摘要
本论文通过采用二次饱和D—最优回归设计(311B方案),对氮磷钾肥配施以及有机肥和化肥配施与大白菜高产优质之间的关系进行研究,旨在保证大白菜高产的前提下,通过各种肥料的配套施用来提高大白菜Vc含量,同时降低硝酸盐的含量,探索出一条适合于吉林省无公害大白菜生产的施肥模式。本论文试验于2003年6月至10月在吉林农业大学科学试验站进行,对不同施肥处理的大白菜分别进行了产量、维生素C含量及硝酸盐含量的测定,并建立各自的施肥模型,由此得出大白菜高产优质的最佳氮磷钾肥配比和施用量。
大白菜施肥试验表明,不同品种大白菜在施肥后,无论产量还是品质均好于不施肥的对照处理,在氮磷钾肥科学的配比和合理的用量下,施肥可以使大白菜产量提高30%以上,Vc含量和干物质均有大幅度增长,而硝酸盐含量明显下降,因此,真正的高产优质大白菜应该科学施肥,而不是不施肥。
通过采用二次饱和D—最优回归设计(311B方案),建立了能表达施用氮磷钾肥与大白菜产量、Vc含量以及硝酸盐含量之间关系的数学模型,经检验各模型可靠。通过对各模型频率分析分别确定了最佳施肥范围和施肥配比。
通过对施肥与产量、Vc含量、硝酸盐含量的关系模型的分析表明,在同时满足高产、优质和安全这三项指标的情况下,大白菜磷钾肥的最佳施肥区间基本一致,而氮肥的差异较大。在要求高产时,绿星80大白菜的最佳施肥量为纯N244.4~288.3kg/hm~2、P_2O_5150.2~188.9kg/hm~2、K_2O148.2~181.3 kg/hm~2;五福菜王大白菜的最佳施肥量为纯N2O2.4~249.9kg/hm~2、P_2O_5151.8~187.4kg/hm~2、K_2O149.4~180.1kg/hm~2。在要求优质时,绿星80大白菜的最佳施肥量为纯N193.2~231.7kg/hm~2、P_2O_5111.3~145.8kg/hm~2、K_2O140.5~181.6kg/hm~2;而五福菜王大白菜的最佳施肥量为纯N2O8.9~250.2kg/hm~2、P_2O_5119.8~155.3kg/hm~2、K_2O135~170.2kg/hm~2。在较低硝酸盐含量时,绿星80大白菜的最佳施肥量为纯N112.3~153.7kg/hm~2、P_2O_5158~189kg/hm~2、K_2O128.6~164.5kg/hm~2;五福菜王大白菜的最佳施肥量为纯N95.6~149.8kg/hm~2、P_2O_5172.4~205.3kg/hm~2、K_2O136~179.2kg/hm~2。如果在保证磷钾肥最佳施用量的情况下,适当提高氮肥的用量,既可达到高产和较高的Vc含量,又不会造成大白菜体内硝酸盐的过度累积,即不超过国家限量标准(≤1440mg/kg),这样既可以保证食品安全和较高的营养物,又可保证相当高的产量及农民的经济收益。通过试验得出绿星80大白菜的氮磷钾最佳施肥量为纯N245~265kg/hm~2,P_2O_5158~188kg/hm~2,K_2O150~165kg/hm~2,N:P_2O_5:K_2O=1:0.68:0.62,此时预测产量为119620kg/hm~2、Vc含量为272.14mg/kg、硝酸盐含量为1051.67mg/kg;
吉林农业大学硕士学位论文
施肥对大白莱产t和品质的影响及硝破盐累积的研究
而五福菜王大白莱的氮磷钾最佳施肥量为纯NZ10一230kg/耐,P刃5170一19okg/耐,
K2o150一18okg/hInz,N:PZos:KZo二1:0.52:0.75,此时预测产量为巧o59okg/hInz、ve含量
为276 .92mg/kg、峭酸盐含量为1021.52啊/kg。
不同大白莱品种试验表明,氮磷钾肥合理配施对大白菜高产优质具有相同的趋势,
但不同品种间在产量和品质方面存在一定的差异,不同品种大白菜对氮磷钾肥具有不同
的效率,这可能是由遗传特性所决定的。因此在大白莱实际生产中,在考虑高产的同时,
一定要尽量选择对于降低峭酸盐累积和提高vc含量等具有良好遗传性质的品种。
有机肥与氮磷钾化肥配施试验结果表明,氮磷钾肥与腐熟有机肥适当配施,在满足
养分最佳配比的情况下,不但会显著提高各品种大白莱的产量和vc含量,而且还会适
当降低稍酸盐的累积,同时提高大白菜的干物质积累。具体施肥量应根据大白菜品种和
土壤肥力差异而定。
