Journal of Henan Agricultural Sciences ›› 2023, Vol. 52 ›› Issue (7): 24-39.DOI: 10.15933/j.cnki.1004-3268.2023.07.003
• Crop Cultivation & Genetic Breeding • Previous Articles Next Articles
CHEN Han1,HU Huiyun2,CHENG Jianfeng1,HUANG Yingjin1,MAO Xiaorong2,XU Xiaoming2,ZENG Yanhua1
Received:
2023-02-07
Published:
2023-07-15
Online:
2023-08-08
陈涵1,胡慧云2,程建峰1,黄英金1,毛晓嵘2,徐小明2,曾研华1
通讯作者:
程建峰(1972-),男,江西上饶人,教授,博士,主要从事植物生理生态研究。E-mail:chjfkarl@163.com。黄英金同为通信作者
作者简介:
陈涵(1997-),男,安徽安庆人,在读硕士研究生,研究方向:薯芋种植技术。E-mail:1125413885@qq.com
基金资助:
CLC Number:
CHEN Han, HU Huiyun, CHENG Jianfeng, HUANG Yingjin, MAO Xiaorong, XU Xiaoming, ZENG Yanhua. Differences in Natural Enrichment Abilities of Elements in Root Tubers of Different Genotypes of Sweet Potato(Ipomoea batatas Lam.)[J]. Journal of Henan Agricultural Sciences, 2023, 52(7): 24-39.
陈涵, 胡慧云, 程建峰, 黄英金, 毛晓嵘, 徐小明, 曾研华. 不同基因型甘薯块根自然富集元素能力的差异性[J]. 河南农业科学, 2023, 52(7): 24-39.
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URL: https://www.hnnykx.org.cn/EN/10.15933/j.cnki.1004-3268.2023.07.003
[1]李宗芸,陈孚尧,蒋姣姣,等.甘薯细胞遗传学研究进展[J].中南民族大学学报(自然科学版),2016,35(4):34⁃39. LI Z Y,CHEN F Y,JIANG J J,et al.Cytogenetics research progress of sweet potato[J].Journal of South⁃Central Minzu University(Natural Science Edition),2016,35(4):34⁃39. [2]DING Y Y,SHEN M Y,WEI D M,et al.Study on compatible characteristics of wheat and purple sweet potato starches[J].Food Hydrocolloids,2020,107:105961. [3]师一璇,胡佳乐,李丽.甘薯的营养功能与加工利用研究进展[J].食品研究与开发,2022,43(11):205⁃211. SHI Y X,HU J L,LI L.Research progress on the nutritional function and processing and utilization of sweet potato[J].Food Research and Development,2022,43(11):205⁃211. [4]FUGLIE K O. Priorities for sweetpotato research in developing countries:Results of a survey [J].Hortscience,2007,42(5):1200⁃1206. [5]王欣,李强,曹清河,等.中国甘薯产业和种业发展现状与未来展望[J].中国农业科学,2021,54(3):483⁃492. WANG X,LI Q,CAO Q H,et al.Current status and future prospective of sweetpotato production and seed industry in China[J].Scientia Agricultura Sinica,2021,54(3):483⁃492. [6]SMITH S C,JENNINGS K M,MONKS D W,et al.Evaluation of sweetpotato cultivars with varying canopy architectures in conventional and a reduced⁃tillage rye production system[J].Hort Technology,2022,32(2):158⁃163. [7]米谷,薛文通,陈明海,等.我国甘薯的分布、特点与资源利用[J].食品工业科技,2008(6):324⁃326. MI G,XUE W T,CHEN M H,et al.The distribution,characteristic and usage of sweet potato(Ipomoea batatas) in China[J].Science and Technology of Food Industry,2008(6):324⁃326. [8]王建玲,林祖军,辛国胜,等.不同用途的甘薯栽培方式综述[J].作物杂志,2011(3):104⁃106. WANG J L,LIN Z J,XIN G S,et al.Reviews on sweet potato cultivation methods for different usage[J].Crops,2011(3):104⁃106. [9]LEE H,KIM H S.Isolation and physicochemical property of individual parenchyma cells from mealy sweet potato[J].Food Science and Biotechnology,2019,29(4):521⁃529. [10]明玥,梁志宏.甘薯的功能性成分及其开发利用途径[J].