首页 > 分享 > 小麦富锌育种的发展现状及研究趋势

小麦富锌育种的发展现状及研究趋势

花匠小妙招
2024-09-15 01:44

[1] HOU R,HE Y,YAN G W,et al.Zinc enzymes in medicinal chemistry[J]. European journal of medicinal chemistry,2021,226:113877.
[2] 李莎莎,王朝辉,刁超朋,等. 旱地高产小麦品种籽粒锌含量差异与产量构成和锌吸收利用的关系[J]. 植物营养与肥料学报,2018,24(4):849-856.
[3] 张玉红. 绿色小麦种植技术及田间管理推广策略[J].新农民,2024,(19):65-67.
[4] 褚宏欣. 我国主要麦区麦田土壤及小麦籽粒微量元素的营养评价[D]. 杨凌:西北农林科技大学,2022.
[5] 张明艳,郁一凡,封超年,等. 不同基因型小麦籽粒、面粉和麸皮中Ca和Zn含量的差异[J]. 麦类作物学报,2011,31(2):240-245.
[6] HAO B Z,MA J L,CHEN P,et al.Wheat breeding in China over the past 80 years has increased grain zinc but decreased grain iron concentration[J]. Field crops research,2021,271:108253.
[7] 阮思越,何晓明,张玲,等. 优化氮素调控对小麦锌积累与转运的影响[J]. 江苏农业学报,2021,37(6):1436-1442.
[8] DAS S,JAHIRUDDIN M,ISLAM M R,et al.Zinc biofortification in the grains of two wheat (

Triticum aestivum

L.) varieties through fertilization[J]. Acta agrobotanica,2020,73(1):1-13.
[9] RAMESH S A,CHOIMES S,SCHACHTMAN D P.Over-expression of an

Arabidopsis

zinc transporter in

Hordeum vulgare

increases short-term zinc uptake after zinc deprivation and seed zinc content[J]. Plant molecular biology,2004,54(3):373-385.
[10] UAUY C,DISTELFELD A,FAHIMA T,et al.A

NAC

gene regulating senescence improves grain protein,zinc,and iron content in wheat[J]. Science,2006,314(5803):1298-1301.
[11] 刘铮. 我国土壤中锌含量的分布规律[J]. 中国农业科学,1994(1):30-37.
[12] 刘铮,朱其清,唐丽华,等. 我国缺乏微量元素的土壤及其区域分布[J]. 土壤学报,1982(3):209-223.
[13] 钱雨欣,李志美,陈艳楠,等. 中国土壤锌的区域环境基准建立及生态风险评价初探[J]. 环境生态学,2023(1):23-34.
[14] 李朋飞,管后春,王翔,等. 皖北潮土与砂姜黑土锌含量分布及影响因素[J]. 物探与化探,2022,46(6):1545-1554.
[15] 吴价. 江西瑞金土壤硒、锌元素地球化学特征及土地资源区划[D]. 北京:中国地质大学(北京),2019.
[16] 刘方,朱健,杨鉴,等. 区域土壤锌空间分布的异质性及制约因素分析[J]. 贵州大学学报(自然科学版),2023,40(2):17-23.
[17] FUNAMI T,KATAOKA Y,OMOTO T,et al.Effects of non-ionic polysaccharides on the gelatinization and retrogradation behavior of wheat starch[J]. Food hydrocolloids,2005,19(1):1-13.
[18] 曾亚文,刘家富,汪禄祥,等. 云南地方稻矿质元素含量的变异类型与地理生态差异[J]. 作物学报,2006,32(8):1166-1173.
[19] 陈光财,王人民,张永鑫,等. 水稻锌营养高效基因型的生理特性[J]. 中国水稻科学,2003,17(2):161-165.
[20] KUKTAITE R,LARSSON H,JOHANSSON E.Variation in protein composition of wheat flour and its relationship to dough mixing behaviour[J]. Journal of cereal science,2004,40(1):31-39.
[21] 陈铭,尹崇仁. 冬小麦体内锌元素的积累与浓度分布模式和锰、锌肥效应[J]. 北京农业大学学报,1993(2):17-23.
[22] 裴雪霞,党建友,王姣爱,等. 钾、锌、锰配施对冬小麦产量及品质的影响[J]. 麦类作物学报,2002,22(2):60-64.
[23] 石孝均,毛知耘,周则芳. 锌、锰与含氯氮肥配施对冬小麦子粒营养品质的影响[J]. 植物营养与肥料学报,1997,3(2):160-168.
[24] JIMÉNEZ-ROSADO M,DI FOGGIA M,ROSIGNOLI S,et al. Effect of zinc and protein content in different barley cultivars:use of controlled release matrices[J]. Renewable agriculture and food systems,2023,38:e34.
[25] 张福锁. 小麦锌营养状况对锌吸收的影响[J]. 植物生理学报,1993(2):143-148.
[26] LIU Z H,WANG H Y,WANG X E,et al.Genotypic and spike positional difference in grain phytase activity,phytate,inorganic phosphorus,iron,and zinc contents in wheat (

