烯效唑对玉米光合特性、产量及品质的影响研究
摘要
本文以雅玉2号和成单202为试材,探讨不同浓度(0、10、40和80mg/kg)烯效唑浸种对玉米叶片光合特性、产量及产量构成因素的调节效应,以及对玉米籽粒品质的影响,结果表明:
1.烯效唑处理显著提高了玉米吐丝期单株总光合叶面积。烯效唑提高了雅玉2号上、中、下三部分叶片光合叶面积,以提高上部叶片为主;烯效唑对成单202上部叶片光合叶面积影响不显著,提高了中、下部叶片光合叶面积。
2.吐丝期穗位叶的净光合速率、蒸腾速率和气孔导度的日变化均为“双峰”曲线。烯效唑对穗位叶光合速率、蒸腾速率和气孔导度的作用随每天的时间而变化。除午休时段外,其他时间烯效唑对三者均有提高作用,但时间不同作用大小有差异,以峰值期的效应较大。
3.在不同CO_2浓度条件下,烯效唑均显著提高了玉米穗位叶的光合速率。40mg/kg和10mg/kg的烯效唑处理分别显著提高了雅玉2号和成单202夏季中午高温弱光下穗位叶的光合能力。
4.在空气湿度(实际水汽压)3.2mb~32mb的实验条件范围内,穗位叶光合速率随空气湿度的增加先增后降。在高湿条件下,雅玉2号的光合速率显著大于成单202。不论冠层大气处于干旱还是高湿条件下,40和10mg/kg烯效唑处理分别显著提高了雅玉2号和成单202的光合速率。
5.烯效唑显著提高玉米羧化效率、表观量子效率和水分利用效率(WUE)。雅玉2号的羧化效率和表观量子效率均高于成单202,但WUE低于成单202。
6.烯效唑提高了玉米产量,其中40和10mg/kg处理分别使雅玉2号和成单202产量提高6.94%和4.59%。产量的提高主要是依靠穗粒数的增加,穗粒数增加的主要原因是秃尖的缩短和行粒数的增加。
7.烯效唑提高了雅玉2号的粗蛋白含量,但降低了成单202的粗蛋白含量。烯效唑对二者的粗蛋白产量具有显著提高作用,40和10mg/kg处理分别较CK提高21.86%和
17.79%。烯效哇显著提高了玉米籽粒粗淀粉含量和粗淀粉产量。
8.较低浓度的烯效哇处理,可使雅玉2号和成单202的赖氨酸含量均得到提高,
适中浓度的烯效哇处理对二者赖氨酸含量影响不显著;高浓度的烯效哇处理降低了前者
赖氨酸含量,却极显著提高了后者。烯效哇显著提高了玉米籽粒赖氨酸产量,40和
10mg/kg的烯效哇处理分别较CK提高8.52%和9.24%。烯效哇提高了成单202的异亮氨
酸与亮氨酸之比值,降低了雅玉2号的该比值。
The effects of soaked seeds with different concentrations(0,10, 40 and 80mg/kg) S-3307 on photosynthesis, yield and quality of Maize C.V.(Yayu 2 and Chengdan 202) were studied. The results were showed as follows.
1. Total leave areas of signal Maize plant at silking stage were significantly increased by soaked seeds with S-3307. The upper, middle and lower part leaf areas of plants for Yayu 2 were all improved by S-3307 treatment, and the upper part leaf areas was mainly improved. However, the lower part leaf areas of plants for Chengdan 202 was decreased, but the upper and middle part was raised, and the lower was predominantly increased.
2. The diurnal variation of photosynthetic rate, transprition rate and stomatal conductance of ear leaves were all double peak curves at silking stage. Except the section during "noon break". The effects of S-3307 treatment on photosynthetic rate, transprition rate and stomatal conductance of ear leaves changed with the time in a day. Except the section during "noon break", the photosynthetic rate, transprition rate and stomatal conductance of ear leaves were improved by S-3307 treatment, but increased range of them changed with the time, and that of peak time was greater than other time.
3. Under different CO2 concentrations conditions, the photosynthetic rate for ear leaves of Maize were significantly increased by S-3307 treatment. Under high temperture and low irradiance in summer, the photosynthetic capacity of ear leaves for Yayu 2 and that of Chengdan 202 were raised by 40mg/kg and 10mg/kg S-3307 treatment, respectively.
4. In the experiment condition scope of air humidity (real water vapour pressure) 3.2mb - 32mb, the photosynthetic rate increased first, then decreased as air humidity increased. Yayu 2 more suitablely grew at the moist ambient condition than Chengdan 202. No matter the atmosphere is under the drought or moist condition, the photosynthetic rate of ear leaves for Yayu 2 and that of Chengdan 202 were significantly raised by 40mg/kg and 10mg/kg S-3307
treatment, respectively.
5.The carboxylation efficiency, apparent quantum yield and water use efficiency in Maize leaves were significantly raised by S-3307 treatment. The carboxylation efficiency, apparent quantum yield of leaves for Yayu 2 were larger than that of Chengdan 202, however the water use efficiency of leaves for Yayu 2 were less than that of Chengdan 202.
6. The Maize yield were significantly raised by S-3307 treatment. The yield of Yayu 2 and that of Chengdan 202 were increased by 6.94% and 4. 59% by 40mg/kg and 10mg/kg S-3307 treatment, respectively. The increasing of yield was mainly depend on the increasing of grain number per ear. And the main reason for the increasing of it was the decreasing of bald point length and the increasing of grain number per line.
7. The crude protein content of Yayu 2 were raised by S-3307 treatment, but that of Chengdan 202 were reduced. Both the crude protein yield of Yayu 2 and that of Chengdan 202 were significantly improved. The crude protein yield of Yayu 2 and that of Chengdan 202 were raised by 21.86% and 17.79%, respectively. Both the crude starch content and starch yield of Yayu 2 and that of Chengdan 202 were significantly increased by S-3307 treatment.
8. Both the lysine content of Yayu 2 and that of Chengdan 202 were significantly increased by lower concentration of S-3307, both of them were not significantly improved by moderate concentration, and the former was decreased but the latter was significantly increased by higher concentration. Both the lysine yield of Yayu 2 and that of Chengdan 202 were significantly raised by S-3307 treatment. The total aminoacid content of Yayu 2 and that of Chengdan 202 were increased by 8.52% and 9.24% by 40mg/kg and lOmg/kg S-3307 treatment, respectively. The isoleucine /leucine of Chengdan 202 was significantly improved by S-3307 treatment, but that of Yayu 2 was decreased.