食品科技,2020,45(11):174⁃179. MING Y,LIANG Z H.Functional components and development and utilization pathways of sweet potato[J].Food Science and Technology,2020,45(11):174⁃179. [11]张秀南,贾亚娟,孙阳阳,等.甘薯生物活性成分功能特性研究进展[J].中国粮油学报,2023,38(4):195⁃202. ZHANG X N,JIA Y J,SUN Y Y,et al.Research progress on functional properties of sweet potato bioactive components[J].Journal of the Chinese Cereals and Oils Association,2023,38(4):195⁃202. [12]WANG Z,LAN S L,DONG L.Review on hygienical components of sweet potato and their functions[J].Agricultural Science &Technology,2007,8(1):7⁃13. [13]MOHANRAJ R,SIVASANLARL S.Sweet potato(Ipomoea batatas Lam):A valuable medicinal food:A review[J].J Medci Food,2014,17(7):733. [14]刘国强,赵海,李星,等.甘薯的保健功能及药用价值研究进展[J].农产品加工,2021(4):74⁃77,82. LIU G Q,ZHAO H,LI X,et al.Research progress on health function and medicinal value of sweet potato[J].Farm Products Processing,2021(4):74⁃77,82. [15]唐任寰.论生物体内的生物元素图谱[J].北京大学学报(自然科学版),1996,32(6):113⁃126. TANG R H.On the biological element spectrum in organism[J].Acta Scientiarum Naturalium Universitatis Pekinensis,1996,32(6):113⁃126. [16]ADRIAN D.92种元素组成神奇宇宙[M].陈晟,何菁韡,顾莹,译.北京:人民邮电出版社,2016. ADRIAN D.92 elements make up the magic universe[M].CHEN S,HE J W,GU Y,translation.Beijing:People’s Post and Telecommunications Publishing House,2016. [17]程建峰.植物生理学[M].南昌:江西高校出版社,2019. CHENG J F.Plant physiology[M].Nanchang:Jiangxi University Press,2019. [18]刘薇.土壤植物营养与农产品品质及人畜健康关系[J].农业与技术,2016,36(8):243. LIU W.The relationship between soil⁃plant nutrition and farm produce quality along with human and livestock health[J].Studies of Trace Elements and Health,2016,36(8):243. [19]FRUST A,PACKER L.An evaluation of iron status in human health and disease[J].Environmental&Nutritional Iteractions,1997,1(2):119⁃125. [20]PANKAJ K,TIWARI A K,SHUKLA A,et al.Zinc and iron in soil,plant,animal and human health[J].Indian Journal of Fertilisers,2016,12(11):133⁃149. [21]COLLINS J F.Molecular,genetic,and nutritional aspects of major and trace minerals[M].New York:Academic Press,2017. [22]朱盼盼,马彦平,周忠雄,等.微量元素锌与植物营养和人体健康[J].肥料与健康,2021,48(5):16⁃18,23. ZHU P P,MA Y P,ZHOU Z X,et al.Trace element zinc,plant nutrition and human health[J].Fertilizer&Health,2021,48(5):16⁃18,23. [23]RAYMAN M P. Selenium and human health[J].The Lancet,2012,379:1256⁃1268. [24]RAILEY R T.Review:Selenium contamination,fate,and reactive transport in groundwater in relation to human health[J].Hydrogeology Journal,2016,25(4):1⁃27. [25]KIELISEZEK M.Selenium⁃fascinating microelement,properties and sources in food[J].Molecules,2019,24(7):1298. [26]XIA X J,ZHANG X L,LIU M C,et al.Toward improved human health:Efficacy of dietary selenium on immunity at the cellular level[J].Food&Function,2021,12:976⁃989. [27]郑飞,郭欣,郭博洋,等.重金属污染评估及其生物健康效应[J].