Scientia Agricultura Sinica ›› 2019, Vol. 52 ›› Issue (18): 3242-3257.doi: 10.3864/j.issn.0578-1752.2019.18.016

• Nutrition-Enuironment Relationship Study • Previous Articles     Next Articles

Response of Sorghum (Sorghum bicolor (L.) Moench) Yield and Quality to Climatic and Ecological Conditions on the West Yellow-Huaihe-Haihe Rivers Plain

QU Yang1,2,ZHANG Fei1,WANG KeZhen2,HAN Fang3,LIU Yang2,LUO Yan4,GAO XiaoLi4,LU Feng4, 1()   

  1. 1. Sorghum Institute, Liaoning Academy of Agricultural Sciences, Shenyang 110161
    2. Baoji Institute of Agricultural Science, Qishan 722499, Shaanxi
    3. Yanan Institute of Agricultural Science, Yanan 716000, Shaanxi
    4. College of Agronomy, Northwest A & F University, Yangling 712100, Shaanxi
  • Received:2019-06-13 Accepted:2019-08-14 Online:2019-09-16 Published:2019-09-23
  • Contact: E-mail:lufeng740202023@163.com

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Key words: sorghum, sowing date, yield, quality, climatic factors

Fig. 1

Average daily temperature and daily effective precipitation during sorghum growth period in 2017 and 2018 ADT: Average daily temperature; DEP: Daily effective precipitation. The same as below"

Fig. 2

Growth duration of sorghum under different sowing dates in 2017 and 2018"

Table 1

Grain yield of two sorghum varieties among different sowing dates in 2017 and 2018"

播期
Sowing dates		 辽杂37 LZ37 (kg·hm-2) 辽杂19 LZ19 (kg·hm-2)
2017 2018 2017 2018
S1 4689.38F 6456.15F 5221.13F 6873.10F
S2 5380.47D 6681.35D 5632.44D 7103.15D
S3 5512.01C 7171.75C 6812.66C 7815.85C
S4 6058.58A 7365.80A 8050.32A 8265.40A
S5 5578.71B 7259.40B 7503.75B 8110.25B
S6 4919.13E 6621.80E 5474.96D 6957.00D
方差Variance FF-value PP-value FF-value PP-value
年份Year (Y) 523.38 0.0001** 132.22 0.0001**
播期Sowing date (S) 6.72 0.0005** 71.07 0.0001**
Y×S 2.97 0.0315* 6.87 0.0004**

Table 2

Quality of two sorghum varieties among different sowing dates in 2017 and 2018"

品种
Variety		 播期
Sowing dates		 蛋白质Protein (%) 淀粉Starch (%) 脂肪Fat (%) 单宁Tannin (%)
2017 2018 2017 2018 2017 2018 2017 2018
辽杂37
LZ37		 S1 10.49C 11.00C 71.38D 74.65D 2.28C 2.19D 0.16C 0.16E
S2 10.71BC 11.35BC 72.77C 76.31C 2.53BC 2.65C 0.12C 0.11F
S3 10.90AB 11.55AB 75.42B 80.00B 2.85AB 3.00BC 0.24B 0.26D
S4 11.06A 11.81A 80.37A 84.19A 3.14A 3.40A 0.26B 0.30C
S5 10.41C 10.73C 71.56D 75.34CD 2.98A 3.23AB 0.28B 0.33B
S6 8.91D 9.26D 71.48D 74.05D 2.47C 2.80C 0.35A 0.36A
方差Variance FF-value PP-value FF-value PP-value FF-value PP-value FF-value PP-value
年份Year (Y) 171.78 0.0001** 285.27 0.0001** 6.26 0.0196* 7.81 0.0010**
播期Sowing date (S) 268.10 0.0001** 204.95 0.0001** 21.16 0.0001** 79.64 0.0001**
Y×S 2.92 0.0038* 2.63 0.0018* 0.76 0.0487* 1.23 0.0325*
辽杂19
LZ 19		 S1 7.77E 8.36D 72.05D 75.55C 3.13C 3.29C 0.21D 0.21E
S2 8.36C 8.98C 72.64CD 76.47BC 3.32C 3.59BC 0.14E 0.14F
S3 8.87B 9.21B 72.81BCD 76.85BC 3.73B 3.92AB 0.25D 0.28D
S4 9.98A 10.38A 75.74A 79.52A 4.03A 4.33A 0.39C 0.41C
S5 8.70B 9.24B 74.14B 77.75B 3.95AB 4.04A 0.54B 0.46B
S6 8.08D 8.28D 73.53BC 76.20C 3.32C 3.19C 0.64A 0.51A
方差Variance FF-value PP-value FF-value PP-value FF-value PP-value FF-value PP-value
年份Year (Y) 111.35 0.0001** 204.62 0.0001** 5.13 0.0329* 6.29 0.0193*
播期Sowing date (S) 216.66 0.0001** 19.35 0.0001** 27.56 0.0001** 198.62 0.0001**
Y×S 2.44 0.039* 0.61 0.0314* 0.96 0.0441* 7.27 0.0003**

