Micronutrient Cation Complexes in Soil Solution: Partition Between Complexed and Uncomplexed Forms by Solvent Extraction

Hodgson, J. F.; Geering, H. R.; Norvell, W. A.

doi:10.2136/sssaj1965.03615995002900060022x

Cited by 81 publications

(26 citation statements)

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“…Nevertheless, given our knowledge on the uptake of Co from simple solution culture studies, it would generally be expected that an increase in aqueous concentrations of Co would result in increased plant Co uptake (Bakkaus et al 2005;Chatterjee et al 2006;Gopal et al 2003;Homer et al 1991;Li et al 2009;Liu et al 2000;Tewari et al 2002;Wilson and Reisenauer 1963). This relationship in soils will be, however, confounded by Co complexation (Hodgson et al 1965;Merckx et al 1986;Sanders 1983) based on our knowledge that complexation, whether by plant-or microbially-derived organic ligands, may 1) reduce metal uptake by plants when grown in solution culture (McLaughlin et al 1997) or 2) increase Co uptake from soils as a result of increased flux to the root surface by mass flow or diffusion processes (Adriano et al 1977;Hodgson 1981;Wallace and Mueller 1973). This is also demonstrated in the study of Li et al (2009) where shoot Co concentrations varied by two orders of magnitude despite soil solution concentrations remaining constant.…”

Section: Soil Solution Co Concentrations and Speciationmentioning

confidence: 99%

Pedogenic factors and measurements of the plant uptake of cobalt

Collins

Kinsela

2010

Plant Soil

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Understanding the factors which affect plant uptake of cobalt (Co) across a range of soil types is essential for both continued agricultural productivity as well as for possible remediation of contaminated sites. This review examines the relevant pedogenic processes contributing to plant uptake of Co from soils based on a critical evaluation of existing numerical data. Numerous pedogenic factors have been put forward in the scientific literature to account for the plant uptake of Co, including total, extractable and isotopically exchangeable soil Co concentrations, pH and other soil chemical parameters (e.g. manganese concentrations), microbial variations as well as anthropogenic inputs. Despite there being certain instances where significant correlations occur between these parameters and plant uptake of Co, an examination of multiple data sets shows that these relationships are spatially isolated. With the measureable parameters showing only weak correlations at best, there should be a degree of scepticism regarding the interpretation of reported data sets. Newly evolving techniques which assess kinetically-bioavailable in-situ soil concentrations, such as diffusive gradient thinfilms, offer the potential to better address plant Co uptake across a range of soil types.

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Section: Soil Solution Co Concentrations and Speciationmentioning

confidence: 99%

Pedogenic factors and measurements of the plant uptake of cobalt

Collins

Kinsela

2010

Plant Soil

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“…Most other chelating agents investigated failed to demonstrate stability comparable to the natural Fe 3 + complex. Based on existing evidence, then, it appears that dissolved metals such as Fe 3 + and Cu2+ are almost completely in organically complexed form (Hodgson et al, 1965;McBride and Blasiak, 1979;B.R. James and Bouldin, 1986).…”

Section: Speciation Of Metals In Solutionmentioning

confidence: 99%

“…However, as can be deduced from Figure 19, the fraction of Cu2+ in the complexed relative to free form diminishes at lower pH, and this type of behavior is likely for most complexing metals. Metals such as Co 2 +, Cd2+, and Zn2+, because of their lesser tendencies to form soluble complexes with oxygen-containing functional groups of soluble organic matter, are complexed to a smaller degree in soil solution (Hodgson et al, 1965;McBride and Blasiak, 1979;Tyler and McBride, 1982). For example, between 13% and 43% of Zn in acid soil solutions has been reported in exist in labile form (B.R.…”

Section: Speciation Of Metals In Solutionmentioning

confidence: 99%

Reactions Controlling Heavy Metal Solubility in Soils

McBride

1989

Advances in Soil Science

507

267

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“…This chemical feature of HS improves physical soil properties favoring the formation of stable clay-humic aggregates through cation bridges, and soil fertility increasing mineral nutrient (P, Fe, Mn or Zn) availability for plants grown in alkaline and calcareous soils [15]. In fact, several studies have reported that a very significant fraction of Cu, Zn, Fe and Mn in soil solution from limy, alkaline soils was present in the form of complexes with DOM [16][17][18].…”

Section: Main Hs-ie On Plant Growth and Mineral Nutritionmentioning

confidence: 99%

Incorporation of humic-derived active molecules into compound NPK granulated fertilizers: main technical difficulties and potential solutions

Erro

Urrutia

Baigorri³

et al. 2016

Chem. Biol. Technol. Agric.

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Numerous studies carried out both in open field and laboratory scale have provided experimental evidence for a beneficial action of humic substances (HS) on plant growth and mineral nutrition. In fact, many products containing diverse concentrations of humic substances, mainly humic and fulvic acids, are marketed as plant growth enhancers all over the world. However, the incorporation of molecules containing humic substances into the granules of compound NPK fertilizers is not a common practice mainly due to technical difficulties and problems associated with the manufacture process of these mineral fertilizers. These problems are normally linked to the potential deleterious effects of granulation conditions (principally, heat and pH) on the structure and properties of molecules containing humic substances. In this review, we discuss several strategies for the incorporation of active molecules containing humic substances into granules of NPK compound fertilizers as well as the main constraints that have to be considered in this process, which normally depend on the agronomical results intended with the preparation of special humic-containing NPK compound fertilizers. We also discuss why, in our opinion, the beneficial action of HS in NPK compound fertilizers is more related to the "so called" indirect effects of HS on plant growth than to the "so called" direct effects.

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Micronutrient Cation Complexes in Soil Solution: Partition Between Complexed and Uncomplexed Forms by Solvent Extraction

Cited by 81 publications

References 0 publications

Pedogenic factors and measurements of the plant uptake of cobalt

Pedogenic factors and measurements of the plant uptake of cobalt

Reactions Controlling Heavy Metal Solubility in Soils

Incorporation of humic-derived active molecules into compound NPK granulated fertilizers: main technical difficulties and potential solutions

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