Citation: | CAO Lixia, LI Wenshuan, LIN Xin, LI Xiaojun, FU Wanlong. EFFECTS OF SELENIUM APPLICATION ON ARSENIC UPTAKE AND ACCUMULATION IN RICE[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(7): 271-276. doi: 10.13205/j.hjgc.202307036 |
[1] |
LI G, SUN G X, WILLIAMS P N, et al.Inorganic arsenic in Chinese food and its cancer risk[J].Environmental International, 2011,37(7):1219-1225.
|
[2] |
YAO B M, CHEN P, SUN G X, et al.Distribution of elements and their correlation in bran, polished rice, and whole grain[J].Food Science & Nutrition, 2020, 8(2):982-992.
|
[3] |
LALITH D, DITTERT K, LAMBERS H, et al.Arsenic in rice soils and potential mitigation strategies to reduce arsenic bioavailability:a review[J].Pedosphere, 2018, 28(3):363-382.
|
[4] |
WILLIAMS P N, VILLADA A, DEACON C, et al.Greatly enhanced arsenic shoot assimilation in rice leads to elevated grain levels compared to wheat and barley[J].Environ Sci Technol, 2007, 41(19):6854-6859.
|
[5] |
YU H Y, DING X D, LI F B, et al.The availabilities of arsenic and cadmium in rice paddy fields from a mining area:the role of soil extractable and plant silicon[J].Environmental Pollution, 2016, 215:258-265.
|
[6] |
KUMAR N, DUBEY A K, JAISWAL P K, et al.Selenite supplementation reduces arsenate uptake greater than phosphate but compromises the phosphate level and physiological performance in hydroponically grown Oryza sativa L.[J].Environmental Toxicology and Chemistry, 2016, 35(1):163-172.
|
[7] |
ZHAO Y Y, HU C X, WU Z C, et al.Selenium reduces cadmium accumulation in seed by increasing cadmium retention in root of oilseed rape (Brassica napus L.)[J].Environmental and Experimental Botany, 2019, 158:161-170.
|
[8] |
WU C, DUN Y, ZHANG Z J, et al.Foliar application of selenium and zinc to alleviate wheat (Triticum aestivum L.) cadmium toxicity and uptake from cadmium-contaminated soil[J].Ecotoxicology and Environmental Safety, 2020, 190:1-9.
|
[9] |
GRAHAM R D, WELCH R M, BOUIS H E.Addressing micronutrient malnutrition through enhancing the nutritional quality of staple foods:principles, perspectives and knowledge gaps[J].Advances in Agronomy, 2001, 70(1):77-142.
|
[10] |
李海蓉,杨林生,谭见安,等,我国地理环境硒缺乏与健康研究进展[J].生物技术进展,2017,7(5):381-386.
|
[11] |
TAMÁS M, MÁNDOKI Z, CSAPÓ J.The role of selenium content of wheat in the human nutrition[J].Acta Universitatis Sapientiae-Alimentaria, 2010, 3:5-34.
|
[12] |
姚远溪,顾艳耿,吕蒙,等,富硒蔬菜和谷物与人体健康分析[J].农产品加工,2018,12(24):80-82
,85.
|
[13] |
胡莹,黄益宗,刘云霞.砷-硒交互作用对水稻吸收转运砷和硒的影响[J].环境化学,2013,32(6):952-958.
|
[14] |
刘锦嫦,熊双莲,马烁,等,硒砷交互作用对水稻幼苗生理特性及砷硒累积的影响[J].农业环境科学学报,2018,37(3):423-430.
|
[15] |
张城铭,周鑫斌.不同施硒方式对水稻硒利用效率的影响[J].土壤学报,2019,56(1):186-194.
|
[16] |
徐向华,刘传平,唐新莲,等,叶面喷施硒硅复合溶胶抑制水稻砷积累效应研究[J].生态环境学报,2014,23(6):1064-1069.
|
[17] |
徐琴,王孟,谢义梅,等,施硒对水稻外观品质及籽粒硒、镉和砷含量的影响[J].中国农业科技导报,2019,21(5):135-140.