中国科学( 生命科学),2021,51(9):1264⁃1273. ZHENG F,GUO X,GUO B Y,et al.Risk assessments and health impacts of heavy metal pollution[J].Scientia Sinica Vitae,2021,51(9):1264⁃1273. [28]SHUKLA L,JAIN N.A review on soil heavy metals contamination:Effects,sources and remedies[J].Applied Ecology and Environmental Sciences,2022,10(1):15⁃18. [29]HEFFERON K L.Nutritionally enhanced food crops:Progress and perspectives[J].International Journal of Molecular Sciences,2015,16(2):3895⁃3914. [30]TAN X L,YANG X,XIE Y N,et al.Effects of different foliar iron applications on activity of ferric chelate reductase and concentration of iron in sweet potato(Ipomoea batatas)[J].Crop&Pasture Science,2019,70(4):359⁃366. [31]BRADFIELD S J,KUMAR P,WHITE J C,et al.Zinc,copper,or cerium accumulation from metal oxide nanoparticles or ions in sweet potato:Yield effects and projected dietary intake from consumption[J].Plant Physiology and Biochemistry,2017,110:128⁃137. [32]徐聪,刘媛媛,孟凡乔,等.农产品硒含量及与土壤硒的关系[J].中国农学通报,2018,34(7):96⁃103. XU C,LIU Y Y,MENG F Q,et al.Selenium content in agricultural products and its relationship with soil selenium[J].Chinese Agricultural Science Bulletin,2018,34(7):96⁃103. [33]SONG J P,ZHANG Z Z,CAO S,et al.Comparative study about selenium accumulation of Chinese yam with root and foliar selenium application[J].Advance in Agriculture Science,2020,2(4):134⁃148. [34]NDATHE J K.The uptake and tolerance levels of selected heavy metal ions and their distribution in sweet potato plants(Ipomoea hatatas)under in vitro conditions[D].Nairob:The University of Nairob,2009. [35]DE OLIVEIRA V C,FAQUIN V,ANDRADE F R,et al.Physiological and physicochemical responses of potato to selenium biofortification in tropical soil[J].Potato Research,2019,62:315⁃331. [36]王晓丽,张泽洲,王张民,等.江西宜春市明月山地区土壤和多种作物中硒的含量及形态分布特征[J].科学通报,2021,67(6):511⁃519. WANG X L,ZHANG Z Z,WANG Z M,et al.Content and speciation distribution of selenium in soil and crops in Mingyue mountain area of Yichun City,Jiangxi Province[J].Chinese Science Bulletin,2021,67(6):511⁃519. [37]陆国权,王戈亮,李娟.不同肉色甘薯铁、锌、钙、硒有益矿物成分含量的产地差异[J].中国粮油学报,2004,19(2):57⁃61. LU G Q,WANG G L,LI J.Origin variation of Fe,Zn,Ca,Se contents in sweetpotatoes with different inner color[J].Chinese Cereals and Oils Association,2004,19(2):57⁃61. [38]廖青,邢颖,梁潘霞,等.甘薯自然富硒能力测定及施硒方式对甘薯硒含量的影响[J].西南农业学报,2017,3(8):1838⁃1842. LIAO Q,XING Y,LIANG P X,et al.Natural selenium⁃enriched ability of sweet potatoes and effect of ways of applying selenium on selenium content of sweet potato[J].Southwest China Journal of Agricultural Sciences,2017,3(8):1838⁃1842. [39]黄婷,万玲,陈艳丽,等.7个甘薯品种自然富硒能力的比较[J].热带生物学报,2019,10(4):338⁃342. HUANG T,WAN L,CHEN Y L,et al.Natural selenium⁃enriching ability of 7 sweet potato varieties[J].Journal of Tropical Biology,2019,10(4):338⁃342. [40]潘晓红.不同甘薯品种在安康地区的适应性及对硒元素吸收积累的研究[J].农业科学,2019,9(3):182⁃185. PAN X H.Study on the adaptability of different sweet potato varieties in Ankang area and the absorption and accumulation of selenium[J].Hans Journal of Agricultural Sciences,2019,9(3):182⁃185.
