Aims Plant stature can be strongly modified via regulation of endog-enous levels and signalling of the plant hormone gibberellin(GA).Down-regulation of GA can produce semi-dwarf tree varieties with improved qualities ...Aims Plant stature can be strongly modified via regulation of endog-enous levels and signalling of the plant hormone gibberellin(GA).Down-regulation of GA can produce semi-dwarf tree varieties with improved qualities such as reduced susceptibility to wind damage,enhanced root growth and more compact cultivation.However,these modifications may have unintended,non-target consequences for defence against herbivores,via either of two mechanisms:(i)reduced biomass production may cause trade-offs with chemical resistance traits,as predicted by the growth-differentiation balance hypothesis,and(ii)altered biomass allocation to either roots or pho-tosynthetic tissues may affect regrowth potential and thus tolerance to defoliation.Methods We studied GA down-regulated(GE)and non-transgenic wild-type hybrid poplar(Populus alba×P.tremula)in an outdoor,above-ground common garden and defoliated half of all replicate trees to simulate defoliation.We then quantified the independent and inter-active effects of genotype and defoliation on growth and chemical resistance-related traits,including phenolic glycosides(PGs),con-densed tannin and nitrogen.We also calculated tolerance to defo-liation as the differential in relative growth between undefoliated and defoliated trees.Important Findings Our results indicate that two of the four GA down-regulated geno-types had significantly reduced stem height,basal diameter,vol-ume(d2h),total biomass and increased allocation to leaves relative to the wild type.One of those two genotypes also had reduced allocation to roots.One and sometimes both of these same two genotypes also had at least 20%lower levels of condensed tannins and PGs and similar increases in lignin and nitrogen.Tolerance,as calculated by the differential in relative growth between unde-foliated and defoliated trees,was similar among all experimental genotypes.However,two GE genotypes flushed fewer leaves in response to defoliation relative to the wild type.Our results indi-cate that GA down-regulation strongly alters biomass production and allocation in poplar but does not necessarily compromise the ability of these trees to tolerate damage.However,some of the modifications we observed do have the potential to alter non-target resistance traits over time,and warrant further research,especially under plantation conditions.展开更多
基金This work was supported by University of Wisconsin(Hatch grant no.WIS01336 to R.L.Lindroth)the U.S.Department of Agriculture Cooperative State Research,Education,and Extension Service+1 种基金the U.S.Department of Agriculture National Research Initiative Plant Genome program(grant no.2003-04345 to S.H.Strauss)Biotechnology Risk Assessment Research Grants Programs(grant no.2004-35300-14687 to S.H.Strauss).
文摘Aims Plant stature can be strongly modified via regulation of endog-enous levels and signalling of the plant hormone gibberellin(GA).Down-regulation of GA can produce semi-dwarf tree varieties with improved qualities such as reduced susceptibility to wind damage,enhanced root growth and more compact cultivation.However,these modifications may have unintended,non-target consequences for defence against herbivores,via either of two mechanisms:(i)reduced biomass production may cause trade-offs with chemical resistance traits,as predicted by the growth-differentiation balance hypothesis,and(ii)altered biomass allocation to either roots or pho-tosynthetic tissues may affect regrowth potential and thus tolerance to defoliation.Methods We studied GA down-regulated(GE)and non-transgenic wild-type hybrid poplar(Populus alba×P.tremula)in an outdoor,above-ground common garden and defoliated half of all replicate trees to simulate defoliation.We then quantified the independent and inter-active effects of genotype and defoliation on growth and chemical resistance-related traits,including phenolic glycosides(PGs),con-densed tannin and nitrogen.We also calculated tolerance to defo-liation as the differential in relative growth between undefoliated and defoliated trees.Important Findings Our results indicate that two of the four GA down-regulated geno-types had significantly reduced stem height,basal diameter,vol-ume(d2h),total biomass and increased allocation to leaves relative to the wild type.One of those two genotypes also had reduced allocation to roots.One and sometimes both of these same two genotypes also had at least 20%lower levels of condensed tannins and PGs and similar increases in lignin and nitrogen.Tolerance,as calculated by the differential in relative growth between unde-foliated and defoliated trees,was similar among all experimental genotypes.However,two GE genotypes flushed fewer leaves in response to defoliation relative to the wild type.Our results indi-cate that GA down-regulation strongly alters biomass production and allocation in poplar but does not necessarily compromise the ability of these trees to tolerate damage.However,some of the modifications we observed do have the potential to alter non-target resistance traits over time,and warrant further research,especially under plantation conditions.
