Your search keyword '"Robert R. Brooks"' showing total 15 results

1. [Untitled]

Author

J. H. Kirkman, Daniel Petit, Brett Robinson, Robert R. Brooks, Paul E.H. Gregg, and Marc Leblanc

Subjects

biology, Chemistry, fungi, food and beverages, Soil Science, Plant Science, biology.organism_classification, complex mixtures, Soil contamination, Phytoremediation, Dry weight, Environmental chemistry, Bioaccumulation, Soil water, Botany, Hyperaccumulator, Thlaspi, Thlaspi caerulescens

Abstract

Uptake of Cd, Zn, Pb and Mn by the hyperaccumulator Thlaspi caerulescens was studied by pot trials in plant growth units and in populations of wild plants growing over Pb/Zn base-metal mine wastes at Les Malines in the south of France. The pot trials utilised metal-contaminated soils from Auby in the Lille area. Zinc and Cd concentrations in wild plants averaged 1.16% and 0.16% (dry weight) respectively. The unfertilised biomass of the plants was 2.6 t/ha. A single fertilised crop with the above metal content could remove 60 kg of Zn and 8.4 kg Cd per hectare. Experiments with pot-grown and wild plants showed that metal concentrations (dry weight basis) were up to 1% Zn (4% Zn in the soil) and just over 0.1% Cd (0.02% Cd in the soil). The metal content of the plants was correlated strongly with the plant-available fraction in the soils as measured by extraction with ammonium acetate and was inversely correlated with pH. Bioaccumulation coefficients (plant/soil metal concentration quotients) were in general higher for Cd than for Zn except at low metal concentrations in the soil. There was a tendency for these coefficients to increase with decreasing metal concentrations in the soil. It is proposed that phytoremediation using Thlaspi caerulescens would be entirely feasible for low levels of Cd where only a single crop would be needed to halve a Cd content of 10 μg/g in the soil. It will never be possible to remediate elevated Zn concentrations within an economic time frame (

Published

1998

2. [Untitled]

Author

J. H. Kirkman, Hugo Varela Alvarez, Robert R. Brooks, Paul E.H. Gregg, and Brett Robinson

Subjects

geography, geography.geographical_feature_category, Geochemistry, Soil Science, Mineralogy, Soil chemistry, Edaphic, Plant community, Plant Science, Vegetation, Chemical element, Grassland, Ultramafic rock, Soil water, Geology

Abstract

Ultramafic (“serpentine”) soils from and adjacent to the Dun Mountain Ophiolitic Belt, South Island, New Zealand were analysed for 11 elements in order to establish to what degree edaphic factors influenced the character of the overlying vegetation. Using principal components analysis with a mutual plot of the first two principal components, involving the total elemental concentrations in the soils, it was possible to divide the soils into 6 virtually non-overlapping fields, each of which represented a specific vegetation community. Component 1 was essentially an “ultramafic plot” with heavy loadings from the elements chromium, cobalt, iron, magnesium, manganese, and nickel. Component 2 was a “non ultramafic” plot with heavy loadings from aluminium, copper and zinc. For elements extracted from the soils at pH 5.9, discrimination was somewhat poorer but confirmed the great importance of magnesium and nickel as controlling elements for the serpentine vegetation. It was concluded that the results indicated the overriding importance of edaphic factors in controlling the serpentine vegetation.

