Crops ›› 2019, Vol. 35 ›› Issue (1): 141-145.doi: 10.16035/j.issn.1001-7283.2019.01.023

;

Previous Articles     Next Articles

Study of Lodging Resistance of Spring-Sowing Foxtail Millet in Maturity Stages

Yanwei Du,Jinfeng Zhao,Gaohong Wang,Yanfang Li,Genyou Zhao,Xiaoguang Yan   

  1. Millet Research Institute, Shanxi Academy of Agricultural Sciences, Changzhi 046011, Shanxi, China
  • Received:2018-09-04 Revised:2018-12-13 Online:2019-02-15 Published:2019-02-01
  • Contact: Jinfeng Zhao

RichHTML

2

PDF (PC)

155

Abstract:

Changgu 4,Changsheng 13 and Jingu 21 were studied as materials in this experiment, the correlation of seven character indexes with lodging resistance at maturity stages (milk-ripe stage, waxy-ripe stage and yellow maturity stage) were analyzed. The results indicated that the lodging index of three varieties was the highest in yellow maturity stage and the lowest in milk-ripe stage. Lodging index increased gradually with increase of internodes (primary internode from two to six) whereas lodging resistance decreased stepwise. Correlation analysis showed that a significant positive correlation between lodging index of the second internode and height of the center of gravity, fresh weight of spike per plant existed. Some positive correlation existed between lodging index of the second internode and plant height, length of the second internode and fresh weight per plant, but a negative correlation existed between lodging index of the second internode basal and the diameter of the second internode basal, the mechanical strength of the second internode basal. Though they both didn’t reach significant level. Path analysis showed that those relevant traits had a direct effect on lodging index of the second internode from stronger to weaker followed the trend: mechanical strength of the second internode, fresh weight per plant, height of the center of gravity, plant height, the diameter of the second internode basal, length of the second internode basal and fresh weight of spike per plant. The results indicated that mechanical strength of the second internode basal, fresh weight per plant and height of the center of gravity were important traits parameter to evaluate crop-stem lodging resistance with the growing of millet, which has the extremely vital significance for selective lodging resistance breeding of the new millet cultivar.

Key words: Foxtail millet, Maturity, Traits, Lodging index

Table 1

Lodging index of different species at maturity stage"

品种Cultivar 成熟期Growth stage 第2节间
Second internode		 第3节间
Third internode		 第4节间
4th internode		 第5节间
5th internode		 第6节间
6th internode
长谷4Changgu 4 乳熟期Milk-ripe stage 0.640a 0.657b 0.707a 0.779b 0.844b
蜡熟期Waxy-ripe stage 0.674a 0.732b 0.819a 0.871b 0.894b
黄熟期Yellow maturity stage 0.843a 1.042a 1.007a 1.140a 1.306a
长生13 Changsheng 13 乳熟期Milk-ripe stage 0.603a 0.644b 0.760b 0.858b 0.911b
蜡熟期Waxy-ripe stage 0.657a 0.800ab 0.866ab 1.013ab 1.134ab
黄熟期Yellow maturity stage 0.740a 1.089a 1.241a 1.499a 1.656a
晋谷21 Jingu 21 乳熟期Milk-ripe stage 0.585b 0.695a 0.764a 0.718b 0.736b
蜡熟期Waxy-ripe stage 0.666ab 0.848a 0.973a 0.968ab 1.077ab
黄熟期Yellow maturity stage 0.988a 0.978a 1.092a 1.303a 1.431a
显著水平Significance level c b b a a

Table 2

Relation coefficient of lodging resistance traits for different species at maturity stage"

性状
Trait		 株高
Plant height
x1		 重心高度
Height of gravity
centre x2		 单株鲜重
Fresh weight
per plant x3		 单株穗鲜重
Fresh weight of
spike per plant x4		 节间长度
Internode
length x5		 节间直径
Internode diameter x6		 机械强度
Mechanical
strength x7		 倒伏指数Lodging
index y
x1 1
x2 0.882** 1
x3 0.810** 0.865** 1
x4 0.219 0.489 0.693* 1
x5 0.793* 0.654 0.423 -0.227 1
x6 0.709* 0.553 0.420 -0.227 0.751* 1
x7 0.780* 0.645 0.748* 0.189 0.520 0.830** 1
y 0.443 0.708* 0.621 0.687* 0.264 -0.157 -0.004 1