1.烯效唑处理显著提高了玉米吐丝期单株总光合叶面积。烯效唑提高了雅玉2号上、中、下三部分叶片光合叶面积,以提高上部叶片为主;烯效唑对成单202上部叶片光合叶面积影响不显著,提高了中、下部叶片光合叶面积。
2.吐丝期穗位叶的净光合速率、蒸腾速率和气孔导度的日变化均为“双峰”曲线。烯效唑对穗位叶光合速率、蒸腾速率和气孔导度的作用随每天的时间而变化。除午休时段外,其他时间烯效唑对三者均有提高作用,但时间不同作用大小有差异,以峰值期的效应较大。
3.在不同CO_2浓度条件下,烯效唑均显著提高了玉米穗位叶的光合速率。40mg/kg和10mg/kg的烯效唑处理分别显著提高了雅玉2号和成单202夏季中午高温弱光下穗位叶的光合能力。
4.在空气湿度(实际水汽压)3.2mb~32mb的实验条件范围内,穗位叶光合速率随空气湿度的增加先增后降。在高湿条件下,雅玉2号的光合速率显著大于成单202。不论冠层大气处于干旱还是高湿条件下,40和10mg/kg烯效唑处理分别显著提高了雅玉2号和成单202的光合速率。
5.烯效唑显著提高玉米羧化效率、表观量子效率和水分利用效率(WUE)。雅玉2号的羧化效率和表观量子效率均高于成单202,但WUE低于成单202。
6.烯效唑提高了玉米产量,其中40和10mg/kg处理分别使雅玉2号和成单202产量提高6.94%和4.59%。产量的提高主要是依靠穗粒数的增加,穗粒数增加的主要原因是秃尖的缩短和行粒数的增加。
7.烯效唑提高了雅玉2号的粗蛋白含量,但降低了成单202的粗蛋白含量。烯效唑对二者的粗蛋白产量具有显著提高作用,40和10mg/kg处理分别较CK提高21.86%和
17.79%。烯效哇显著提高了玉米籽粒粗淀粉含量和粗淀粉产量。
8.较低浓度的烯效哇处理,可使雅玉2号和成单202的赖氨酸含量均得到提高,
适中浓度的烯效哇处理对二者赖氨酸含量影响不显著;高浓度的烯效哇处理降低了前者
赖氨酸含量,却极显著提高了后者。烯效哇显著提高了玉米籽粒赖氨酸产量,40和
10mg/kg的烯效哇处理分别较CK提高8.52%和9.24%。烯效哇提高了成单202的异亮氨
酸与亮氨酸之比值,降低了雅玉2号的该比值。
The effects of soaked seeds with different concentrations(0,10, 40 and 80mg/kg) S-3307 on photosynthesis, yield and quality of Maize C.V.(Yayu 2 and Chengdan 202) were studied. The results were showed as follows.
1. Total leave areas of signal Maize plant at silking stage were significantly increased by soaked seeds with S-3307. The upper, middle and lower part leaf areas of plants for Yayu 2 were all improved by S-3307 treatment, and the upper part leaf areas was mainly improved. However, the lower part leaf areas of plants for Chengdan 202 was decreased, but the upper and middle part was raised, and the lower was predominantly increased.
2. The diurnal variation of photosynthetic rate, transprition rate and stomatal conductance of ear leaves were all double peak curves at silking stage. Except the section during "noon break". The effects of S-3307 treatment on photosynthetic rate, transprition rate and stomatal conductance of ear leaves changed with the time in a day. Except the section during "noon break", the photosynthetic rate, transprition rate and stomatal conductance of ear leaves were improved by S-3307 treatment, but increased range of them changed with the time, and that of peak time was greater than other time.
3. Under different CO2 concentrations conditions, the photosynthetic rate for ear leaves of Maize were significantly increased by S-3307 treatment. Under high temperture and low irradiance in summer, the photosynthetic capacity of ear leaves for Yayu 2 and that of Chengdan 202 were raised by 40mg/kg and 10mg/kg S-3307 treatment, respectively.
4. In the experiment condition scope of air humidity (real water vapour pressure) 3.2mb - 32mb, the photosynthetic rate increased first, then decreased as air humidity increased. Yayu 2 more suitablely grew at the moist ambient condition than Chengdan 202. No matter the atmosphere is under the drought or moist condition, the photosynthetic rate of ear leaves for Yayu 2 and that of Chengdan 202 were significantly raised by 40mg/kg and 10mg/kg S-3307
treatment, respectively.
5.The carboxylation efficiency, apparent quantum yield and water use efficiency in Maize leaves were significantly raised by S-3307 treatment. The carboxylation efficiency, apparent quantum yield of leaves for Yayu 2 were larger than that of Chengdan 202, however the water use efficiency of leaves for Yayu 2 were less than that of Chengdan 202.
6. The Maize yield were significantly raised by S-3307 treatment. The yield of Yayu 2 and that of Chengdan 202 were increased by 6.94% and 4. 59% by 40mg/kg and 10mg/kg S-3307 treatment, respectively. The increasing of yield was mainly depend on the increasing of grain number per ear. And the main reason for the increasing of it was the decreasing of bald point length and the increasing of grain number per line.
7. The crude protein content of Yayu 2 were raised by S-3307 treatment, but that of Chengdan 202 were reduced. Both the crude protein yield of Yayu 2 and that of Chengdan 202 were significantly improved. The crude protein yield of Yayu 2 and that of Chengdan 202 were raised by 21.86% and 17.79%, respectively. Both the crude starch content and starch yield of Yayu 2 and that of Chengdan 202 were significantly increased by S-3307 treatment.
8. Both the lysine content of Yayu 2 and that of Chengdan 202 were significantly increased by lower concentration of S-3307, both of them were not significantly improved by moderate concentration, and the former was decreased but the latter was significantly increased by higher concentration. Both the lysine yield of Yayu 2 and that of Chengdan 202 were significantly raised by S-3307 treatment. The total aminoacid content of Yayu 2 and that of Chengdan 202 were increased by 8.52% and 9.24% by 40mg/kg and lOmg/kg S-3307 treatment, respectively. The isoleucine /leucine of Chengdan 202 was significantly improved by S-3307 treatment, but that of Yayu 2 was decreased.
