Robert Guy - Academia.edu (original) (raw)
Papers by Robert Guy
Frontiers in Plant Science
Nitrogen isotope discrimination (Δ15N) may have utility as an indicator of nitrogen use in plants... more Nitrogen isotope discrimination (Δ15N) may have utility as an indicator of nitrogen use in plants. A simple Δ15N-based isotope mass balance (IMB) model has been proposed to provide estimates of efflux/influx (E/I) ratios across root plasma membranes, the proportion of inorganic nitrogen assimilation in roots (Proot) and translocation of inorganic nitrogen to shoots (Ti/Tt) under steady-state conditions. We used the IMB model to investigate whether direct selection for yield in canola (Brassica napus L.) has resulted in indirect selection in traits related to nitrogen use. We selected 23 canola lines developed from 1942 to 2017, including open-pollinated (OP) lines developed prior to 2005 as well as more recent commercial hybrids (CH), and in three separate experiments grew them under hydroponic conditions in a greenhouse with either 0.5 mM ammonium, 0.5 mM nitrate, or 5 mM nitrate. Across all lines, E/I, Proot and Ti/Tt averaged 0.09±0.03, 0.82±0.05 and 0.23±0.06 in the low nitrate ...
Frontiers in Plant Science
Styrax tonkinensis has great potential as a biofuel feedstock source having industrial oilseeds w... more Styrax tonkinensis has great potential as a biofuel feedstock source having industrial oilseeds with excellent fatty acids (FAs) composition and good fuel properties. Photosynthesis in the developing pericarp could affect the carbon distribution in kernel. During kernel development, more carbon sources are allocated to starch rather than lipid, when the pericarp photosynthesis is reduced by fruit shading treatment. After shading the fruits at 50 days after flowering (DAF), samples of shaded fruit (FSK) and controls (CK) were collected at 80 DAF and analyzed using the proteomic method. We identified 3,181 proteins, of which 277 were differentially expressed proteins, all downregulated in the FSK group. There were 56 proteins found involved in carbohydrate metabolism and lipid biosynthesis leading to oil accumulation with their iTRAQ ratios of FSK/CK ranging from 0.7123 to 1.1075. According to the qRT-PCR analyses, the key genes related to FA and triacylglycerol (TAG) biosynthesis wer...
Western North American Naturalist, 2018
Silvae Genetica, 2000
Patterns of genetic variation in adaptive and quantitative attributes of Sitka alder (Alnus sinua... more Patterns of genetic variation in adaptive and quantitative attributes of Sitka alder (Alnus sinuata RYDB.) were examined at the population level to provide baseline information on genetic diversity of this species. The studied traits were related to germination, growth and frost hardiness. A total of 28 populations were studied covering the species range in British Columbia. An additional population from California was included to provide an outlier source. There were large genetic differences among the populations in all measured traits except for spring frost hardiness. Inter-population variations accounted for 78% to 97%, 37% to 65% and 26% to 61% of the total variance for variables related to germination, fall and winter frost hardiness, and biomass, respectively. For frost hardiness, the differences among populations were less pronounced in winter (maximum frost hardiness) than were found in fall indicating that the onset of frost hardiness is different among populations. Variations related to geography were particularly strong in fall frost hardiness, shoot dry weight, growth rate in July and ratio of root dry weight to total dry weight. Most of the geographic variation was due to latitude and distance from the coast. Plants generated from northern seed sources were in general more frost hardy, smaller and allocated more carbon to roots compared to shoots. Plants from the interior wet belt were grouped together with coastal plants in cluster analysis based on frost hardiness measurements suggesting that snow cover plays a role in Sitka alder adaptation to low temperatures. Speed of germination did not affect the plant size after one growing season and was independent from germination completeness. Strong positive correlation was found between timing of frost hardiness development and spring bud break. The observed patterns of large genetic variation among Sitka alder populations have significant implications for the management of the species.