Fig. 3

Relationship between sorghum yield and effective precipitation (A), growing-degree days (B), average daily temperature (C), and daily sunshine duration (D) EP: Effective precipitation;GDD:Growing-degree days; ADT: Average daily temperature; DSD: Daily sunshine duration. The same as below"

Fig. 4

Grey relational analysis (GRA) coefficient between sorghum yield and climatic factors"

Fig. 5

Relationships between sorghum protein and effective precipitation (A), growing-degree days (B), average daily temperature (C), and daily sunshine duration (D)"

Fig. 6

Grey relational analysis (GRA) coefficient between sorghum protein and climatic factors"

Fig. 7

Relationships between sorghum starch and effective precipitation (A), growing-degree days (B), average daily temperature (C), and daily sunshine duration (D)"

Fig. 8

Grey relational analysis (GRA) coefficient between sorghum starch and climatic factors"

Fig. 9

Relationships between sorghum fat and effective precipitation (A), growing-degree days (B), average daily temperature (C), and daily sunshine duration (D)"

Fig. 10

Grey relational analysis (GRA) coefficient between sorghum fat and climatic factors"

Fig. 11

Relationships between sorghum tannin and effective precipitation (A), growing-degree days (B), average daily temperature (C), and daily sunshine duration (D)"

Fig. 12

Grey relational analysis (GRA) coefficient between sorghum tannin and climatic factors"