|
[18] |
CAMARA A Y, WAN Y N, YU Y, et al.Effect of endogenous selenium on arsenic uptake and antioxidative enzymes in As-exposed rice seedlings[J].International Journal of Environmental Research and Public Health, 2019, 16(18):3350-3367.
|
[19] |
周鑫斌,赖凡,张城铭,等,不同形态硒向水稻籽粒转运途径及品种差异[J].土壤学报,2017,54(5):1251-1258.
|
[20] |
YIN H Q, QI Z Y, LI M Q, et al.Selenium forms and methods of application differentially modulate plant growth, photosynthesis, stress tolerance, selenium content and speciation in Oryza sativa L.[J].Ecotoxicology and Environmental Safety, 2018, 169:911-917.
|
[21] |
KAPOLNA E, HILLESTROM P R, LAURSEN K H, et al.Effect of foliar application of selenium on its uptake and speciation in carrot[J].Food Chemistry, 2009, 115(4):1357-1363.
|
[22] |
韦叶娜,杨国涛,范永义,等,外源硒处理对优质地方水稻品种产量及稻米硒氮磷钾含量的影响[J].中国农学通报,2017,33(36):14-19.
|
[23] |
TIAN M, HUI M X, THANNHAUSER T W, et al.Selenium-induced toxicity is counteracted by sulfur in broccoli (Brassica oleracea L.var.italica)[J].Frontiers in Plant Science, 2017, 8:1425-1437.
|
[24] |
JIA H F, SONG Z P, WU F Y, et al.Low selenium increases the auxin concentration and enhances tolerance to low phosphorous stress in tobacco[J].Environmental & Experimental Botany, 2018, 153:127-134.
|
[25] |
ZHAO F J, STROUD J L, KHAN M A, et al.Arsenic translocation in rice investigated using radioactive73As tracer[J].Plant and Soil, 2012, 350(1/2):413-420.
|
[26] |
ZHAO F J, HARRIS E, YAN J, et al.Arsenic methylation in soils and its relationship with microbial arsM abundance and diversity, and As speciation in rice[J].Environmental Science & Technology, 2013, 47(13):7147-7154.
|
[27] |
张世杰,付洁,王晓美,等,叶面施硅对水稻吸收和转运无机砷和甲基砷的影响[J].农业环境科学学报,2018,37(7):1529-1536.
|
[28] |
CLEMENS S, MA J F.Toxic heavy metal and metalloid accumulation in crop plants and foods[J].Annual Review of Plant Biology, 2016, 67(1):489-512.
|
[29] |
LOGOTETA B, XU X Y, MACNAIR MR, et al.Arsenite efflux is not enhanced in the arsenate-tolerant phenotype of Holcuslanatus[J].New Phytologist, 2009, 183(2):340-348.
|
[30] |
CHEN Y, MOORE K L, MILLER A J, et al.The role of nodes in arsenic storage and distribution in rice[J].Journal of Experimental Botany, 2015, 66(13):3717-3724.
|
[31] |
ZHU Y G, PILON-SMITS E A, ZHAO F J, et al.Selenium in higher plants:understanding mechanisms for biofortification and phytoremediation[J].Trends in Plant Science, 2009, 14(8):436-442.
|
[32] |
黄青青,陈思杨,王琪,等,亚硒酸盐/硒酸盐及相互作用对水稻吸收及转运硒的影响[J].农业环境科学学报,2014,33(11):2098-2103.
|
[33] |
NOTHSTEIN A K, ELISABETH E, MICHAEL R, et al.Tracking Se assimilation and speciation through the rice plant-nutrient competition, toxicity and distribution[J].PLoS One, 2016, 11(4):e0152081.
|
[34] |
HU Y, DUAN G L, HUANG Y Z, et al.Interactive effects of different inorganic As and Se species on their uptake and translocation by rice (Oryza sativa L.) seedlings[J].Environmental Science and Pollution Research International, 2014, 21(5):3955-3962.