Table 3

Path coefficient of lodging resistance traits for different species at maturity stage"

通径Pathxi→y 直接作用Direct effect 间接作用Indirect effect
总和
Total		 株高
Plant height
→x1		 重心高度
Height of
gravity centre
→x2		 单株鲜重
Fresh weight
per plant
→x3		 单株穗鲜重
Fresh weight of spike per plant
→x4		 节间长度
Internode length
→x5		 节间直径
Internode diameter
→x6		 机械强度
Mechanical strength
→x7
x1→y -0.1722 0.6152 0.6514 0.7145 -0.0185 0.1027 -0.1205 -0.7144
x2→y 0.7384 0.1212 -0.1519 0.7627 -0.0415 0.0847 -0.0939 -0.5908
x3→y 0.8822 -0.1221 -0.1395 0.6384 -0.0587 0.0547 -0.0713 -0.6852
x4→y -0.0847 0.8092 -0.0377 0.3614 0.6117 -0.0294 0.0386 -0.1731
x5→y 0.1294 0.2710 -0.1366 0.4831 0.3727 0.0193 -0.1276 -0.4765
x6→y -0.1699 0.1349 -0.1221 0.4082 0.3703 0.0192 0.0972 -0.7600
x7→y -0.9160 0.9122 -0.1343 0.4763 0.6599 -0.016 0.0673 -0.1410
[1] Weibel R O, Pendleton J W . Effect of artificial lodging on winter wheat grain yield and quality. Agronomy Journal, 1964,56(5):487-488.
doi: 10.2134/agronj1964.00021962005600050013x
[2] Hitaka H . Studies on the lodging of rice plants. Jarq-Japan Agricultural Research Quarterly, 1969,4(3):1-6.
[3] 田伯红 . 禾谷类作物抗倒伏性的研究方法与谷子抗倒性评价. 植物遗传资源学报, 2013,14(2):265-269.
doi: 10.3969/j.issn.1672-1810.2013.02.012
[4] Hoshikawa K, Wang S B . Studies on lodging in rice plants. I. A general observation on lodgedrice culms. Japanese Journal of Crop Sicience, 1990,59(4):809-814.
doi: 10.1626/jcs.59.809
[5] Ma D L, Xie R Z, Liu X , et al. Lodging-related stalk characteristics of maize varieties in China since the 1950s. Crop Science, 2014,54(6):2805-2813.
doi: 10.2135/cropsci2014.04.0301
[6] Berry P M, Sterling M, Spink J H , et al. Understanding and reducing lodging in cereals. Advances in Agronomy, 2004,84:217-271.
doi: 10.1016/S0065-2113(04)84005-7
[7] Worland T, Snape J W. Genetic control of plant stature//Bonjean A P, Angus W J. The world wheat book:A history of wheat breeding. Paris:Lavoisier Publishing, 2001: 67-71.
[8] 关玉萍, 沈枫 . 水稻抗倒伏能力与茎秆物理性状的关系及对产量的影响. 吉林农业科学, 2004,29(4):6-11.
doi: 10.3969/j.issn.1003-8701.2004.04.002
[9] 程富丽, 杜雄, 刘梦星 , 等. 玉米倒伏及其对产量的影响. 玉米科学, 2017(1):105-108.
[10] 王勇, 李晴棋 . 小麦品种抗倒性评价方法的研究. 华北农学报, 1995,10(3):54-55.
doi: 10.3321/j.issn:1000-7091.1995.03.018
[11] Tripathi S C, Sayre K D, Kaul J N . Planting systems on lodging behavior,yield components,and yield of irrigated spring breed wheat. Crop Science, 2005,45(4):1-8.
doi: 10.2135/cropsci2005.0001
[12] 闵东红, 王辉, 孟超敏 , 等. 不同株高小麦品种抗倒伏性与其亚性状及产量相关性研究. 麦类作物学报, 2001,21(4):76-79.
doi: 10.7606/j.issn.1009-1041.2001.04.108