Plant Cell and Environment, Dec 1, 2009
In outdoor common gardens, high latitude populations of deciduous tree species often display high... more In outdoor common gardens, high latitude populations of deciduous tree species often display higher assimilation rates (A) than low latitude populations, but they accomplish less height. To test whether trends in A reflect adaptation to growing season length or, alternatively, are garden growth artefacts, we examined variation in height increment and ecophysiological traits in a range-wide collection of Populus balsamifera L. populations from 21 provenances, during unconstrained growth in a greenhouse. Rooted cuttings, maintained without resource limitation under 21 h photoperiod for 90 d, displayed increasing height growth, A, leaf mass per area and leaf N per area with latitude whereas stomatal conductance (g(s)) showed no pattern. Water-use efficiency as indicated by both gas exchange and delta(13)C increased with latitude, whereas photosynthetic nitrogen-use efficiency decreased. Differences in delta(13)C were less than expected based on A/g(s), suggesting coextensive variation in internal conductance (g(m)). Analysis of A-C(i) curves on a subset of populations showed that high latitude genotypes had greater g(m) than low-latitude genotypes. We conclude that higher peak rates of height growth in high latitude genotypes of balsam poplar are supported by higher A, achieved partly through higher g(m), to help compensate for a shorter growing season.
Scientific Reports, Nov 22, 2018
Plant and Soil, Jun 11, 2009
ABSTRACT Soil nitrogen (N) supply and uptake by regenerating trees is an important ecosystem attr... more ABSTRACT Soil nitrogen (N) supply and uptake by regenerating trees is an important ecosystem attribute but difficult to quantify in partial-cut forests where light availability varies. The foliar attributes of N concentration (N%) and N per unit area (Na) may help characterize the influence of soil nutrition, but ideally the relationship between soils and foliage would be tested separately by species across well-defined light gradients. To do this, we examined foliar attributes of four tree species across gradients of light availability in 12year-old partially-cut forests in northwest British Columbia, Canada. There were no differences in forest floor or mineral soil N mineralization rates across the light gradients, and for western hemlock (Tsuga heterophylla) and hybrid white spruce (Picea glauca x sitchensis), this consistent level of soil N supply corresponded with unchanging foliar N%. In contrast, foliar N% of Betula papyrifera (paper birch) and Thuja plicata (western redcedar) declined with shading, perhaps due to shifts in root-shoot biomass allocation for B. papyrifera, and climatic constraints on shade tolerance for T. plicata. Leaf δ13C approached an asymptote at approx. 40% full light for the coniferous species, but increased linearly with light for B. papyrifera. Foliar Na was linearly correlated with leaf δ13C for three species, reflecting the dual effect of light and nutrition on photosynthesis processes, and suggesting that foliar Na may be a simple parameter to integrate both resource constraints on regenerating saplings. These results demonstrate both support for and limits to foliar attributes among species in isolating soil N effects against light constraints in partial-cut forests.
Plant Journal, Jan 6, 2020
Evolution, Sep 4, 2014
Populus trichocarpa is an ecologically important tree across western North America. We used a lar... more Populus trichocarpa is an ecologically important tree across western North America. We used a large population sample of 498 accessions over a wide geographical area genotyped with a 34K Populus SNP array to quantify geographical patterns of genetic variation in this species (landscape genomics). We present evidence that three processes contribute to the observed patterns: (1) introgression from the sister species P. balsamifera, (2) isolation by distance (IBD), and (3) natural selection. Introgression was detected only at the margins of the species' distribution. IBD was significant across the sampled area as a whole, but no evidence of restricted gene flow was detected in a core of drainages from southern British Columbia (BC). We identified a large number of FST outliers. Gene Ontology analyses revealed that FST outliers are overrepresented in genes involved in circadian rhythm and response to red/far-red light when the entire dataset is considered, whereas in southern BC heat response genes are overrepresented. We also identified strong correlations between geoclimate variables and allele frequencies at FST outlier loci that provide clues regarding the selective pressures acting at these loci.
Trees-structure and Function, Mar 17, 2015
New Phytologist, Jul 11, 2019
Summary Occurrence of stomata on both leaf surfaces (amphistomaty) promotes higher stomatal condu... more Summary Occurrence of stomata on both leaf surfaces (amphistomaty) promotes higher stomatal conductance and photosynthesis while simultaneously increasing exposure to potential disease agents in black cottonwood (Populus trichocarpa). A genome‐wide association study (GWAS) with 2.2M single nucleotide polymorphisms generated through whole‐genome sequencing found 280 loci associated with variation in adaxial stomatal traits, implicating genes regulating stomatal development and behavior. Strikingly, numerous loci regulating plant growth and response to biotic and abiotic stresses were also identified. The most significant locus was a poplar homologue of SPEECHLESS (PtSPCH1). Individuals possessing PtSPCH1 alleles associated with greater adaxial stomatal density originated primarily from environments with shorter growing seasons (e.g. northern latitudes, high elevations) or with less precipitation. PtSPCH1 was expressed in developing leaves but not developing stem xylem. In developing leaves, RNA sequencing showed patterns of coordinated expression between PtSPCH1 and other GWAS‐identified genes. The breadth of our GWAS results suggests that the evolution of amphistomaty is part of a larger, complex response in plants. Suites of genes underpin this response, retrieved through genetic association to adaxial stomata, and show coordinated expression during development. We propose that the occurrence of amphistomaty in P. trichocarpa involves PtSPCH1 and reflects selection for supporting rapid growth over investment in immunity.
