Recent cadmium (Cd) regulation in chocolate threatens the sustainability of cacao production in Southwest America. Cadmium contamination in cacao beans has not been assessed at a country level. A nationwide survey was conducted in Ecuador to identify the spatial distribution of Cd in cacao beans, as well as soil and agronomic factors involved. Paired soil and plant samples (pods and leaves) were collected at 560 locations. Information on agronomic practices was obtained through a prepared questionnaire for farmers. Total soil Cd averaged 0.44 mg kg which is typical for young and non-polluted soils. Mean Cd concentration in peeled beans was 0.90 mg kg and 45% of samples exceeded the 0.60 mg kg threshold. Bean Cd hotspots were identified in some areas in seven provinces. Multivariate regression analysis showed that bean Cd concentrations increased with increasing total soil Cd and with decreasing soil pH, oxalate-extractable manganese (Mn) and organic carbon (OC) (R = 0.65), suggesting that Cd solubility in soil mainly affects Cd uptake. Bean Cd concentration decreased a factor of 1.4 as the age of the orchard increased from 4 to 40 years. Bean Cd concentration was inconsistently affected by genotype (CCN-51 vs. Nacional), pruning or application of fertilizers. It is concluded that the relatively larger bean Cd concentrations in Ecuador are related to the high Cd uptake capacity of the plants combined with their cultivation on young soils, instead of Cd depleted weathered soils. Mitigation strategies should consider the application of amendments to modify such soil properties to lower soil Cd availability. There is scope for genetic mitigation strategy to reduce bean Cd, but this needs to be properly investigated.
Biochars
have been shown as promising materials for cadmium remediation.
However, the different precursors and the pyrolysis process operating
conditions can yield very different surface functional groups, and
as a result, different cadmium sorption mechanisms can be observed
in biochars. Herein we present the results of cadmium sorption on
biochars produced from the pyrolysis of different agro-residues, namely,
coffee husk, quinoa straw, and oil palm kernel shell. The adsorption
isotherms were used to determine the influence of the biochar’s
physicochemical characteristics to their sorption behavior. The biochars
prepared from quinoa residues showed much higher cadmium uptakes than
the other biochars. The concentration of base cations was found to
be a critical factor for cadmium sorption. Although the quinoa biochars
presented large uptakes, it was found that base cations were supported
on the biochars and could be removed by leaching. Results from this
study suggest that concentration of base cations on biochars could
be used as predictors of the biochar capabilities for the removal
of cadmium in aqueous solution.
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Cocoa-based agroforestry (AF) systems are a conspicuous element of agricultural landscapes worldwide. Shade canopy analysis and design is a key component of crop husbandry, and requires a good understanding of the interactions, synergies and trade-offs between shade, yield and environmental services. In this chapter we provide a guide and some principles to analyse and design an optimal shade canopy that provides a diverse, resilient AF system. We first review the different cocoa system typologies described in the literature, placing special emphasis on cocoa–timber systems. We present a guide for the analysis of the shade canopy of shaded cocoa systems, and then investigate the optimal design for cocoa shade canopies, with emphasis on the analysis of trade-offs and synergies between carbon storage and cocoa yields. Finally, we consider critical issues in applying AF science/knowledge to cocoa cultivation programmes.
Cadmium concentrations in cacao (Theobroma cacao L.) beans from South America often exceed trade limits. Liming soil is advocated as a remediation option, but amendments cannot be incorporated into the entire root zone without harming the trees. An experiment was set up to identify how Cd uptake varies within the root zone when surface and subsurface soil layers are either limed or not. The experiment used 22-cm-height pots with top and bottom layers using surface and subsurface soil samples from a cacao field. The potted soils were either surface limed or not or fully limed and layers spiked with stable 108 Cd isotope in various combinations to trace the plant Cd provenance. The root distribution was neither affected by liming nor by soil source; 70% of the root biomass was present in the top layer. Plants grown on the fully limed surface soil had 1.7 times lower Cd concentrations in leaves than the unlimed treatments, whereas this concentration was 1.2 times lower when only the top layer was limed (surface soil used in both layers). The isotope dilution data showed that surface soil liming enhanced Cd uptake from the unlimed bottom layer compared with the unlimed soil, suggesting compensating mechanisms. The pots containing surface soil over subsurface soil also showed that compensating effect but, due to lower phytoavailable Cd in the subsurface soil, surface liming still effectively reduced foliar Cd. We conclude that liming might be a feasible mitigation strategy, but its effectiveness is limited when Cd phytoavailability remains untreated in the subsurface layer.
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