引文
[1] 秦武发.玉米蛋白质的品质改良[J].国外农学—杂粮作物,1988,(5):49~53
[2] 赵克明,改善玉米品质推广优质玉米[J].玉米科学 2000,8(1):8~10
[3] 石德权,张世煌.我国优质蛋白玉米研究取得重要进展[J].作物杂志.1995,(1).2~5
[4] 宋同明主编 高油玉米[M]北京农业大学出版社,1992年
[5] 张远兵,王习霞.“NSB”组合配方对油菜籽产量和品质的影响[J].安徽农业技术师范学院学报.1995,9(1).51~57
[6] 姜连芳,孙京新,姜建阳等.高油玉米饲喂肉鸭生产性能评估[J].粮食与饲料工业 1999,第9期40~41
[7] 国家统计局国际统计信息中心.1999年世界主要国家和地区谷类作物生产情况[J].世界农业,2000(2):63~64.
[8] 国家统计局国际统计信息中心,1999年世界主要国家和地区肉类生产情况[J].世界农业,2000(8):60~61.
[9] 高树仁,李韶聪 赖氨酸玉米的营养价值及栽培技术[J].黑龙江畜牧兽医 1998,(2):25~26
[10] 张杰 特种玉米及其开发的几点思考[J].太原科技 2000,(6):5~7
[11] 师惠英 高赖氨酸玉米单交种211配合饲料饲喂肉鸡的效果[J].甘肃农业科技 1999,(12):40~41
[12] 孙长富 浅谈玉米品质及提高途径[J].吉林农业 2000(3)
[13] 秦武发.玉米蛋白质的品质改良[J].国外农学—杂粮作物,1988,(5):49~53.
[14] 杜鸣銮.高赖氨酸玉米的生化与生物效应研究[J].沈阳农业大学学报,1986,7(4):67~75.
[15] 高炳德,马青枝,王文玲等 普通春玉米籽粒氨基酸含量、组成及影响因素的初步研究[J].内蒙古农业大学学报 2000,21,增刊(5):35~39
[16] 赵利梅,王贵平,高炳德等 氮磷钾平衡施肥对春玉米籽粒建成及品质形成影响的研究[J].内蒙古农业大学学报 2000,21,增刊(5):16~20
[17] 陈善坤,曾晓春,刘传飞等,高效唑对水稻的生理效应和增产效果的研究[J].江西农业科技,1994,(2):4~6
[18] 王熹,俞美玉.陶龙兴.烯效唑化控技术对水稻的增产效果[J].中国水稻科学,1994,8(3):181~184
[19] 陈世平,陈光铭,陈昌铭 柑桔果实生长期叶面喷施3种药剂的效应分析[J].安徽农业大学学报,2000,27(1):33~36
[20] 王丹生 纪晓东 多效唑对大豆品质的影响[J].丹东师专学报 1999,21(1):53~54
[21] 杨建太,任好学,张长安等 几种植物生长调节剂叶面喷施对冬小麦产量的影响[J].甘肃农
业科技 1999,5:36~37
[22] 肖琳,胡正元,蔡鹤亭等 烯效唑对杂交水稻温室秧苗形态生理特性及产量的影响[J].华北农学报 1999,14(4):50~54
[23] 郑淑华 孙淑珍 徐刚等,烯效唑浸种对玉米生长及产量的影响[J].种子科技 1999(4):32
[24] 郑寨生,张尚法,王祥根等.烯效唑对小麦防倒增产效应的研究[J].国外农学-麦类作物,1995,(1):41~43
[25] 赵汝汉,卢炳成,郑寨生等,烯效唑对小麦生物学效应及产量的影响[J].作物研究,1995,9(2):19~21
[26] 袁剑平,彭文博,刘华山.烯效唑对小麦增产效应的研究[J].河南农业科技,1993,(12):1~3
[27] 李国景,寿伟林,王汉荣 叶面喷施烯效唑对水培樱桃番茄生长发育的影响[J].1997,(4):186~188
[28] 王崇桃,李少昆,赵明.主要增产措施对玉米光合特性与产量的影响[J].玉米科学,1997,5(2):58
[29] 李少昆 关于光合速率与作物产量关系的讨论(综述)[J].石河子大学学报(自然科学版)1998增刊
[30] 许大全,沈允钢.光合作用与作物产量.邹琦,王学臣主编,作物高产高效生理学研究进展[M].北京:科学出版社,1994,17~24
[31] 许大全 光合速率、光合效率与作物产量[J].生物学通报 1999,34(8):8~10
[32] 许大全 光合作用效率[M].上海科学技术出版社,2002,8:39~40
[33] 刘贤赵 康绍忠 不同生长阶段遮荫对番茄光合作用、干物质分配与叶N、P、K的影响[J].生态学报.2002,22(12).2264~2271
[34] 张教林 曹坤芳 光照对两种热带雨林树种幼苗光合能力、热耗散和抗氧化系统的影响[J].植物生态学报.2002,26(6).639~646
[35] 苏帧禄 优质玉米的营养品质及提高的途径[J].河南农业科学 1994
[36] 吴建宇 徐翠莲 任何平 玉米不同收获期的子粒品质研究[J].河南农业大学学报 1994,28(1)
[37] 吴硕 玉米连作与长期施肥效应研究Ⅱ.连续施肥对玉米品质及土壤肥力的影响[J].辽宁农业科学 1996,(3):7~12
[38] 王鹏文 戴俊英 玉米品质改良的研究现状[J].国外农学—杂粮作物 1996,(3):9~13
[39] 王鹏文 戴俊英 玉米种植密度对产量和品质的影响[J].玉米科学 1996,(3):9~13
[40] 王春乙 白月明 温民 模拟大气中CO_2浓度增加对玉米产量和品质影响的试验研究[J].环境科学学报 1996,16(3):331~336
[41] 张翔 朱洪勋 孙春河 有机与无机肥料配施对玉米籽粒品质和生产力的影响[J].中国农学通报 1997,13(5):31~33
[42] 李生泉 梁俊华 范月仙 环己烷二胺四乙酸拌种对玉米品质的影响[J].山西农业科学1990,(7):6~7
[43] 杨引福 师公贤 优质蛋白玉米育种研究及其开发利用[J].作物研究 1999,(2):36~37
[44] 王鹏文 戴俊英 玉米群体光分布特征及其对产量和品质的影响[J].华北农学报 1999,14(3):60~64
[45] 国家统计局国际统计信息中心.1999年世界主要国家和地区谷类作物生产情况[J].世界农业,2000(2):63~64.
