Uptake of rare earth elements by citrus plants from phosphate fertilizers

“…reported that the integrated application of lime and Mg fertilizer improved the pomelo yield, quality and economic return, as well as soil physicochemical properties in this study area. The ecological risk to the environment of excess P in soil has also become a focus of attention, 26 and Turra et al 44 . reported the effects of excessive P fertilization on the plant uptake of rare elements in citrus trees.…”

“…Zhang et al 14 reported that the integrated application of lime and Mg fertilizer improved the pomelo yield, quality and economic return, as well as soil physicochemical properties in this study area. The ecological risk to the environment of excess P in soil has also become a focus of attention, 26 and Turra et al 44 reported the effects of excessive P fertilization on the plant uptake of rare ele- ments in citrus trees. The study suggested that integrated nutrient management that matches soil supply and tree demand will play multiple roles in controlling fertilizer consumption, regulating soil acidification, reducing environmental risk, improving soil fertility and tree nutrition, and ultimately improving productivity and fruit quality in citrus production.…”

Soil chemical quality assessment and spatial distribution of pomelo orchards in acidic red soil hilly regions of China

“…reported that the integrated application of lime and Mg fertilizer improved the pomelo yield, quality and economic return, as well as soil physicochemical properties in this study area. The ecological risk to the environment of excess P in soil has also become a focus of attention, 26 and Turra et al 44 . reported the effects of excessive P fertilization on the plant uptake of rare elements in citrus trees.…”

“…Zhang et al 14 reported that the integrated application of lime and Mg fertilizer improved the pomelo yield, quality and economic return, as well as soil physicochemical properties in this study area. The ecological risk to the environment of excess P in soil has also become a focus of attention, 26 and Turra et al 44 reported the effects of excessive P fertilization on the plant uptake of rare ele- ments in citrus trees. The study suggested that integrated nutrient management that matches soil supply and tree demand will play multiple roles in controlling fertilizer consumption, regulating soil acidification, reducing environmental risk, improving soil fertility and tree nutrition, and ultimately improving productivity and fruit quality in citrus production.…”

Soil chemical quality assessment and spatial distribution of pomelo orchards in acidic red soil hilly regions of China

“…Plants generally have low concentrations of rare earth elements, which in part reflect diffuse distribution and low concentration of rare elements in soil. However, certain types of plant-like ferns and citrus trees have been reported to have a higher capacity for accumulating rare earth elements [310][311][312]. Future research on phytomining can focus on the understanding of the molecular mechanism underlying REE accumulation in hyperaccumulating plants and then transfer the REEaccumulating mechanism into the existing crop plants using biosystems design, which may involve engineering of transporters and metabolic pathways.…”

Plant Biosystems Design Research Roadmap 1.0

“…As non-renewable metal mineral resources, rare earth (RE) elements have many fascinating properties, which enable them to be widely used in agriculture, 1 optics 2 and electromagnetics 3 as well as weaponry. Due to early large-scale mining and low utilization efficiency, the reserve of REs has declined sharply.…”

Facile fabrication of ion-imprinted Fe₃O₄/carboxymethyl cellulose magnetic biosorbent: removal and recovery properties for trivalent La ions