[13] 朱新开, 王祥菊, 郭凯泉 , 等. 小麦倒伏的茎秆特征及对产量与品质的影响. 麦类作物学报, 2006,26(1):87-92.
doi: 10.3969/j.issn.1009-1041.2006.01.020
[14] 兰彩霞, 郭玉华, 赵鑫闻 , 等. 杂交粳稻及其亲本抗倒伏性的相关分析. 华北农学报, 2010,25(2):178-181.
doi: 10.7668/hbnxb.2010.02.036
[15] 陈晓光, 石玉华, 王成雨 , 等. 氮肥和多效唑对小麦茎秆木质素合成的影响及其与抗倒伏性的关系. 中国农业科学, 2017(17):3529-3536.
doi: 10.3864/j.issn.0578-1752.2011.17.005
[16] Ookawa T, Todokoro Y, Ishihara K . Changes in physical and chemical characteristics of culm associated with lodging resistance in paddy rice (Oryza sativa) under different growth conditions and varietal difference of their changes. Japanese Journal of Crop Science, 1993,62:525-533.
doi: 10.1626/jcs.62.525
[17] 姚金保, 张平平, 任丽娟 , 等. 小麦抗倒指数遗传及其与茎秆特性的相关分析. 作物学报, 2011,37(3):452-458.
doi: 10.3724/SP.J.1006.2011.00452
[18] 贾小平, 董普辉, 张红晓 , 等. 不同谷子品种(系)生长发育特性及抗倒性分析. 河南农业科学, 2015,44(8):27-31.
doi: 10.15933/j.cnki.1004-3268.2015.08.006
[19] 刘艳丽, 田伯红, 张立新 , 等. 谷子育成品种的抗倒性评价. 河北农业科学, 2014,18(4):8-12.
doi: 10.3969/j.issn.1088-1631.2014.04.003
[20] 袁立新 . 谷子株型对茎秆倒伏影响的研究. 吉林农业科学, 2017(4):36-37,53.
[21] 代小冬, 杨育峰, 陈煜 , 等. 施肥对谷子农艺性状、产量及抗倒伏能力的影响. 河南农业科学, 2014,43(10):47-52.
doi: 10.3969/j.issn.1004-3268.2014.10.012
[22] 王宇先, 李清泉, 赵蕾 , 等. 谷子矮化处理对倒伏性状及产量的影响. 黑龙江农业科学, 2017(11):23-25.
doi: 10.11942/j.issn1002-2767.2016.11.0023
[23] 高杨, 王杰, 石丽娟 , 等. 叶面喷施烯效唑对谷子抗倒伏性状及光合色素含量的影响. 山西农业科学, 2017,45(8):1232-1236.
doi: 10.3969/j.issn.1002-2481.2017.08.04
[24] 贾小平, 董普辉, 张红晓 , 等. 谷子抗倒伏性和株高、穗部性状的相关性研究. 植物遗传资源学报, 2015,16(6):1188-1193.
doi: 10.13430/j.cnki.jpgr.2015.06.008
[25] Zuber U, Winzeler H, Messmer M M , et al. Morphological traints associated with lodging resistance of spring wheat (Triticum aestivum L.). Journal of Agronomy and Crop Science, 1999,182(1):17-24.
doi: 10.1046/j.1439-037x.1999.00251.x
[26] Islam M S, Peng S, Visperas R M , et al. Lodging-related morphological traits of hybrid rice in a tropical irrigated ecosystem. Field Crops Research, 2007,101(2):240-248.
doi: 10.1016/j.fcr.2006.12.002
[27] Yang J C, Zhang J H . Grain filling of cereals under soil drying. New Phytologist, 2006,169(2):223-236.
doi: 10.1111/j.1469-8137.2005.01597.x pmid: 16411926
[28] Tian B H, Wang J G, Zhang L X , et al. Assessment of resistance to lodging of landrace and improved cultivars in foxtail millet. Euphytica, 2010,172:295-302.
doi: 10.1007/s10681-009-9999-z
[29] 王勇, 李斯深, 李安飞 , 等. 小麦种质抗倒性评价和抗倒性状的相关与通径分析. 西北植物学报, 2000,20(1):79-85.
[1] Zepeng Yang,Honglin Chen,Juan Guo,Changtao Wang,Dinghui Liu. Effects of Sowing Date on Lodging Traits of Rape in the Hilly Central Sichuan Basin, China [J]. Crops, 2019, 35(2): 150-155.