[46] 付凯等.生态农业研究[J].1993,1(2):81
[47] 王馥棠.CO_2浓度增加对植物生长和农业生产的影响[J].气象.1993,19(7):8~13
[48] 秦武发.玉米蛋白质的品质改良[J].国外农学—杂粮作物,1988,(5):49~53
[49] 李青苗.烯效唑对玉米的壮苗机理研究[M].四川农业大学硕士论文,2002
[50] 王熹,沈波.烯效唑对水稻耐盐性的影响[J].植物生理学通讯,1990(4):41~43.
[51] 王熹,俞美玉,陶龙兴.多效唑对油菜秧苗素质及抗寒性的影响[J].浙江农业学报,1992,4(1):2.
[52] 李玥莹.烯效唑对水稻叶片衰老及产量的影响[J].沈阳师范学院学报(自然科学版)2002,20(1):42~45
[53] 严泽群,孙保军,何晖等.烯效唑对杂交水稻的生理作用及增产效果研究[J].信阳师范学院学报(自然科学版) 2002,13(3):352~355
[54] 韩惠芳.烯效唑对小麦分蘖成穗生理和籽粒品质的调控研究[M].四川农业大学硕士研究生论文,2002
[55] 樊高琼.烯效唑对小麦叶片衰老的调控研究[M].四川农业大学硕士研究生论文,2002
[56] 阮少艺,聂磊,刘鸿先.烯效唑对柚树苗生长和生理特性的效应研究[J].福建热作科技2002,27(3):1~4
[57] 汪惠芳,陈润兴.烯效唑对油菜秧苗生长和产量的影响(简报)[J].植物生理学通讯,1997(7):345~346.
[58] 谢令琴,王晓燕,葛淑俊等.不同熟期及粒重小麦品种叶重和叶面积与其产量关系的研究[J].中国农学通报 2002,18(3):10~14
[59] 李建吾 孙守如 任凝辉等.黄瓜主要农艺性状的遗传相关与通径分析[J].河南农业大学学报 1997,31(3):244~247
[60] 白永新,王早荣,钟改荣,等 玉米高配合力亲本自交系、杂交种棒三叶的性状分析及叶面积的相关性研究[J].玉米科学,1999,7(2):24~26
[61] 王庆成,牛玉贞,王忠孝,等 源—库比改变对玉米群体光合和其它性状的影响[J].华北农学报,1997,(1):1~6
[62] 李少昆,赵明,王树安,等 玉米杂交组合光合特性的研究[J].华北农学报,1998,(13):5~8
[63] 李芳志,刘丽华,徐文伟等.杂交玉米穗三叶面积与产量构成的关系[J].杂粮作物 1997,
3:4~6
[64] 陈永欣,翟广谦.糯玉米自交系、杂交种棒三叶与产量之间相关性分析[J].玉米科学,2001,9(2):50~52.
[65] 刘晓冰,李文雄.春小麦籽粒灌浆过程中淀粉和蛋白质积累规律的初步研究[J].作物学报,1996,22(6):736~740.
[66] 谭保才,梁厚果.激动素对绿豆子叶多聚糖体形成的促进作用及其与RNA合成的关系[J].植物学报,1992,34(10):764~770.
[67] 李三玉,叶明儿,何如宾等.吲熟酯对本地早柑桔疏果和果实品质的影响[J].园艺学报,1990,17(3):191~196
[68] 应芝秀,施书星83008 1对早熟幼龄温州密柑产量和品质的影响[J].林业科技开发,1992,(1):38
[69] 夏国海,宋尚伟,孙守如等.高等植物碳素同化物装卸的激素调控进展[J].河南农业大学学报,1998,32(2):154~158.
[70] 王之杰,郭天财,王化岑,等.种植密度对超高产小麦生育后期光合特性及产量的影响[J].麦类作物学报,2001,21(3):64~67.
[71] 杨文钰 烯效唑对小麦生长发育的调节机理研究[M].山东农业大学博士研究生论文 2002
[72] YuS-W(余叔文),TangZ-C(汤章城).Plant Physiology and Molecular Biology(Secondedition)(植物生理与分子生物学,第二版)[M].Beijing:Science Press,1998.270
[73] 夏石头,萧浪涛 新型植物生长调节剂PT对水稻秧苗生理特性的影响[J].中国农学通报,2002,18(5):27~28
[74] 韩寒冰,陈大清GA_3和表面活性剂对水稻幼苗生理的影响[J].湖北农学院学报,1999,19(2):97~99
[75] 王旭清,王法宏,任德昌 超微粉体种衣剂对小麦生育后期旗叶生理特性的影响[J].黑龙江农业科学,1999,(4):15~17
[76] 海江波,由海霞,张保军 植物生长调节剂天达2116对冬小麦产量和品质及生理特性的影响[J].西北农业学报,2002,11(3):21~24
[77] 董永华,史吉平,李广敏等 ABA和6-BA对水分胁迫下玉米幼苗碳素同化关键酶的影响[J].植物营养与肥料学报,1997,3(2):182~188
[78] 聂呈荣,凌菱生 花生不同密度群体施用植物生长调节剂对光合效能的影响[J].中国油料作物学报,1997,19(1):32~38
[79] 陈凤玉,邹吉承,赵海岩等 S_(3307)乳剂和可湿性粉剂对稻苗的生理影响[J].西南农业学报,1998,11(3):158~161
[80] 李莹,刘延吉,陈凤玉 S_(3307)对稻苗光合作用及几种酶活性的影响[J].辽宁农业科学,1997,(3):22~23
[81] 王熹等.烯效唑对稻苗的生物学效应[J].中国水稻科学,1993,7(4):199~204
[82] 陈大清,李亚男,彭成林 烯效唑对大豆生长特性和产量的影响[J].湖北农学院学报,2000,20(2):108~114
[83] 郑寨生,张尚法,王样根 烯效唑浸种对玉米的生物学效应初探[J].国外农学:杂粮作物.1994,(5).46~48
[84] 郑淑华,孙淑珍 烯效浸种对玉米生长及产量的影响[J].种子科技.1999,(4).32~32
[85] 张其德,卢从明,张群 不同氮素水平下CO_2倍增对大豆叶片荧光诱导动力学参数的影响[J].植物营养与肥料学报,1997,3(1):24~29
[86] 李潮海,刘奎,周苏玫等 不同施肥条件下夏玉米光合对生理生态因子的响应[J].作物学报,2002,28(2):265~269
[87] 唐湘如,谭中文.CPPU和PP333对杂交稻3个淀粉合成酶活性和米质的影响[J].杂交水稻.2002,17(3).44~46
[88] 何冰 麦文伟 PP333对花生品质的影响[J].湛江海洋大学学报.2000,20(3).64~66
[89] 王立秋 曹敬山 PP333和施肥对春小麦品质和产量的影响[J].国外农学:麦类作物.1996,(1),51~53
[90] 王育水 姬生栋 多效唑对小麦植株性状、产量和品质和影响[J].焦作教育学院学报.2002,18(2).48~50
[91] 张建新 段群堂 MFB多功能抗旱剂对小麦产量与品质的影响[J].麦类作物学报.2000,20(4).94~96
[92] 李生泉 梁俊华 环己烷二胺四乙酸拌种对玉米品质的影响[J].山西农业科学.1990,(7).6~7
[93] 罗兴录云大-120 浸种对木薯的增产效应[J].西南农业学报.2001,14(1).87~90
[94] 罗兴录 不同植物生长调节剂对木薯生长发育和淀粉积累影响的研究[J].中国农学通报.2002,18(3).30~33
[95] 李宝华 徐春全 马铃薯生长期喷施调节剂对其产量及淀粉含量的影响[J].中国马铃薯.2002,(4).229~230
[96] 李绍长 董志新 化控Ⅱ号对玉米群体冠层结构的影响[J].石河子大学学报.1997,1(4).270~274
[97] 宁淑香,姜敏多效唑处理对玉米植株抗旱能力的影响[J].辽宁农业科学.1999,(2).12~14
[98] 关华,韩惠芳,杨文钰 烯效唑对小麦苗期生长的调控效应(Ⅱ)[J].中国农学通报2002,18(4).56~58,89
[99] 王国槐,官春云,Stringma A V等 谷粒饱对油菜品质和产量的影响[J].湖南农业大学学报.1998,24(4).282~285
[100] Tenhunen J D, Serra A S, Harley P C,et al. Factors influencing carbon fixation and water use by mediterranean sclerophyll shrubs during summer drought, Oecologia, 1990,82:381~393
