单季粳稻“基肥基础上一次性准时追肥”施肥法的研究
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摘要
2000—2001年,在扬州大学实验农场的砂壤土上,利用长江下游稻区有代表性的主茎18叶的单季晚粳品种,于前茬为小麦、地力中上等的土地上,采用秧龄为8叶的带蘖壮秧,666.67m~2栽插1.5万穴,每穴两本。在666.67m~2施7.5Kg氮素作基肥的基础上,分别设置了于13、14、15、16、17、18叶一次性追肥的6个处理(处理代号分别为N13、N14、N15、N16、N17、N18),每个处理追施氮素均为7.5Kg/666.67m~2。同时,以本田生育期不施氮素为CK1、大田生育期仅施基肥氮素7.5Kg为CK2。两年试验得到如下一致的结果:
(1)666.67m~2的稻谷产量大小顺序为N15>N16>N14>N17>N13>N18,前三者均>650Kg。高产的主要原因是单位面积穗数与每穗粒数的协同增加所致。
(2)整精米率随追氮叶龄增大呈细微的下降趋势;垩白率与垩白度随追氮叶龄增大呈显著性上升;直链淀粉含量与胶稠度则随追氮叶龄增大而呈现有规律性的细微下降;蛋白质含量则随施氮叶龄增大而明显的直线形提高。但从总体上看,N15、N16、N14三处理高产与诸多品质性状可得相当程度上的协调统一。
(3)通过处理间群体构建与株型构造上的分析表明,N15、N16、N14均具有较适的叶龄动态,株型较好,源库较大,且关系相对协调。植株中后期营养状况为,群体中后期物质增长量均较高,同时后期茎叶的物质运转率亦较大。所有这些均是三处理高产与质优一定程度上得到协调的重要生物学基础。
(4)氮素当季利用率为N15>N16>N14>N17>N18>N13,且前三者均在40%以上,比传统施肥法提10个百分点以上。同时这三者追氮生产力也较高,因此是高效追氮叶龄期。
综上所述,初步认为15、16、14是水稻产量较高、品质优良、施氮效率高的追氮叶龄期,其中15叶最好。由此可初步构成单季晚粳基肥基础上一次性准时追肥的新型施肥法。
The two-year trail was run from 2000 to 2001 at the field experimental farm of the Institute for Yangzhou University to evaluate the conventional variety 941 with 18 leaves at 7.5Kg/666.67m2 N application rate which was addressed only once in the whole life on the base of basic fertilizer. The different N addressed time was chosen in the 6 periods of leaf age: 13 14 15 16, 17, 18 leaf, respectively(The code was N13, N14, N15, N16, N17 N18, respectivily). The contrasted treatments were CK1 without N application and CK2 with N application only as basic fertilizer. The soil was loamy sand with organic matter 1.2% .Total N 0.12% , 88.7 mg/kg assimilable K2O 36.3 mg/kg P2O5 .Three replicates were conducted. The main results were as follows:
(l)The sequence of grain yield was N15>N16>N14>N17>N13>N18, and the former three results were recorded higher than 650 Kg/666.67m2 due to the correspondence between the number of ear per 666.67m2 and the number of gram per spike.
(2) With the increase of leafage when N was addressed, head milled rice amylose content and gel consistency respectively were regularly decreased in a slight degree, while the percentage of chalkiness protein content were linearly increased . As a whole, a correspondence could be formed between the high grain yield and those parameter of quality of rice in some degree.
(3)Data on the construction of mass biosome and the type of plant indicated that N15 N16. N14, the three treatment of all that was applied to, contained the appropriate dynamics of leafage, more excellent plant type, good relationship between source and sink with larger number. The higher increasing rate of dry matter and its transport rate at the middle and later growing stage were also given. All these founded the important biological base for the correspondence between high yield and good quality.
(4)The sequence of N utilization efficiency was N15>N16>N14>N17>N13>N18,and N15 N16 N14 were over 40%, higher 10% than mat of adopting conditional N addressed method. N addressed productivity of the three treatment was also higher than the others. All these indicated that the appropriate period of N addressed should chose Nl 5, N16 N14.
Wholly, these results showed that the period of N addressed chosen in N14, N15 and N16 was the cause of higher yield good quality and higher N utilization efficiency, by which a new approach of addressing N only once in the whole life on the basement of basic fertilization in conventional rice in the lower reaches of Yangtze Rive was constructed.
