镉低积累水稻品种筛选及其在镉超标稻田的表现评价

李虎; 吴子帅; 陈传华; 罗群昌; 梁云涛; 何金富; 周新明; 朱其南; 李秋雯; 刘广林

doi:10.3969/j.issn.2095-1191.2022.01.011

镉低积累水稻品种筛选及其在镉超标稻田的表现评价

1 广西农业科学院水稻研究所/广西水稻遗传育种重点实验室/广西水稻优质化育种研究人才小高地, 南宁 530007;
2 广西农业生态与资源保护站, 南宁 530007;
3 崇左市农业生态与资源保护站, 广西崇左 532200

基金项目:

广西重点研发计划项目（桂科AB1850041）；广西农业科学院科技发展基金项目（桂农科2021YT029）；广西农业科学院基本科研业务费项目（桂农科2020YM73）

详细信息

作者简介:
李虎(1986-),https://orcid.org/0000-0001-7865-1506,主要从事镉低积累优质稻品种选育和配套栽培技术研究工作,E-mail:116523094@qq.com

通讯作者:
刘广林(1980-),https://orcid.org/0000-0003-0356-4998,副研究员,主要从事优质稻品种选育及栽培技术研究工作,E-mail:350595613@qq.com

中图分类号: S511
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出版历程
- 收稿日期: 2021-06-12
- 网络出版日期: 2022-04-17

Screening of rice varieties with low cadmium accumulation and evaluation of their performance in rice fields with cadmium exceeding standard

1 Rice Research Institute, Guangxi Academy of Agricultural Sciences/Guangxi Key Laboratory of Rice Genetics and Breeding/Guangxi Talent Highland of High Quality Rice Breeding Research, Nanning 530007, China;
2 Agricultural Ecology and Resources Protection Station of Guangxi, Nanning 530007, China;
3 Chongzuo Agricultural Ecology and Resource Protection Station, Chongzuo, Guangxi 532200, China

Funds:

Key Research and Development Program of Guangxi（Guike AB1850041）；Science and Technology Development Fund Project of Guangxi Academy of Agricultural Sciences（Guinongke 2021YT029）；Basic Scientific Research Project of Guangxi Academy of Agricultural Sciences（Guinongke 2020YM73）