[1] 刘茂柯, 唐玉明, 任道群, 姚万春 . 酿酒高粱籽粒酿造性能的比较. 中国酿造, 2012,31(11):111-114.
LIU M K, TANG Y M, REN D Q, YAO W C . Brewing property comparison between several species of sorghum seed. China Brewing, 2012,31(11):111-114. (in Chinese)
[2] IPCC. Climate change 2013: The physical science basis//Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press, 2013.
[3] 刘彦随, 刘玉, 郭丽英 . 气候变化对中国农业生产的影响及应对策略. 中国生态农业学报, 2010,18(4):905-910.
LIU Y S, LIU Y, GUO L Y . Impact of climatic change on agricultural production and response strategies in China. Chinese Journal Eco-Agriculture, 2010,18(4):905-910. (in Chinese)
[4] 边秀芝, 任军, 刘慧涛, 阎孝贡, 武巍 . 生态环境条件对玉米产量和品质的影响. 玉米科学, 2006,14(3):107-109.
BIAN X Z, REN J, LIU H T, YAN X G, WU W . Effect of ecological condition to yield and quality of maize. Journal of Maize Science, 2006,14(3):107-109. (in Chinese)
[5] 侯玉虹, 陈传永, 郭志强, 侯立白, 张宾, 赵明 . 春玉米不同产量群体叶面积指数动态特征与生态因子资源量的分配特点. 应用生态学报, 2009,20(1):135-142.
HOU Y H, CHEN C Y, GUO Z Q, HOU L B, ZHANG B, ZHAO M . Dynamic characteristics of leaf area index and allocation characters of ecological resources for different yielding spring maize populations. Chinese Journal of Applied Ecology, 2009,20(1):135-142. (in Chinese)
[6] 李慧明, 李霞, 平俊爱, 杜志宏, 张福耀 . 我国高粱机械化发展前景及配套栽培技术研究. 现代农业科技, 2015,14:45-46.
LI H M, LI X, PING J A, DU Z H, ZHANG F Y . Sorghum mechanization development prospect and corresponding cultivation techniques in China. Modern Agricultural Science and Technology, 2015,14:45-46. (in Chinese)
[7] MOTZO R, GIUNTA F, DEIDDA M . Relationships between grain-filling parameters, fertility, earliness and grain protein of durum wheat in a Mediterranean environment. Field Crops Research, 1996,47:129-143.
[8] 杜连仲, 李卫东, 王韧 . 豫中高粱产量与气象因子关系的统计分析. 河南农业大学学报, 1985,19(1):52-56.
DU L Z, LI W D, WANG R . The statistical analysis for correlation between output of sorghum and meteorological factors in Central Henan Province. Journal of Henan Agricultural University, 1985,19(1):52-56. (in Chinese)
[9] 唐朝臣, 罗峰, 李欣禹, 裴忠有, 高建明 . 甜高粱及品质相关性状对环境因子的反应度分析. 作物学报, 2015,41(10):1612-1618.
doi: 10.3724/SP.J.1006.2015.01612
TANG C C, LUO F, LI X Y, PEI Z Y, GAO J M . Responsiveness of sweet sorghum in yield and quality related traits to environmental factors. Acta Agronomica Sinica, 2015,41(10):1612-1618. (in Chinese)
doi: 10.3724/SP.J.1006.2015.01612
[10] 吉春容, 邹陈, 再吐尼古丽·库尔班, 叶凯. 不同播期下甜高粱含糖量变化及其与气象因子的关系. 沙漠与绿洲气象, 2013,7(3):62-66.
JI C R, ZOU C, ZAITUNIGULI K, YE K . Change of sugar contents and its relationship with meteorological factors among different sowing dates of sweet sorghum. Desert and Oasis Meteorology, 2013,7(3):62-66. (in Chinese)
[11] 陈娟, 罗宇翔, 穆彪, 李士敏 . 茅台酒用高粱产量品质与气象因子研究. 高原山地气象研究, 2012,32(1):73-76.
CHENG J, LUO Y X, MU B, LI S M . Analysis on the relationship between meteorological factors and the yield and quality of sorghum planting for Maotai liquor. Plateau and Mountain Meteorology Research, 2012,32(1):73-76. (in Chinese)
[12] 许宁, 张冰, 宗凌红 . 辽宁海城市高粱生产气候资源评价. 安徽农业科学, 2009,37(6):2432-2433.
XU N, ZHANG B, ZONG L H . Climate resource assessment of sorghum production in Haining city, Liaoning province. Journal of Anhui Agricultural Sciences, 2009,37(6):2432-2433. (in Chinese)
[13] UMAKANTH A V, PATIL J V, RANI C, GADAKH S R, KUMAR S S, RAO S S, KOTASTHANE T V . Combining ability and heterosis over environments for stalk and sugar related traits in sweet sorghum (Sorghum bicolor(L.) Moench). Sugar Tech, 2012,14:237-246.
