不同施氮水平下硅肥对谷子抗倒伏能力、产量和品质的影响OA北大核心CSTPCD
Effects of silicon fertilizers on lodging resistance,yield and quality of foxtail millet under different nitrogen application levels
[目的]倒伏严重影响谷子产量和品质.探究不同施氮水平下硅肥提高谷子茎秆强度、产量及品质的作用,为谷子高产高效施肥提供技术方案.[方法]以晋谷 21 和张杂 13 为供试谷子品种,在山西太谷进行大田试验.在常规施氮量N1(180 kg/hm2)和高施氮量N2(450 kg/hm2)下,分别设置不施硅、施用硅酸钠(Si1,SiO2 68.85 kg/hm2)和硅钙肥(Si2,SiO2 67.2 kg/hm2),共 6 个处理.在谷子成熟期测量其株高、抗倒伏能力相关指标、光合特性、产量和品质相关指标,并观察茎秆横切面显微结构.[结果]N1 水平下,施用硅肥降低了谷子基节长度,增加了茎粗、茎秆抗折力和穿刺力,晋谷21和张杂13两品种前五基节的节间长度分别降低了4.1%~30.1%和 9.5%~11.5%,茎粗分别增加 5.3%~19.4%和 13.0%~34.1%;晋谷 21 抗倒性在N1-Si1 处理较强,第一、第二基节抗倒伏指数较N1-Si0 处理分别增加 37.4%和 35.8%,张杂 13 在N1-Si2 处理时较强,第一、第二基节抗倒伏指数较N1-Si0 处理分别增加 136.0%和 94.7%.N2 水平下,施用硅肥后晋谷 21 和张杂 13 前五基节的节间长度分别降低了 9.6%~30.3%和 10.6%~14.9%,茎粗分别增加了 9.56%~23.9%和 16.2%~31.0%,茎秆扁平度降低.硅钙肥对谷子茎秆强度影响大于硅酸钠,N2-Si2 处理晋谷 21 的第二基节抗折力、穿刺力和抗倒伏指数比N2-Si0 分别增加 97.9%、77.6%和 83.3%,张杂 13 的第一基节抗折力、穿刺力和抗倒伏指数比N2-Si0 分别增加 74.0%、66.8%和 128%.施硅后谷子茎秆中机械组织增厚,维管束数量增多且排列均匀,向茎秆中心延伸,且在N2 水平下,硅钙肥作用效果优于硅酸钠.硅可促进谷子穗码发育,增加穗粗、穗粒数和千粒重,在高氮水平下硅钙肥处理使晋谷 21 和张杂 13 的产量分别增加 23.8%和 24.0%.施用硅肥能够提高谷子脂肪、蛋白质和氨基酸含量,在高氮水平下可以降低谷子直链淀粉/支链淀粉值.[结论]在高氮条件下,施用硅钙肥使谷子前五基节长度降低,茎粗增加,机械强度增加,进而提高抗倒伏能力;施用硅肥还可增加光合速率和蒸腾速率,促进物质积累和运输,增加产量,改善品质.
[Objective]Lodging significantly affects the yield and quality of foxtail millet(Setaria italica).This study aimed to investigate the effects of silicon fertilizer on stem characteristics,yield,and quality of foxtail millet at different nitrogen levels.[Methods]Field experiment was conducted in Taigu,Shanxi,two foxtail millet cultivars Jingu 21 and Zhangza 13 were selected as the experimental materials.The nitrogen application rate included conventional rate(N1,180 kg/hm2)and high rate(N2,450 kg/hm2).The silicon treatments included no silicon(Si0),sodium silicate(Si1,SiO2 68.85 kg/hm2),and silicon calcium(Si2,SiO2 67.2 kg/hm2).At maturity stage,plant height,grain yield and quality,Si content in various organs,and the traits of the lowest five basal internodes,and photosynthetic characteristics were measured.The cross-seeeion structure of stems was observed using microscope.[Results]Under N1,silicon application reduced the basal internode length,increased stem diameter,stem lodging resistance,and puncture force Compared with Si0,the internode length of the bottom five nodes of cultivar Jingu 21 and Zhangza 13 were decreased by 4.1%-30.1%and 9.5%-11.5%,and the stem thickness(i.e circumference)increased by 5.3%-19.4%and 13.0%-34.1%,respectively.Jingu 21 and Zhangza 13 were measured stronger lodging resistance under N1-Si1 and N1-Si2,respectively,the lodging resistance index of the 1st and 2nd basal node of Jingu 21 were increased by 37.4%and 35.8%,while those of Zhangza 13 were by 136.0%and 94.7%,compared to N1-Si0.Under N2,silicon fertilization reduced the node length of the basal five nodes by 9.6%-30.3%and 10.6%~14.9%,and increased the stem thickness by 9.56%-23.9%and 16.2%-31.0%,and reduced the stem flatness.Si2 treatment exhibited better promotion effect than Si1 treatment on stem strength,N2-Si2 treatment enhanced the lodging resistance,puncture force,and lodging resistance index of the basal second node in Jingu 21 by 97.9%,77.6%,and 83.3%,enhanced those of the basal first node in Zhangza 13 by 74.0%,66.8%,and and 128%,respectively.Under microscope,the mechanical tissue of stem under Si application treatment were thicker,and more vascular bundles were formed and arranged more evenly,extending towards the center of the stem.Si application promoted the development of foxtail millet panicles,with wider panicle,more grain number and heavier thousand-grain weight.Silicon calcium increased the yields of Jingu 21 and Zhangza 13 by 23.8%and 24.0%,respectively.Further more,silicon application increased grain fat,protein,and amino acids,reduced amylose/amylopectin ratio under N2 level.[Conclusions]Under high nitrogen supply,the application of calcium silicate fertilizer reduces the length of the bottom five basal nodes,increases stem thickness and mechanical strength of foxtail millet,resulting improved lodging resistance.Simultaneously,calcium silicate application could increase photosynthetic and transpiration rate,promoting dry matter accumulation and transportation,thereby increasing grain yield and quality of foxtail millet.
温银元;郭之瑶;郑志强;胡奇林;赵娟;董淑琦;原向阳;温日宇;尹美强
山西农业大学农学院,山西太谷 030801山西农业大学农学院,山西太谷 030801||甘肃省平凉市农业科学院,甘肃平凉 744000山西省吕梁市乡村振兴局,山西吕梁 033000
谷子硅酸钙硅酸钠施氮量基部茎秆性状机械强度抗倒伏指数产量品质
foxtail milletcalcium silicatesodium silicatenitrogen levelbase stem characteristicsmechanical strengthlodging resistance indexyieldsquality
《植物营养与肥料学报》 2024 (004)
641-654 / 14
国家重点研发计划项目(2021YFD1901103-5);国家现代农业产业技术体系项目(CARS-06-14.5-A28);山西省农业产业技术体系专项(谷子);山西农业大学农学院育种工程专项(YZ2021-12).
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