摘要

摘要: 【目的】筛选镉低积累型水稻品种并开展镉超标稻田表现评价研究，为广西中低度镉污染稻田生产安全稻米提供品种和数据参考。【方法】以114份（V1~V114）水稻低镉品种育种材料为试验对象，从中筛选综合性状优良且籽粒表现为镉低积累的目标材料；对目标材料进行大田试验和盆栽试验验证，测定其在广西不同试验点的农艺性状和精米镉含量。【结果】初步筛选试验的114份参试材料中，除V102的精米镉含量低于最低检测值外，其余113份水稻育种材料的精米镉含量范围在0.01~0.35 mg/kg，平均值为0.10 mg/kg，筛选得到综合性状优良且精米镉含量较低的材料V111（审定后名称为桂育12）。桂育12在中低度镉污染区大田验证种植时，精米镉含量（0.01~0.10 mg/kg）未超出国家标准GB 2762—2017《食品安全国家标准食品中污染物限量》规定的限值（0.20 mg/kg）。盆栽试验结果表明，在pH为5.0，土壤镉含量3.0 mg/kg条件下，桂育12精米镉含量（0.34 mg/kg）有超标风险；各试验中土壤镉含量对桂育12部分农艺性状指标影响显著（P<0.05），但属于品种种植的正常波动范围，对米质和产量的综合影响有限。【结论】从114份水稻材料中筛选出的镉低积累品种桂育12，经多年多点试验验证，在中低度镉污染稻田产出的稻米镉含量不超标，籽粒镉低积累性状较稳定，综合性状表现受土壤镉含量影响较小，可在广西中低度镉污染稻田推广应用。
- 镉低积累 /
- 优质稻 /
- 品种筛选 /
- 精米镉含量 /
- 农艺性状
Abstract: 【Objective】Screened rice varieties with low cadmium accumulation and carried out evaluation research on rice field performance with cadmium exceeding the standard to provide variety and data reference for the production of safe rice in Guangxi’s medium and low-level cadmium-polluted rice fields.【Method】114 breeding materials of low-cadmium rice varieties（V1-V114）were selected as the test objects，and the target materials with excellent comprehensive properties and low cadmium accumulation were selected from the target materials；field tests and pot experiments were carried out to verify the target materials，their agronomic characteristics and polished rice cadmium content were tested at different test sites in Guangxi.【Result】Among the 114 tested materials in the preliminary screening test，except for the cadmium content in polished rice of V102 which was lower than the lowest detection value，the cadmium content in polished rice of the remaining 113 rice breeding materials ranged from 0.01 to 0.35 mg/kg，with an average value of 0.10 mg/ kg. The material V111 with excellent comprehensive properties and low cadmium content in polished rice was screened （named Guiyu 12 after certification）. When Guiyu 12 was planted in fields with medium and low levels of cadmium pollution，the cadmium content of polished rice（0.01-0.10 mg/kg）did not exceed the limit specified in the national standard GB 2762-2017 National Food Safety Standard Limits of Contaminants in Food（0.20 mg/kg）. The pot experiment results showed that under the conditions of pH 5.0 and soil cadmium content of 3.0 mg/kg，the cadmium content（0.34 mg/kg）of Guiyu 12 polished rice was at risk of exceeding the standard. The soil cadmium content in each experiment had a significant impact on some agronomic indicators of Guiyu 12（P<0.05），but it belonged to the normal fluctuation range of the variety planting，and the comprehensive impact on rice quality and yield was limited.【Conclusion】A low cadmium accumulation variety Guiyu 12 is selected from 114 rice materials. After years of multi-site experiments，it is verified that the cadmium content in rice produced by Guiyu 12 does not exceed the standard in the middle and low-level cadmium-contaminated rice fields，and the low cadmium accumulation traits in grains are relatively stable. The performance of comprehensive traits is less affected by soil cadmium content，which can be applied and popularized in Guangxi rice fields with low and medium cadmium pollution.
- low cadmium accumulation /
- high-quality rice /
- selection of varieties /
- cadmium content in polished rice /
- agronomic traits

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参考文献(24)

陈彩艳,唐文帮. 2018.筛选和培育镉低积累水稻品种的进展和问题探讨[J].农业现代化研究,39(6):1044-1051.[Chen C Y,Tang W B. 2018. A perspective on the selection and breeding of low-Cd rice[J]. Research of Agricultural Modernization,39(6):1044-1051.]doi: 10.13872/j.1000-0275.2018.0095.

陈桂芬,雷静,黄雁飞,熊柳梅,黄玉溢. 2015.广西稻田镉污染状况及硅对稻米镉的消减作用[J].南方农业学报,46(5):772-776.[Chen G F,Lei J,Huang Y F,Xiong L M,Huang Y Y. 2015. Status of heavy metal contamination of paddy soil in Guangxi and effect of silicon fertilizer to reduce Cd content of brown rice[J]. Journal of Southern Agriculture,46(5):772-776.]doi: 10.3969/j:issn.2095-1191.2015.5.772.

陈毓瑾,欧阳林娟,朱红,陈艳美,边建民. 2017.常规水稻耐镉性及镉低积累种质的筛选[J].石河子大学学报(自然科学版),35(6):701-706.[Chen Y J,Ouyang L J,Zhu H,Chen Y M,Bian J M. 2017. Cd-tolerance of conventional rice varieties and screening for Cd low-accumulation germplasm resources[J]. Journal of Shihezi University (Natural Science),35(6):701-706.]doi: 10.13880/j.cnki.65-1174/n.2017.06.007.

