Roy Turkington | University of British Columbia (original) (raw)

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Research paper thumbnail of Genotypic coadaptation in plant growth promotion of forage species by Bacillus polymyxa

Plant and Soil, 1988

The effect of a plant growth promoting strain ofBacillus polymyxa was investigated using genotypi... more The effect of a plant growth promoting strain ofBacillus polymyxa was investigated using genotypically-defined mixtures of white clover (Trifolium repens L.) and perennial ryegrass (Lolium perenne L.). Addition ofB. polymyxa to a mixture of the species did not induce significant yield effects in perennial ryegrass, but resulted in a 23% (P<0.05) yield increase in the clover component. The clover yield advantage increased further when clones of the legume were inoculated with theB. polymyxa genotypes with which they had previously coexisted in the field from which collections were made. The highest white clover yield was attained when clones of all three organisms (T. repens, L. perenne, andB. polymyxa) that had previously coexisted in the field were grown together in the experimental system.

Research paper thumbnail of Ecological impli-cations of specificity between plants and rhizosphere micro-organisms

Research paper thumbnail of Within-population variation in localized and integrated responses of Trifolium repens to biotically patchy environments

Oecologia, 1991

Genets of Trifolium repens (white clover) were collected from three patches of old permanent past... more Genets of Trifolium repens (white clover) were collected from three patches of old permanent pasture dominated by Agrostis capillaris, Holcus lanatus or Lolium perenne. Plants derived from the genets were grown with plants of one grass species present on one side of each T. repens, and a different grass species on the other side, in all combinations of two of the three grasses. Different modules (a node with its associated internode, leaf, and axillary bud) on the same clover plant responded independently to the microenvironment provided by their own neighbouring grasses. In contrast, all apical meristems on the plant reacted similarly, showing a unified response and integrating the effects of the different microenvironments experienced by the whole clover plant. This is consistent with what is known both physiologically about the nutrition of meristems and modules, and ecologically about the exploratory growth habit of the species. Averaged over all associated grasses, there was no significant variation in the final dry weight of the different clover genets but these differed in their growth habit response to different grasses. In response to Agrostis as a neighbour, each meristem of T. repens rapidly produced many small modules. New modules were produced more slowly and were larger when Holcus or Lolium was the neighbour. The same pattern of differences occurred among clovers sampled from different backgrounds. Either genetic differences paralleled plastic responses, or plastic changes in phenotype that developed in response to different neighbours in the field persisted in the greenhouse. Plants taken from backgrounds of different grass species showed different responses to growing with those grass species. The differences were manifest primarily in a “positive leading diagonal” effect of Holcus or not-Holcus. They were the result primarily of differences in the dry weight per module and the probability of development of the axillary bud into a branch. This confirms earlier results, and implicates the central importance of branching as a means of local response to the microenvironment.

Research paper thumbnail of Maintenance of morphological variation in a biotically patchy environment

New Phytologist, 1988

The relationship between morphological variability and biotic environmental heterogeneity was stu... more The relationship between morphological variability and biotic environmental heterogeneity was studied in a pasture population of Trifolium repens L. It had been argued that the unexpectedly high levels of variation in T. repens could be maintained by diversifying selection. The mosaic of neighbours (perennial grasses) with which T. repens co-exists constitutes a prominent element of biotic patchiness that may lead to sorting among T. repens genotypes on the basis of neighbour-specific compatibilities.A variation study was conducted on a set of 400 individuals of T. repens collected on a neighbour-specific basis from a 43–year-old pasture and grown for over 2 years under common garden conditions. Variation in a set of 12 morphological characters was assessed after 4 months and again after 27 months. After 4 months′ growth, a significant proportion of this variation was accounted for by the neighbour with which the individuals of T. repens had been growing in the pasture. The actual amount of variation accounted for, however, was low (6-19%).When the same characters were assessed after 27 months, none of the neighbour-specific differences in morphology were retained. It is concluded that the original results reflected developmental differences carried over from the pasture, and that diversifying selection is not of importance in the maintenance of morphological variation in this population.