[14] RAO P S, REDDY P S, RATHORE A, REDDY B V S, PANWAR S. Application GGE biplot and AMMI model to evaluate sweet sorghum ( Sorghum bicolor) hybrids for genotype environment interaction and seasonal adaptation. Indian Journal of Agricultural Sciences, 2011,81:438-444.
[15] RAO S S, PATIL J V, PRASAD P V V, REDDY D C S, MISHRA J C, UMAKANTH A V, REDDY B V S, KUMAR A A. Sweet sorghum planting effects on stalk yield and sugar quality in semi-arid tropical environment. Agronomy Journal, 2013,105:1458-1465.
[16] 安盼盼, 明博, 董朋飞, 张秒 . 黄淮南部玉米产量对气候生态条件的响应. 作物学报, 2018,44(3):442-453.
AN P P, MING B, DONG P F, ZHANG M . Response of maize (Zea mays L.) yield to climatic ecological condition on the South Yellow-Huaihe-Haihe Rivers Plain. Acta Agronomica Sinica, 2018,44(3):442-453. (in Chinese)
[17] 李向岭, 李从锋, 侯玉虹, 侯海鹏, 葛均筑, 赵明 . 不同播期夏玉米产量性能动态指标及其生态效应. 中国农业科学, 2012,45(6):1074-1083.
doi: 10.3864/j.issn.0578-1752.2012.06.005
LI X L, LI C F, HOU Y H, HOU H P, GE J Z, ZHAO M . Dynamic characteristics of summer maize yield performance in different planting dates and its effect of ecological factors. Scientia Agricultura Sinica, 2012,45(6):1074-1083. (in Chinese)
doi: 10.3864/j.issn.0578-1752.2012.06.005
[18] 张镇涛, 杨晓光, 高继卿, 王晓煜, 白帆 . 气候变化背景下华北平原夏玉米适宜播期分析. 中国农业科学, 2018,51(17):3258-3274.
doi: 10.3864/j.issn.0578-1752.2018.17.003
ZHANG Z T, YANG X G, GAO J Q, WANG X Y, BAI F . Analysis of suitable sowing date for summer maize in North China Plain under climate change. Scientia Agricultura Sinica, 2018,51(17):3258-3274. (in Chinese)
doi: 10.3864/j.issn.0578-1752.2018.17.003
[19] 赵建武, 白文斌, 刘贵锋, 王金转 . 不同播期、积温、降水量对高粱农艺性状形成及产量的影响. 农学学报, 2014,4(4):1-4.
ZHAO J W, BAI W B, LIU G F, WANG J Z . The effects of different sowing dates, accumulated temperature and rainfall on agronomic characters and yield. Journal of Agriculture, 2014,4(4):1-4. (in Chinese)
[20] 刘天朋, 赵甘霖, 倪先林 . 播期和施氮量对杂交糯高粱生育期及产量的影响. 湖北农业科学, 2013,52(15):3498-3500.
LIU T M, ZHAO G L, NI X L . Effect of sowing time and nitrogen fertilizer rate on growth period and yield of hybrid glutinous sorghum. Hubei Agricultural Sciences, 2013,52(15):3498-3500. (in Chinese)
[21] 李超, 肖木辑, 周宇飞, 许文娟 . 不同播期对高粱子粒淀粉含量的影响. 沈阳农业大学学报, 2009,40(6):708-711.
Li C, XIAO M Y, ZHOU Y F, XU W J . Effect of sowing dates on the starch contents in sorghum grains. Journal of Shenyang Agricultural University, 2009,40(6):708-711. (in Chinese)
[22] 陈鹏, 罗峰, 高建明, 姜连斌, 胡鹏果 . 不同播期对不同生育时期甜高粱品质性状的影响. 安徽农业科学, 2012,40(5):2608-2609, 2620.
CHEN P, LUO F, GAO J M, JIANG L B, HU P G . Effects of different sowing times on qualities of sweet sorghum (Sorghum dochna) at different growth stages. Journal of Anhui Agricultural Sciences, 2012,40(5):2608-2609, 2620. (in Chinese)
[23] 吉春容, 邹陈, 范子昂, 李新建 . 甜高粱不同播期下光合特性的变化及其与气象因子的关系. 中国农学通报, 2013,29(33):135-140.
JI C R, ZOU C, FAN Z A, LI X J . The change of photosynthetic characteristics and its relationship with meteorological factors among different sowing dates of sweet sorghum (Sorghum bicolor L.). Chinese Agricultural Science Bulletin, 2013,29(33):135-140. (in Chinese)
[24] 张福耀, 平俊爱 . 中国酿造高粱品质遗传改良研究进展. 农学学报, 2019,9(3):21-25.
ZHANG F Y, PING J A . Genetic quality improvement of brewing sorghum in China: Research progress. Journal of Agriculture, 2019,9(3):21-25. (in Chinese)