(1)666.67m~2的稻谷产量大小顺序为N15>N16>N14>N17>N13>N18,前三者均>650Kg。高产的主要原因是单位面积穗数与每穗粒数的协同增加所致。
(2)整精米率随追氮叶龄增大呈细微的下降趋势;垩白率与垩白度随追氮叶龄增大呈显著性上升;直链淀粉含量与胶稠度则随追氮叶龄增大而呈现有规律性的细微下降;蛋白质含量则随施氮叶龄增大而明显的直线形提高。但从总体上看,N15、N16、N14三处理高产与诸多品质性状可得相当程度上的协调统一。
(3)通过处理间群体构建与株型构造上的分析表明,N15、N16、N14均具有较适的叶龄动态,株型较好,源库较大,且关系相对协调。植株中后期营养状况为,群体中后期物质增长量均较高,同时后期茎叶的物质运转率亦较大。所有这些均是三处理高产与质优一定程度上得到协调的重要生物学基础。
(4)氮素当季利用率为N15>N16>N14>N17>N18>N13,且前三者均在40%以上,比传统施肥法提10个百分点以上。同时这三者追氮生产力也较高,因此是高效追氮叶龄期。
综上所述,初步认为15、16、14是水稻产量较高、品质优良、施氮效率高的追氮叶龄期,其中15叶最好。由此可初步构成单季晚粳基肥基础上一次性准时追肥的新型施肥法。
The two-year trail was run from 2000 to 2001 at the field experimental farm of the Institute for Yangzhou University to evaluate the conventional variety 941 with 18 leaves at 7.5Kg/666.67m2 N application rate which was addressed only once in the whole life on the base of basic fertilizer. The different N addressed time was chosen in the 6 periods of leaf age: 13 14 15 16, 17, 18 leaf, respectively(The code was N13, N14, N15, N16, N17 N18, respectivily). The contrasted treatments were CK1 without N application and CK2 with N application only as basic fertilizer. The soil was loamy sand with organic matter 1.2% .Total N 0.12% , 88.7 mg/kg assimilable K2O 36.3 mg/kg P2O5 .Three replicates were conducted. The main results were as follows:
(l)The sequence of grain yield was N15>N16>N14>N17>N13>N18, and the former three results were recorded higher than 650 Kg/666.67m2 due to the correspondence between the number of ear per 666.67m2 and the number of gram per spike.
(2) With the increase of leafage when N was addressed, head milled rice amylose content and gel consistency respectively were regularly decreased in a slight degree, while the percentage of chalkiness protein content were linearly increased . As a whole, a correspondence could be formed between the high grain yield and those parameter of quality of rice in some degree.
(3)Data on the construction of mass biosome and the type of plant indicated that N15 N16. N14, the three treatment of all that was applied to, contained the appropriate dynamics of leafage, more excellent plant type, good relationship between source and sink with larger number. The higher increasing rate of dry matter and its transport rate at the middle and later growing stage were also given. All these founded the important biological base for the correspondence between high yield and good quality.
(4)The sequence of N utilization efficiency was N15>N16>N14>N17>N13>N18,and N15 N16 N14 were over 40%, higher 10% than mat of adopting conditional N addressed method. N addressed productivity of the three treatment was also higher than the others. All these indicated that the appropriate period of N addressed should chose Nl 5, N16 N14.
Wholly, these results showed that the period of N addressed chosen in N14, N15 and N16 was the cause of higher yield good quality and higher N utilization efficiency, by which a new approach of addressing N only once in the whole life on the basement of basic fertilization in conventional rice in the lower reaches of Yangtze Rive was constructed.
