水稻免耕直播全苗技术研究
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摘要
本研究针对水稻免耕直播栽培条件下播种全苗的技术难题进行了初步的试验探讨,试图通过种子的包衣丸化处理和在此基础上的播种量试验,以探讨水稻在免耕直播条件下的种子处理、播种量对播种全苗、苗后生长发育及产量的影响。试验分别在湖南农业大学和湖南省常德市石门县进行。主要研究结果如下:
1、丸化包衣种子不会因表面较厚的丸衣存在而影响种子的吸水萌发,也不会因丸衣裂开而导致丸衣内的活性成份流失。
2、丸化包衣种子能在淹水情况下正常萌发,平均发芽率为83.3%;而未进行丸化包衣处理的对照在淹水情况下无法正常萌发,烂种严重,平均发芽率为19.2%。表明丸化种衣剂能有效提供种子在水下正常萌发所需的氧气,防止烂种。
3、经丸化包衣处理的种子其根明显增粗,根毛浓密,百株干、鲜重明显高于对照,根系活力提高,根系活跃吸收表面积优于对照,游离脯氨酸含量高于未进行丸化处理的对照61.1%—90.0%,叶色值也明显高于对照。
4、经丸化包衣处理后的种子,出苗率、成秧率分别提高9.4%—14.8%和6.2%—8.8%,明显高于对照。同时秧苗变矮壮,绿叶数总体增多,茎基加宽,白根增多,地上部干重及分蘖株率明显增加,秧苗综合素质提高。另外对恶苗病、稻蓟马、稻飞虱有明显防治效果。
5、水稻单株分蘖和单株有效分蘖与水稻直播播种量的变化有关。播种量越大,单株分蘖越少,单株有效分蘖也少,其单株分蘖能力呈现随播量增大而减弱的趋势。
6、水稻直播播种量对产量有较大影响。杂交水稻组合培两优93随播种量增大反而下降,达显著水平。1.5kg/亩和2.0kg,亩播量的其产量水平差异不显著,而与2.5kg/亩播量的差异显著。播种量以1.5kg/亩左右为宜,即高产,又省种。
In order to explorer the influence of coated or pelleted seeds and seeding rate on rice establishment, growth and development and grain yield, the experiments with hybrid rice were conducted by using direct seeding under the zero tillage condition Changsha and Shimen county in 2002-2003. The main results were summarized as follows:
The water absorption and germination of pelleted or coated seeds was not influenced by the seed thickening. And the opening of the seed-pelleting agents did not result in the loss of the active substance.
Both pelleted seeds and coated seeds could ordinarily germinate under the submerged soils. The germination rate was up to 83.3% respectively. But the uncoated seeds (CK) could not germinate under the submerged soils. And the germination rate was as low as 19.2%. A possible reason for this was that the seed pelleting agent could supply the necessary oxygen for seed germination.
The seedlings of coated seeds or pelleted seeds showed the characteristics of thick root diameter, density root hair, great root dry matter and strong root activity and large root uptake surface area. The free proline content was 61.1%-90.0% higher than that of CK and the chlorophyll content was also higher than that of CK.
Compared with CK, the establishment rate and adult seedling rate of both pelleted seeds and coated seeds increased by 9.4% -14.8% and 6.2%-8.8% respectively. Meanwhile, the seedlings displayed shorter plant height, more green leaves, thicker basal stem diameter, more white roots, greater plant dry matter, and the stronger tillering ability. The seedlings of coated seeds also show the stronger resistance to the plant hoper, thrip and bakanae disease of rice.
The tillers and effective tillers per plant were related to the seeding rate. In general, the large the seeding rate, the less the tillers and effective tillers per plant. Tillering ability per plant showed the tendency of less tillers with the increase in seeding rate.
Seeding rate obviously affected the grain yield. The yield of Llangyoupeiju significantly decreased with the increase in seeding rate. But there was no difference of grain yield between the treatments of 1.5kg/mu and 2.0kg/mu. 1.5kg/mu could be taken as the suitable seeding rate.