[25] Zhou B, Yue Y, Sun X, Ding Z . Maize kernel weight response to sowing date associated variation in weather conditions. The Crop Journals, 2017,5:43-51.
[26] 肖继兵, 刘志, 孔凡信, 辛宗绪, 吴宏生 . 种植方式和密度对高粱群体结构和产量的影响. 中国农业科学, 2018,51(22):4264-4276.
doi: 10.3864/j.issn.0578-1752.2018.22.005
XIAO J B, LIU Z, KONG F X, XIN Z X, WU H S . Effects of planting pattern and density on population structure and yield of sorghum. Scientia Agricultura Sinica, 2018,51(22):4264-4276. (in Chinese)
doi: 10.3864/j.issn.0578-1752.2018.22.005
[27] 赵甘霖, 丁国祥, 刘天朋, 倪先林, 陈国民, 胡烔凌, 汪小楷 . 宽窄行和等行距栽培条件下高粱种植密度与产量的关系研究. 农学学报, 2013,3(8):11-13.
ZHAO G L, DING G X, LIU T P, NI X L, CHEN G M, HU J L, WANG X K . Studied on relationship on the sorghum density and yield under different width row space with narrow row space and same row space culture. Journal of Agriculture, 2013,3(8):11-13. (in Chinese)
[28] ZHANG S, TAO F, ZHANG Z . Changes in extreme temperatures and their impacts on rice yield in southern China from 1981 to 2009. Field Crops Research, 2016,189:43-50.
[29] 温丹苹, 李静, 何朋飞 . 黑龙江省农业气象灾害与大豆产量的灰色关联分析. 自然灾害学报, 2017,26(4):56-62.
WEN D P, LI J, HE P F . Grey correlation analysis of agro- meteorological disasters and soybean yield in Heilongjiang province. Journal of Natural Disasters, 2017,26(4):56-62. (in Chinese)
[30] 林志宇, 田贵良 . 气象灾害对福建粮食产量影响的灰色关联分析. 中国农业气象, 2016,37(1):77-83.
LIN Z Y, TIAN G L . Grey correlation analysis of meteorological disasters affecting grain yields in Fujian province. Chinese Journal of Agrometeorology, 2016,37(1):77-83. (in Chinese)
[31] DAHMARDEH M . The effect of sowing date and some growth physiological index on grain yield in three maize hybrids in southeastern Iran. Asian Journal of Plant Science, 2010,9:432-436.
[32] 王聪, 杨克军 . 不同播期对黑龙江西部半干旱区高粱产量的影响. 黑龙江农业科学, 2016,5:21-24.
WANG C, YANG K J . Effect of different sowing date on sorghum yield in western semi-arid region of Heilongjiang Province. Heilongjiang Agricultural Sciences, 2016,5:21-24. (in Chinese)
[33] 董世磊, 曹禹, 孙娜, 崔新菊 . 不同播期、种植密度对新高粱3号产量的影响. 辽宁农业科学, 2013,6:22-25.
DONG S L, CAO Y, SUN N, CUI X J . Effect of different densities and sowing times to yield of sweet sorghum variety ‘Xingaoliang No.3’. Liaoning Agricultural Sciences, 2013,6:22-25. (in Chinese)
[34] 石红梅 . 不同播期对夏高粱产量影响的研究. 现代农业科技, 2008,20:160.
SHI H M . Effect of different sowing dates on yield of summer sorghum. Modern Agricultural Science and Technology, 2008,20:160. (in Chinese)
[35] 李林蔓 . 播期与密度对秋玉米产量及品质的影响. 黑龙江农业科学, 2016,3:24-26.
LI L M . Effect of sowing date and density on yield and quality of autumn maize. Heilongjiang Agricultural Sciences, 2016,3:24-26. (in Chinese)
[36] 郭宗学, 何仪, 王清秀 . 不同播期与密度对玉米粗脂肪含量的影响. 山东农业科学, 2007,4:65-67.
GUO Z X, HE Y, WANG X Q . Effect of sowing date and density on maize fat. Shandong Agricultural Sciences, 2007,4:65-67. (in Chinese)
[37] 丛新军, 李国瑜, 于淑婷, 沈群 . 播期对济谷16农艺性状、产量及品质的影响. 山东农业科学, 2017,4:21-25.
CONG X J, LI G Y, YU S T, SHEN Q . Effect of sowing date on agronomy traits, yield, and quality of ‘Jigu 16’. Shandong Agricultural Sciences, 2017,4:21-25. (in Chinese)
[38] 张晶, 王姣爱, 党建友 . 播期对小麦主茎基分蘖农艺性状、产量和品质的影响. 农学学报, 2013,3(8):1-6.
ZHANG J, WANG J A, DANG J Y . Effect of sowing date on agronomy traits, yield, and quality of the main stalks and tillers in wheat. Journal of Agriculture, 2013,3(8):1-6. (in Chinese)
[39] 曹庆军, 杨粉团, 陈喜凤 , Lamine D, 李刚. 播期对吉林省中部春玉米生长发育、产量及品质的影响. 玉米科学, 2013,21(5):71-75.
