基于图像分析方法的水稻根系形态特征指标的定量分析

doi:10.3724/SP.J.1006.2010.00810

Abstract

Abstract:

The objective of this study was to quantitatively analyze the change patterns of rice root morphological characteristics based on image analysis method in pot experiments with different nitrogen rates, water regimes, and rice cultivars in different years. WinRhizo software (WR) was used as the root image analysis tool, and two modes of LM and T200 were used to measure the root diameter and adventitious root length under two ranges of root diameter as 0–0.30 mm and 0.25–1.80 mm, respectively. The measurement results from WR were compared with those from Image-Pro Plus 6.0 software (IP). Then, the diameter ranges of different types of root were determined. On the basis of the dataset from WR, the statistical analysis were performed on rice root morphological characteristic indices, including dry weight, total volume, total surface area, total adventitious root length and number per plant at different growth stages. The results were as follows: (1) The average NRMSEs between WR (LM and T200) and IP for root diameters were 5.44% and 10.95%. (2) The diameter range of fine lateral root was circumscribed within 0.03–0.10 mm for all the experiments, coarse lateral and adventitious root were circumscribed within 0.10-0.30 and 0.30-1.40 mm for V1 (Nipponbare) and V2 (Wuxiangjing 14), but 0.10–0.25 and 0.25–1.65 mm for V3 (Yangdao 6). Following this method, the NRMSEs for adventitious root length measured by WR and IP were 10.78%–12.01%. (3) All indices increased rapidly in the growth process and reached or approached the maximum at heading, then increased slowly or decreased after heading. There were significant differences between treatments with different nitrogen rates from tillering to maturing on all indices. Increasing nitrogen rate accelerated the growth of roots, and especially enhanced the proportion of adventitious roots. Properly control of irrigation could promote the growth of roots and increase the proportion of lateral roots. All indices of V3 were significantly higher than these of other cultivars, and there were no significant differences between V1 and V2. The results indicated that it was feasible to measure morphological indices of different types of rice root by WR with different modes, and the methods used in this paper have a good accuracy and reliability. These results could provide a support for the quantitative analysis on root morphology of rice or other crops.

Key words: Rice, Root morphology, Quantitative analysis, WinRhizo, Image analysis

GU Dong-Xiang,TANG Liang,CAO Wei-Xing,ZHU Yan. Quantitative Analysis on Root Morphological Characteristics Based on Image Analysis Method in Rice[J].Acta Agron Sin, 2010, 36(05): 810-817.

References

[1] Lynch J P. Root architecture and plant productivity. Plant Physiol, 1995, 109: 7–13

[2] Atkinson D. Root characteristics: why and what to measure. In: Smit A L, Bengough A G, Engels C, van Noordwijk M, Pellerin S, van de Geijn S C. Root Methods: a Handbook. Springer-Verlag, 2000. pp 1–32

[3] Wang M B, Zhang Q. Issues in using the winrhizo system to determine physical characteristics of plant fine roots. Acta Ecol Sin, 2009, 29: 136–138

[4] Tennant D. A test of a modified line intersect method of estimating root length. J Ecol, 1975, 63: 995–1001

[5] Regent Instruments Inc. Winrhizo 2005a, b basic, reg & pro for washed root measurement (user's guide). Québec, QC: Regent Instruments Inc, 2005. pp 25-29

[6] Arsenault J L, Pouleur S, Messier C, Guay R. Winrhizo, a root-measuring system with a unique overlap correction method. Hortscience, 1995, 30: 906

[7] Zobel R W, Kinraide T B, Baligar V C. Fine root diameters can change in response to changes in nutrient concentrations. Plant Soil, 2007, 297: 243–254

[8] Zobel R W. Hardware and software efficacy in assessment of fine root diameter distributions. Comput Electron Agric, 2008, 60: 178–189

[9] Bouma T, Nielsen K, Koutstaal B. Sample preparation and scanning protocol for computerised analysis of root length and diameter. Plant Soil, 2000, 218: 185–196

[10] Xu S-X(徐是雄), Xu X-B(徐雪宾), He Y-K(何运康). Morphology and Anatomy of Rice (稻的形态与解剖). Beijing: Agriculture Press, 1984. pp 21–25 (in Chinese)

[11] Himmelbauer M L, Loiskandl W, Kastanek F. Estimating length, average diameter and surface area of roots using two different image analyses systems. Plant Soil, 2004, 260: 111–120