引文
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3、江苏省农学会.江苏稻作科学.江苏科学技术出版社,1990
4、上海科学技术情报研究所,1976,日本水稻高产施肥法的发展,上海科学技术出版社
5、松岛省三.1960,稻作的理论与技术,养贤堂
6、松岛省三.1973,稻作的改善与技术,养贤堂
7、田中稔.1974,深层追肥稻作,富民协会
8、片仓权次郎.穗心青心五石.农山渔村文化协会,1964
9、稻藁光国.太茎大穗.农山渔村文化协会,1993
10、桥川潮.基肥无氮使水稻姿势、穗相发生变化而获得高产.现代农业,1981,60(6)
11、杨从党 周能,袁平荣等.高产水稻品种的物质生长特性.西南农业学报,1998,(11):89—95
12、袁平荣,孙传清,杨从党等.云南籼稻每公顷15吨高产的产量及其结构分析.作物学报,26(6):754—761
13、钟旭华,彭少兵,JohnE.Sheehy,等.水稻群体成穗率与干物质积累动态关系的模拟研究.中国水稻科学(Chinese J Rice Sci),2001,15(2):107~112
14、陈永康,杨立炯,崔继林,汤玉庚.晚粳稻高产的看苗诊断和栽培措施的研究,作物学报,1964,(12)
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16、王良泉等.崔竹松 水稻高产技术经验的初步研究.作物学报,1965,4(1)
17、江苏省农业科学院土壤肥料研究所等.苏州地区氮素化肥合理施用技术研究,Ⅰ前季稻氮肥的用量与方法,江苏农业科学,1981(2)
18、肖恕贤,覃步生等.杂交早稻需肥特性和施肥技术研究.作物学报,1982,8(1)
19、姚长溪,蒋彭炎等.稀播少本插早稻施肥技术的研究.浙江农业科学,1983(2)
20、凌启鸿等.水稻不同层次根系的功能及对产量形成作用的研究,中国农业科学,1984,5:3—10
21、凌启鸿等.水稻群体“粒叶比”与高产途径的研究,中国农业科学,1986,(3)
22、江苏水稻叶龄模式研究协作组.水稻叶龄施用穗肥的研究.江苏农学院学报,1985,6(3):11—19
23、陈家驹,李义珍等.W型施肥法提高肥料和稻谷生产率的研究.土壤学通报,1981,(4)
24、凌启鸿等.叶龄余数在稻穗分化鉴定中的应用价值.中国农业科学,1980,4:1—10
25、赵明,王树安,李少昆.论作物产量研究的三结合结构模式.北京农业大学学报,1995,21(4):359-363
26、李祖章,陶其骧,刘光荣等.双季两系杂交稻高产营养特性和施肥技术.江西农业学报,1998,18(2):27-29
27、吴敬民,姚月明,陈永芳等.水稻基肥机械深施及肥料运筹方式效果研究.土壤通报,1999,30(3):110-112
28、凌励.高产水稻养分吸收特点初析.水稻高产高效理论与新技术,第五届全国水稻高产与技术研讨会论文集
29、陈荣业,孙秀廷,李阿荣等.苏州高产稻区氮肥的经济施用.土壤学报,1983,20(4):273-285
30、林培,等.快把无效农本降下来.新华日报,A4,2002,1,18
31、刘建萍,李季能.浅议稻米结构调整与优质化.江西农业科技,2002年,14—16
32、庾晋,白木,周洁.中国应大力发展优质稻.粮食科技与经济,2001,6:26—28
33、凌启鸿.改革肥料运筹,优化水稻群体质量.黄仲青等主编.水稻高产高效理论与新技术。北京:中国农业科技出版社,1996.124—135
34、江苏省农学会.江苏稻作科学.江苏科学技术出版社,1990
35、沈振国,史瑞和.水稻对氮素的吸收和分配与土壤肥力的关系.江苏农业科学,1990,(3):41—42
36、黄发松,罗玉坤等.我国优质稻米的生产现状与对策.中国稻米,1998,6:3~6
37、江苏省作物栽培技术指导站.1998年水稻生产与1999年技术意见,内部资料
38、陈荣业.苏州高产稻区氮肥的经济利用.土壤学报,1983,(4):373—385
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43、凌启鸿等.水稻品种不同生育类型的叶龄模式.中国农业科学,1984,1:10—19
44、凌启鸿.改革肥料运筹、优化水稻群体质量.水稻高产高效理论与新技术—第五届全国水稻高产与技术研讨会论文集,1995:124-134
