Variations in cadmium and nitrate co-accumulation among water spinach genotypes and implications for screening safe genotypes for human consumption

Tang, Lin; Luo, Weijun; He, Zhenli; Gurajala, Hanumanth Kumar; Hamid, Yasir; Khan, Kiran Yasmin; Yang, Xiaoe

doi:10.1631/jzus.b1700017

Cited by 25 publications

(5 citation statements)

References 71 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…36 Among 38 genotypes of water spinach, JXDY, GZQL, XGDB, and B888 exhibited low Cd accumulation (<0.71 mg/kg DW) in edible parts in moderately Cd-contaminated soil (1.10 mg/kg). 37 Five soybean cultivars among 25 tested Chinese soybean cultivars accumulated less Cd (<0.20 mg/kg), with enrichment factor (EF) and translocation factor (TF) lower than 1.0 in Cd contaminated soil. 38 In another experiment involving 28 lettuce cultivars, SJDT, YLGC, N518, and KR17 genotypes were identified as Cd-safe lettuce cultivars (Cd < 0.2 mg kg, FW).…”

Section: Differences In CD Accumulation Capacity Amongmentioning

confidence: 95%

“…In a field experiment involving 32 oilseed rape cultivars, Nanchongjie, Pengzhoubai, and J-25 were identified as high Cd accumulators with Cd concentrations over 0.5 mg/kg DW, while cultivars 72A and 47 were identified as low Cd accumulators with high yield, low Cd concentration (Cd concentration 0.3 mg/kg DW), and low food safety risk . Among 38 genotypes of water spinach, JXDY, GZQL, XGDB, and B888 exhibited low Cd accumulation (<0.71 mg/kg DW) in edible parts in moderately Cd-contaminated soil (1.10 mg/kg) . Five soybean cultivars among 25 tested Chinese soybean cultivars accumulated less Cd (<0.20 mg/kg), with enrichment factor (EF) and translocation factor (TF) lower than 1.0 in Cd contaminated soil .…”

Section: Feasibility Of the Cd-pscs Breedingmentioning

confidence: 99%

See 1 more Smart Citation

Molecular-Assisted Breeding of Cadmium Pollution-Safe Cultivars

Ni,

Mubeen,

Leng

et al. 2023

J. Agric. Food Chem.

View full text Add to dashboard Cite

Cadmium (Cd) contamination in edible agricultural products, especially in crops intended for consumption, has raised worldwide concerns regarding food safety. Breeding of Cd pollution-safe cultivars (Cd-PSCs) is an effective solution to preventing the entry of Cd into the food chain from contaminated agricultural soil. Molecular-assisted breeding methods, based on molecular mechanisms for cultivar-dependent Cd accumulation and bioinformatic tools, have been developed to accelerate and facilitate the breeding of Cd-PSCs. This review summarizes the recent progress in the research of the low Cd accumulation traits of Cd-PSCs in different crops. Furthermore, the application of molecular-assisted breeding methods, including transgenic approaches, genome editing, marker-assisted selection, whole genome-wide association analysis, and transcriptome, has been highlighted to outline the breeding of Cd-PSCs by identifying critical genes and molecular biomarkers. This review provides a comprehensive overview of the development of Cd-PSCs and the potential future for breeding Cd-PSC using modern molecular technologies.

show abstract

Section: Differences In CD Accumulation Capacity Amongmentioning

confidence: 95%

Section: Feasibility Of the Cd-pscs Breedingmentioning

confidence: 99%

Molecular-Assisted Breeding of Cadmium Pollution-Safe Cultivars

Ni,

Mubeen,

Leng

et al. 2023

J. Agric. Food Chem.

View full text Add to dashboard Cite

show abstract

“…If nitrate is absorbed without being reduced, it accumulates in plant cells [123]. Many factors influence this accumulation, such as the physical and chemical characteristics of soil [123,124], the plant species [123,[125][126][127][128], the fertilization regime [129,130], and the growing season and climatic conditions [131]. Since nitrate accumulates mainly in the leaves, leafy vegetables are considered the richest sources of nitrates among vegetables [132].…”

Section: Accumulation Of Nitrate In Rocket Plants: Effect Of Biological Activity Fertilization and Agricultural Practicesmentioning

confidence: 99%

The Fate of Nitrogen from Soil to Plants: Influence of Agricultural Practices in Modern Agriculture

2021

View full text Add to dashboard Cite

Nitrogen is an element present on Earth in different forms, such as gaseous in the air, dissolved in water, immobilized in the soil, as well as biologically bound in all living organisms. The transition from one form to another constitutes the nitrogen cycle. Current agricultural systems rely on nitrogen fertilizers, which represent the reactive or biologically available nitrogen in soil. The excessive presence of reactive nitrogen in the environment has become a threat to soil, water, and air. The increasing demands for food in the world are associated with significant increase in nitrogen fertilizers inputs which threatens the environment and living organisms. The quantities of nitrogen used per capita in developed countries exceed those in developing countries. However, developed countries are regulated by restrictions of fertilizers inputs in agriculture, whereas such regulations do not exist in most of the developing countries. The need to resort to alternative and eco-sustainable strategies to mitigate the pollution related to human activities, is increasingly evident. This review aims to highlight the fate of nitrogen through the main agricultural practices in modern agriculture. Special attention was given to rocket (Eruca sativa) which is considered a nitrate hyper-accumulator and was used as a case study in the present review. Finally, some eco-sustainable solutions, useful for mitigating or preventing the excessive release of harmful forms of nitrogen into the environment, were also discussed.

show abstract

“…Food safety problems, such as those posed by heavy metal contamination, are other key challenges for future agriculture (Tang et al, 2018). In the following review, Chen and Wu (2020) summarize the genes mediating Cd transport (ion transporters and chelates) and molecular markers for low-Cd accumulation and discuss methodologies for breeding low-Cd cultivars.…”

Section: In This Issuementioning

confidence: 99%

“…It is a formidable challenge for future agriculture to maintain sustainable food production and satisfy the requirements for biofortification and safety of edible crops under a changing climate (Tang et al, 2018;Fernie and Yan, 2019). In a recent report, "Science Breakthroughs to Advance Food and Agricultural Research by 2030" (National Academies of Sciences, Engineering, and Medicine, 2019), genomics and precision breeding were identified as scientific breakthrough areas that will have the greatest positive impact on food and agriculture.…”

Section: Perspectivesmentioning

confidence: 99%

Breeding crops by design for future agriculture

2020

J. Zhejiang Univ. Sci. B

View full text Add to dashboard Cite

Variations in cadmium and nitrate co-accumulation among water spinach genotypes and implications for screening safe genotypes for human consumption

Cited by 25 publications

References 71 publications

Molecular-Assisted Breeding of Cadmium Pollution-Safe Cultivars

Molecular-Assisted Breeding of Cadmium Pollution-Safe Cultivars

The Fate of Nitrogen from Soil to Plants: Influence of Agricultural Practices in Modern Agriculture

Breeding crops by design for future agriculture

Contact Info

Product

Resources

About