Published

1997

3. Comparative studies of nickel, cobalt, and copper uptake by some nickel hyperaccumulators of the genus Alyssum

Author

Robert R. Brooks, R. S. Morrison, Faye A. Homer, J. Clemens, and Roger D. Reeves

Subjects

Aurinia saxatilis, Soil Science, chemistry.chemical_element, Plant Science, Biology, biology.organism_classification, Copper, Nickel, chemistry, Seedling, Botany, Phytotoxicity, Alyssum, Hyperaccumulator, Cobalt, Nuclear chemistry

Abstract

The uptake of Ni, Co, and Cu by the nickel hyperaccumulator Alyssum troodii Boiss and the non-accumulator Aurinia saxatilis (L.) Desv. were studied in pot trials using artificial rooting media with varying concentrations of the metals added as soluble salts, singly and in combination. The ability of five other Ni hyperaccumulating species of Alyssum to hyperaccumulate Co was also investigated. Leaves and stems of A. troodii accumulated Ni to almost the same extent (8000–10 000 μg g-1). In roots, the highest Ni concentration was 2000 μg g-1. In leaves of Au. saxatilis, the maximum Ni concentration was only 380 μg g-1 and the level in roots was even lower. In media containing Co, the maximum concentration of this element in A. troodii (2325 μg g-1) was ten times higher than in the non-accumulator species. Slightly less Co was found in stems and roots of both species. Among the other Ni hyperaccumulators, the maximum concentration of Co in leaves ranged from about 1000–8000 μg g-1. Copper concentrations were the same in all organs of both species when they were grown in copper-rich media and were in the range 40–80 μg g-1, showing that neither plant was capable of taking up Cu at levels comparable to those of Ni and Co. When both plants were grown in media containing equal amounts of both Co and Ni, the Co concentrations in plant organs were the same as for specimens grown in media containing Co only. However, the Ni levels were lower in both species. Uptake of Co therefore appeared to suppress Ni uptake. Pot trials showed that the order of tolerance was Ni>Cu>Co for A. troodii and Ni>Co≈Cu for Au. saxatilis, whereas the seedling tests showed the order to be Co>Ni>Cu. At metal concentrations ≥10 000 μg g-1, the overall tolerance of A. troodii was greater than that of Au. saxatilis which exhibited equally low tolerance to Ni and Cu. We conclude that in A. troodii, A. corsicum Duby, A. heldreichii Hausskn., A. murale Waldstein & Kitaibel, A. pintodasilvae T.R. Dudley, and A. tenium Halacsy, Ni tolerance and hyperaccumulation conveys the same character towards Co. This behaviour should be investigated in other hyperaccumulators of Ni and/or Co.

Published

1991

4. Copper and cobalt uptake by metallophytes from Zaïre

Author

François Malaisse, Roger D. Reeves, Robert R. Brooks, and R. S. Morrison

Subjects

Biogeochemical cycle, food.ingredient, Inorganic chemistry, Soil Science, Plant physiology, chemistry.chemical_element, Heavy metals, Plant Science, Copper, food, chemistry, Soil water, Haumaniastrum, Cobalt uptake, Cobalt, Nuclear chemistry

Abstract

Pot trials were carried out on plants ofHaumaniastrum katangense, Haumaniastrum robertii andAeolanthus biformifolius. These metallophytes from Zaire were grown in substrates containing from 0–10,000 μg/g (0–1%) copper or cobalt. The tolerance of each species was determined and for cobalt was highest inH. robertii (4000 μg/g) and for copper was highest inAeolanthus biformifolius (9000 μg/g). Discontinuities in the plant-soil curves for each element indicate an exclusion mechanism operating for all three species at lower concentrations of the element in the soil. All species would grow in soils containing only traces of cobalt or copper and this indicated that uptake of heavy metals was not linked to a physiological requirement for either element. The plant-soil relationship for cobalt (P

Published

1979

5. Tungsten concentrations in plants and soils as a means of detecting scheelite-bearing ore-bodies in New Zealand

Author

B. F. Quin and Robert R. Brooks

Subjects

geography, geography.geographical_feature_category, biology, Lithology, Ecology, Tussock, Geochemistry, Soil Science, Sampling (statistics), Plant Science, Vegetation, Geosyncline, biology.organism_classification, Soil water, Reef, Beech, Geology

