Surface soil liming reduces cadmium uptake in cacao seedlings but subsurface uptake is enhanced

Argüello, David; Montalvo, Daniela; Blommaert, Hester; Chávez, Eduardo Somarriba; Smolders, Erik

doi:10.1002/jeq2.20123

Cited by 18 publications

(21 citation statements)

References 35 publications

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“…In 30 established plantations, lime incorporation to deeper soil horizons is not possible without damaging the root system, which may compromise the efficacy of the amendment. Indeed, Argüello et al (2020) showed in a pot experiment with cacao seedlings that partially liming the rooted soil (lime in top compartment only as would be the case in field liming), enhanced Cd uptake from the non-limed bottom compartment.…”

Section: Limementioning

confidence: 99%

“…However, this effect was only found in soils spiked to Cd concentrations well above environmentally relevant soil Cd concentrations. Argüello et al (2020) found that Cd uptake in cacao from deeper soil layers was enhanced by surface liming and the authors related this to increased activity of deeper roots to cope with micronutrient deficiency in the topsoil (i.e. Zn) caused by surface liming.…”

Section: Bean Cadmium Concentrations and Their Relationship With Soil Properties: A Metaanalysismentioning

confidence: 99%

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Mitigating the level of cadmium in cacao products: Reviewing the transfer of cadmium from soil to chocolate bar

Vanderschueren

Argüello

Blommaert

et al. 2021

Science of The Total Environment

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Section: Limementioning

confidence: 99%

Section: Bean Cadmium Concentrations and Their Relationship With Soil Properties: A Metaanalysismentioning

confidence: 99%

Mitigating the level of cadmium in cacao products: Reviewing the transfer of cadmium from soil to chocolate bar

Vanderschueren

Argüello

Blommaert

et al. 2021

Science of The Total Environment

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“…The application of lime and biochar to Cd contaminated soils have been shown to be effective in mitigating Cd uptake into the cacao tree and into the beans (Ramtahal et al 2018;. However, a number of studies have recommended that the method of application needs to be improved in order to improve the effectiveness of the soil ameliorants under eld conditions (Argüello et al 2020;Ramtahal et al 2018Ramtahal et al , 2019. The effectiveness of the various methods of application were explored in this study based on (a) the time taken for the amendment to take effect (b) the magnitude of reduction in leaf Cd and (c) the duration of effectiveness compared to the control.…”

Section: Discussionmentioning

confidence: 99%

Mitigation of Cadmium Uptake in Cocoa: Efficacy of Soil Application Methods of Lime and Biochar

Ramtahal¹,

Umaharan

Davis

et al. 2021

Preprint

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Although mitigation approaches have been developed to reduce Cd in cocoa beans the efficacy of the approaches have been inadequate to make them economically viable. A field study was conducted in a cocoa farm in Biche, Trinidad using two soil amendments, lime and biochar, at recommended rates using three methods of application, soil surface application with incorporation (SA), soil injection (SI) or deep placement using an auger (AA) along with a control. The objective was to determine the application method that would be most efficacious with respect to rapidity of effect, magnitude of reduction and persistency of effect on leaf Cd. The experiment was arranged in randomized complete block design with three replications with 15 trees per replication. Phytoavailable soil Cd, soil pH, CEC and total leaf Cd concentration were monitored monthly on three guarded trees per plot over a one-year period. The results showed that both lime and biochar were effective in reducing leaf cadmium levels albeit at different levels. The efficacy of SI was significantly better than SA in terms of rapidity of the effect on leaf Cd in comparison to the control (40% compared to 30%) as well as the effect was more persistent in SI. With biochar, again the SI was significantly better than SA with regards to reducing leaf Cd levels in comparison to the control (35% compared to 20%) but the time taken to action and the persistency were lower compared to lime application. AA did not significantly reduce Cd level in the leaf with lime or biochar application.

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“…Moreover, a very recent paper (Liu et al 2021) shows the benefits of dolomite phosphate rock (DPR), humic acid-activated dolomite phosphate rock (ADPR) and biochar (BC) in immobilizing Cd in subtropical soils. However, regarding the application in cocoa crops during the past years, although the application of liming material such as dolomite it has been extensively studied as an option to stabilize Cd in the soil, neutralize acidic soil and enhance metal stabilization in soil by reducing the extractable Cd concentration (Hamid et al 2018;Ramtahal et al 2019;Argüello et al 2020), it has been shown that this technique needs to be reconsidered due to its efficiency in terms of time and cost for cacao in field. Furthermore, the chloride ions released from the application of KCl fertilizers, might form Cd-Cl soluble compounds, increasing Cd bioavailability (Nino-Savala 2019), which could be the case in farms A, B and D, where the application of KCl is regularly used.…”

Section: The Role Of Fertilizers and Amendments As CD Inputmentioning

confidence: 99%

Cadmium distribution in soils, soil litter and cacao beans: a case study from Colombia

Gil‐Restrepo

López-Zuleta

Quiroga-Mateus

et al. 2021

Int. J. Environ. Sci. Technol.

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Cadmium is a toxic non-essential metal for almost all living systems. It is one of the biggest challenges for farmlands and the food chain because of its toxic effect on human health. This research aims to determine the Cd content in soils, litter and cacao beans, following the Cd fluxes within each cacao system using the two-dimensional electrical resistivity tomography technique. The study was carried out in four farms located in the Magdalena basin in Antioquia, Colombia. The farms showed a heterogeneity in relation to cacao cultivars, altitude, topography and geology. The soil cation electrical capacity, pH and soil organic matter levels, as well as the Al, Al 3+ H + , Ca, K, Mg and P contents were measured at different depths. Moreover, the Cd content was correlated to the resistivity values of samples taken in situ using ERT. Soil Al 3+ H + and the altitude of the farms fitted as the best predictors of the beans' Cd content. Furthermore, the Cd content in soils from the assessed farms ranged between 1.22 and 2.03 mg kg −1 . The Cd content in cocoa beans ranged from 0.07 to 1.44 mg kg −1 , with a value of 0.40 mg kg −1 on average. The resistivity values obtained in field showed a high correlation with the soil Cd content determined (R 2 = 0.82). The predictive tomography plots highlighted topsoil Cd dynamics between litter, amendments and fertilizers. Therefore, these results underlie the utility of the combined geophysical techniques and soil chemical properties including the analysis of fertilizer amendments to improve the understanding of Cd dynamic.

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Surface soil liming reduces cadmium uptake in cacao seedlings but subsurface uptake is enhanced

Cited by 18 publications

References 35 publications

Mitigating the level of cadmium in cacao products: Reviewing the transfer of cadmium from soil to chocolate bar

Mitigating the level of cadmium in cacao products: Reviewing the transfer of cadmium from soil to chocolate bar

Mitigation of Cadmium Uptake in Cocoa: Efficacy of Soil Application Methods of Lime and Biochar

Cadmium distribution in soils, soil litter and cacao beans: a case study from Colombia

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