[12] Dong G-C(董桂春), Wang Y-L(王余龙), Wu H(吴华), Zhou X-D(周小冬), Shan Y-H(单玉华), Wang J-G(王坚刚), Cai H-R(蔡惠荣), Cai J-Z(蔡建中). Varietal differences in response of main root traits to nitrogen application time in rice (Oryza sativa L.). Acta Agron Sin (作物学报), 2003, 29(6): 871–877 (in Chinese with English abstract)

[13] Li S-M(李素梅), Shi W-M (施卫明). Effect of nitrogen form on root morphology and nitrogen absorption efficiency of two cultivars of rice. Soils (土壤), 2007, (4): 589–593 (in Chinese with English abstract)

[14] Zhang C-L(张成良), Jiang W(姜伟), Xiao Y-Q(肖叶青), Wu W-C(邬文昌), Chen D-Z(陈大洲), Huang Y-J(黄英金). Status and prospects of research on rice root systems. Acta Agric Jiangxi (江西农业学报), 2006, 18(5): 23–27 (in Chinese with English abstract)

[15] Fan X-L(樊小林), Shi Z-J(史正军), Wu P(吴平). Effects of nitrogen fertilizer on parameters of rice (Oryza sativa L.) root architecture and their genotypic difference. J Northwest Sci-Tech Univ Agric & For (Nat Sci Edn)(西北农林科技大学学报·自然科学版), 2002, 30(2): 1–5 (in Chinese with English abstract)

[16] Dong G-C(董桂春), Wang Y-L(王余龙), Wang J-G(王坚刚), Shan Y-H(单玉华), Ma A-J(马爱京), Yang H-J(杨洪建), Zhang C-S(张传胜), Cai H-R(蔡惠荣). Study on the differences of root traits between various types of varieties in rice (Oryza sativa L.). Acta Agron Sin (作物学报), 2002, 28(6): 749–755 (in Chinese with English abstract)

[17] Cairns J, Audebert A, Townend J, Price A H, Mullins C E. Effect of soil mechanical impedance on root growth of two rice varieties under field drought stress. Plant Soil, 2004, 267: 309–318

[18] Cheng J-F(程建峰), Dai T-B(戴廷波), Jing Q(荆奇), Jiang D(姜东), Pan X-Y(潘晓云), Cao W-X(曹卫星). Root morphological and physiological characteristics in relation to nitrogen absorption efficiency in different rice genotypes. Chin J Soil Sci (土壤学报), 2007, 44(2): 266–272 (in Chinese with English abstract)