Abstract

Plant and soil sampling was carried out across scheelite-bearing ore-bodies at six areas of different geological, vegetational, climatic and topographical environments in the South Island of New Zealand. The feasibility of using the concentration of tungsten in plants and soils to locate the scheelite was investigated for all the areas. These regions may be classified into two main groups according to their lithology and vegetation. The first group, comprising Clenorchy, Paradise, Macrae's Flat and Top Valley, is underlain by the schists of the New Zealand geosyncline, has a low rainfall and a predominantly shallow-rooted vegetation such as tussock grass and bracken. In these areas soil sampling was generally more effective than plant sampling, although the latter sometimes gave sharper anomalies. The areas of the second group, Barrytown and Canaan, are both underlain by predominantly granitic material, have a high rainfall, rugged topography and a predominantly beech forest vegetation. In these areas, although soil sampling was in general satisfactory, tree-trunk sampling was found to have certain advantages in locating extensions of known scheelite-bearing reefs.

Published

1974

6. Copper and cobalt uptake byHaumaniastrum species

Author

Robert R. Brooks

Subjects

inorganic chemicals, food.ingredient, Chemistry, Metallurgy, Soil Science, chemistry.chemical_element, Plant Science, Copper, food, Dry weight, Haumaniastrum, Copper levels, Cobalt uptake, Cobalt, Nuclear chemistry, High copper

Abstract

Herbarium specimens of the genus Haumaniastrum (mainly from Shaba Province Zaire) were analysed for copper and cobalt.H. homblei showed elevated copper levels and indicated its tolerance to mineralized ground.H. robertii (previously-known as a “copper flower”) showed the expected high copper concentrations, but contained abnormally high concentrations of cobalt (av. 4304 μg/g dry weight) far exceeding those of copper. This species has the highest cobalt content of any phanerogam and its distribution may be controlled by cobalt rather than by copper. re]19761220

Published

1977

7. Studies on copper and cobalt tolerance in three closely related taxa within the genusSilene L. (Caryophyllaceae) from Zaïre

Author

A. J. M. Baker, Robert R. Brooks, François Malaisse, and A. J. Pease

Subjects

Silene, Ecotype, Soil Science, Caryophyllaceae, chemistry.chemical_element, Plant Science, Biology, biology.organism_classification, Taxon, Metallophyte, chemistry, Seedling, Germination, Botany, Cobalt

Abstract

Experiments were carried out on the tolerance to and uptake of copper and cobalt by three members of a phylogenetic series of taxa within the genusSilene from Zaire which were reputed to represent a progression of increasing adaptation to metalliferous soils. Plants studied were the widespread and presumably non-tolerantSilene burchelli var.angustifolia (B), a more tolerant variant of this taxon (E) designated an ecotype, and the metallophyteS. cobalticola (C). Studies on the effects of both metals, singly and in combination, on seed germination, seedling and plant performance and yield, and metal uptake from soil cultures, confirmed in general the sequence B

Published

1983

8. Soil factors controlling a New Zealand serpentine flora

Author

Roger D. Reeves, J. Lee, Robert R. Brooks, and C. R. Boswell

Subjects

Flora, food.ingredient, Soil test, Ecology, Magnesium, Potassium, Myosotis monroi, Soil Science, chemistry.chemical_element, Plant Science, Zinc, Biology, food, chemistry, Soil water, Botany, Chemical composition

Abstract

A study was made of soil factors controlling the distribution of five species from a serpentine flora in the Dun Mountain area, South Island, New Zealand. Samples of soil were taken from sites of each of the species and each sample was analysed for calcium, chromium, cobalt, copper, magnesium, manganese, nickel, potassium, and zinc. On the basis of the species growing on them, the soil samples were divided into five groups: group 1,Pimelea suteri; group 2,Myosotis monroi; group 3,Hebe odora; group 4,Cassinia vauvilliersii- group 5,Leptospermum scoparium. Discriminant analysis was used to characterise each group of soils on the basis of chemical composition. The results showed that the two endemic plants (P. suteri andM. monroi) were much more commonly found in localities of highest magnesium concentration. These two species were strongly differentiated by the potassium and copper levels in their soils. No strong elemental discrimination was found among the non-endemic species.