通过不同品种大白菜稍酸盐累积量和梢酸还原酶活性的试验表明,大白莱体内稍酸
盐含量与峭酸还原酶活性具有很大的相关性,峭酸还原酶作为一种底物诱导酶,是促进
大白菜体内峭酸盐转化的一个关健因子,可以作为大白莱体内峭酸盐累积的一项指标。
但其机理并未明确,因此有关稍酸盐累积与稍酸还原酶活性之间的关系,今后还有待于
进一步深入的研究。
通过对大白莱贮藏和腌渍试验表明,大白莱虽然从生长到收获,其峭酸盐累积现象
较为突出,但按照人们对秋白菜的食用习惯通常存储一段时间,大白菜的峭酸盐含童会
有明显下降,并基本达到了国家标准中的熟食限量标准,但一般不宜生食。而胳清后的
酸菜中虽然硝酸盐含量有大幅度下降,但亚稍酸盐含量上升的趋势不容忽略,将酸菜切
洗后,峭酸盐和亚峭酸盐含量虽都有明显下降,但亚稍酸盐含童仍大于。.13Ing/kg的限
量,这对食用人群的安全构成一定的危害。因此从饮食营养安全的角度,建议业方地区
应减少对酸菜的食用,或通过食品工作者的努力研究出更好的腌渍条件,以避免亚峭酸
盐对人体健康带来的直接危害。随着人们生活水平的提高,对大白菜品质的要求也越来
越高,这就要求我们必须推广和应用科学的施肥方法,控制氮磷钾肥的比例和用量,生
产
The paper take advantage of quadratic saturation D optima design (311B project), and study on the effects of combined application of N,P and K on the yields and qualities of Chinese cabbage, and the effects of combined application organic manure and chemical fertilizers. The purpose is to heighten the content of Vc and lower nitrate content by fertilization under the condition of satisfying the yield of Chinese cabbage, and explore an ideal fertilizer applied model which cut out of product no hazard Chinese cabbage in JiLin Province. The experiment of this paper was carried out in the JiLin Agriculture University from June to October in 2003,We measure the yield, the content of Vc and nitrate content of Chinese cabbage with different fertilization and build up fertilizer applied model and come into the optimum rates of N, P2Os and K2O which gave high yields of Chinese cabbage with good qualities.
The results of experiment showed: the yields or qualities of Chinese cabbage which be applied fertilizers are all better than CK, It can improve 30 percent on the yield of Chinese cabbage by combined fertilization. The content of Vc and pure substance all increase too much, but the content of nitrate descend obviously. So the Chinese cabbage which are high yields and good qualities should be applied fertilizers.
