Toward improved drought tolerance in bioenergy crops: QTL for carbon isotope composition and stomatal conductance in Populus
Toward improved drought tolerance in bioenergy crops: QTL for carbon isotope composition and stomatal conductance in Populus
Dedicated non-food bioenergy crops like poplar are needed as sustainable, low-input feedstocks for renewable energy in a future drier climate, where they can be grown on marginal soils. Such plants should have a low water, carbon, and chemical footprint. Capturing natural variation in traits associated with water use efficiency (WUE) is the first step to developing trees that require less water and may be adapted to drier environments. We have assessed stomatal conductance (gs) and leaf carbon isotope composition (?13C, an indirect indicator of leaf WUE) in two Populus species, P. deltoides and P. trichocarpa and their F2 progeny, grown in the United Kingdom and in Italy. Populus deltoides leaves showed lower ?13C than P. trichocarpa, suggesting a higher WUE in P. trichocarpa, although without drought preconditioning, gs of P. trichocarpa was less responsive to dehydration and abscisic acid treatment than P. deltoides, suggesting that leaf anatomy may also contribute to ?13C in Populus. Quantitative trait loci (QTL) were identified for ?13C on eight linkage groups (LG) and two QTL for gs. From these. QTL and differential gene expression in response to drought from microarray data, we focused on three hotspots and identified 23 novel candidate genes on LG VI, X, and XVI. We have begun to unravel the genetic basis of WUE in bioenergy Populus revealing important underpinning data for breeding and improvement in poplar genotypes for a future drier climate
220-236
Viger, Maud
45efcf89-3181-49d9-a7c1-67b75f35fbbf
Rodriguez‐Acosta, Maricela
8c4c6a92-aa6b-4787-87e1-eab3b6043d83
Rae, Anne M.
59c24658-bfd8-44f0-b368-00ce449264fc
Morison, James I.L.
47e50653-2124-49c5-abe4-b64e90fb0872
1 December 2013
Viger, Maud
45efcf89-3181-49d9-a7c1-67b75f35fbbf
Rodriguez‐Acosta, Maricela
8c4c6a92-aa6b-4787-87e1-eab3b6043d83
Rae, Anne M.
59c24658-bfd8-44f0-b368-00ce449264fc
Morison, James I.L.
47e50653-2124-49c5-abe4-b64e90fb0872
Viger, Maud, Rodriguez‐Acosta, Maricela, Rae, Anne M., Morison, James I.L. and Taylor, Gail
(2013)
Toward improved drought tolerance in bioenergy crops: QTL for carbon isotope composition and stomatal conductance in Populus.
Food and Energy Security, 2 (3), .
(doi:10.1002/fes3.39).
Abstract
Dedicated non-food bioenergy crops like poplar are needed as sustainable, low-input feedstocks for renewable energy in a future drier climate, where they can be grown on marginal soils. Such plants should have a low water, carbon, and chemical footprint. Capturing natural variation in traits associated with water use efficiency (WUE) is the first step to developing trees that require less water and may be adapted to drier environments. We have assessed stomatal conductance (gs) and leaf carbon isotope composition (?13C, an indirect indicator of leaf WUE) in two Populus species, P. deltoides and P. trichocarpa and their F2 progeny, grown in the United Kingdom and in Italy. Populus deltoides leaves showed lower ?13C than P. trichocarpa, suggesting a higher WUE in P. trichocarpa, although without drought preconditioning, gs of P. trichocarpa was less responsive to dehydration and abscisic acid treatment than P. deltoides, suggesting that leaf anatomy may also contribute to ?13C in Populus. Quantitative trait loci (QTL) were identified for ?13C on eight linkage groups (LG) and two QTL for gs. From these. QTL and differential gene expression in response to drought from microarray data, we focused on three hotspots and identified 23 novel candidate genes on LG VI, X, and XVI. We have begun to unravel the genetic basis of WUE in bioenergy Populus revealing important underpinning data for breeding and improvement in poplar genotypes for a future drier climate
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Published date: 1 December 2013
Organisations:
Centre for Biological Sciences
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Local EPrints ID: 363276
URI: http://eprints.soton.ac.uk/id/eprint/363276
ISSN: 2048-3694
PURE UUID: c1e84a82-c6f0-4a2b-a6ed-e702775b4179
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Date deposited: 21 Mar 2014 16:22
Last modified: 14 Mar 2024 16:21
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Author:
Maud Viger
Author:
Maricela Rodriguez‐Acosta
Author:
Anne M. Rae
Author:
James I.L. Morison
Author:
Gail Taylor
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