[101] Leverenz J W, Falk S, Pilstrom C M.etal. The effect of photoinhibition on the photosynthetic light-response curve of green plant cells. Planta,4990,182:161~168
[102] Tumer N C, Schulze E D, Gollan T. The responses of stomata and leaf gas exchange to vapour pressure deficits and soil water content. In the mesophytic herbaceous species Helianthus annuus. Oecologia. 1985,65:348-355
[103] Watson S A etal. Breeding corn for increased oil content. Proceedings of the 30th Corn and Sorghum Research Conference. Washington, DC: American Seed Trade Associations, 1975, 251 ~275
[104] HanYetal. Nutritive value of high oil corn for poultry. Poultry Sci. 1987, 66 :103~111
[105] Dale N M eatl. Effect of oil content on true metabolizable energy of yellow ow corn. Poultry Sci. 1991, 70 (Suppl.1) :32 (Abstract)
[106] Risley C R etal. Apperent digestibility of high oil corn in wealing pigs and growth performance of grower finisher pigs fed hig oil corn. J. An im Sci. 1996,74(Suppl.l) :176 (Abstract)
[107] EvansLT. Crops and world food supply ,crop evolution and the origins of crop physiology. In "CropPhysiology" ,ed.byEvansLT, 1975,1 ~22
[108] El-Sharkawy,MHeskethJ.Photosynthesis among species in relation to characteristics of leaf anato-my and CO2 diffusion resistences.CropSci, 1965,13:751
[109] Duncan WG, Hesketh JD. Net Photosynthetic rates,relative leaf growth rates,and leaf numbers of 22 races of maize grown at eight temperature.CropSci, 1968,8:670
[110] Hanson WD. Selection for differential productivity among maize plant associated photosynthetic rate and leaf area changes.CropSci, 1975,11:334
[111] Gifford R M. Barriers to increasing crop productivity by genetic improvement in photosynthesis. In: Biggins J (ed). Progress in Photosynthesis Research Vol Ⅳ. Dordrecht :Martinus Nijhoff Phblishers,1987. 377~384
[112] Nelson C J. Genetic associations between photosynthetic characteristics and yield: Review of the evidence. Plant Physiol Biochem, 1988,26: 543~554
[113] Evans LT. From leaf Photosynthesis to crop productivity, In: MurataN(ed.),Research in Photosynthesis,Vol.Ⅳ,Dordrecht,Kluwer Academic Publishers, 1992,587
[114] Fischer RA.Bidinger F,Syme JR,etal. Leaf Photosynthesis.leaf permeability, cropgrowth, and yield of short spring wheat genotypes under irrigation. GropSci, 1981,21 ~367
[115] Peng S, Krieg D R,Girma F S. Leaf photosynthetic rate is correlated with biomass and grain production in grain sorghum lines.PhotosynRes, 1991,28:1
[116] Buttery B R, Buzzell R I.Findlay WI. Relationships among photosynthetic rate,bean yield and other characters in field-grown cultivar sofsoybean.Can J D lantSci.1981,61 ~ 191
[117] Coleman I S. Plant, Cell and Environment 1991, 14(7) : 667
[118] Ort D R, Baker N R. Consideration of photosynthetic efficiency at low light as a major determinant of crop photosynthetic performance. Plant Physiol Biochem, 1988,26:555~565
[119] Lawlor D W. Photosynthesis, productivity and enviroment. J Exp Bot, 1995,46:1449~1461
[120] Jackson D.I et al. Flower initiation in temperate woody plants. A review based largely on the literature of confines and deciduous fruit trees[J]. Hortabatract, 1972,42:9~24
[121] Lauer J G, Simmons S R.. Partitioning of main shoot leaves in field-grown spring barley[J]. Crop Science, 1962
[122] Bierhuizen JF, Slatyer RO. Effect of atmospheric concentration of water vapor and CO2 in determing transpiration of cotton leaves. Agric Meteorol, 1965, 2: 259~270.