陈煜娴,冯珊珊,柴兴苹,柴团耀. 2015.水稻低Cd累积相关基因RNA干扰载体及根特异性表达载体的构建[J].中国科学院大学学报,32(2):185-191.[Chen Y X,Feng S S,Chai X P,Chai T Y. 2015. Construction of RNAi and root-specific expression vectors of genes related to low Cd accumulation in rice[J]. Journal of University of Chinese Academy of Sciences,32(2):185-191.]doi: 10.7523/j.issn.2095-6134.2015.02.006.

陈喆,铁柏清,刘孝利,雷鸣,袁啸,大岛卓,叶长城. 2013.改良-农艺综合措施对水稻吸收积累镉的影响[J].农业环境科学学报,32(7):1302-1308.[Chen Z,Tie B Q,Liu X L,Lei M,Yuan X,Da D Z,Ye C C. 2013. Impacts of optimized agronomic regulation management on cadmium absorption and accumulation by late rice[J]. Journal of Agro-Environment Science,32(7):1302-1308.]doi: 10.11654/jaes.2013.07.003.

邓齐玉,赵银军,林清,苗亚琼,谢琼英,江文源,杨楠,汪洋,陈刚. 2019.广西重金属镉的区域性分布特征与土壤污染状况评价[J].环境工程,37(1):164-171.[Deng Q Y,Zhao Y J,Lin Q,Miao Y Q,Xie Q Y,Jiang W Y,Yang N,Wang Y,Chen G. 2019. Regional distribution characteristics of cadmium and evaluation of soil pollution situation in Guangxi[J]. Environmental Engineering,37(1):164-171.]doi: 10.13205/j.hjgc.201901032.

高欣,邓芸,季蒙蒙,阮文权,陆其林. 2020.氨基酸盐对镉污染土壤的淋洗效果[J].江苏农业学报,36(2):366-372.[Gao X,Deng Y,Ji M M,Ruan W Q,Lu Q L. 2020.Leaching effect of amino acid salts on cadmium contaminated soil[J]. Jiangsu Journal of Agricultural Sciences,36(2):366-372.]doi: 10.3969/j.issn.1000-4440.2020.02.016.

龚浩如,邓述东,陶曙华,陈祖武,陈英姿,邓园,苗雪雪,廖卫东. 2016.湘潭市镉低积累水稻品种筛选试验[J].湖南农业科学,(12):18-20.[Gong H R,Deng S D,Tao S H,Chen Z W,Chen Y Z,Deng Y,Miao X X,Liao W D. 2016. Screening experiment of low cadmium accumulation rice variety in Xiangtan[J]. Hunan Agricultural Sciences,(12):18-20.]doi:10.16498/j.cnki.hnnykx.2016.012. 006.

胡婉茵,王寅,吴殿星,舒小丽. 2021.低镉水稻研究进展[J].核农学报,35(1):93-102.[Hu W Y,Wang Y,Wu D X,Shu X L. 2021. Researchesof low cadmium accumulation in rice[J]. Journal of Nuclear Agricultural Sciences,35(1):93-102.]doi: 10.11869/j.issn.100-8551.2021.01.0093.

蒋彬,张慧萍. 2002.水稻精米中铅镉砷含量基因型差异的研究[J].云南师范大学学报(自然科学版),22(3):37-40.[Jiang B,Zhang H P. 2002. Genotypic differences in concentrations of plumbum,cadmium and arsenicum in polished rice grains[J]. Journal of Yunnan Normal University (Natural Science Edition),22(3):37-40.]doi: 10.3969/j.issn.1007-9793.2002.03.011.