[2] Ying Fu,Yinan Shen,Yanchun Liu,Xiaojiao Chai,Xianrui Wang,Xiaolei Bai,Shutian Li. Correlation Analysis of Amylopectin Content, Nutritional Quality and Agronomic Traits in Spring Millet Varieties [J]. Crops, 2019, 35(2): 90-93.
[3] Xiaoming Wang,Dacheng Li,Zhengda Liao,Yuanchu Gan,Huixiu Chen,Xide Su,Zenglin Wei. Comparation of Agronomic Traits and Yield among Sugarcane Varieties [J]. Crops, 2019, 35(1): 50-55.
[4] Ruiyu Ren,Jihong He,Kongjun Dong,Lei Zhang,Tianpeng Liu,Tianyu Yang. Analysis on Suitable Sowing Date of Four Main Cultivars of Broomcorn Millet in Huining, Gansu [J]. Crops, 2019, 35(1): 152-158.
[5] Wang Lezheng,Hua Fangjing,Cao Pengpeng,Tian Yixin,Gao Fengju. Effects of Sowing Date and Planting Density on Yield and Related Traits in Adzuki Bean [J]. Crops, 2018, 34(6): 83-88.
[6] Wang Lei,Zhang Xiangping,Li Runxi,Niu Xiaoxia,Yang Shimei,Yan Zongshan,Zhang Ziqiang. Multivariate Analysis and Evaluation on Agronomic Traits and Grain Amylopectin Content of Barley [J]. Crops, 2018, 34(5): 71-76.
[7] Wang Fengfeng,Wang Ping,Chen Li,Dai Cailing,Li Shujie,Zhang Heping. Analysis of Morphological Diversity Based on Botanical Traits in Seed-Used Pumpkin Germplasms [J]. Crops, 2018, 34(5): 77-84.
[8] Wang Xiaolin,Ji Xiaoling,Zhang Panpan,Zhang Xiong,Zhang Jing. Correlation Analysis between Aboveground Biomass Allocation and Grain Yield in Different Varieties of Foxtail Millet in the Dry Land of Loess Plateau [J]. Crops, 2018, 34(5): 150-155.
[9] Xingchuan Zhang, Wenxuan Huang, Kuanyu Zhu, Zhiqin Wang, Jianchang Yang. Effects of Nitrogen Rates on the Nitrogen Use Efficiency and Agronomic Traits of Different Rice Cultivars [J]. Crops, 2018, 34(4): 69-78.
[10] Menghan Wei, Huifang Xie, Lu Xing, Hui Song, Shujun Wang, Suying Wang, Haiping Liu, Nan Fu, Jinrong Liu. Comprehensive Evaluation of Yield and Agronomic Characters of Foxtail Millet Germplasms from North China [J]. Crops, 2018, 34(4): 42-47.
[11] Chen He,Guiping Zheng,Haicheng Zhao,Liqiang Chen,Hongyu Li,Yandong Lü,Jiang Song. Effects of Increasing Humic Acid but Reducing Fertilization on Panicle Traits and Yield of Rice in Saline-Alkali Soil [J]. Crops, 2018, 34(3): 129-134.
[12] Maolin Yue,Weirong Xue,Ruidong Zhang,Zhongxiao Yue,RuiZhou Lü,Pengyan Guo. Effects of Different Row Spaces on Agronomic Traits and Yield of Millet [J]. Crops, 2018, 34(2): 93-96.
[13] Ruixin Zhang,Tianbao Ren,Zhe Zhao,Gang Wen,Mingqin Zhao. Effects of Transplanting Date on Quality and Main Economic Characters of Cigar in Five Fingers Group [J]. Crops, 2018, 34(2): 148-153.
