Iron Availability in Tropical Soils and Iron Uptake by Plants

Mielki, Guilherme Furlan; Novais, Roberto Ferreira; Ker, João Carlos; Vergütz, Leonardus; Castro, Gustavo Franco de

doi:10.1590/18069657rbcs20150174

Cited by 19 publications

(14 citation statements)

References 19 publications

(33 reference statements)

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“…The soil profile generally exhibits a succession of chemical regimes with oxygen reduction in the uppermost levels; underlain by successive levels of nitrate reduction; εn 4+ reduction, Fe 3+ reduction; sulphate reduction and methane fermentation at the lowest levels. Bones from anoxic layers tend to be stained brown or black from manganese and iron oxides adsorbed onto the pore structure or fixed within the tissues since their solubilities, and hence availability to enter the pore structure of buried remains and interact with either the collagen or mineral, are dependent upon both pH and Eh (εielki et al, 2016;Rengel, 2015) . Redox and pH values also influence the availability of fulvic and humic acids which stain bone tissues anything from pale brown to dark brown or almost black such as the almost black bones of two women recovered from the Oseberg Ship burial in Norway (Holck, 2007, pers comm).…”

Section: Soil Ph and Ehmentioning

confidence: 99%

Diagenesis of archaeological bone and tooth

Kendall

Eriksen

Kontopoulos

et al. 2018

Palaeogeography, Palaeoclimatology, Palaeoecology

221

184

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An understanding of the structural complexity of mineralised tissues is fundamental for exploration into the field of diagenesis. Here we review aspects of current and past research on bone and tooth diagenesis using the most comprehensive collection of literature on diagenesis to date. Environmental factors such as soil pH, soil hydrology and ambient temperature, which influence the preservation of skeletal tissues are assessed, while the different diagenetic pathways such as microbial degradation, loss of organics, mineral changes, and DNA degradation are surveyed. Fluctuating water levels in and around the bone are the most harmful for preservation and lead to rapid skeletal destruction. Diagenetic mechanisms are found to work in conjunction with each other, altering the biogenic composition of skeletal material. This illustrates that researchers must examine multiple diagenetic pathways to fully understand the post-mortem interactions of archaeological skeletal material and the burial environment.

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Section: Soil Ph and Ehmentioning

confidence: 99%

Diagenesis of archaeological bone and tooth

Kendall

Eriksen

Kontopoulos

et al. 2018

Palaeogeography, Palaeoclimatology, Palaeoecology

221

184

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“…Iron and manganese usually occur in low levels, and their amount depends on the material of origin and degree of soil weathering [60]. The ways in which these micronutrients are available to plants are related to soil properties such as organic matter, pH, and moisture [61][62][63][64]. In our study, soil from the hillside had significantly lower Fe and significantly higher Mn content in the comparison with the pasture located on the flat area.…”

Section: Discussionmentioning

confidence: 50%

Early Response of Soil Properties under Different Restoration Strategies in Tropical Hotspot

Koryś

Latawiec

Mendes

et al. 2021

Land

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The Brazilian Atlantic Forest has undergone adverse land-use change due to deforestation for urbanization and agriculture. Numerous restoration initiatives have been taken to restore its ecosystem services. Deforested areas have been restored through active intervention or natural regeneration. Understanding the impact of those different reforestation approaches on soil quality should provide important scientific and practical conclusions on increasing forest cover in the Brazilian Atlantic Forest biome. However, studies evaluating active planting versus natural regeneration in terms of soil recovery are scarce. We evaluate soil dynamics under those two contrasting strategies at an early stage (<10 years). Reforestation was conducted simultaneously on degraded lands previously used for cattle grazing and compared to an abandoned pasture as a reference system. We examined soil physicochemical properties such as: pH, soil organic matter content, soil moisture, N, P, K, Ca, Mg, Na, Fe, Mn, Cu, Al, and soil texture. We also present the costs of both methods. We found significant differences in restored areas regarding pH, Na, Fe, Mn content, and the cost. Soil moisture was significantly higher in pasture. Our research can contribute to better decision-making about which restoration strategy to adopt to maximize restoration success regarding soil quality and ecosystem services in the tropics.

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“…Oxalic acid and glycine which released higher amounts of phosphate in the study may be due to their ability to lower the pH which increase solubilisation, displacement and liberation of insoluble phosphate, increase saturation of adsorption sites and decrease binding energy that offer greater stability [9,19,20]. The addition of glycine and oxalic acid will be more effective for the treatment of phosphorus deficiencies in soils, useful for application in plants which requires higher phosphorus content for survival, beneficial support for improvement and restoration of vegetation.…”

Section: Resultsmentioning

confidence: 99%

Assessment of the Effect of Glycine, Oxalic Acid and Nitrogen-Phosphorus-Potassium (NPK) Fertilizer as Nutrient Supplement Using Phosphate and Oxalic Acid as Indices

Abodunrein

Afolabi²

2020

Pak J Anal Environ Chem

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This study evaluated the release profiles of phosphate and oxalic acid in soils treated with oxalic acid a low molecular weight organic acid and glycine an amino acid compared with NPK fertilizer monitored over a period of 21 days. The soil treated with oxalic acid and glycine released higher phosphate and oxalic acid than that treated with NPK fertilizer. The soil treated with oxalic acid released higher phosphate than that which was treated with glycine while higher oxalic acid was observed in the soil treated with glycine rather than for that treated with oxalic acid. Significant effects were observed between the treatment and the length of time for phosphate release (P<0.05) while for the release of oxalic acid, there was no significant effect between the treatment (P>0.05) but with increase in length of time (P<0.05). This demonstrates the efficient ability of oxalic acid and glycine as substitutes for phosphate fertilizers.

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Iron Availability in Tropical Soils and Iron Uptake by Plants

Cited by 19 publications

References 19 publications

Diagenesis of archaeological bone and tooth

Diagenesis of archaeological bone and tooth

Early Response of Soil Properties under Different Restoration Strategies in Tropical Hotspot

Assessment of the Effect of Glycine, Oxalic Acid and Nitrogen-Phosphorus-Potassium (NPK) Fertilizer as Nutrient Supplement Using Phosphate and Oxalic Acid as Indices

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