WANG G L.Genotypic variances and environmental effects on several mineral elements in sweetpotatoes(Ipomoea batatas Lam.)[D].Hangzhou:Zhejiang University,2004. [42]刘兰英,吕新,陈丽华,等.土壤镉胁迫对甘薯品质和镉、锌吸收的影响[J]. 福建农业学报,2019,34(3):344⁃351. LIU L Y,LÜ X,CHEN L H,et al.Cd and Zn uptakes and quality of sweet potatoes under Cd stress[J].Fujian Journal of Agricultural Sciences,2019,34(3):344⁃351. [43]罗启燕,黄振霖,胡康,等.九个食用型甘薯新品种薯块矿物质成分和粗蛋白含量分析[J].南方农业,2018,12(13):10⁃13,27. LUO Q Y,HUANG Z L,HU K,et al.An analysis on the mineral composition and crude protein content of wedges of nine new editable sweet potato varieties[J].South China Agriculture,2018,12(13):10⁃13,27. [44]张道微,董芳,张亚,等.镉污染土壤中甘薯镉元素的时空积累规律[J].华北农学报,2020,35(S1):289⁃298. ZHANG D W,DONG F,ZHANG Y,et al.Spatial and temporal accumulation characteristics of cadmium in sweetpotato which grown in cadmium contaminated soil[J].Acta Agriculturae Boreali⁃Sinica,2020,35(S1):289⁃298. [45]温国灿.不同品种甘薯对土壤重金属铬富集能力的差异[J].农业科技与信息,2021(4):59⁃61. WEN G C.Differences in enrichment ability of different varieties of sweet potato to soil heavy metal chromium[J].Agricultural Science and Technology and Information,2021(4):59⁃61. [46]中华人民共和国国家卫生和计划生育委员会,国家食品药品监督管理总局.食品安全国家标准食品中多元素的测定:GB 5009. 268—2016[S]. 北京:中国标准出版社,2016. National Health and Family Planning Commission of the People’s Republic of China,National Food and Medical Products Administration.National food safety standard:Determination of multi⁃elements in food:GB 5009.268—2016[S].Beijing:China Standards Press,2016. [47]王洪博,付媛媛,杨鸿基,等.基于隶属函数法对不同基因型棉种萌发期抗氧化能力的综合评价[J].棉花学报,2021,33(5):393⁃403. WANG H B,FU Y Y,YANG H J,et al.Comprehensive evaluation of antioxidant ability of different genotypes of cotton in germination period based on subordinate function method[J].Cotton Science,2021,33(5):393⁃403. [48]杜艳,李娟,陈正行,等.不同品种青稞籽粒不同部位粉营养价值综合评价[J].中国粮油学报,2021,36(10):50⁃56. DU Y,LI J,CHEN Z X,et al.Comprehensive evaluation of nutritional value of various parts of flour of different highland barley varieties[J].Journal of the Chinese Cereals and Oils Association,2021,36(10):50⁃56. [49]章洁琼,刘辉,邹军,等.不同小米品种理化品质及感官品质分析与评价[J].中国粮油学报,2022,37(5):70⁃78. ZHANG J Q,LIU H,ZOU J,et al.Analysis and evaluation of physical and chemical and sensory quality of different varieties of millet[J].Journal of the Chinese Cereals and Oils Association,2022,37(5):70⁃78. [50]何平,程志远,李穆,等.甘蔗苗期对干旱胁迫的生理响应研究[J].中国农学通报,2014,30(31):132⁃135. HE P,CHENG Z Y,LI M,et al.Research on sugarcane seedling physiological response to drought stress[J].Chinese Agricultural Science Bulletin,2014,30(31):132⁃135. [51]TIAN Y.Comparative study of environmental education in Chinese and American colleges based on entropy weight method[J].Journal of Environmental Protection and Ecology,2021,22(5):2176⁃2185. [52]何英,唐晓宇,彭亮,等.南疆丰收灌区水资源多目标优化配置方案优选[J].农业工程学报,2021,37(6):117⁃126. HE Y,TANG X Y,PENG L,et al.Optimized selection of the solution for multi⁃objective optimal allocation of water resources in Fengshou irrigation areas of south Xinjiang[J].Transactions of the Chinese Society of Agricultural Engineering,2021,37(6):117⁃126. [53]张文彤,董伟.SPSS统计分析高级教程[M].3版. 北京:高等教育出版社,2018. ZHANG W T,DONG W.Advanced tutorial of SPSS statistical analysis[M].3rd ed. Beijing:Higher Education Press,2018. [54]胡燕,李育明,李强,等.甘薯中10种元素含量分析[J].中国农业科技导报,2010,12(3):131⁃137. HU Y,LI Y M,LI Q,et al.Analysis of ten elements’contents in sweet potato[J].Journal of Agricultural Science and Technology,2010,12(3):131⁃137. [55]余华,宋永康,姚清华,等.不同肉色甘薯营养成分分析[J].福建农业学报,2010,25(4):482⁃485. YU H,SONG Y K,YAO Q H,et al.Nutrition composition of sweet potatoes of different colors[J].Fujian Journal of Agricultural Sciences,2010,25(4):482⁃485. [56]张超凡,张道微,周虹,等.镉污染稻田甘薯品种镉积累差异分析[J].湖南农业科学,2018,47(1):48⁃50. ZHANG C F,ZHANG D W,ZHOU H,et al.Difference analysis of cadmium accumulation of sweet potato varieties in Cd⁃contaminated rice field[J].Hunan Agricultural Sciences,2018,47(1):48⁃50. |
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