[123] Clouse S D, Sasse J M. Brass in osteroids: Essential regulators of plant growth and development[J]. AnnRev Plant Physiol Plant MolBiol, 1998,49:427-451
[124] Loffler, C M ,Rauch T L ,et al. grain and plant protein relationship in hard red spring wheat [J]. Crop Sci. 1985,(18) :119~782
[125] Banziger. M , et al. Competion between nitrogen accumulation and grain growth for carbohydrates during grain filling of wheat[J]. Crop Sci. 1994,(34) :440~446
[126] Evans J R. Photosynthesis and nitrogen relationships in leaves of C3 plant, Oecologia. 1989,(78) :9~ 19
[2] 赵克明,改善玉米品质推广优质玉米[J].玉米科学 2000,8(1):8~10
[3] 石德权,张世煌.我国优质蛋白玉米研究取得重要进展[J].作物杂志.1995,(1).2~5
[4] 宋同明主编 高油玉米[M]北京农业大学出版社,1992年
[5] 张远兵,王习霞.“NSB”组合配方对油菜籽产量和品质的影响[J].安徽农业技术师范学院学报.1995,9(1).51~57
[6] 姜连芳,孙京新,姜建阳等.高油玉米饲喂肉鸭生产性能评估[J].粮食与饲料工业 1999,第9期40~41
[7] 国家统计局国际统计信息中心.1999年世界主要国家和地区谷类作物生产情况[J].世界农业,2000(2):63~64.
[8] 国家统计局国际统计信息中心,1999年世界主要国家和地区肉类生产情况[J].世界农业,2000(8):60~61.
[9] 高树仁,李韶聪 赖氨酸玉米的营养价值及栽培技术[J].黑龙江畜牧兽医 1998,(2):25~26
[10] 张杰 特种玉米及其开发的几点思考[J].太原科技 2000,(6):5~7
[11] 师惠英 高赖氨酸玉米单交种211配合饲料饲喂肉鸡的效果[J].甘肃农业科技 1999,(12):40~41
[12] 孙长富 浅谈玉米品质及提高途径[J].吉林农业 2000(3)
[13] 秦武发.玉米蛋白质的品质改良[J].国外农学—杂粮作物,1988,(5):49~53.
[14] 杜鸣銮.高赖氨酸玉米的生化与生物效应研究[J].沈阳农业大学学报,1986,7(4):67~75.
[15] 高炳德,马青枝,王文玲等 普通春玉米籽粒氨基酸含量、组成及影响因素的初步研究[J].内蒙古农业大学学报 2000,21,增刊(5):35~39
[16] 赵利梅,王贵平,高炳德等 氮磷钾平衡施肥对春玉米籽粒建成及品质形成影响的研究[J].内蒙古农业大学学报 2000,21,增刊(5):16~20
[17] 陈善坤,曾晓春,刘传飞等,高效唑对水稻的生理效应和增产效果的研究[J].江西农业科技,1994,(2):4~6
[18] 王熹,俞美玉.陶龙兴.烯效唑化控技术对水稻的增产效果[J].中国水稻科学,1994,8(3):181~184
[19] 陈世平,陈光铭,陈昌铭 柑桔果实生长期叶面喷施3种药剂的效应分析[J].安徽农业大学学报,2000,27(1):33~36
[20] 王丹生 纪晓东 多效唑对大豆品质的影响[J].丹东师专学报 1999,21(1):53~54
[21] 杨建太,任好学,张长安等 几种植物生长调节剂叶面喷施对冬小麦产量的影响[J].甘肃农
业科技 1999,5:36~37
[22] 肖琳,胡正元,蔡鹤亭等 烯效唑对杂交水稻温室秧苗形态生理特性及产量的影响[J].华北农学报 1999,14(4):50~54
[23] 郑淑华 孙淑珍 徐刚等,烯效唑浸种对玉米生长及产量的影响[J].种子科技 1999(4):32
[24] 郑寨生,张尚法,王祥根等.烯效唑对小麦防倒增产效应的研究[J].国外农学-麦类作物,1995,(1):41~43
[25] 赵汝汉,卢炳成,郑寨生等,烯效唑对小麦生物学效应及产量的影响[J].作物研究,1995,9(2):19~21
[26] 袁剑平,彭文博,刘华山.烯效唑对小麦增产效应的研究[J].河南农业科技,1993,(12):1~3
[27] 李国景,寿伟林,王汉荣 叶面喷施烯效唑对水培樱桃番茄生长发育的影响[J].1997,(4):186~188
[28] 王崇桃,李少昆,赵明.主要增产措施对玉米光合特性与产量的影响[J].玉米科学,1997,5(2):58
[29] 李少昆 关于光合速率与作物产量关系的讨论(综述)[J].石河子大学学报(自然科学版)1998增刊
[30] 许大全,沈允钢.光合作用与作物产量.邹琦,王学臣主编,作物高产高效生理学研究进展[M].北京:科学出版社,1994,17~24
[31] 许大全 光合速率、光合效率与作物产量[J].生物学通报 1999,34(8):8~10
[32] 许大全 光合作用效率[M].上海科学技术出版社,2002,8:39~40
[33] 刘贤赵 康绍忠 不同生长阶段遮荫对番茄光合作用、干物质分配与叶N、P、K的影响[J].生态学报.2002,22(12).2264~2271
[34] 张教林 曹坤芳 光照对两种热带雨林树种幼苗光合能力、热耗散和抗氧化系统的影响[J].植物生态学报.2002,26(6).639~646
[35] 苏帧禄 优质玉米的营养品质及提高的途径[J].河南农业科学 1994
[36] 吴建宇 徐翠莲 任何平 玉米不同收获期的子粒品质研究[J].河南农业大学学报 1994,28(1)
[37] 吴硕 玉米连作与长期施肥效应研究Ⅱ.连续施肥对玉米品质及土壤肥力的影响[J].辽宁农业科学 1996,(3):7~12
[38] 王鹏文 戴俊英 玉米品质改良的研究现状[J].国外农学—杂粮作物 1996,(3):9~13
[39] 王鹏文 戴俊英 玉米种植密度对产量和品质的影响[J].玉米科学 1996,(3):9~13
[40] 王春乙 白月明 温民 模拟大气中CO_2浓度增加对玉米产量和品质影响的试验研究[J].环境科学学报 1996,16(3):331~336
[41] 张翔 朱洪勋 孙春河 有机与无机肥料配施对玉米籽粒品质和生产力的影响[J].中国农学通报 1997,13(5):31~33
[42] 李生泉 梁俊华 范月仙 环己烷二胺四乙酸拌种对玉米品质的影响[J].山西农业科学1990,(7):6~7
[43] 杨引福 师公贤 优质蛋白玉米育种研究及其开发利用[J].作物研究 1999,(2):36~37
[44] 王鹏文 戴俊英 玉米群体光分布特征及其对产量和品质的影响[J].华北农学报 1999,14(3):60~64
[45] 国家统计局国际统计信息中心.1999年世界主要国家和地区谷类作物生产情况[J].世界农业,2000(2):63~64.
