC grant BB/K01711X/1, the BBSRC strategic programme grant on Energy Grasses & Bio-refining BBS/E/W/10963A01. EU projects OPTIMISC (Optimising Miscanthus Biomass Production, 2012?2016) and GRACE (Growing advanced industrial crops on marginal lands for biorefineries, 2017?2022) supported multi-location trial networks. Andreas Kiesel, Moritz Wagner and Elena Magenau (University of Hohenheim) helped J.C-B develop the latest version of the phenotyping protocols presented in Tables 1 and 2 for use in the GRACE project. The individual contributions of William Cracroft-Eley, George Robinson and Sam Buckby (Terravesta
Publisher Copyright:
© 2019 by the authors.
PY - 2019/10/24
Y1 - 2019/10/24
N2 - Miscanthus, a C4 perennial grass native to Eastern Asia, is being bred to provide biomass for bioenergy and biorenewable products. Commercial expansion with the clonal hybrid M. × giganteus is limited by low multiplication rates, high establishment costs and drought sensitivity. These limitations can be overcome by breeding more resilient Miscanthus hybrids propagated by seed. Naturally occurring fast growing indigenous Miscanthus species are found in diverse environments across Eastern Asia. The natural diversity provides for plant breeders, the genetic resources to improve yield, quality, and resilience for a wide range of climates and adverse abiotic stresses. The challenge for Miscanthus breeding is to harness the diversity through selections of outstanding wild types, parents, and progenies over a short time frame to deploy hybrids that make a significant contribution to a world less dependent on fossil resources. Here are described the strategies taken by the Miscanthus breeding programme at Aberystwyth, UK and its partners. The programme built up one of the largest Miscanthus germplasm collections outside Asia. We describe the initial strategies to exploit the available genetic diversity to develop varieties. We illustrate the success of combining diverse Miscanthus germplasm and the selection criteria applied across different environments to identify promising hybrids and to develop these into commercial varieties. We discuss the potential for molecular selections to streamline the breeding process
AB - Miscanthus, a C4 perennial grass native to Eastern Asia, is being bred to provide biomass for bioenergy and biorenewable products. Commercial expansion with the clonal hybrid M. × giganteus is limited by low multiplication rates, high establishment costs and drought sensitivity. These limitations can be overcome by breeding more resilient Miscanthus hybrids propagated by seed. Naturally occurring fast growing indigenous Miscanthus species are found in diverse environments across Eastern Asia. The natural diversity provides for plant breeders, the genetic resources to improve yield, quality, and resilience for a wide range of climates and adverse abiotic stresses. The challenge for Miscanthus breeding is to harness the diversity through selections of outstanding wild types, parents, and progenies over a short time frame to deploy hybrids that make a significant contribution to a world less dependent on fossil resources. Here are described the strategies taken by the Miscanthus breeding programme at Aberystwyth, UK and its partners. The programme built up one of the largest Miscanthus germplasm collections outside Asia. We describe the initial strategies to exploit the available genetic diversity to develop varieties. We illustrate the success of combining diverse Miscanthus germplasm and the selection criteria applied across different environments to identify promising hybrids and to develop these into commercial varieties. We discuss the potential for molecular selections to streamline the breeding process
KW - miscanthus
KW - breeding
KW - perennial biomass crop
KW - wide hybrids
KW - bioenergy
KW - bioeconomy
UR - http://www.scopus.com/inward/record.url?scp=85074199834&partnerID=8YFLogxK
U2 - 10.3390/agronomy9110673
DO - 10.3390/agronomy9110673
M3 - Article
VL - 9
JO - Agronomy
JF - Agronomy
IS - 11
M1 - 673
ER -