A culture experiment was conducted to evaluate the growth and the nutrition of Zn,Fe,Cu,Mn of wheat plants at the seedling stage in chelater2buffered solution.Zn rates were applied at three levels of deficient (0μ mol/L),normal (3μ mol/L),excess (30μ mol/L) and P was also designed in three rates,namely,0 (insufficiency),0.6 (normal),3.0 (excess) mmol/L.The results showed that the growth of wheat was increased under normal P and Zn supply,but there would be depressed if excess or no P and Zn addition to culture solution,and these effects were stronger to the shoots than that of the roots;There was obvious antagonism between Zn and Cu at wheat seedling stage,but the translocations from root to shoot of Zn and Cu were increased under the supply of Zn,while that of Mn was decreased;A large mount of Zn was translocated to the shoot under excess Zn supply,and the total translocation of (Fe + Cu +Mn) was decreased drastically at the same time.The uptake of Fe was inhibited by the P supply,but the translocation ratio of Zn,Cu and Mn increased under the P supply;the effect of Zn itself was more remarkable than P on the uptake between Zn and Fe,Cu,Mn,the uptake of Zn was increased obviously under the Zn supply.T o the shoot of wheat seedling,the uptake of Zn was easier than Fe under P supply,but the uptake of Fe overmatched that of Zn without P supply;For Zn and Cu,the uptake of Zn excelled that of Cu with no P supply,but the uptake of Cu outbalanced Zn after P supply,the same as the uptake between Zn and Mn.In conclusion,the different combinations of Zn and P would change the synergism or antagonism between Zn and Fe,Cu,Mn more or less
Key words:
Wheat; Zn; Fe; Cu; Mn
[1] 姜丽娜,蒿宝珍,侯飞,等.小麦籽粒灌浆期铁、锌、锰、铜积累动态的研究[J].麦类作物学报,2008,28(2):301-306.
[2] 张睿,郭月霞,南春芹.不同施肥水平下小麦籽粒中部分微量元素含量的研究[J].西北植物学报,2004,24(1):125-129.
[3] Balint A F,Kovacs G,Erdei L.Comparison of the Cu,Zn,Fe,Ca and Mg contents of the grains of wild,ancient and cultivated wheat species[J].Cereal Research Communications,2001,29:375-382.
[4] Fei B,Moser S B,Jampatong S.Mineral composition of the grains of tropical maize varieties as affected by pre-an-thesis drought and rate of nitrogen fertilization[J].Crop Science,2005,45:516-523.
[5] 张英华,周顺利,张凯,等.源库调节对小麦不同品种籽粒微量元素及蛋白质含量的影响[J].作物学报,2008,34(9):1629-1636.
[6] Murphy M K,Reeves P G,Jones S S.Relationship between yield and mineral nutrient concentrations in historical and modern spring wheat cultivars[J].Euphytica,2008,163:381-390.
[7] Welch R M,Graham R D.Breeding for micronutrients in staple food crops from a human nutrition perspective[J].Journal of Experimental Botany,2004,55(396):353-363.
[8] Welch R M,Combs Jr G F,Duxbury J M.Toward a Greener′ revolution[J].Issues in Science and Technology,1997,14,50-58.
[9] Mason J B,Garcia M.Micronutrient deficiency-the global situation[J].SCN News,1993,9:11-16.
[10] Caballero B.Global patterns of child health:the role of nutrition[J].Annuals of Nutrition and Metabolism,2002,46:3-7.
[11] Branca F,Ferrari M.Impact of micronutrient deficiencies on growth:the stunting syndrome[J].Annuals of Nutrition and Metabolism,2002,46:8-17.
[12] Welch R M.Breeding strategies for biofortified staple plant foods to reduce micronutrient malnutrition globally[J].The Journal of Nutrition,2002,132 (3):495-499.
[13] Welch R M.The impact of mineral nutrients in food crops on global human health[J].Plant and Soil,2002,247:83-90.
[14] 付国占,严美玲,蔡瑞国,等.磷氮配施对小麦籽粒蛋白质组分和面团特性的影响[J].中国农业科学,2008,41(6):1640-1648.
[15] 赵琼,曾德慧.陆地生态系统磷素循环及其影响因素[J].植物生态学报,2005,29(1):153-156.
[16] 王改玲,郝明德,党廷辉,等.黄土高原旱地长期施用微肥对冬小麦产量及氮磷养分吸收的影响[J].西北植物学报,2003,23 (8):1402-1405.
[17] 买文选,田霄鸿,保琼莉,等.利用螯合-缓冲营养液对小麦苗期P-Zn关系的研究[J].植物营养与肥料学报,2008,14(6):1056-1043.
[18] 杨志敏,郑绍建,胡蔼堂.植物体内磷与重金属元素锌、隔交互作用的研究进展[J].植物营养与肥料学报,1999,5(4):366-376.
[19] 赵秀兰,王勤,胡蔼堂.磷锌颉颃作用研究进展[J].土壤通报,1999,30(3):136-137.
[20] Webb M J,Loneragan J F.Zinc translocation to wheat roots and its implications for a phosphorus/zinc interaction in wheat plants[J].Plant Nutr,1990,13:1499-1512.
[21] Giorgio Gianquinto,Azmi Abu-Rayyan,Livia Di Tola,et al.Interaction effects of phosphorus and zinc on photosynthesis,growth and yield of dwarf bean grown in two environments[J].Plant and Soil,2000,220:219-228.
[22] Parker D R,Aguilera J J,Thomason D N.Zinc-phosphorus in two cultivars of tomato grown in chelater-buffered nutrient solutions[J].Plant and Soil,1992,143:163-177.
[23] 郑绍建,杨志敏,胡霭堂.玉米、小麦细胞磷、锌营养及交互作用的研究[J].植物营养与肥料学报,1999,5(2):150-155.
[24] 杨志敏,郑绍建,胡蔼堂,等.P、Zn在小麦细胞中的累积、分布和交互作用研究[J].应用生态学报,1999,10(5):593-595.
[25] 杨莉琳,刘小京,徐进,等.小麦籽粒微量元素研究进展[J].麦类作物学报,2008,28(6):1113-1117.
[26] Brar M S,Sekhon G S.Interaction of zinc with other micronutrient cations[J].Plant and Soil,1996,45,137-143.
[27] 保琼莉,田霄鸿,杨习文,等.不同供Zn量对三种小麦基因型幼苗生长和养分吸收的影响[J].植物营养与肥料学报,2007,13(5):816-823.
[28] Alexei M,Hugo F Gómez B,et al.Yessimbekova,Hafiz muminjanov,Yu Zelenskiy,Levent Ozturk,Ismail Cakmak.Iron and zinc grain density in common wheat grown in Central Asia[J].Erphytica,2007,155:193-203.
[29] White P J,Broadley M R.Biofortifying crops with essential mineral elements[J].Trends in Plant Science,2005,10(12):586-593.
[30] 裴雪霞,党建友,吴俊兰.冬小麦铜、锌、锰研究现状[J].小麦研究,2000,21(2):28-29.