[46] 付凯等.生态农业研究[J].1993,1(2):81
[47] 王馥棠.CO_2浓度增加对植物生长和农业生产的影响[J].气象.1993,19(7):8~13
[48] 秦武发.玉米蛋白质的品质改良[J].国外农学—杂粮作物,1988,(5):49~53
[49] 李青苗.烯效唑对玉米的壮苗机理研究[M].四川农业大学硕士论文,2002
[50] 王熹,沈波.烯效唑对水稻耐盐性的影响[J].植物生理学通讯,1990(4):41~43.
[51] 王熹,俞美玉,陶龙兴.多效唑对油菜秧苗素质及抗寒性的影响[J].浙江农业学报,1992,4(1):2.
[52] 李玥莹.烯效唑对水稻叶片衰老及产量的影响[J].沈阳师范学院学报(自然科学版)2002,20(1):42~45
[53] 严泽群,孙保军,何晖等.烯效唑对杂交水稻的生理作用及增产效果研究[J].信阳师范学院学报(自然科学版) 2002,13(3):352~355
[54] 韩惠芳.烯效唑对小麦分蘖成穗生理和籽粒品质的调控研究[M].四川农业大学硕士研究生论文,2002
[55] 樊高琼.烯效唑对小麦叶片衰老的调控研究[M].四川农业大学硕士研究生论文,2002
[56] 阮少艺,聂磊,刘鸿先.烯效唑对柚树苗生长和生理特性的效应研究[J].福建热作科技2002,27(3):1~4
[57] 汪惠芳,陈润兴.烯效唑对油菜秧苗生长和产量的影响(简报)[J].植物生理学通讯,1997(7):345~346.
[58] 谢令琴,王晓燕,葛淑俊等.不同熟期及粒重小麦品种叶重和叶面积与其产量关系的研究[J].中国农学通报 2002,18(3):10~14
[59] 李建吾 孙守如 任凝辉等.黄瓜主要农艺性状的遗传相关与通径分析[J].河南农业大学学报 1997,31(3):244~247
[60] 白永新,王早荣,钟改荣,等 玉米高配合力亲本自交系、杂交种棒三叶的性状分析及叶面积的相关性研究[J].玉米科学,1999,7(2):24~26
[61] 王庆成,牛玉贞,王忠孝,等 源—库比改变对玉米群体光合和其它性状的影响[J].华北农学报,1997,(1):1~6
[62] 李少昆,赵明,王树安,等 玉米杂交组合光合特性的研究[J].华北农学报,1998,(13):5~8
[63] 李芳志,刘丽华,徐文伟等.杂交玉米穗三叶面积与产量构成的关系[J].杂粮作物 1997,
3:4~6
[64] 陈永欣,翟广谦.糯玉米自交系、杂交种棒三叶与产量之间相关性分析[J].玉米科学,2001,9(2):50~52.
[65] 刘晓冰,李文雄.春小麦籽粒灌浆过程中淀粉和蛋白质积累规律的初步研究[J].作物学报,1996,22(6):736~740.
[66] 谭保才,梁厚果.激动素对绿豆子叶多聚糖体形成的促进作用及其与RNA合成的关系[J].植物学报,1992,34(10):764~770.
[67] 李三玉,叶明儿,何如宾等.吲熟酯对本地早柑桔疏果和果实品质的影响[J].园艺学报,1990,17(3):191~196
[68] 应芝秀,施书星83008 1对早熟幼龄温州密柑产量和品质的影响[J].林业科技开发,1992,(1):38
[69] 夏国海,宋尚伟,孙守如等.高等植物碳素同化物装卸的激素调控进展[J].河南农业大学学报,1998,32(2):154~158.
[70] 王之杰,郭天财,王化岑,等.种植密度对超高产小麦生育后期光合特性及产量的影响[J].麦类作物学报,2001,21(3):64~67.
[71] 杨文钰 烯效唑对小麦生长发育的调节机理研究[M].山东农业大学博士研究生论文 2002
[72] YuS-W(余叔文),TangZ-C(汤章城).Plant Physiology and Molecular Biology(Secondedition)(植物生理与分子生物学,第二版)[M].Beijing:Science Press,1998.270
[73] 夏石头,萧浪涛 新型植物生长调节剂PT对水稻秧苗生理特性的影响[J].中国农学通报,2002,18(5):27~28
[74] 韩寒冰,陈大清GA_3和表面活性剂对水稻幼苗生理的影响[J].湖北农学院学报,1999,19(2):97~99
[75] 王旭清,王法宏,任德昌 超微粉体种衣剂对小麦生育后期旗叶生理特性的影响[J].黑龙江农业科学,1999,(4):15~17
[76] 海江波,由海霞,张保军 植物生长调节剂天达2116对冬小麦产量和品质及生理特性的影响[J].西北农业学报,2002,11(3):21~24
[77] 董永华,史吉平,李广敏等 ABA和6-BA对水分胁迫下玉米幼苗碳素同化关键酶的影响[J].植物营养与肥料学报,1997,3(2):182~188
[78] 聂呈荣,凌菱生 花生不同密度群体施用植物生长调节剂对光合效能的影响[J].中国油料作物学报,1997,19(1):32~38
[79] 陈凤玉,邹吉承,赵海岩等 S_(3307)乳剂和可湿性粉剂对稻苗的生理影响[J].西南农业学报,1998,11(3):158~161
[80] 李莹,刘延吉,陈凤玉 S_(3307)对稻苗光合作用及几种酶活性的影响[J].辽宁农业科学,1997,(3):22~23
[81] 王熹等.烯效唑对稻苗的生物学效应[J].中国水稻科学,1993,7(4):199~204
[82] 陈大清,李亚男,彭成林 烯效唑对大豆生长特性和产量的影响[J].湖北农学院学报,2000,20(2):108~114
[83] 郑寨生,张尚法,王样根 烯效唑浸种对玉米的生物学效应初探[J].国外农学:杂粮作物.1994,(5).46~48
[84] 郑淑华,孙淑珍 烯效浸种对玉米生长及产量的影响[J].种子科技.1999,(4).32~32
[85] 张其德,卢从明,张群 不同氮素水平下CO_2倍增对大豆叶片荧光诱导动力学参数的影响[J].植物营养与肥料学报,1997,3(1):24~29
[86] 李潮海,刘奎,周苏玫等 不同施肥条件下夏玉米光合对生理生态因子的响应[J].作物学报,2002,28(2):265~269
[87] 唐湘如,谭中文.CPPU和PP333对杂交稻3个淀粉合成酶活性和米质的影响[J].杂交水稻.2002,17(3).44~46
[88] 何冰 麦文伟 PP333对花生品质的影响[J].湛江海洋大学学报.2000,20(3).64~66
[89] 王立秋 曹敬山 PP333和施肥对春小麦品质和产量的影响[J].国外农学:麦类作物.1996,(1),51~53
[90] 王育水 姬生栋 多效唑对小麦植株性状、产量和品质和影响[J].焦作教育学院学报.2002,18(2).48~50
[91] 张建新 段群堂 MFB多功能抗旱剂对小麦产量与品质的影响[J].麦类作物学报.2000,20(4).94~96
[92] 李生泉 梁俊华 环己烷二胺四乙酸拌种对玉米品质的影响[J].山西农业科学.1990,(7).6~7
[93] 罗兴录云大-120 浸种对木薯的增产效应[J].西南农业学报.2001,14(1).87~90
[94] 罗兴录 不同植物生长调节剂对木薯生长发育和淀粉积累影响的研究[J].中国农学通报.2002,18(3).30~33
[95] 李宝华 徐春全 马铃薯生长期喷施调节剂对其产量及淀粉含量的影响[J].中国马铃薯.2002,(4).229~230
[96] 李绍长 董志新 化控Ⅱ号对玉米群体冠层结构的影响[J].石河子大学学报.1997,1(4).270~274
[97] 宁淑香,姜敏多效唑处理对玉米植株抗旱能力的影响[J].辽宁农业科学.1999,(2).12~14
[98] 关华,韩惠芳,杨文钰 烯效唑对小麦苗期生长的调控效应(Ⅱ)[J].中国农学通报2002,18(4).56~58,89
[99] 王国槐,官春云,Stringma A V等 谷粒饱对油菜品质和产量的影响[J].湖南农业大学学报.1998,24(4).282~285
[100] Tenhunen J D, Serra A S, Harley P C,et al. Factors influencing carbon fixation and water use by mediterranean sclerophyll shrubs during summer drought, Oecologia, 1990,82:381~393
[101] Leverenz J W, Falk S, Pilstrom C M.etal. The effect of photoinhibition on the photosynthetic light-response curve of green plant cells. Planta,4990,182:161~168