李桂荣,陈富凯,贾胜勇,王宗硕,郭泽楠. 2020.茄子秆生物炭联合黑麦草对土壤镉-芘复合污染修复的影响[J].河南农业科学,49(9):51-61.[Li G R,Chen F K,Jia S Y,Wang Z S,Guo Z N. 2020. Influens of eggplant straw-Based biochar comined with Ryegrass on remediation of Cd and Pyrene co-contaminations in soil[J]. Journal of Henan Agricultural Sciences,49(9):51-61.]doi: 10.15933/j.cnki.1004-3268.2020.09.007.

廖芳芳,付文婷,王永平,邢丹. 2015.镉低积累农作物筛选研究进展[J].南方农业,9(25):58-60.[Liao F F,Fu W T,Wang Y P,Xing D. 2015. Advances in research on selection of crops with low cadmium accumulation[J]. South China Agriculture,9(25):58-60.]doi:10.19415/j. cnki. 1673-890x.2015.25.023.

林华,张学洪,梁延鹏,刘杰,黄海涛. 2014.复合污染下Cu、Cr、Ni和Cd在水稻植株中的富集特征[J].生态环境学报,23(12):1991-1995.[Lin H,Zhang X H,Liang Y P,Liu J,Huang H T. 2014. Enrichment of heavy metals in rice under combined pollution of Cu,Cr,Ni and Cd[J].Ecology and Environmental Sciences,23(12):1991-1995.]doi: 10.16258/j.cnki.1674-5906.2014.12.016.

刘昭兵,纪雄辉,彭华,石丽红,李洪顺. 2010.水分管理模式对水稻吸收累积镉的影响及其作用机理[J].应用生态学报,21(4):908-914.[Liu Z B,Ji X H,Peng H,Shi L H,Li H S. 2010. Effects and action mechanisms of different water management modes on rice Cd absorption and accumulation[J]. Chinese Journal of Applied Ecology,21(4):908-914.]doi: 10.13287/j.1001-9332.2010.0139.

卢红玲,肖光辉,刘青山,彭新德. 2014.土壤镉污染现状及其治理措施研究进展[J].南方农业学报,45(11):1986-1993.[Lu H L,Xiao G H,Liu Q S,Peng X D. 2014. Advances in soil Cd pollution and solution measures[J].Journal of Southern Agriculture,45(11):1986-1993.]doi:10.3969/j.issn.2095-1191. 2014. 11.1986.

彭少邦,蔡乐,李泗清. 2014.土壤镉污染修复方法及生物修复研究进展[J].环境与发展,26(3):86-90.[Peng S B,Cai L,Li S Q. 2014. Remediation methods of cadmium contaminated soil and research progress on bioremediation[J]. Environment and Development,26(3):86-90.doi: 10.3969/j.issn.1007-0370.2014.03.030.

滕振宁,张玉烛,方宝华,刘洋,孙姣辉,杨坚,何小娥. 2017.秩次分析法在低镉水稻品种筛选中的应用[J].中国稻米,23(2):21-26.[Teng Z N,Zhang Y Z,Fang B H,Liu Y,Sun J H,Yang J,He X E. 2017. Rank analysis method utilization on screening low cadmium rice varieties[J].China Rice,23(2):21-26.]doi:10.3969/j.issn.1006-8082. 2017.02.006.

王刚,孙梦飞,钟雪梅,彭建伟,荣湘民,康兴蓉,谢桂先,张玉平. 2017.镉胁迫下不同水稻品种镉的累积与产量差异比较[J].中国农学通报,33(17):76-81.[Wang G,Sun M F,Zhong X M,Peng J W,Rong X M,Kang X R,Xie G X,Zhang Y P. 2017. Cadmium accumulation and yield difference of different rice varieties undercadmium stress[J]. Chinese Agriculture Bulletin,33(17):76-81.]doi:10.11924/j.issn.1000-6850. casb17010090.