The extent of P2O5 and K2O are same basically under the condition of satisfying high yield and good qualities of Chinese cabbage by the equation between fertilization and the yield, the content of Vc, nitrate content, but nitrogen is different. By the experiment , think about the optimum economic utility and not exceed the limit of danger ( 1440mg/kg),Obtain the optimum extent of Chinese cabbage GS80 is N245 ~ 265kg/hm2 , P2O5158 - 188kg/hm2 , K2O150 ~ 165kg/hm2 , N:P2O5:K2O=1:0.68:0.62, the forecast yield is 119620kg/hm2, the content of Vc is 272.14mg/kg, and nitrate content is 1051.67 mg/kg; and the optimum extent of Chinese cabbage WFCW is N210~230kg/hm2, P2O5170~ 190kg/hm2, K2O150~ 180kg/hm2, N:P2O5:K2O=1:0.82:0.75, the forecast yield is 150590kg/hm2, the content of Vc 276.92mg/kg, nitrate content is 1021.82 mg/kg,
The same tendency was showed in the yields and the qualities of Chinese cabbage GS80 or WFCW by combined fertilization, but there are some differences on
the yields and quality between them on the same condition of water and fertilizers, it is probably determined by the gene. But to any kind of Chinese cabbages, there is probable a contradiction between high yield and good quality. So in the actual production, we must select some kinds whose good genetic characters.
The experiment showed, combination of organic manure and N, P2O5 and K2O not only can increase yield ,but also can improve qualities of Chinese cabbage. The ideal rates of organic manure and inorganic fertilizers are 1:1 ~ 1:2.
The nitrate content and NR have too many correlations in the Chinese cabbage by the experiment of the different kinds of Chinese cabbages. NR is an inductive enzyme, it is from gene impart to express needing induction of NOs'.So NR is an important factor accelerating nitrate conversion. But the more profound research need carry out on the aspect in the future.
The experiment show: after the Chinese cabbages have been preserved or stored up for a long time, the content of nitrate accumulation has been descent too much. It has been measured up the national criterion about taking away. But nitrite content increase too much and exceed 0.13mg/kg.The people should lessen to eat the preserved Chinese cabbages. With standard of living improved, more and more demands on good qualities of Chinese vegetables, the Chinese cabbage which been applied fertilizers will not endanger the people's health as long as eating appropriately.
