Inhibiting cadmium(Cd)accumulation in wheat grains could reduce the risk of human exposure to Cd.This study conducted a field experiment and evaluated the effects of iron(Fe)-based biochar and selenium(Se)applications...Inhibiting cadmium(Cd)accumulation in wheat grains could reduce the risk of human exposure to Cd.This study conducted a field experiment and evaluated the effects of iron(Fe)-based biochar and selenium(Se)applications alone or in combination on Cd accumulation in wheat grains in a Cd-contaminated weakly alkaline soil of rice-wheat rotation farmland.Considering soil Cd heterogeneity in the field,we set up 22 replicates of control(CK)and three replicates of each Fe-based biochar and/or Se treatment.Results clearly showed that the CK locations could greatly affect the evaluation of whether the difference in the wheat grain Cd concentration between treatments and CK was significant.There was an insignificant difference in the wheat grain Cd concentration between the treatment and the adjacent CK replicates.Although soil Se application at 2 mg kg^(-1)and foliar Se application at 4 mg L^(-1)significantly increased the grain Se concentration as compared with the adjacent CK replicates,they still could not reduce the Cd concentration in wheat grains.However,when compared to the CK replicates that had the highest grain Cd concentration,foliar and soil applications of Se could significantly reduce the wheat grain Cd concentration by 47.7% and 41.3%-46.1%,respectively.No matter which CK replicates were selected,the application of Fe-based biochar had no significant impact on Cd accumulation in wheat grains,and there was no significant difference in diethylenetriaminepentaacetic acid-Cd concentration between the Fe-based biochar treatment and adjacent CK replicates.In conclusion,applying Fe-based biochar and Se in the field could not reduce the Cd accumulation in wheat grains in Cd-contaminated weakly alkaline soils.展开更多
Two japonica rice (Oryza sativa L.) cultivars, Xiushui 48 and S. Andrea, differing in their ability to accumulate Se in the grain (as high as a three-fold difference), were compared for selenium (Se) accumulatio...Two japonica rice (Oryza sativa L.) cultivars, Xiushui 48 and S. Andrea, differing in their ability to accumulate Se in the grain (as high as a three-fold difference), were compared for selenium (Se) accumulation in their shoots when their growth media was supplied with different forms of Se. Results indicated that when treated with 0.25μmol L^-1 Na2SeO3, Xiushui 48 accumulation of Se in the shoots was significantly more rapid (P〈0.05) than S. Andrea, probably because of greater Se uptake and transport in Xiushui 48. Xiushui 48 rice seedlings had a higher shoot-Se accumulation rate and absorbed selenocysteine (Se-Cys) more rapidly than S. Andrea seedlings. However, when treated with Se as 0.25μmol L^-1 selenomethionine (Se-Met), the S. Andrea seedlings' accumulation rate was significantly greater (P〈0.05) than that of Xiushui 48. Possibly, the high Se accumulation rate of Xiushui 48 seedling shoots compared to S. Andrea shoots was the result of a higher capacity of Xiushui 48 to transform selenite to organic Se compounds and a higher selenite uptake rate.展开更多
Selenium(Se)deficiency is a global health problem affecting more than 500 million people;crop biofortification is a sustainable strategy for its mitigation.This study investigated the effect of the application of sele...Selenium(Se)deficiency is a global health problem affecting more than 500 million people;crop biofortification is a sustainable strategy for its mitigation.This study investigated the effect of the application of selenate nanoparticles(SeO_(4)^(2−))and the combination of selenate(SeO_(4)^(2−))and chitosan(CS)(forming a SeO_(4)^(2−)-CS complex)on the antioxidant profile,growth,biomass,bioactive compounds,enzymes,and Se accumulation of wheat(Triticum spp.)sprouts.Fourteen treatments were applied using a factorial design combining seven concentrations and two formulations:SeO_(4)^(2−)and SeO_(4)^(2−)-CS.It was identified that chitosan increased Se uptake efficiency by 30%versus conventional selenate.The optimal dose for biomass was 0.15 mg L^(−1) of SeO_(4)^(2−)-CS(+40%vs.control),while 0.25 mg L^(−1) maximized bioactive compounds(phenolics(25%)and flavonoids(21%))as well as antioxidant capacity(26%)and enzymatic activity(SOD:37%;POD:41%).In addition,CS reduced Se phytotoxicity at doses≥1.50 mg L^(−1),evidencing its dual role as a delivery vehicle and cell protector.These findings demonstrate that the SeO_(4)^(2−)-CS hybrid system is a technologically viable and efficient alternative to traditional selenate for the production of biofortified sprouts.This strategy shows high potential for scaling up in the functional food industry and for application in agricultural regions with selenium-deficient soils.展开更多
