David W. Jeffrey scite author profile

Most estuaries receive a high heavy-metal input from industries. This is reflected in the relatively high levels found in numerous estuarine organisms and in sediments. Many indicators have been suggested for facilitating the detection of heavy-metal pollution, but the problems in using these indicators to evaluate the metal loading of estuaries are considerable. Variations in species composition, and conditions at different sites, differences in season of sampling, and age of organism, as well as different metal levels in different parts of the organism, make the interpretation of results difficult. The levels reported here, similar to those in other unpolluted estuaries, have been used to suggest a baseline concentration for heavy metals in estuaries.

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Seedling Establishment in Vertical Gradients of Sunlight

Grime¹,

Jeffrey²

1965

The Journal of Ecology

361

150

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The effect of soil type on phosphorus sorption capacity and desorption dynamics in Irish grassland soils

Daly¹,

Jeffrey²,

Tunney³

2001

Soil Use and Management

142

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Abstract. The phosphorus (P) sorption and desorption dynamics of eleven major agricultural grassland soil types in Ireland were examined using laboratory techniques, so that soils vulnerable to P loss might be identified. Desorption of P from soil using the iron‐oxide paper strip test (Pfeo), water extractable P (Pw) and calcium chloride extractable P (Pcacl2) depended on soil P status in all soils. However, soil types with high organic matter levels (OM), namely peat soils (%OM >30), had lower Pfeo and Pw but higher Pcacl2 values compared to mineral soils at similar soil test P levels. Phosphorus sorption capacity remaining (PSCr) was measured using a single addition of P to soils and used to calculate total P sorption capacities (PSCt) and degree of P saturation (DPS). Phosphorus sorption capacities correlated negatively with % OM in soils indicating that OM may inhibit P sorption from solution to soil. High organic matter soils exhibited low P sorption capacities and poor P reserves (total P, oxalate extractable P) compared to mineral soils. Low P sorption capacities (PSCt) in peat soils were attributed to OM, which blocked or eliminated sorption sites with organic acids, therefore, P remained in the soil solution phase (Pcacl2). In this work, peat and high organic matter soils exhibited P sorption and desorption characteristics which suggest that these soils may not be suitable for heavy applications of manure or fertilizer P owing to their low capacities for P sorption and storage.

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A Note on the use of Ignition Loss as a Means for the Approximate Estimation of Soil Bulk Density

Jeffrey¹

1970

The Journal of Ecology

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The Response of Grasslands on Sugar-Limestone in Teesdale to Application of Phosphorus and Nitrogen

Jeffrey¹,

Pigott²

1973

The Journal of Ecology

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David W. Jeffrey

Problems in the assessment of heavy-metal levels in estuaries and the formation of a pollution index

Seedling Establishment in Vertical Gradients of Sunlight

The effect of soil type on phosphorus sorption capacity and desorption dynamics in Irish grassland soils

A Note on the use of Ignition Loss as a Means for the Approximate Estimation of Soil Bulk Density

The Response of Grasslands on Sugar-Limestone in Teesdale to Application of Phosphorus and Nitrogen

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