[14] Huijuan Tang,Gonggu Zang,Chaohua Cheng,Qing Tang,Yujun Li,Lining Zhao. Correspondence Analysis of Yield and Quality Traits of Industrial Hemp (Cannabis sativa L.) [J]. Crops, 2018, 34(2): 52-55.
[15] Zhanning Gao,Hui Feng,Zhenggang Xue,Yongqian Yang,Shujie Wang,Zhengmao Pan. Analysis of Main Agronomic Traits of 28 Barley Varieties (Lines) [J]. Crops, 2018, 34(1): 77-82.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] Guangcai Zhao,Xuhong Chang,Demei Wang,Zhiqiang Tao,Yanjie Wang,Yushuang Yang,Yingjie Zhu. General Situation and Development of Wheat Production[J]. Crops, 2018, 34(4): 1 -7 .
[2] Baoquan Quan,Dongmei Bai,Yuexia Tian,Yunyun Xue. Effects of Different Leaf-Peg Ratio on Photosynthesis and Yield of Peanut[J]. Crops, 2018, 34(4): 102 -105 .
[3] Xuefang Huang,Mingjing Huang,Huatao Liu,Cong Zhao,Juanling Wang. Effects of Annual Precipitation and Population Density on Tiller-Earing and Yield of Zhangzagu 5 under Film Mulching and Hole Sowing[J]. Crops, 2018, 34(4): 106 -113 .
[4] Wenhui Huang, Hui Wang, Desheng Mei. Research Progress on Lodging Resistance of Crops[J]. Crops, 2018, 34(4): 13 -19 .
[5] Yun Zhao,Cailong Xu,Xu Yang,Suzhen Li,Jing Zhou,Jicun Li,Tianfu Han,Cunxiang Wu. Effects of Sowing Methods on Seedling Stand and Production Profit of Summer Soybean under Wheat-Soybean System[J]. Crops, 2018, 34(4): 114 -120 .
[6] Mei Lu,Min Sun,Aixia Ren,Miaomiao Lei,Lingzhu Xue,Zhiqiang Gao. Effects of Spraying Foliar Fertilizers on Dryland Wheat Growth and the Correlation with Yield Formation[J]. Crops, 2018, 34(4): 121 -125 .
[7] Xiaofei Wang,Haijun Xu,Mengqiao Guo,Yu Xiao,Xinyu Cheng,Shuxia Liu,Xiangjun Guan,Yaokun Wu,Weihua Zhao,Guojiang Wei. Effects of Sowing Date, Density and Fertilizer Utilization Rate on the Yield of Oilseed Perilla frutescens in Cold Area[J]. Crops, 2018, 34(4): 126 -130 .
[8] Pengjin Zhu,Xinhua Pang,Chun Liang,Qinliang Tan,Lin Yan,Quanguang Zhou,Kewei Ou. Effects of Cold Stress on Reactive Oxygen Metabolism and Antioxidant Enzyme Activities of Sugarcane Seedlings[J]. Crops, 2018, 34(4): 131 -137 .
[9] Jie Gao,Qingfeng Li,Qiu Peng,Xiaoyan Jiao,Jinsong Wang. Effects of Different Nutrient Combinations on Plant Production and Nitrogen, Phosphorus and Potassium Utilization Characteristics in Waxy Sorghum[J]. Crops, 2018, 34(4): 138 -142 .
[10] Na Shang,Zhongxu Yang,Qiuzhi Li,Huihui Yin,Shihong Wang,Haitao Li,Tong Li,Han Zhang. Response of Cotton with Vegetative Branches to Plant Density in the Western of Shandong Province[J]. Crops, 2018, 34(4): 143 -148 .