|
[35] |
ABORODE F A, RAAB A, VOIGT M, et al.The importance of glutathione and phytochelatins on the selenite and arsenate detoxification in Arabidopsis thaliana[J].Journal of Environmental Sciences, 2016, 49(11):150-161.
|
[36] |
DENG X, LIU K, LI M, et al.Difference of selenium uptake and distribution in the plant and selenium form in the grains of rice with foliar spray of selenite or selenate at different stages[J].Field Crops Research, 2017, 211:165-171.
|
[37] |
LI R Y, AGO Y, LIU W J, et al.The rice aquaporin Lsi1 mediates uptake of methylated arsenic species[J].PlantPhysiology, 2009, 150(4):2071-2080.
|
[38] |
贾炎,黄海,张思宇,等,无机砷和甲基砷在水稻体内吸收运移的比较研究[J].环境科学学报,2012,32(10):2483-2489.
|
[39] |
JIA H F, SONG Z P, WU F Y, et al.Low selenium increases the auxin concentration and enhances tolerance to low phosphorous stress in tobacco[J].Environmental & Experimental Botany, 2018, 153:127-134.
|
[40] |
姜超强,沈嘉,祖朝龙.水稻对天然富硒土壤硒的吸收及转运[J].应用生态学报,2015,26(3):809-816.
|
[41] |
黄太庆,江泽普,邢颖,等,水稻对外源硒的吸收利用研究[J].农业资源与环境学报,2017,34(5):449-455.
|
[42] |
CAREY A M, SCHECKEL K G, LOMBI E, et al.Grain accumulation of selenium species in rice(Oryza sativa L.)[J].Environmental Science and Technology, 2012, 46(10):5557-5564.
|
[43] |
黄亚涛.我国稻米中无机砷的污染分布研究及风险评估[D].北京:中国农业科学院,2014.
|
[44] |
SUN G X, LIU X, WILLIAMS P N, et al.Distribution and translocation of selenium from soil to grain and its speciation in paddy rice(Oryza sativa L.)[J].Environmental Science and Technology, 2010, 44(17):6706-6711.
|
[45] |
王晓芳,陈思杨,罗章,等,植物对硒的吸收转运和形态转化机制[J].农业资源与环境学报,2014,31(6):539-544.
|
[46] |
李玉梅,王根林,李艳,等,水稻对有机态硒的吸收与积累[J].中国农学通报,2017,33(10):7-11.
|
[47] |
龚红梅,沈野.植物对重金属锌耐性机理的研究进展[J].西北植物学报,2010,30(3):633-644.
|
[48] |
MOORE K L, CHEN Y, MEENE A M L, et al.Combined NanoSIMS and synchrotron X-ray fluorescence reveal distinct cellular and subcellular distribution patterns of trace elements in rice tissues[J].New Phytologist, 2014, 201(1):104-115.
|
[49] |
孙宇,张敏,薛培英,等,硅/砷比对水稻剑叶和根系中砷亚细胞分布的影响[J].植物生理学报,2016,52(7):1019-1027.
|
[50] |
DING Y Z, WANG R G, GUO J K, et al.The effect of selenium on the subcellular distribution of antimony to regulate the toxicity of antimony in paddy rice[J].Environmental Science and Pollution Research, 2015, 22(7):5111-5123.
|
[51] |
薛培英,陈苗苗,耿丽平,等,轮叶黑藻对无机砷的吸收和释放[J].农业环境科学学报,2015,34(10):1853-1857.
|
[52] |
张静,常青晓,孙传范,等,HPLC法测定镉、砷胁迫下水稻根系的植物螯合肽[J].环境科学学报,2011,31(7):1550-1555.
|
[53] |
ABORODE F A, RAAB A, VOIGT M, et al.The importance of glutathione and phytochelatins on the selenite and arsenate detoxification in Arabidopsis thaliana[J].Journal of Environmental Sciences, 2016, 49(11):150-161.
|
[54] |
LANCILLI C, GIACOMINI B, LUCCHINI G, et al.Cadmium exposure and sulfate limitation reveal differences in the transcriptional control of three sulfate transporter (Sultr1;2) genes in Brassica juncea[J].BMC Plant Biology, 2014, 14(1):132-146.
