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Acta Agron Sin ›› 2010, Vol. 36 ›› Issue (07): 1176-1182.doi: 10.3724/SP.J.1006.2010.01176

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY • Previous Articles     Next Articles

Nonlinear Screening Indexes of Drought Resistance at Rice Seedling Stage Based on Support Vector Machine

YUAN Zhe-Ming*, TAN Xian-Sheng   

  1. College of Bio-safety Science and Technology / Hunan Provincial Key Laboratory of Crop Germplasm Innovation and Utilization, Hunan Agricultural University, Changsha 410128, China
  • Received:2009-12-31 Revised:2010-04-16 Online:2010-07-12 Published:2010-05-20
  • Contact: YAN Zhi-Ming, E-mail: zhmyuan@sina.com

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Abstract:

Screening indexes of drought resistance in crops is a puzzler with a few samples, multi-index and non-linear characteristics. Rationality of linear regression model and the indexes obtained by linear screening based on empirical risk minimization are debated. On the contrary, support vector machine based on structural risk minimization has the advantages of non-linear characteristics, fitting for a few samples, avoiding the over-fit, strong generalization ability and high prediction precision, etc. In this paper, setting the survival percentage under repeated drought condition as the target and support vector regression as the nonlinear screen tool, six integrated indicators including plant height, proline, malondialdehyde, leaf age, area of the first leaf under the central leaf and ascorbic acid, were highlighted from 24 morphological and physiological indicators in 15 paddy rice cultivars. The results showed that support vector regression model with the six integrated indicators had a more distinct improvementin fitting and prediction precision than the linear reference models. Considering the simplicity of indicators measurement, the support vector regression model with the only six morphological indicators including shoot dry weight, area of the second leaf under the central leaf, root shoot ratio, leaf age, leaf fresh weight and area of the first leaf under the central leaf was also feasible. Furthermore, an explanatory system including the significance of regression model and the importance of single indicator was established based on support vector regression and F-test.

Key words: Rice, Seedling stage, Drought resistance index, Support vector machine, Non-linear screening


[1]         Wang H-Z(王贺正), Li Y(李艳), Ma J(马均), Zhang R-P (张荣萍), Li X-Y(李旭毅), Wang R-Q(汪仁全). Screening indexes of drought resistance during seedling stage in rice. Acta Agron Sin (作物学报), 2007, 33(9): 1523–1529 (in Chinese with English abstract)

[2]         Hu R-H(胡荣海), Chang X-P(昌小平), Wang H(王环). The physiological base and utilization of repeated drought method. Acta Agric Boreali-Sin (华北农学报), 1996, 11(3): 51–56 (in Chinese with English abstract)

[3]         Wang H-W(王惠文), Wu Z-B(吴载斌), Meng J(孟洁). Partial Least-Squares Regression Linear and Nonlinear Methods(偏最小二乘回归的线性与非线性方法). Beijing: National Defense Industry Press, 2006. pp 34–54 (in Chinese)

[4]         Chakraborty K, Mehrotra K, Mohan C K, Ranka S. Forecasting the behavior of multivariate time series using neural networks. Neural Networks, 1992, 5: 961-970

[5]         Vapnik V N. The Nature of Statistical Learning Theory. New York: Springer-Verlag Press, 1995. pp 5–78

[6]         Liang Y C, Sun Y F. An improved method of support vector machine and its applications to financial time series forecasting. Prog Nat Sci, 2003, 13: 696-700

[7]         Tan X-S(谭显胜), Yuan Z-M(袁哲明), Zhou T-J(周铁军), Wang C-J(王春娟), Xiong J-Y(熊洁仪). Multi-KNN-SVR combinatorial forecast and its application to QSAR of fluorine-containing compounds. Chem J Chin Univ (高等学校化学学报), 2008, 29(1): 95–99 (in Chinese with English abstract)

[8]         Ma G L, Cheng Y Y. Predicting caco-2 permeability using support vector machine and chemistry development kit. Journal of Pharmacy & Pharmaceutical Sciences, 2006, 9: 210–221

[9]         Huang Z, Chen H, Hsu C J, Chen W H, Wu S S. Credit rating analysis with support vector machines and neural networks: a market comparative study. Decision Support Systems, 2004, 37: 543–558

[10]      Anderson D C, Li W, Payan D G, Noble W S. A new algorithm for the evaluation of shotgun peptide sequencing in proteomics: support vector machine classification of peptide MS/MS spectra and SEQUEST scores. J Proteome Res, 2003, 2: 137–146

[11]      Deng N-Y(邓乃扬), Tian Y-J(田英杰). New Method in Data Mining–Support Vector Machine (数据挖掘中的新方法——支持向量机). Beijing: Science Press, 2004. pp 152–154 (in Chinese)

[12]      Chang C C, Lin C J. LIBSVM: a library for support vector machines. Taibei, Taiwan: National Taiwan University, 2001

[2009-02-27]. http://www. csie.ntu.edu.tw/~cjlin/libsvm

[13]      Chen Y(陈渊), Yuan Z-M(袁哲明), Zhou W(周玮), Xiong X-Y(熊兴耀). A novel QSAR model based on geostatistics and support vector regression. Acta Phys-Chim Sin (物理化学学报), 2009, 25(8): 1587–1592 (in Chinese with English abstract)

[14]      Yuan Z-M(袁哲明), Zhang Y-S(张永生), Xiong J-Y(熊洁仪). Multidimensional time series analysis based on support vector machine regression and its application in agriculture. Sci Agric Sin (中国农业科学), 2008, 41(8): 2485–2494 (in Chinese with English abstract)
Tang Q-Y(唐启义), Feng M-G(冯明光). DPS Data Processing System—Experimental Design, Statistical Analysis and Data Mining (DPS数据处理系统——实验设计、统计分析及数据挖掘). Beijing: Science Press, 2007. pp 628–629 (in Chinese)
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