Related Articles 15

[1]	TIAN Tian, CHEN Li-Juan, HE Hua-Qin. Identification of rice blast resistance candidate genes based on integrating Meta-QTL and RNA-seq analysis [J]. Acta Agronomica Sinica, 2022, 48(6): 1372-1388.
[2]	ZHENG Chong-Ke, ZHOU Guan-Hua, NIU Shu-Lin, HE Ya-Nan, SUN wei, XIE Xian-Zhi. Phenotypic characterization and gene mapping of an early senescence leaf H5(esl-H5) mutant in rice (Oryza sativa L.) [J]. Acta Agronomica Sinica, 2022, 48(6): 1389-1400.
[3]	ZHOU Wen-Qi, QIANG Xiao-Xia, WANG Sen, JIANG Jing-Wen, WEI Wan-Rong. Mechanism of drought and salt tolerance of OsLPL2/PIR gene in rice [J]. Acta Agronomica Sinica, 2022, 48(6): 1401-1415.
[4]	ZHENG Xiao-Long, ZHOU Jing-Qing, BAI Yang, SHAO Ya-Fang, ZHANG Lin-Ping, HU Pei-Song, WEI Xiang-Jin. Difference and molecular mechanism of soluble sugar metabolism and quality of different rice panicle in japonica rice [J]. Acta Agronomica Sinica, 2022, 48(6): 1425-1436.
[5]	YAN Jia-Qian, GU Yi-Biao, XUE Zhang-Yi, ZHOU Tian-Yang, GE Qian-Qian, ZHANG Hao, LIU Li-Jun, WANG Zhi-Qin, GU Jun-Fei, YANG Jian-Chang, ZHOU Zhen-Ling, XU Da-Yong. Different responses of rice cultivars to salt stress and the underlying mechanisms [J]. Acta Agronomica Sinica, 2022, 48(6): 1463-1475.
[6]	YANG Jian-Chang, LI Chao-Qing, JIANG Yi. Contents and compositions of amino acids in rice grains and their regulation: a review [J]. Acta Agronomica Sinica, 2022, 48(5): 1037-1050.
[7]	DENG Zhao, JIANG Nan, FU Chen-Jian, YAN Tian-Zhe, FU Xing-Xue, HU Xiao-Chun, QIN Peng, LIU Shan-Shan, WANG Kai, YANG Yuan-Zhu. Analysis of blast resistance genes in Longliangyou and Jingliangyou hybrid rice varieties [J]. Acta Agronomica Sinica, 2022, 48(5): 1071-1080.
[8]	YANG De-Wei, WANG Xun, ZHENG Xing-Xing, XIANG Xin-Quan, CUI Hai-Tao, LI Sheng-Ping, TANG Ding-Zhong. Functional studies of rice blast resistance related gene OsSAMS1 [J]. Acta Agronomica Sinica, 2022, 48(5): 1119-1128.
[9]	ZHU Zheng, WANG Tian-Xing-Zi, CHEN Yue, LIU Yu-Qing, YAN Gao-Wei, XU Shan, MA Jin-Jiao, DOU Shi-Juan, LI Li-Yun, LIU Guo-Zhen. Rice transcription factor WRKY68 plays a positive role in Xa21-mediated resistance to Xanthomonas oryzae pv. oryzae [J]. Acta Agronomica Sinica, 2022, 48(5): 1129-1140.
[10]	WANG Xiao-Lei, LI Wei-Xing, OU-YANG Lin-Juan, XU Jie, CHEN Xiao-Rong, BIAN Jian-Min, HU Li-Fang, PENG Xiao-Song, HE Xiao-Peng, FU Jun-Ru, ZHOU Da-Hu, HE Hao-Hua, SUN Xiao-Tang, ZHU Chang-Lan. QTL mapping for plant architecture in rice based on chromosome segment substitution lines [J]. Acta Agronomica Sinica, 2022, 48(5): 1141-1151.
[11]	WANG Ze, ZHOU Qin-Yang, LIU Cong, MU Yue, GUO Wei, DING Yan-Feng, NINOMIYA Seishi. Estimation and evaluation of paddy rice canopy characteristics based on images from UAV and ground camera [J]. Acta Agronomica Sinica, 2022, 48(5): 1248-1261.
[12]	KE Jian, CHEN Ting-Ting, WU Zhou, ZHU Tie-Zhong, SUN Jie, HE Hai-Bing, YOU Cui-Cui, ZHU De-Quan, WU Li-Quan. Suitable varieties and high-yielding population characteristics of late season rice in the northern margin area of double-cropping rice along the Yangtze River [J]. Acta Agronomica Sinica, 2022, 48(4): 1005-1016.
[13]	CHEN Yue, SUN Ming-Zhe, JIA Bo-Wei, LENG Yue, SUN Xiao-Li. Research progress regarding the function and mechanism of rice AP2/ERF transcription factor in stress response [J]. Acta Agronomica Sinica, 2022, 48(4): 781-790.
[14]	WANG Lyu, CUI Yue-Zhen, WU Yu-Hong, HAO Xing-Shun, ZHANG Chun-Hui, WANG Jun-Yi, LIU Yi-Xin, LI Xiao-Gang, QIN Yu-Hang. Effects of rice stalks mulching combined with green manure (Astragalus smicus L.) incorporated into soil and reducing nitrogen fertilizer rate on rice yield and soil fertility [J]. Acta Agronomica Sinica, 2022, 48(4): 952-961.
[15]	QIN Qin, TAO You-Feng, HUANG Bang-Chao, LI Hui, GAO Yun-Tian, ZHONG Xiao-Yuan, ZHOU Zhong-Lin, ZHU Li, LEI Xiao-Long, FENG Sheng-Qiang, WANG Xu, REN Wan-Jun. Characteristics of panicle stem growth and flowering period of the parents of hybrid rice in machine-transplanted seed production [J]. Acta Agronomica Sinica, 2022, 48(4): 988-1004.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

Quantitative Analysis on Root Morphological Characteristics Based on Image Analysis Method in Rice

PDF

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 0