Published

1975

9. Studies on uptake of heavy metals by the Scandinavian ‘Kisplanten’Lychnis alpina andSilene dioica

Author

Robert R. Brooks and H. M. Crooks

Subjects

Biogeochemical cycle, biology, Soil Science, Plant physiology, chemistry.chemical_element, Plant Science, Zinc, engineering.material, biology.organism_classification, Silene dioica, Indicator plant, Lychnis, Taxon, chemistry, Botany, engineering, Pyrite

Abstract

Pot trials onLychnis alpina, L. alpina var. serpentinicola, andSilene dioica were carried out on these ‘kisplanten’ (pyrite plants) to determine their uptake and tolerance of copper, lead, nickel and zinc. The tolerance and uptake of all four heavy metals was far greater for both varieties ofL. alpina than forS. dioica thus casting doubt onS. dioica being a true ‘kisplante’. There were no detectable differences between both varieties ofL. alpina indicating that var. serpentinicola may only be a stunted form ofL. alpina possibly not warranting varietal ranking. Uptake of copper, lead and nickel was very great in the case ofL. alpina. Plant-soil correlations for nickel were very highly significant in the case of both varieties ofL. alpina so that this taxon has an obvious role in biogeochemical prospecting. To describeL. alpina as a ‘copper flower’ is an oversimplification of a complex situation. The species is probably a true pyrite plant with tolerance to all of the major components of sulphide ore deposits.

Published

1980

10. Hyperaccumulation of nickel by Geissois species

Author

J. M. Trow, Robert R. Brooks, and Tanguy Jaffré

Subjects

biology, CUNONIACEAE, NICKEL, Soil Science, chemistry.chemical_element, CHROME, Plant Science, GEISSOIS, Geissois, biology.organism_classification, Nickel, Herbarium, chemistry, Botany, COBALT, Hyperaccumulator, Rosidae, Cobalt, ACCUMULATION

Abstract

Herbarium specimens of 17 species of Geissois were analysed for nickel, cobalt, chromium and iron with a view to discovering further hyperaccumulators of nickel (>1000 μg/g on a dry mass basis) in addition to the previously recordedG. pruinosa. A further six hyperaccumulators were discovered, all from New Caledonia. Unlike 90% of hyperaccumulators, Geissois is in Subclass Rosidae of the Magnioliate which it shares with three other hyperaccumulators (two species ofArgophyllum andPearsonia metallifera. The work highlights the remarkable concentration of hyperaccumulators in New Caledonia.

Published

1979

11. Copper and cobalt in African species ofAeolanthus Mart. (Plectranthinae, Labiatae)

Author

R. S. Morrison, Robert R. Brooks, R. U. Reeves, and François Malaisse

Subjects

Phytochemistry, Soil Science, chemistry.chemical_element, Plant physiology, Corm, Plant Science, Biology, Copper, Mineralization (biology), chemistry, Genus, Botany, Hyperaccumulator, Cobalt

Abstract

Hyperaccumulators (here defined as species containing at least 500 μg/g dryweight of either copper or cobalt in leaves), are of interest for the fields of mineral exploration and phytochemistry. Reported hyperaccumulation of copper inAeolanthus biformifolius and the presence of two other species on copper/cobalt mineralization in Shaba (Zaire) led to a survey of these elements in 49 species of the African genusAeolanthus Mart.A. biformifolius appears to be also a hyperaccumulator of Co (2520 μg/g in leaves, 4300 μg/g in corms). Cobalt levels for most species ofAeolanthus were considerably above typical values for phanerogams and indicate the favorable potential of the genus for further study.