1、丸化包衣种子不会因表面较厚的丸衣存在而影响种子的吸水萌发,也不会因丸衣裂开而导致丸衣内的活性成份流失。
2、丸化包衣种子能在淹水情况下正常萌发,平均发芽率为83.3%;而未进行丸化包衣处理的对照在淹水情况下无法正常萌发,烂种严重,平均发芽率为19.2%。表明丸化种衣剂能有效提供种子在水下正常萌发所需的氧气,防止烂种。
3、经丸化包衣处理的种子其根明显增粗,根毛浓密,百株干、鲜重明显高于对照,根系活力提高,根系活跃吸收表面积优于对照,游离脯氨酸含量高于未进行丸化处理的对照61.1%—90.0%,叶色值也明显高于对照。
4、经丸化包衣处理后的种子,出苗率、成秧率分别提高9.4%—14.8%和6.2%—8.8%,明显高于对照。同时秧苗变矮壮,绿叶数总体增多,茎基加宽,白根增多,地上部干重及分蘖株率明显增加,秧苗综合素质提高。另外对恶苗病、稻蓟马、稻飞虱有明显防治效果。
5、水稻单株分蘖和单株有效分蘖与水稻直播播种量的变化有关。播种量越大,单株分蘖越少,单株有效分蘖也少,其单株分蘖能力呈现随播量增大而减弱的趋势。
6、水稻直播播种量对产量有较大影响。杂交水稻组合培两优93随播种量增大反而下降,达显著水平。1.5kg/亩和2.0kg,亩播量的其产量水平差异不显著,而与2.5kg/亩播量的差异显著。播种量以1.5kg/亩左右为宜,即高产,又省种。
In order to explorer the influence of coated or pelleted seeds and seeding rate on rice establishment, growth and development and grain yield, the experiments with hybrid rice were conducted by using direct seeding under the zero tillage condition Changsha and Shimen county in 2002-2003. The main results were summarized as follows:
The water absorption and germination of pelleted or coated seeds was not influenced by the seed thickening. And the opening of the seed-pelleting agents did not result in the loss of the active substance.
Both pelleted seeds and coated seeds could ordinarily germinate under the submerged soils. The germination rate was up to 83.3% respectively. But the uncoated seeds (CK) could not germinate under the submerged soils. And the germination rate was as low as 19.2%. A possible reason for this was that the seed pelleting agent could supply the necessary oxygen for seed germination.
The seedlings of coated seeds or pelleted seeds showed the characteristics of thick root diameter, density root hair, great root dry matter and strong root activity and large root uptake surface area. The free proline content was 61.1%-90.0% higher than that of CK and the chlorophyll content was also higher than that of CK.
Compared with CK, the establishment rate and adult seedling rate of both pelleted seeds and coated seeds increased by 9.4% -14.8% and 6.2%-8.8% respectively. Meanwhile, the seedlings displayed shorter plant height, more green leaves, thicker basal stem diameter, more white roots, greater plant dry matter, and the stronger tillering ability. The seedlings of coated seeds also show the stronger resistance to the plant hoper, thrip and bakanae disease of rice.
The tillers and effective tillers per plant were related to the seeding rate. In general, the large the seeding rate, the less the tillers and effective tillers per plant. Tillering ability per plant showed the tendency of less tillers with the increase in seeding rate.
Seeding rate obviously affected the grain yield. The yield of Llangyoupeiju significantly decreased with the increase in seeding rate. But there was no difference of grain yield between the treatments of 1.5kg/mu and 2.0kg/mu. 1.5kg/mu could be taken as the suitable seeding rate.