Selenium(Se)deficiency commonly occurs in soils of northeastern China and leads to insufficient Se intake by humans.A two-year field study of Se biofortification of common buckwheat supplied with 40 g Se ha^(-1)as sel...Selenium(Se)deficiency commonly occurs in soils of northeastern China and leads to insufficient Se intake by humans.A two-year field study of Se biofortification of common buckwheat supplied with 40 g Se ha^(-1)as selenite(Se(IV)),selenate(Se(VI)),or a combination(1/2 Se(IV+VI))was performed to investigate Se accumulation and translocation in plants and determine the effects of different forms of Se on the grain yield,biomass production,and Se use efficiency of plants and seeds.Se application increased seed Se concentrations to 47.1–265.1μg kg^(-1).Seed Se concentrations following Se(VI)or 1/2 Se(IV+VI)treatment exceeded 100μg kg^(-1),an amount suitable for crop Se biofortification.Se concentration in shoots and roots decreased with plant development,and Se translocation from root to shoot in Se(IV)-treated plants was lower than that in plants treated with 1/2 Se(IV+VI)and Se(VI).Both grain yield and biomass production increased under 1/2 Se(IV+VI)treatment,with grain yields reaching 1663.8 and 1558.5 kg ha^(-1)in 2015 and 2016,respectively,reflecting increases of 11.0% and 10.3% over those without Se application.The Se use efficiency of seeds and plants under Se(VI)treatment was significantly higher than those under 1/2 Se(IV+VI)and Se(IV)treatments.Thus,application of selenate could result in higher Se accumulation in buckwheat seeds than application of the other Se sources,but the combined application of selenate and selenite might be an alternative approach for improving buckwheat grain yield by Se biofortification in northeastern China.展开更多
Selenium (Se) is an important element from the environmental and biological point of view. In the world, deficiency of Se in a diet occurs more often and nutritional supplements are recommended.The ability of severa...Selenium (Se) is an important element from the environmental and biological point of view. In the world, deficiency of Se in a diet occurs more often and nutritional supplements are recommended.The ability of several plants to accumulate and transform inorganic Se forms into its bioactive organic compounds has important implications for human nutrition and health. This work gives a brief overview of the study carried out to characterize Se species produced by different enriched edible plants which were grown in the presence of different Se species.展开更多
基金financially supported by the National Natural Science Foundation of China(No.42107005)the Research and Development Fund of Zhejiang A&F University,China(No.2024LFR027)+1 种基金the Jiangsu Provincial Key Research and Development Program,China(No.BE2021717)the Agricultural Independent Innovation Fund of Jiangsu Province,China(No.CX(24)1001)。
文摘Inhibiting cadmium(Cd)accumulation in wheat grains could reduce the risk of human exposure to Cd.This study conducted a field experiment and evaluated the effects of iron(Fe)-based biochar and selenium(Se)applications alone or in combination on Cd accumulation in wheat grains in a Cd-contaminated weakly alkaline soil of rice-wheat rotation farmland.Considering soil Cd heterogeneity in the field,we set up 22 replicates of control(CK)and three replicates of each Fe-based biochar and/or Se treatment.Results clearly showed that the CK locations could greatly affect the evaluation of whether the difference in the wheat grain Cd concentration between treatments and CK was significant.There was an insignificant difference in the wheat grain Cd concentration between the treatment and the adjacent CK replicates.Although soil Se application at 2 mg kg^(-1)and foliar Se application at 4 mg L^(-1)significantly increased the grain Se concentration as compared with the adjacent CK replicates,they still could not reduce the Cd concentration in wheat grains.However,when compared to the CK replicates that had the highest grain Cd concentration,foliar and soil applications of Se could significantly reduce the wheat grain Cd concentration by 47.7% and 41.3%-46.1%,respectively.No matter which CK replicates were selected,the application of Fe-based biochar had no significant impact on Cd accumulation in wheat grains,and there was no significant difference in diethylenetriaminepentaacetic acid-Cd concentration between the Fe-based biochar treatment and adjacent CK replicates.In conclusion,applying Fe-based biochar and Se in the field could not reduce the Cd accumulation in wheat grains in Cd-contaminated weakly alkaline soils.
基金Project supported by the National Natural Science Foundation of China (No. 40371063)the National Key Basic Research Support Foundation of China (No. G1999011808).