New Forests, May 11, 2012
Science of The Total Environment, Oct 15, 2008
Canadian journal of botany, Aug 1, 1993
Short-term effects of the plant growth retardant mefluidide on drought resistance were investigat... more Short-term effects of the plant growth retardant mefluidide on drought resistance were investigated in seedlings of western red cedar (Thuja plicata Donn), yellow cedar (Chamaecyparis nootkatensis D. Don), and white spruce (Picea glauca (Moench) Voss). Mefluidide was applied as a root drench at concentrations of 0, 0.1, and 0.4 mg∙L−1. Following this, seedlings were stressed by withholding water for a period of up to 7 days and then watering regularly thereafter. Stomatal conductance of the mefluidide-treated seedlings decreased significantly and remained lower than the control seedlings throughout the stress period. As a result of the decreased conductance, shoot water potentials in mefluidide-treated seedlings remained higher throughout the stress period. There was a decrease in net photosynthesis that was partially caused by stomatal limitations, the severity of which depended upon the concentration of mefluidide applied. Mefluidide treatment also resulted in an accumulation of abscisic acid in all three species, and this may have been responsible for the effects on stomatal conductance and water relations. In contrast, the mefluidide-treated seedlings had the highest rates of photosynthesis after rewatering, resulting primarily from a promotion of stomatal opening. Key words: stomatal conductance, water potential, photosynthesis, plant growth inhibitors, abscisic acid, cold hardiness.
Frontiers in Plant Science, Jul 14, 2015
Springer eBooks, 1987
Knowledge of isotope discrimination factors related to oxygen production and consumption by plant... more Knowledge of isotope discrimination factors related to oxygen production and consumption by plants is important to an improved understanding of the global oxygen cycle. This information is also needed for the application of stable oxygen isotope methods, at natural abundance levels, to plant physiology and ecology.
Frontiers in Plant Science
Nitrogen isotope discrimination (Δ15N) may have utility as an indicator of nitrogen use in plants... more Nitrogen isotope discrimination (Δ15N) may have utility as an indicator of nitrogen use in plants. A simple Δ15N-based isotope mass balance (IMB) model has been proposed to provide estimates of efflux/influx (E/I) ratios across root plasma membranes, the proportion of inorganic nitrogen assimilation in roots (Proot) and translocation of inorganic nitrogen to shoots (Ti/Tt) under steady-state conditions. We used the IMB model to investigate whether direct selection for yield in canola (Brassica napus L.) has resulted in indirect selection in traits related to nitrogen use. We selected 23 canola lines developed from 1942 to 2017, including open-pollinated (OP) lines developed prior to 2005 as well as more recent commercial hybrids (CH), and in three separate experiments grew them under hydroponic conditions in a greenhouse with either 0.5 mM ammonium, 0.5 mM nitrate, or 5 mM nitrate. Across all lines, E/I, Proot and Ti/Tt averaged 0.09±0.03, 0.82±0.05 and 0.23±0.06 in the low nitrate ...
Frontiers in Plant Science
Styrax tonkinensis has great potential as a biofuel feedstock source having industrial oilseeds w... more Styrax tonkinensis has great potential as a biofuel feedstock source having industrial oilseeds with excellent fatty acids (FAs) composition and good fuel properties. Photosynthesis in the developing pericarp could affect the carbon distribution in kernel. During kernel development, more carbon sources are allocated to starch rather than lipid, when the pericarp photosynthesis is reduced by fruit shading treatment. After shading the fruits at 50 days after flowering (DAF), samples of shaded fruit (FSK) and controls (CK) were collected at 80 DAF and analyzed using the proteomic method. We identified 3,181 proteins, of which 277 were differentially expressed proteins, all downregulated in the FSK group. There were 56 proteins found involved in carbohydrate metabolism and lipid biosynthesis leading to oil accumulation with their iTRAQ ratios of FSK/CK ranging from 0.7123 to 1.1075. According to the qRT-PCR analyses, the key genes related to FA and triacylglycerol (TAG) biosynthesis wer...