徐燕玲,陈能场,徐胜光,周健民,谢志宜,李志安. 2009.低镉累积水稻品种的筛选方法研究--品种与类型[J].农业环境科学学报,28(7):1346-1352.[Xu Y L,Chen N C,Xu S G,Zhou J M,Xie Z Y,Li Z A. 2009. Breeding rice cultivars with low accumulation of cadmium:Cultivars versus types[J]. Journal of Agro-Environment Science,28(7):1346-1352.]doi:10.3321/j.issn:1672-2043. 2009.07.003.

杨春刚,杜成喜,张三元,张俊国,廖西元,章秀福,朱智伟,陈铭学,陈温福. 2008.糙米与水稻植株中镉含量的关系[J].安徽农业科学,36(10):4026-4027.[Yang C G,Du C X,Zhang S Y,Zhang J G,Liao X Y,Zhang X F,Zhu Z W,Chen M X,Chen W F. 2008. Relationship between Cd content of brown rice and that of rice plant[J]. Journal of Anhui Agricultural Sciences,36(10):4026-4027.]doi: 10.13989/j.cnki.0517-6611.2008.10.075.

章秀梅,谢炜,钟林炳,杨文叶,倪兆华,章明奎. 2021.治理技术组合应用对提高镉污染农田水稻安全生产的潜力分析[J].浙江农业科学,62(3):513-515.[Zhang X M,Xie W,Zhong L B,Yang W Y,Ni Z H,Zhang M K. 2021.Potential analysis of combined application of control technology to improve safe production of rice in cadmium polluted farmland[J]. Journal of Zhejiang Agricultural Sciences,62(3):513-515.] doi:10.16178/j. issn. 0528-9017.20210317.

张锡洲,张洪江,李廷轩,余海英. 2013.水稻镉耐性差异及镉低积累种质资源的筛选[J].中国生态农业学报,21(11):1434-1440.[Zhang X Z,Zhang H J,Li T X,Yu H Y. 2013. Differences in Cd-tolerance of rice and screening for Cd low-accumulation rice germplasm resources[J].Chinese Journal of Eco-Agriculture,21(11):1434-1440.]doi: 10.3724/SP.J.1011.2013.30478.

张玉烛,方宝华,滕振宁,陈光辉,刘洋,凌文彬,向述强,柏连阳. 2017.应急性镉低积累水稻品种筛选与验证[J].湖南农业科学,(12):19-25.[Zhang Y Z,Fang B H,Teng Z N,Chen G H,Liu Y,Ling W B,Xiang S Q,Bai L Y. 2017. Screening and verification of rice varities with low cadmium accumulation[J]. Hunan Agricultural Sciences,(12):19-25.]doi: 10.16498/j.cnki.hnnykx.2017.012.002.

庄静静,郭晖. 2020.柠檬酸-美人蕉体系对铅镉复合污染土壤的修复效果[J].甘肃农业大学学报,55(5):143-151.[Zhuang J J,Guo H. 2020. Remediation of citric acidCanna indica system on Cd and Pb contaminated soil[J]. Journal of Gansu Agricultural University,55(5):143-151.]doi: 10.13432/j.cnki.jgsau.2020.05.017.

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镉低积累水稻品种筛选及其在镉超标稻田的表现评价

作者简介: 李虎(1986-),https://orcid.org/0000-0001-7865-1506,主要从事镉低积累优质稻品种选育和配套栽培技术研究工作,E-mail:116523094@qq.com

通讯作者: 刘广林(1980-),https://orcid.org/0000-0003-0356-4998,副研究员,主要从事优质稻品种选育及栽培技术研究工作,E-mail:350595613@qq.com

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Screening of rice varieties with low cadmium accumulation and evaluation of their performance in rice fields with cadmium exceeding standard

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作者简介:
李虎(1986-),https://orcid.org/0000-0001-7865-1506,主要从事镉低积累优质稻品种选育和配套栽培技术研究工作,E-mail:116523094@qq.com

通讯作者:
刘广林(1980-),https://orcid.org/0000-0003-0356-4998,副研究员,主要从事优质稻品种选育及栽培技术研究工作,E-mail:350595613@qq.com