[102] Tumer N C, Schulze E D, Gollan T. The responses of stomata and leaf gas exchange to vapour pressure deficits and soil water content. In the mesophytic herbaceous species Helianthus annuus. Oecologia. 1985,65:348-355
[103] Watson S A etal. Breeding corn for increased oil content. Proceedings of the 30th Corn and Sorghum Research Conference. Washington, DC: American Seed Trade Associations, 1975, 251 ~275
[104] HanYetal. Nutritive value of high oil corn for poultry. Poultry Sci. 1987, 66 :103~111
[105] Dale N M eatl. Effect of oil content on true metabolizable energy of yellow ow corn. Poultry Sci. 1991, 70 (Suppl.1) :32 (Abstract)
[106] Risley C R etal. Apperent digestibility of high oil corn in wealing pigs and growth performance of grower finisher pigs fed hig oil corn. J. An im Sci. 1996,74(Suppl.l) :176 (Abstract)
[107] EvansLT. Crops and world food supply ,crop evolution and the origins of crop physiology. In "CropPhysiology" ,ed.byEvansLT, 1975,1 ~22
[108] El-Sharkawy,MHeskethJ.Photosynthesis among species in relation to characteristics of leaf anato-my and CO2 diffusion resistences.CropSci, 1965,13:751
[109] Duncan WG, Hesketh JD. Net Photosynthetic rates,relative leaf growth rates,and leaf numbers of 22 races of maize grown at eight temperature.CropSci, 1968,8:670
[110] Hanson WD. Selection for differential productivity among maize plant associated photosynthetic rate and leaf area changes.CropSci, 1975,11:334
[111] Gifford R M. Barriers to increasing crop productivity by genetic improvement in photosynthesis. In: Biggins J (ed). Progress in Photosynthesis Research Vol Ⅳ. Dordrecht :Martinus Nijhoff Phblishers,1987. 377~384
[112] Nelson C J. Genetic associations between photosynthetic characteristics and yield: Review of the evidence. Plant Physiol Biochem, 1988,26: 543~554
[113] Evans LT. From leaf Photosynthesis to crop productivity, In: MurataN(ed.),Research in Photosynthesis,Vol.Ⅳ,Dordrecht,Kluwer Academic Publishers, 1992,587
[114] Fischer RA.Bidinger F,Syme JR,etal. Leaf Photosynthesis.leaf permeability, cropgrowth, and yield of short spring wheat genotypes under irrigation. GropSci, 1981,21 ~367
[115] Peng S, Krieg D R,Girma F S. Leaf photosynthetic rate is correlated with biomass and grain production in grain sorghum lines.PhotosynRes, 1991,28:1
[116] Buttery B R, Buzzell R I.Findlay WI. Relationships among photosynthetic rate,bean yield and other characters in field-grown cultivar sofsoybean.Can J D lantSci.1981,61 ~ 191
[117] Coleman I S. Plant, Cell and Environment 1991, 14(7) : 667
[118] Ort D R, Baker N R. Consideration of photosynthetic efficiency at low light as a major determinant of crop photosynthetic performance. Plant Physiol Biochem, 1988,26:555~565
[119] Lawlor D W. Photosynthesis, productivity and enviroment. J Exp Bot, 1995,46:1449~1461
[120] Jackson D.I et al. Flower initiation in temperate woody plants. A review based largely on the literature of confines and deciduous fruit trees[J]. Hortabatract, 1972,42:9~24
[121] Lauer J G, Simmons S R.. Partitioning of main shoot leaves in field-grown spring barley[J]. Crop Science, 1962
[122] Bierhuizen JF, Slatyer RO. Effect of atmospheric concentration of water vapor and CO2 in determing transpiration of cotton leaves. Agric Meteorol, 1965, 2: 259~270.
[123] Clouse S D, Sasse J M. Brass in osteroids: Essential regulators of plant growth and development[J]. AnnRev Plant Physiol Plant MolBiol, 1998,49:427-451
[124] Loffler, C M ,Rauch T L ,et al. grain and plant protein relationship in hard red spring wheat [J]. Crop Sci. 1985,(18) :119~782
[125] Banziger. M , et al. Competion between nitrogen accumulation and grain growth for carbohydrates during grain filling of wheat[J]. Crop Sci. 1994,(34) :440~446
[126] Evans J R. Photosynthesis and nitrogen relationships in leaves of C3 plant, Oecologia. 1989,(78) :9~ 19
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