Research paper thumbnail of Effects of growing conditions and source habitat on plant traits and functional group definition

Research paper thumbnail of Quantifying the community-level consequences of competition

Folia Geobotanica, 1995

Changes in plant community structure after changes in some aspect of the environment such as nutr... more Changes in plant community structure after changes in some aspect of the environment such as nutrients or grazing is often ascribed to changes in competitive relationships among the plants. However, very rarely is competition measured directly in such experiments. To distinguish between the direct effects of environmental treatments and changes in competitive relationships, it is necessary to quantify the influence of competition on community structure and compare the magnitude and direction of this influence between environments. We describe an experimental approach to accomplish this that is based on the classic yield-density experiment of agronomy. The approach is called the community-density experiment and requires experimental establishment of a gradient in total initial community density such that absolute densities of each species increase but initial relative abundances of each species stay constant along the gradient. We define various indices of the magnitude of community-level consequences of increasing density that can be compared among environments such as different fertilizer or grazing treatments. We also discuss various practical ways of achieving the experimental density gradient that are suitable for different kinds of communities. *** DIRECT SUPPORT *** A02DO006 00011

Research paper thumbnail of Density Dependence in an Annual Plant Community: Variation among Life History Stages

Ecological Monographs, 2001

Research paper thumbnail of Relative importance of suppression-based and tolerance-based competition in an invaded oak savanna

Research paper thumbnail of Patterns of plant invasion along an environmental stress gradient

Journal of Vegetation Science, 2006

Research paper thumbnail of ARE INVASIVE SPECIES THE DRIVERS OR PASSENGERS OF CHANGE IN DEGRADED ECOSYSTEMS

Research paper thumbnail of Fraser et al 2009 Annals Botany

Research paper thumbnail of Fraser et al 2012 Frontiers Distributed experiments

Research paper thumbnail of The Effects of Fertilization and Herbivory on the Phenology of the Understory Vegetation of the Boreal Forest in Northwestern Canada

Research paper thumbnail of Long-term nutrient enrichment differentially affects investment in sexual reproduction in four boreal forest understory species

Research paper thumbnail of Declining Diversity in Abandoned Grasslands of the Carpathian Mountains: Do Dominant Species Matter

Research paper thumbnail of Mechanisms for Success after Long-term Nutrient Enrichment in a Boreal Forest Understory

Research paper thumbnail of Ectomycorrhizal colonization and intraspecific variation in growth responses of lodgepole pine

Research paper thumbnail of Dominant Species and Diversity: Linking Relative Abundance to Controls of Species Establishment

Research paper thumbnail of Genotypic coadaptation in plant growth promotion of forage species by Bacillus polymyxa

Plant and Soil, 1988

The effect of a plant growth promoting strain ofBacillus polymyxa was investigated using genotypi... more The effect of a plant growth promoting strain ofBacillus polymyxa was investigated using genotypically-defined mixtures of white clover (Trifolium repens L.) and perennial ryegrass (Lolium perenne L.). Addition ofB. polymyxa to a mixture of the species did not induce significant yield effects in perennial ryegrass, but resulted in a 23% (P<0.05) yield increase in the clover component. The clover yield advantage increased further when clones of the legume were inoculated with theB. polymyxa genotypes with which they had previously coexisted in the field from which collections were made. The highest white clover yield was attained when clones of all three organisms (T. repens, L. perenne, andB. polymyxa) that had previously coexisted in the field were grown together in the experimental system.

Research paper thumbnail of Ecological impli-cations of specificity between plants and rhizosphere micro-organisms

Research paper thumbnail of Within-population variation in localized and integrated responses of Trifolium repens to biotically patchy environments

Oecologia, 1991

Genets of Trifolium repens (white clover) were collected from three patches of old permanent past... more Genets of Trifolium repens (white clover) were collected from three patches of old permanent pasture dominated by Agrostis capillaris, Holcus lanatus or Lolium perenne. Plants derived from the genets were grown with plants of one grass species present on one side of each T. repens, and a different grass species on the other side, in all combinations of two of the three grasses. Different modules (a node with its associated internode, leaf, and axillary bud) on the same clover plant responded independently to the microenvironment provided by their own neighbouring grasses. In contrast, all apical meristems on the plant reacted similarly, showing a unified response and integrating the effects of the different microenvironments experienced by the whole clover plant. This is consistent with what is known both physiologically about the nutrition of meristems and modules, and ecologically about the exploratory growth habit of the species. Averaged over all associated grasses, there was no significant variation in the final dry weight of the different clover genets but these differed in their growth habit response to different grasses. In response to Agrostis as a neighbour, each meristem of T. repens rapidly produced many small modules. New modules were produced more slowly and were larger when Holcus or Lolium was the neighbour. The same pattern of differences occurred among clovers sampled from different backgrounds. Either genetic differences paralleled plastic responses, or plastic changes in phenotype that developed in response to different neighbours in the field persisted in the greenhouse. Plants taken from backgrounds of different grass species showed different responses to growing with those grass species. The differences were manifest primarily in a “positive leading diagonal” effect of Holcus or not-Holcus. They were the result primarily of differences in the dry weight per module and the probability of development of the axillary bud into a branch. This confirms earlier results, and implicates the central importance of branching as a means of local response to the microenvironment.