引文
[1] 刘宜生主编.中国大白菜.中国农业出版社.1998.8
[2] 中华人民共和国农业部农业司.中国蔬菜专业统计资料(第二号.1991).北京:中国农业科技出版社.1991
[3] 中国预防医学科学院营养与食品卫生研究所编著,食物成分表,北京:人民卫生出版社,1991
[4] 苏小俊等编著.蔬菜优质四季栽培—白菜.科学技术文献出版社.2000.8.1
[5] 张承和编著.大白菜菜薹无公害高效栽培.金盾出版社.2003.5.1
[6] 宋元林等主编.大白菜、白菜、甘蓝.科学技术文献出版社.1999.8.1
[7] 沈明珠,翟宝杰,东惠茹等.蔬菜硝酸盐的研究Ⅰ.不同蔬菜硝酸盐和亚硝酸盐含量评价[J].园艺学报,1982,9(4):41~48.
[8] 汪李平.向长萍.王运华.我国蔬菜硝酸盐污染状况及防治途径研究进展(上),长江蔬菜,2000,4,1~4
[9] Nielsen.D.R.etal.Nitrogen in The Environment soil-plant-nitrogen Relationship,VOL.2, 201~235(1978)
[10] 周伯瑜.无公害蔬菜的施肥用药技术.湖北农业科学,1986(12):29~30
[11] 梁称福.称正法.我国无公害蔬菜生产现状与发展对策,柳州市科技信息网
[12] Maynard.D.N.Advance in Agronomy,1976,VOl.28,71~118
[13] Corre W J and Breimer T. Nitrate and nitrite in vegetable [M].Wageningen Center for Agricultural Publishing and documentation.1979,85
[14] WHO:Nitrates,Nitrites and N-titroso Coumpounds [J].Environmental Health Criteria,5(1997)
[15] 黄启为.彭建伟.罗建新等.化肥对蔬菜硝酸盐含量的影响,湖南农业大学学报(自然科学版),2002,28(5),387~390
[16] 栾非时.陈克农.陈友等.大白菜不同品种硝酸盐含量累积因素的探讨,东北农业大学学报,2000,31(2),141~146
[17] 张潄茗.江丽华.闫华等.济南市售蔬菜硝酸盐含量及施肥影响,土壤肥料,1997,5,22~24
[18] 申秀英.许晓路.金华市郊蔬菜硝酸盐污染现状及分析,农业环境与发展,2000,17(2),32~34
[19] 高小杰.南京市郊主要蔬菜硝酸盐污染现状评价,农村生态环境,1997,13(1),59~61
[20] 黄建国.袁玲.重庆市蔬菜硝酸盐、亚硝酸盐含量及其与环境的关系,生态学报,1996,16(4),383~388
[21] 盛锦寿.泉州蔬菜硝酸盐污染的调查及探讨,土壤肥料,2002,4,23~25
[22] 段永蕙.张乃明.张守萍.太原市蔬菜硝酸盐污染状况及其影响因素,农业环境保护,1998,
17(3),126~128
[23] 李新波.刘树庆.杨福存等.坝上地区蔬菜硝酸盐含量的状况及其防治措施,土壤肥料,2003,2,24~26
[24] 张竹青.杨玉华.王亚维.荆州市蔬菜硝酸盐污染现状评价及防治对策,湖北农学院学报,2002,22(1),20~23
[25] 贾来.梁命宜.长沙市蔬菜硝酸盐污染状况及对策,上海蔬菜,2003(5),61~63
[26] Guillard K,and Allinson D W,Effects of nitrogen fertilization on a Chinese cabbage hybrid [J].Agronomy J. 1988 (80):21~26
[27] 周艺敏.任顺荣.氮素化肥对蔬菜硝酸盐积累的影响[J],华北农学报,1989,4(1):110~115
[28] 任祖淦.邱孝煊.蔡元呈等.化学氮肥对蔬菜硝酸盐污染影响的研究,中国环境科学,1997,17(4),326~329
[29] 刘永菊.曹一平等.不同NPK配比对大白菜产量及硝酸盐累积的影响,土壤肥料,1994(4),26~29
[30] 孙权.丁福荣.李鹏等.氮肥对大白菜硝酸盐累积的影响及合理施用量研究,土壤,2003,35(3),255~258
[31] 卢善玲.周根娣.上海地区蔬菜硝酸盐含量状况及食用卫生评价[J],上海农业科技,1989,(4),15~16
[32] Rolf Haerdter.高产优质蔬菜的植物营养与施肥.见:谢健昌,陈际型主编.菜园土壤肥力与蔬菜合理施肥.南京:河海大学出版社,1997.1~11
[33] 何天秀等钾与氮磷肥配施对苋菜产量和硝酸盐含量的影响研究,土壤通报,1992,23(5),225~228
[34] 姚宇卿.雷全奎.郭建秋等.大白菜施钾及氮钾施效果,土壤肥料,2000(2),37,43
[35] 郭亚芬.张忠学.栾时非.氯化钾和硫酸钾对蔬菜产量品质的效应,北方园艺,1999(1),1~2
[36] 周丕东.石孝均.毛知耘.氯化铵中氯的硝化抑制效应研究,植物营养与肥料学报,2001,7(4),397~403
[37] 高祖明.张耀栋.张道勇等.氮磷钾对叶菜硝酸盐积累和硝酸还原酶、过氧化物酶活性的影响,园艺学报,1989,4,293~297