Western North American Naturalist, 2018
Silvae Genetica, 2000
Patterns of genetic variation in adaptive and quantitative attributes of Sitka alder (Alnus sinua... more Patterns of genetic variation in adaptive and quantitative attributes of Sitka alder (Alnus sinuata RYDB.) were examined at the population level to provide baseline information on genetic diversity of this species. The studied traits were related to germination, growth and frost hardiness. A total of 28 populations were studied covering the species range in British Columbia. An additional population from California was included to provide an outlier source. There were large genetic differences among the populations in all measured traits except for spring frost hardiness. Inter-population variations accounted for 78% to 97%, 37% to 65% and 26% to 61% of the total variance for variables related to germination, fall and winter frost hardiness, and biomass, respectively. For frost hardiness, the differences among populations were less pronounced in winter (maximum frost hardiness) than were found in fall indicating that the onset of frost hardiness is different among populations. Variations related to geography were particularly strong in fall frost hardiness, shoot dry weight, growth rate in July and ratio of root dry weight to total dry weight. Most of the geographic variation was due to latitude and distance from the coast. Plants generated from northern seed sources were in general more frost hardy, smaller and allocated more carbon to roots compared to shoots. Plants from the interior wet belt were grouped together with coastal plants in cluster analysis based on frost hardiness measurements suggesting that snow cover plays a role in Sitka alder adaptation to low temperatures. Speed of germination did not affect the plant size after one growing season and was independent from germination completeness. Strong positive correlation was found between timing of frost hardiness development and spring bud break. The observed patterns of large genetic variation among Sitka alder populations have significant implications for the management of the species.
Plant Cell and Environment, Dec 1, 2009
In outdoor common gardens, high latitude populations of deciduous tree species often display high... more In outdoor common gardens, high latitude populations of deciduous tree species often display higher assimilation rates (A) than low latitude populations, but they accomplish less height. To test whether trends in A reflect adaptation to growing season length or, alternatively, are garden growth artefacts, we examined variation in height increment and ecophysiological traits in a range-wide collection of Populus balsamifera L. populations from 21 provenances, during unconstrained growth in a greenhouse. Rooted cuttings, maintained without resource limitation under 21 h photoperiod for 90 d, displayed increasing height growth, A, leaf mass per area and leaf N per area with latitude whereas stomatal conductance (g(s)) showed no pattern. Water-use efficiency as indicated by both gas exchange and delta(13)C increased with latitude, whereas photosynthetic nitrogen-use efficiency decreased. Differences in delta(13)C were less than expected based on A/g(s), suggesting coextensive variation in internal conductance (g(m)). Analysis of A-C(i) curves on a subset of populations showed that high latitude genotypes had greater g(m) than low-latitude genotypes. We conclude that higher peak rates of height growth in high latitude genotypes of balsam poplar are supported by higher A, achieved partly through higher g(m), to help compensate for a shorter growing season.
Scientific Reports, Nov 22, 2018
Plant and Soil, Jun 11, 2009
ABSTRACT Soil nitrogen (N) supply and uptake by regenerating trees is an important ecosystem attr... more ABSTRACT Soil nitrogen (N) supply and uptake by regenerating trees is an important ecosystem attribute but difficult to quantify in partial-cut forests where light availability varies. The foliar attributes of N concentration (N%) and N per unit area (Na) may help characterize the influence of soil nutrition, but ideally the relationship between soils and foliage would be tested separately by species across well-defined light gradients. To do this, we examined foliar attributes of four tree species across gradients of light availability in 12year-old partially-cut forests in northwest British Columbia, Canada. There were no differences in forest floor or mineral soil N mineralization rates across the light gradients, and for western hemlock (Tsuga heterophylla) and hybrid white spruce (Picea glauca x sitchensis), this consistent level of soil N supply corresponded with unchanging foliar N%. In contrast, foliar N% of Betula papyrifera (paper birch) and Thuja plicata (western redcedar) declined with shading, perhaps due to shifts in root-shoot biomass allocation for B. papyrifera, and climatic constraints on shade tolerance for T. plicata. Leaf δ13C approached an asymptote at approx. 40% full light for the coniferous species, but increased linearly with light for B. papyrifera. Foliar Na was linearly correlated with leaf δ13C for three species, reflecting the dual effect of light and nutrition on photosynthesis processes, and suggesting that foliar Na may be a simple parameter to integrate both resource constraints on regenerating saplings. These results demonstrate both support for and limits to foliar attributes among species in isolating soil N effects against light constraints in partial-cut forests.