引文
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[3] 陈友荣,侯任昭,范示容等.水稻免耕法及其生理生态效应的研究.华南农业大学学报,1993,14(2)10~17
[4] 王永锐,李小林.免(少)耕水稻同化物运转、碳/氮比研究.耕作与栽培,1992(2):24~28
[5] 王永说,李小林.免(少)耕水稻的根系活力和叶片衰老的研究.耕作与栽培,1992(4):31~34
[6] 杜金泉,方树安,蒋泽芳.水稻少免耕技术研究Ⅰ.稻作少免耕类型、生产效应及前景的探讨[J].西南农业学报,1990,3(4):26~32
[7] 陈友荣,侯任昭,关日强,等.水稻少耕撒播试验及其生理生态特征的分析研究[J].华南农业大学学报,1985,6(1):62~70
[8] 周易天,沈乃愚,李学上下,等.麦茬水稻旱直播模式研究[J].山东农业大学学报,1992,23(增刊):167~173
[9] 黄锦法,俞锦明,陆建贤.水稻免耕直播超省力栽培技术[J].中国稻米,2001,(6):26~27
[10] 张勇勇,顾克章,张顺泉.水稻免耕旱播耕作法的效益及其对理化性状的影响[J].浙江农业科学,1997,(5):118~120
[11] 黄绍民,莫海玲.水稻连年免耕直播高产栽培[J].广西农业科学,2002(1):31~32
[12] 姜先祥,邓承略,梁秀瑜,等.直播稻特高产理论与技术探讨[J].山东农业大学学报,1992,23(增):47~52
[13] 肖修榆,胡智,高俊.早稻直播的生育特点及栽培技术关键[J].山东农业大学学报,1992,23(增):245~248
[14] 陈友荣,侯任昭,范仕容,等.水稻免耕法及其生理生态效应的研究[J].华南农业大学学报,1993,10(2):10~17
[15] 张洪程,黄以澄,戴其根,等.麦茬机械少免耕旱直播产量形成特性及高产栽培技术的研究[J].江苏农学院学报,1988,9(4):21~26
[16] 王鹤云,李义楼,钮志华.麦茬水直播稻高产群体优化栽培技术.见:高佩文,谈松.水稻高产理论与实践.北京:中国农业出版社,1994.167~170
[17] 邹应斌,李克勤,任泽民.水稻的直播与免耕直播栽培研究进展.作物研究,2003(1):1~9
[18] 章秀福,朱德峰.中国直播稻生产现状与前景展望.中国稻米,1996,(5):1~4
[19] 吴裕军.上海市单季直播稻高产栽培技术总结.上海农业科学,1993,(3):9~11
[20] 罗桂荣等.直播水稻的生育特点和高产栽培技术.浙江农业科学,1995(5):236~238
[21] 杨耒义.水稻直播高产配套栽培技术,作物杂志.1998,(2):24~25
[22] 吴松泓,陈爱珍.直播早稻的生育特性及高产栽培技术.浙江农业科学,1998(1):10~12
[23] 陆建贤.春花茬晚稻直播高产群体与调控技术研究.扬州科技,1998(2):23~25
[24] 胡林军.直播水稻高产栽培技术.江苏农业科学,1999,(3):17~18
[25] 金圣贤.水直播单季晚稻高产群体质量调控技术研究.上海农业科学,1999(3):13~15
[26] 祝财兴.垄畦免耕直播早稻高产栽培技术研究.浙江农业科学,1997(1):4~8
[27] 周昌宇,吴庆法.水稻直播的应用效果、生育特性及高产栽培技术.浙江农业科学,1998,(4):151~154
[28] 何凤华.直播水稻高产栽培技术.山东农业科学,1995,(6):18~19
[29] 何洪法.早稻直播高产栽培技术探讨.浙江农业科学,1996(2):66~68
[30] 蒋彭炎.水稻抛秧与旱直播技术的研究进展.江苏农业科学,1995(2):2~6
[31] 汤剑平.直播稻生育特点和中后期群体质量优化调控.上海农业科技,1997,(3):9~12
[32] 陈关富,倪瑜娟,施彩仙.提高直播晚稻分蘖成穗率技术的探讨.浙江农业科学,1997,(2):57~61
[33] 王平裕.直播稻不同密度与穗部性状和产量结构形成关系.上海农业科技,1996(4):15~
[34] 顾掌根,王岳钧.水稻直播高产机理研究初报.浙江农业科学,2001,(2):51~54
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