文摘Two japonica rice (Oryza sativa L.) cultivars, Xiushui 48 and S. Andrea, differing in their ability to accumulate Se in the grain (as high as a three-fold difference), were compared for selenium (Se) accumulation in their shoots when their growth media was supplied with different forms of Se. Results indicated that when treated with 0.25μmol L^-1 Na2SeO3, Xiushui 48 accumulation of Se in the shoots was significantly more rapid (P〈0.05) than S. Andrea, probably because of greater Se uptake and transport in Xiushui 48. Xiushui 48 rice seedlings had a higher shoot-Se accumulation rate and absorbed selenocysteine (Se-Cys) more rapidly than S. Andrea seedlings. However, when treated with Se as 0.25μmol L^-1 selenomethionine (Se-Met), the S. Andrea seedlings' accumulation rate was significantly greater (P〈0.05) than that of Xiushui 48. Possibly, the high Se accumulation rate of Xiushui 48 seedling shoots compared to S. Andrea shoots was the result of a higher capacity of Xiushui 48 to transform selenite to organic Se compounds and a higher selenite uptake rate.
文摘Selenium(Se)deficiency is a global health problem affecting more than 500 million people;crop biofortification is a sustainable strategy for its mitigation.This study investigated the effect of the application of selenate nanoparticles(SeO_(4)^(2−))and the combination of selenate(SeO_(4)^(2−))and chitosan(CS)(forming a SeO_(4)^(2−)-CS complex)on the antioxidant profile,growth,biomass,bioactive compounds,enzymes,and Se accumulation of wheat(Triticum spp.)sprouts.Fourteen treatments were applied using a factorial design combining seven concentrations and two formulations:SeO_(4)^(2−)and SeO_(4)^(2−)-CS.It was identified that chitosan increased Se uptake efficiency by 30%versus conventional selenate.The optimal dose for biomass was 0.15 mg L^(−1) of SeO_(4)^(2−)-CS(+40%vs.control),while 0.25 mg L^(−1) maximized bioactive compounds(phenolics(25%)and flavonoids(21%))as well as antioxidant capacity(26%)and enzymatic activity(SOD:37%;POD:41%).In addition,CS reduced Se phytotoxicity at doses≥1.50 mg L^(−1),evidencing its dual role as a delivery vehicle and cell protector.These findings demonstrate that the SeO_(4)^(2−)-CS hybrid system is a technologically viable and efficient alternative to traditional selenate for the production of biofortified sprouts.This strategy shows high potential for scaling up in the functional food industry and for application in agricultural regions with selenium-deficient soils.
基金provided by the China Agriculture Research System(CARS-08-B-1)by Special Fund for Agro-scientific Research in the Public Interest(201503121-11)the China Scholarship Council for providing a graduate research fellowship to Y.Jiang as a joint Ph.D.student at Colorado State University for one year(201606350049)
文摘Selenium(Se)deficiency commonly occurs in soils of northeastern China and leads to insufficient Se intake by humans.A two-year field study of Se biofortification of common buckwheat supplied with 40 g Se ha^(-1)as selenite(Se(IV)),selenate(Se(VI)),or a combination(1/2 Se(IV+VI))was performed to investigate Se accumulation and translocation in plants and determine the effects of different forms of Se on the grain yield,biomass production,and Se use efficiency of plants and seeds.Se application increased seed Se concentrations to 47.1–265.1μg kg^(-1).Seed Se concentrations following Se(VI)or 1/2 Se(IV+VI)treatment exceeded 100μg kg^(-1),an amount suitable for crop Se biofortification.Se concentration in shoots and roots decreased with plant development,and Se translocation from root to shoot in Se(IV)-treated plants was lower than that in plants treated with 1/2 Se(IV+VI)and Se(VI).Both grain yield and biomass production increased under 1/2 Se(IV+VI)treatment,with grain yields reaching 1663.8 and 1558.5 kg ha^(-1)in 2015 and 2016,respectively,reflecting increases of 11.0% and 10.3% over those without Se application.The Se use efficiency of seeds and plants under Se(VI)treatment was significantly higher than those under 1/2 Se(IV+VI)and Se(IV)treatments.Thus,application of selenate could result in higher Se accumulation in buckwheat seeds than application of the other Se sources,but the combined application of selenate and selenite might be an alternative approach for improving buckwheat grain yield by Se biofortification in northeastern China.
文摘Selenium (Se) is an important element from the environmental and biological point of view. In the world, deficiency of Se in a diet occurs more often and nutritional supplements are recommended.The ability of several plants to accumulate and transform inorganic Se forms into its bioactive organic compounds has important implications for human nutrition and health. This work gives a brief overview of the study carried out to characterize Se species produced by different enriched edible plants which were grown in the presence of different Se species.