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49、凌启鸿,杨建昌等.水稻群体粒叶比与高产栽培途径的研究.中国农业科学,1986,(3):1—8
50、朱庆森,王志琴,张祖建等.水稻籽粒充实度的指针研究.江苏农学院学报,1995,16(2):1-4
51、周日明.浅析施肥对水稻优质栽培的影响.江苏农业科学,2001,(1):68-70
52、张宪政主编.作物生理研究法.农业出版社,1990:70-72
2、江苏省农科院水稻栽培组.麦稻稻三熟高产三千斤试验研究的总结.江苏农业科学,1979,(2)
3、江苏省农学会.江苏稻作科学.江苏科学技术出版社,1990
4、上海科学技术情报研究所,1976,日本水稻高产施肥法的发展,上海科学技术出版社
5、松岛省三.1960,稻作的理论与技术,养贤堂
6、松岛省三.1973,稻作的改善与技术,养贤堂
7、田中稔.1974,深层追肥稻作,富民协会
8、片仓权次郎.穗心青心五石.农山渔村文化协会,1964
9、稻藁光国.太茎大穗.农山渔村文化协会,1993
10、桥川潮.基肥无氮使水稻姿势、穗相发生变化而获得高产.现代农业,1981,60(6)
11、杨从党 周能,袁平荣等.高产水稻品种的物质生长特性.西南农业学报,1998,(11):89—95
12、袁平荣,孙传清,杨从党等.云南籼稻每公顷15吨高产的产量及其结构分析.作物学报,26(6):754—761
13、钟旭华,彭少兵,JohnE.Sheehy,等.水稻群体成穗率与干物质积累动态关系的模拟研究.中国水稻科学(Chinese J Rice Sci),2001,15(2):107~112
14、陈永康,杨立炯,崔继林,汤玉庚.晚粳稻高产的看苗诊断和栽培措施的研究,作物学报,1964,(12)
15、中国农科院江苏分院,陈永康水稻高产经验研究,上海科学技术出版社.1962,1—5
16、王良泉等.崔竹松 水稻高产技术经验的初步研究.作物学报,1965,4(1)
17、江苏省农业科学院土壤肥料研究所等.苏州地区氮素化肥合理施用技术研究,Ⅰ前季稻氮肥的用量与方法,江苏农业科学,1981(2)
18、肖恕贤,覃步生等.杂交早稻需肥特性和施肥技术研究.作物学报,1982,8(1)
19、姚长溪,蒋彭炎等.稀播少本插早稻施肥技术的研究.浙江农业科学,1983(2)
20、凌启鸿等.水稻不同层次根系的功能及对产量形成作用的研究,中国农业科学,1984,5:3—10
21、凌启鸿等.水稻群体“粒叶比”与高产途径的研究,中国农业科学,1986,(3)
22、江苏水稻叶龄模式研究协作组.水稻叶龄施用穗肥的研究.江苏农学院学报,1985,6(3):11—19
23、陈家驹,李义珍等.W型施肥法提高肥料和稻谷生产率的研究.土壤学通报,1981,(4)
24、凌启鸿等.叶龄余数在稻穗分化鉴定中的应用价值.中国农业科学,1980,4:1—10
25、赵明,王树安,李少昆.论作物产量研究的三结合结构模式.北京农业大学学报,1995,21(4):359-363
26、李祖章,陶其骧,刘光荣等.双季两系杂交稻高产营养特性和施肥技术.江西农业学报,1998,18(2):27-29
27、吴敬民,姚月明,陈永芳等.水稻基肥机械深施及肥料运筹方式效果研究.土壤通报,1999,30(3):110-112
28、凌励.高产水稻养分吸收特点初析.水稻高产高效理论与新技术,第五届全国水稻高产与技术研讨会论文集
29、陈荣业,孙秀廷,李阿荣等.苏州高产稻区氮肥的经济施用.土壤学报,1983,20(4):273-285
30、林培,等.快把无效农本降下来.新华日报,A4,2002,1,18
31、刘建萍,李季能.浅议稻米结构调整与优质化.江西农业科技,2002年,14—16
32、庾晋,白木,周洁.中国应大力发展优质稻.粮食科技与经济,2001,6:26—28
33、凌启鸿.改革肥料运筹,优化水稻群体质量.黄仲青等主编.水稻高产高效理论与新技术。北京:中国农业科技出版社,1996.124—135
34、江苏省农学会.江苏稻作科学.江苏科学技术出版社,1990
35、沈振国,史瑞和.水稻对氮素的吸收和分配与土壤肥力的关系.江苏农业科学,1990,(3):41—42
36、黄发松,罗玉坤等.我国优质稻米的生产现状与对策.中国稻米,1998,6:3~6
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