Plant Journal, Jan 6, 2020
Evolution, Sep 4, 2014
Populus trichocarpa is an ecologically important tree across western North America. We used a lar... more Populus trichocarpa is an ecologically important tree across western North America. We used a large population sample of 498 accessions over a wide geographical area genotyped with a 34K Populus SNP array to quantify geographical patterns of genetic variation in this species (landscape genomics). We present evidence that three processes contribute to the observed patterns: (1) introgression from the sister species P. balsamifera, (2) isolation by distance (IBD), and (3) natural selection. Introgression was detected only at the margins of the species' distribution. IBD was significant across the sampled area as a whole, but no evidence of restricted gene flow was detected in a core of drainages from southern British Columbia (BC). We identified a large number of FST outliers. Gene Ontology analyses revealed that FST outliers are overrepresented in genes involved in circadian rhythm and response to red/far-red light when the entire dataset is considered, whereas in southern BC heat response genes are overrepresented. We also identified strong correlations between geoclimate variables and allele frequencies at FST outlier loci that provide clues regarding the selective pressures acting at these loci.
Trees-structure and Function, Mar 17, 2015
New Phytologist, Jul 11, 2019
Summary Occurrence of stomata on both leaf surfaces (amphistomaty) promotes higher stomatal condu... more Summary Occurrence of stomata on both leaf surfaces (amphistomaty) promotes higher stomatal conductance and photosynthesis while simultaneously increasing exposure to potential disease agents in black cottonwood (Populus trichocarpa). A genome‐wide association study (GWAS) with 2.2M single nucleotide polymorphisms generated through whole‐genome sequencing found 280 loci associated with variation in adaxial stomatal traits, implicating genes regulating stomatal development and behavior. Strikingly, numerous loci regulating plant growth and response to biotic and abiotic stresses were also identified. The most significant locus was a poplar homologue of SPEECHLESS (PtSPCH1). Individuals possessing PtSPCH1 alleles associated with greater adaxial stomatal density originated primarily from environments with shorter growing seasons (e.g. northern latitudes, high elevations) or with less precipitation. PtSPCH1 was expressed in developing leaves but not developing stem xylem. In developing leaves, RNA sequencing showed patterns of coordinated expression between PtSPCH1 and other GWAS‐identified genes. The breadth of our GWAS results suggests that the evolution of amphistomaty is part of a larger, complex response in plants. Suites of genes underpin this response, retrieved through genetic association to adaxial stomata, and show coordinated expression during development. We propose that the occurrence of amphistomaty in P. trichocarpa involves PtSPCH1 and reflects selection for supporting rapid growth over investment in immunity.
New Forests, May 11, 2012
Science of The Total Environment, Oct 15, 2008
Canadian journal of botany, Aug 1, 1993
Short-term effects of the plant growth retardant mefluidide on drought resistance were investigat... more Short-term effects of the plant growth retardant mefluidide on drought resistance were investigated in seedlings of western red cedar (Thuja plicata Donn), yellow cedar (Chamaecyparis nootkatensis D. Don), and white spruce (Picea glauca (Moench) Voss). Mefluidide was applied as a root drench at concentrations of 0, 0.1, and 0.4 mg∙L−1. Following this, seedlings were stressed by withholding water for a period of up to 7 days and then watering regularly thereafter. Stomatal conductance of the mefluidide-treated seedlings decreased significantly and remained lower than the control seedlings throughout the stress period. As a result of the decreased conductance, shoot water potentials in mefluidide-treated seedlings remained higher throughout the stress period. There was a decrease in net photosynthesis that was partially caused by stomatal limitations, the severity of which depended upon the concentration of mefluidide applied. Mefluidide treatment also resulted in an accumulation of abscisic acid in all three species, and this may have been responsible for the effects on stomatal conductance and water relations. In contrast, the mefluidide-treated seedlings had the highest rates of photosynthesis after rewatering, resulting primarily from a promotion of stomatal opening. Key words: stomatal conductance, water potential, photosynthesis, plant growth inhibitors, abscisic acid, cold hardiness.
Frontiers in Plant Science, Jul 14, 2015
Springer eBooks, 1987
Knowledge of isotope discrimination factors related to oxygen production and consumption by plant... more Knowledge of isotope discrimination factors related to oxygen production and consumption by plants is important to an improved understanding of the global oxygen cycle. This information is also needed for the application of stable oxygen isotope methods, at natural abundance levels, to plant physiology and ecology.