Triticum aestivum

L.)[J]. Journal of cereal science,2006,44(2):212-219.
[27] 韩金玲,李雁鸣,马春英,等. 施锌对小麦开花后氮、磷、钾、锌积累和运转的影响[J]. 植物营养与肥料学报,2006,12(3):313-320.
[28] 王怡斌,姬汉轩,孙晓涵,等. 制粉工艺和加工方式对彩色小麦矿物质的影响[J]. 粮食与油脂,2023,36(5):71-74.
[29] MOFFETT B F,NICHOLSON F A,UWAKWE N C,et al.Zinc contamination decreases the bacterial diversity of agricultural soil[J]. FEMS microbiology ecology,2003,43(1):13-19.
[30] ZONG X F,WANG H,SONG Z W,et al.Foliar Zn fertilization impacts on yield and quality in pearl millet (

Pennisetum glaucum

)[J]. Frontiers of agriculture in China,2011,5(4):552-555.
[31] 李广鑫. 不同小麦品种锌吸收累积特性及其作用机理[D]. 郑州:河南农业大学,2020.
[32] LI X N,YANG Y L,JIA L Y,et al.Zinc-induced oxidative damage,antioxidant enzyme response and proline metabolism in roots and leaves of wheat plants[J]. Ecotoxicology and environmental safety,2013,89:150-157.
[33] PALMGREN M G,CLEMENS S,WILLIAMS L E,et al.Zinc biofortification of cereals:problems and solutions[J]. Trends in plant science,2008,13(9):464-473.
[34] 王蔚华. 小麦金属元素吸收分配特性及胁迫生理效应研究[D]. 扬州:扬州大学,2004.
[35] WANG J W,MAO H,ZHAO H B,et al.Different increases in maize and wheat grain zinc concentrations caused by soil and foliar applications of zinc in Loess Plateau,China[J]. Field crops research,2012,135:89-96.
[36] 张媛菲,吕树作,彭绍峰,等. 豫西地区102份小麦核心种质中铁、锌、硒含量的分析[J]. 农业灾害研究,2022,12(9):37-39.
[37] 藏天青,刘玉娥,马春芳,等. 抗穗发芽合成小麦改良品系的筛选及遗传分析[J]. 四川农业大学学报,2023,41(6):998-1007.
[38] 张青显,吕若敏. 小麦育种显著差异环境种质资源引进、改良利用及其遗传规律[J]. 农业科技通讯,2022(6):199-204.
[39] 李雅菲,师江澜,吴天琪,等. 锌与吡虫啉配合喷施对小麦籽粒富锌效果及蛋白质组分的影响[J]. 中国农业科学,2022,55(3):514-528.
[40] 李晓靖. 氮肥和前茬作物对小麦籽粒产量和氮、锌等矿质营养元素累积的影响[D]. 济南:山东师范大学,2023.
[41] LI M,YANG X W,TIAN X H,et al.Effect of nitrogen fertilizer and foliar zinc application at different growth stages on zinc translocation and utilization efficiency in winter wheat[J]. Cereal research communications,2014,42(1):81-90.
[42] RAM H,RASHID A,ZHANG W,et al.Biofortification of wheat,rice and common bean by applying foliar zinc fertilizer along with pesticides in seven countries[J]. Plant and soil,2016,403(1):389-401.
[43] 陈娟,王少霞,田霄鸿,等. 锌与农药配合喷施对小麦锌累积分配及转移的影响[J]. 西北农林科技大学学报(自然科学版),2019,47(3):67-76.
[44] 廖炜. 转基因作物知识产权保护对技术创新和技术传播的影响[J]. 分子植物育种,2023,21(23):7767-7772.
[45] KAUR K,SHARMA A,MAVI G S,et al.Biofortified wheat:harnessing genetic diversity for improved nutritional quality to eradicate hidden hunger[J]. Crop science,2022,62(2):802-819.
[46] BHATI K K,ALOK A,KUMAR A,et al.Silencing of ABCC13 transporter in wheat reveals its involvement in grain development,phytic acid accumulation and lateral root formation[J]. Journal of experimental botany,2016,67(14):4379-4389.
[47] AGGARWAL S,KUMAR A,BHATI K K,et al.RNAi-mediated downregulation of inositol pentakisphosphate kinase (

IPK

1) in wheat grains decreases phytic acid levels and increases Fe and Zn accumulation[J]. Frontiers in plant science,2018,9:259.
[48] MILLS R F,PEASTON K A,RUNIONS J,et al.HvHMA2,a P1B-ATPase from barley,is highly conserved among cereals and functions in Zn and Cd transport[J]. PLoS One,2012,7(8):e42640.
[49] OLSEN L I,HANSEN T H,LARUE C,et al.Mother-plant-mediated pumping of zinc into the developing seed[J]. Nature plants,2016,2(5):16036.