CAO Q J, YANG F T, CHEN X F, LAMINE D, LI G . Effects of sowing date on growth, yield and quality of spring maize in the central area of Jilin Province. Journal of Maize Sciences, 2013,21(5):71-75. (in Chinese)
[40] 刘淑云, 董树亭, 胡昌浩, 白萍, 吕新 . 玉米产量和品质与生态环境的关系. 作物学报, 2005,31(5):571-576.
LIU S Y, DONG S T, HU C H, BAI P, LÜ X . Relationship between ecological environment and maize yield and quality. Acta Agronomica Sinica, 2005,31(5):571-576. (in Chinese)
[41] JONES R J, GENGENBACH B G, CARDWELL V B . Temperature effects on in vitro kernel development of maize. Crop Science, 1981,21:761-766.
[42] 李潮海, 苏新宏, 谢瑞芝, 周苏玫, 李登海 . 超高产栽培条件下夏玉米产量与气候生态条件关系研究. 中国农业科学, 2001,34(3):311-316.
LI C H, SU X H, XIE R Z, ZHOU S M, LI D H . Study on relationship between grain-yield of summer corn and climatic ecological condition under super-high-yield cultivation. Scientia Agricultura Sinica, 2001,34(3):311-316. (in Chinese)
[43] JIA S F, LI C F, DONG S T, ZHANG J W . Effects of shading at different stages after anthesis on maize grain weight and quality at cytology level. Agricultural Science China, 2011,10:58-69.
[44] 高杰, 李青风, 彭秋 . 不同播期下高粱产量、气候因子及芒蝇发生率之间的关系. 江苏农业科学, 2017,45(11):70-72.
GAO J, LI Q F, PENG Q . Relationship of different sowing dates on the climatic factors, mans flies development, and yield of sorghum. Jiangsu Agricultural Sciences, 2017,45(11):70-72. (in Chinese)
[45] 杨琳, 崔福柱, 段永红, 郭秀卿 . 不同播期对夏播高粱生育期及产量的影响. 山西农业大学学报(自然科学版), 2017,37(1):7-10, 27.
YANG L, CUI F Z, DUAN Y H, GUO X Q . Effects of different sowing dates on the growth stages and yield of summer sorghum. Journal of Shanxi Agricultural University (Natural Science Edition), 2017,37(1):7-10,27. (in Chinese)
[46] 寇兴凯, 徐同成, 宗爱珍, 刘丽娜 . 高粱营养及其制品研究进展. 粮食与饲料工业, 2015,12:45-48.
KOU X K, XU T C, ZONG A Z, LIU L N . Advance of sorghum nutrition and its product. Cereal & Feed Industry, 2015,12:45-48. (in Chinese)
[47] 孔令旗, 张文毅 . 高粱籽粒蛋白质、赖氨酸和单宁含量在不同环境中的遗传表现. 辽宁农业科学, 1988,3:18-22.
KONG L Q, ZHANG W Y . Effect of protein, tannin, and lysine of sorghum on different environments. Liaoning Agricultural Sciences, 1988,3:18-22. (in Chinese)
[48] 张贵香, 史红梅, 张海燕 . 高粱主要品质性状的基因型与环境及互作效应分析. 中国农学通报, 2010,26(5):68-71.
ZHANG G X, SHI H M, ZHANG H Y . Genotype, environment and their interactive effects on main quality traits of sorghum. Chinese Agricultural Science Bulletin, 2010,26(5):68-71. (in Chinese)
[49] 李嵩博, 唐朝臣, 陈峰 . 中国粒用高粱改良品种的产量和品质性状时空变化. 中国农业科学, 2018,51(2):246-256.
doi: 10.3864/j.issn.0578-1752.2018.02.005
LI S B, TANG C C, CHEN F . Temporal and spatial changes in yield and quality with grain sorghum variety improvement in China. Scientia Agricultura Sinica, 2018,51(2):246-256. (in Chinese)
doi: 10.3864/j.issn.0578-1752.2018.02.005
[50] 邹剑秋 . 加快高粱体系建设促进高粱产业发展. 农业技术与装备, 2010,9:6-9.
ZOU J Q . Industrial development of sorghum using system construction. Agricultural Technology & Equipment, 2010,9:6-9. (in Chinese)
[51] 张福耀, 吴树彪, 柳青山 . 影响高粱饲用价值主要内在因素及其对策. 动物营养学报, 2016,28(1):1-8.
ZHANG F Y, WU S B, LIU Q S . Main internal factors of influencing sorghum feeding value and its countermeasures. Chinese Journal of Animal Nutrition, 2016,28(1):1-8. (in Chinese)
[52] 高士杰, 刘晓辉, 李继洪 . 我国粒用高粱育种现状、问题与对策. 作物杂志, 2006,3:11-13.
GAO S J, LIU X H, LI J H . Status and problem and countermeasures of grain sorghum in China. Crops, 2006,3:11-13. (in Chinese)
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