|
[55] |
LIDON F C, OLIVEIRA K, RIBEIRO M M, et al.Selenium biofortification of rice grains and implications on macronutrients quality[J].Journal of Cereal Science, 2018, 81:22-29.
|
[56] |
ZHANG L H, HU B, DENG K, et al.NRT1.1B improves selenium concentrations in rice grains by facilitating selenomethinone translocation[J].Plant Biotechnology Journal, 2019, 17(6):1058-1068.
|
[57] |
LI X J, SUN J J, LI W S, et al.Effect of foliar application of the selenium-rich nutrient solution on the selenium accumulation in grains of Foxtail millet (Zhangzagu 10)[J].Environmental Science Pollution Research, 2022, 29:5569-5576.
|
[58] |
张城铭,周鑫斌,高阿祥.水稻不同生育期对硒吸收累积及铁膜的吸附特性[J].土壤学报,2017,54(3):693-702.
|
[59] |
管文文,戴其根,张洪程,等,水稻不同生育期对硒的吸收、转运及累积规律[J].土壤,2018,50(6):1150-1154.
|
[60] |
LI R Y, ZHOU Z G, ZHANG Y H, et al.Uptake and accumulation characteristics of arsenic and iron plaque in rice at different growth stages[J].Communications in Soil Science and Plant Analysis, 2015, 46(19):2509-2522.
|
[61] |
施柳,郑冬梅,李晓军,等,施硒形态对水稻不同叶位叶片吸收积累特征的影响[J/OL].生态学杂志.https://kns.cnki.net/kcms/detail/21.1148.Q.20220520.2011.055.htm.
|
[62] |
ZHAO F J, AGO Y, MITANI N, et al.The role of the rice aquaporin Lsi1 in arsenite efflux from roots.New Phytologist, 2010, 186:392-399.
|
[63] |
PANUCCIO M R, LOGOTETA B, BEONE G M, et al.Arsenic uptake and speciation and the effects of phosphate nutrition in hydroponically grown kikuyu grass (Pennisetum clandestinum Hochst)[J].Environ Sci Pollut Res,2012, 19:3046-3053.
|
[64] |
MARIN A R, MASSCHELEYN P H, PATRICK W H, et al.Soil redox-pH stability of arsenic species and its influence on arsenic uptake by rice[J].Plant Soil, 1993,152:245-253.
|
[65] |
FITZ W J, WENZEL W W, et al.Arsenic transformations in the soil-rhizosphere-plant system:fundamentals and potential application to phytoremediation[J].Biotechnol, 2002,99:259-278.
|
[66] |
SYU C H, HUANG C C, JIANG P Y, et al.Effects of foliar and soil application of sodium silicate on arsenic toxicity and accumulation in rice (Oryza sativa L.) seedlings grown in As-contaminated paddy soils[J].Soil Sci Plant Nutr, 2016, 62:357-366.
|
[67] |
CHAUHAN R, AWASTHI S, TRIPATHI P, et al.Selenite modulates the level of phenolics and nutrient element to alleviate the toxicity of arsenite in rice (Oryza sativa L.)[J].Ecotoxicol Environ Saf, 2017, 138:47-55.
|
[68] |
FRESNO T, PENALOSA J M, SANTNER J, et al.(2016) Iron plaque formed under aerobic conditions efficiently immobilizes arsenic in Lupinus albus L roots[J].Environ Pollut, 2016, 216:215-222.
|
[69] |
ZHU Y G, PILON-SMITS E A, ZHAO F J, et al.Selenium in higher plants:understanding mechanisms for biofortification and phytoremediation[J].Trends in Plant Science, 2009, 14(8):436-442.
|
[70] |
BHATTACHARYA P, SAMAL A C, MAJUMDAR J, et al.Accumulation of arsenic and its distribution in rice plant (Oryza sativa L.) in Gangetic West Bengal, India[J].Paddy and Water Environment, 2010, 8(1):63-70.
|