Published

1978

12. Colonisation of modified metalliferous environments in Zaïre by the copper flowerHaumaniastrum katangense

Author

Robert R. Brooks and F. Malaisse

Subjects

Colonisation, chemistry, Haumaniastrum katangense, Smelting, Metallurgy, Soil Science, chemistry.chemical_element, Plant Science, Cobalt, Copper, Archaeology, Geology

Abstract

The distribution and dynamics ofHaumaniastrum katangense (S. Moore) duvign. et Plancke (‘copper flower’) in southern Shaba Province, Zaire have been studied. In the course of 20 years, this species has spread well beyond its original distribution. It is a successful coloniser of manmade environments containing mineralized substrates: i.e. disturbed or non-disturbed copper/cobalt deposits; copper/cobalt mining sites; sites of precolonial smelters; verges of dirt roads dressed with mine waste; along railways carrying ore wagons.

Published

1982

13. Trace elements in a New Zealand serpenting flora

Author

G. W. Butler, G. L. Lyon, P. J. Peterson, and Robert R. Brooks

Subjects

inorganic chemicals, Biogeochemical cycle, food.ingredient, biology, Myosotis monroi, Trace element, Soil Science, chemistry.chemical_element, Plant Science, biology.organism_classification, Chromium, food, chemistry, Hebe odora, Cassinia, Botany, Soil water, Cobalt

Abstract

The trace element content of ashed specimens of a New Zealand serpentine flora and the associated soils was investigated. Six species (Myosotis monroi Cheesem.,Notothlaspi australe Hook. f.,Pimelea suteri Kirk,Cassinia vauvilliersii (Homb. et Jacq.) Hook. f. varserpentina Ckn. et Allan,Hebe odora (Hook. f.) Ckn. andLeptospermum scoparium J. R. et G. Forst.) were analysed for cobalt, chromium, copper and nickel by emission spectroscopy. The significance of the experimental data was evaluated by calculation of the correlation coefficients by a computer.C. vauvilliersii showed highly significant correlation between plant ash and soil concentration for chromium, cobalt and nickel.H. odora andL. scoparium showed similar but less pronounced correlations. Relative concentrations varied considerably among the species studied.P. suteri is a strong accumulator of nickel and cobalt andL. scoparium of chromium. Good correlations were observed for certain pairs of elements in the plant ash of individual species and in the soils alone. Data for uptake by plants were compared with soil extractabilities. Calcium-magnesium ratios were also determined, and were found to be much lower than in the same species growing on non-serpentinized soils. It was concluded that the above species, particularlyC. vauvilliersii will be useful in biogeochemical prospecting.

Published

1968

14. The accumulation of tungsten byNothofagus menziesii

Author

Robert R. Brooks, B. F. Quin, and P. F. Reay

Subjects

Nothofagus, Biogeochemical cycle, biology, Chemistry, Botany, Soil Science, Plant physiology, chemistry.chemical_element, Plant Science, Tungsten, equipment and supplies, biology.organism_classification, Beech

Abstract

The uptake of tungsten by the New Zealand silver beech (Nothofagus menziesii) was investigated by pot trials with seedlings of this species in order to obtain information on the mode of their accumulation of this element as a preliminary to further field studies involving biogeochemical prospecting. Tungsten accumulation was most pronounced in the roots. Under controlled glasshouse conditions, the concentrations of this element in the roots, stems and leaves, were all related to levels in the soil.

Published

1972

15. Differences in molybdenum uptake by micro-organisms from the rhizosphere ofraphanus sativus L. grown in two soils of similar origin

Author

Margaret W. Loutit, J. S. Loutit, and Robert R. Brooks

Subjects

Rhizosphere, biology, Microorganism, Ecology (disciplines), Soil Science, Raphanus, Plant physiology, chemistry.chemical_element, Plant Science, biology.organism_classification, Agronomy, chemistry, Molybdenum, Botany, Soil water, Market garden

Abstract

Differences have been shown in molybdenum uptake by microorganisms from the rhizosphere and soil sampled away from the roots, of the radish,Raphanus sativus L., grown in market garden soils from Napier and Hastings (New Zealand).

Published

1967