Denis W. Gartside scite author profile

Denis W. Gartside

3Publications

21Citation Statements Received

22Citation Statements Given

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184

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University of Hull, University of Liverpool

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The potential for evolution of heavy metal tolerance in plants

1974

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The effects of increase in copper contamination in potting compost/copper mine waste mixtures on the germination and growth of the following species has been examined: Agrostis tenuis, Poa trivialis, Lolium perenne, Dactylis glomerata, Cynosurus cristatus, Anthoxanthum odoratum, Arrhenatherwn elatius, Plantago lanceolata and Tr(folium repens. Copper tolerant A. tenuis from Parys Mountain was used as control. Plant dry weight and plant height decreased with increase in proportion of copper contaminated soil in the mixtures, a conspicuous characteristic was the continued survival and growth of some individuals and the death of others at 1-4, 1-8 and mine soil levels. Agrostis tenuis and Dactylis glomerata produced fully copper tolerant survivors at a frequency of 008 per cent. By contrast Poa trivialis, Loliu,n perenne, Arrhenatherum elatius and Cynosurus cristatus produced survivors having indices of tolerance ranging from 7 to 20 per cent, tolerance, values too low to be considered as fully copper tolerant. Plantago lanceolata, Anthoxanthum odoratum, and Trfolium repens, failed to produce any survivors at all. The heritability of copper tolerance in the selected material: Agrostis tenuis, Lolium perenne, Dactylis glomerata, Arrhenatherum elatius, and copper tolerant A. tenuis was determined. Heritability is discussed in terms of breeding value. The results suggested that while the evolution of tolerance would be easy in A. tenuis it would be difficult in species such as Lolium perenne. The data presented are interpreted as evidence that the exclusion of some species from mine areas is because of their inability to evolve metal tolerance.

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Genetic studies in heavy metal tolerant plants

Gartside

McNeilly

1974

Heredity

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SUMMARYThe genetics of zinc tolerance in Anthoxanthum odoratum was examined using the technique of pair crosses, and diallel analysis. Evidence is presented that the genetic control of zinc tolerance is (a) dominant and directional, (b) under a polygenic control system probably with a small number of loci involved, (c) not under any maternal influence. The parents have been shown to be highly heterozygous.

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Genetic studies in heavy metal tolerant plants

Gartside

McNeilly

1974

Heredity

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Denis W. Gartside

The potential for evolution of heavy metal tolerance in plants

Genetic studies in heavy metal tolerant plants

Genetic studies in heavy metal tolerant plants

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