Research paper thumbnail of Maintenance of morphological variation in a biotically patchy environment

New Phytologist, 1988

The relationship between morphological variability and biotic environmental heterogeneity was stu... more The relationship between morphological variability and biotic environmental heterogeneity was studied in a pasture population of Trifolium repens L. It had been argued that the unexpectedly high levels of variation in T. repens could be maintained by diversifying selection. The mosaic of neighbours (perennial grasses) with which T. repens co-exists constitutes a prominent element of biotic patchiness that may lead to sorting among T. repens genotypes on the basis of neighbour-specific compatibilities.A variation study was conducted on a set of 400 individuals of T. repens collected on a neighbour-specific basis from a 43–year-old pasture and grown for over 2 years under common garden conditions. Variation in a set of 12 morphological characters was assessed after 4 months and again after 27 months. After 4 months′ growth, a significant proportion of this variation was accounted for by the neighbour with which the individuals of T. repens had been growing in the pasture. The actual amount of variation accounted for, however, was low (6-19%).When the same characters were assessed after 27 months, none of the neighbour-specific differences in morphology were retained. It is concluded that the original results reflected developmental differences carried over from the pasture, and that diversifying selection is not of importance in the maintenance of morphological variation in this population.

Research paper thumbnail of Effects of growing conditions and source habitat on plant traits and functional group definition

Research paper thumbnail of Quantifying the community-level consequences of competition

Folia Geobotanica, 1995

Changes in plant community structure after changes in some aspect of the environment such as nutr... more Changes in plant community structure after changes in some aspect of the environment such as nutrients or grazing is often ascribed to changes in competitive relationships among the plants. However, very rarely is competition measured directly in such experiments. To distinguish between the direct effects of environmental treatments and changes in competitive relationships, it is necessary to quantify the influence of competition on community structure and compare the magnitude and direction of this influence between environments. We describe an experimental approach to accomplish this that is based on the classic yield-density experiment of agronomy. The approach is called the community-density experiment and requires experimental establishment of a gradient in total initial community density such that absolute densities of each species increase but initial relative abundances of each species stay constant along the gradient. We define various indices of the magnitude of community-level consequences of increasing density that can be compared among environments such as different fertilizer or grazing treatments. We also discuss various practical ways of achieving the experimental density gradient that are suitable for different kinds of communities. *** DIRECT SUPPORT *** A02DO006 00011

Research paper thumbnail of Density Dependence in an Annual Plant Community: Variation among Life History Stages

Ecological Monographs, 2001

Research paper thumbnail of Relative importance of suppression-based and tolerance-based competition in an invaded oak savanna

Research paper thumbnail of Patterns of plant invasion along an environmental stress gradient

Journal of Vegetation Science, 2006

Research paper thumbnail of ARE INVASIVE SPECIES THE DRIVERS OR PASSENGERS OF CHANGE IN DEGRADED ECOSYSTEMS

Research paper thumbnail of Fraser et al 2009 Annals Botany

Research paper thumbnail of Fraser et al 2012 Frontiers Distributed experiments

Research paper thumbnail of The Effects of Fertilization and Herbivory on the Phenology of the Understory Vegetation of the Boreal Forest in Northwestern Canada

Research paper thumbnail of Long-term nutrient enrichment differentially affects investment in sexual reproduction in four boreal forest understory species

Research paper thumbnail of Declining Diversity in Abandoned Grasslands of the Carpathian Mountains: Do Dominant Species Matter

Research paper thumbnail of Mechanisms for Success after Long-term Nutrient Enrichment in a Boreal Forest Understory

Research paper thumbnail of Ectomycorrhizal colonization and intraspecific variation in growth responses of lodgepole pine

Research paper thumbnail of Dominant Species and Diversity: Linking Relative Abundance to Controls of Species Establishment

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