[38] 林志刚.赵仪华.薛耀英.叶菜类蔬菜的硝酸盐积累规律及其控制方法研究,土壤通报,1993,24(6),253~255
[39] Steingrover E.Woldendorp J,Sijtsma L.Nitrate accumulation and its relation to leaf eloogation in spinach leaves.Journal and experimental Botany, 1986,37(181): 1093~1102
[40] 刘秀茹.孙晓荣.王晓雪等.有机肥与氮化肥配施对蔬菜产量及硝酸盐含量的影响,辽宁农业
科学,1991,5,50~52
[41] 于彩虹.许前欣.孟兆芳.生物菌肥对蔬菜品质的影响,天津农业科学,2000,6(2),20~22
[42] 张娟 沈其荣.冉炜等.施用预处理秸秆对土壤供氮特征及菠菜产量和品质的影响,土壤,2004,36(1),37~42
[43] 沈中泉等.有机肥料对农产品品质的作用及机理[J].植物营养与肥料学报,1995,1(2):54~59
[44] 李淑芹.张耀伟.闫雷等.不同施氮肥水平对白菜硝酸盐积累的影响,东北农业大学学报,2003,34(2),152~156
[45] Cantliffe.D.J.Nitrate accumulation in vegetable crop as affected by photoperiod and light duration.J Amer Soc Hort Sci,1972,97(3):414~418
[46] Olday FC,et al.A physiological basis for different patterns of nitrate accumulation in two spinach cultivars [J].J. Am.Soc.Hort.Sc.1976,10(3):217~219
[47] 董晓英.李式军.沈仁芳.白菜不同品种对硝酸盐吸收积累差异原因初探,园艺学报,2003,30(4),470~472
[48] 李俊良.陈新平.李晓林等.大白菜氮肥施用的产量效应、品质效应和环境效应,土壤学报,2003,40(2),261~265
[49] 陈丽媛.氮磷钾不同配比及用量对大白菜产量及营养价值的影响,耕作与栽培,1991,4,49~50 39
[50] 潘洁.王德芳.陆文龙等.调节剂对大白菜硝酸盐含量的影响,农业环境保护,2001,20(3),167~168
[51] 王庆.王丽.赫崇岩等.过量氮肥对不同蔬菜中硝酸盐积累的影响及调控措施研究,农业环境保护,2000,19(1),46~49
[52] 徐中儒编著.农业试验最优回归设计.黑龙江科学技术出版社,1988,10
[53] 劳家柽.土壤农化分析手册.农业出版社.1988.12
[54] 鲍士旦主编.土壤农化分析.北京:中国农业出版社.2000.12.3
[55] 中国标准出版社编著.中国农业标准汇编.蔬菜卷.中国标准出版社.1988.12
[56] 华东师大编著.植物生理学实验指导,人民教育出版社.1980
[57] 艾绍英.姚建武.黄小红等.蔬菜硝酸盐的还原转化特性研究,植物营养与肥料学报,2002,8(1),40~43
[58] 高祖明等.几种叶菜的硝酸盐和亚硝酸盐积累及其与有关酶活性的关系[J]植物生理通讯,1990,(3),:21~24
[59] 刘杏认.任建强.甄兰.蔬菜硝酸盐累积及其影响因素的研究,土壤通报,2003,34(4),356~361
[60] 胡时友.朱端卫.新型有机复混肥对辣椒、番茄产量、品质及酶活性的影响[J].华中农业大学
学报,1999,18(2):139~141
[61] 李春九.马国瑞等.新型有机无机复肥对土壤及蔬菜产量品质的影响[J].浙江大学学报,1999,25(4):392~396
[62] 汪李平.向长平.王运华.我国蔬菜硝酸盐污染状况及防治途径研究进展(下)[J].长江蔬菜,2000,(4):1~5
[63] 陆景陵主编.植物营养学(上册),中国农业大学出版社,1994,9,1
[64] 吴平.印莉萍.张立平等编著.植物营养分子生理学.科学出版社.2001,4
[65] 陈新平.邹春琴.刘亚萍等.菠菜不同品种累积硝酸盐能力的差异及其原因,植物营养与肥料学报,2000,6(1):30~34
[66] Breimer T.Environmental factors and cultural measures affecting the nitrate in spinach.Fertilizer Research, 1982,3(3):191~192
[67] Terman GL & Allen SE.Crop yield-nitrate-N,total N,and total K relationship: Leafy vegetable. Commun.Soil Sci.Plant.1978,9:813~825
[68] Blom-Zandstra M. Nitrate accumulation in vegetables and its relationship to quality.Ann Appl Biol,1989,115.553~561
[69] 申秀英.许晓路.蔬菜硝酸盐积累机制及影响因素,Agro-environ.And Develop,1998,15(3),4~6,20
[70] 周根娣.卢善玲.磷钾肥、光照、贮藏加工对蔬菜硝酸盐含量的影响,上海农业学报,1991,7(2):53~56