Scientia Agricultura Sinica ›› 2011, Vol. 44 ›› Issue (21): 4358-4366.doi: 10.3864/j.issn.0578-1752.2011.21.004

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY·AGRICULTURE INFORMATION TECHNOLOGY • Previous Articles     Next Articles

Root Traits Affecting N Absorptive Capacity in Conventional Japonica Rice

 YU  Xiao-Feng, LI  Jin-Qian, TIAN  Hao, PENG  Bin, ZHANG  Yan, WANG  Yi, YUAN  Qiu-Mei, HUANG  Jian-Ye, WANG  Yu-Long, DONG  Gui-Chun   

  1. 1.扬州大学农学院/江苏省作物遗传生理重点实验室/农业部长江中下游作物生理生态与栽培重点开放实验室,江苏扬州,225009
  • Received:2011-03-23 Online:2011-11-01 Published:2011-05-12

PDF

591

Cited

3

Abstract: 【Objective】 The objectives of the study were to investigate the evolution trends and diversities of root traits in conventional japonica rice cultivars of different N accumulation types, define the root traits of japonica rice cultivars with high N accumulation, and to provide experimental evidence for genetic improvements of root traits in conventional japonica rice cultivars.【Method】A total of 94 conventional japonica rice cultivars were solution-cultured in 2008 and 2009. Morphological and physiological traits of root, dry weight and N concentration of rice plant, grain yield and its components were measured. Then, the tested rice cultivars were clustered into 6 types based on their N accumulation at maturity by MinSSw method, and the differences in root and other traits between the types were analyzed.【Result】There was a significant difference among all tested cultivars in N accumulation. The highest N accumulation was 2.94 and 2.59 times as the lowest in 2008 and 2009, respectively. The average yields of japonica rice cultivars with high N accumulation were significantly higher than those with low N accumulation. Both growth duration and nitrogen uptake intensity were the main factors influencing N accumulation, but the influence of nitrogen uptake intensity to N accumulation was bigger. There were significant differences in root dry weight per plant, total length of adventitious roots per plant, total root absorption area per plant and root activity absorptions per plant of different types of japonica rice cultivars. The number of adventitious roots per plant and root activity per plant varied in different years. The root traits of cultivars with high N accumulation, including the number of adventitious roots per plant, root dry weight per plant, total length of adventitious roots per plant, total root absorption area per plant, root activity absorptions per plant and root activity per plant, were superior to those with low N accumulation. High accumulation could be reached by improving root dry weight per plant, ratio of shoot to root, total length of adventitious roots per plant and root dry weight per adventitious. 【Conclusion】 There is a significant difference among all tested cultivars in N accumulation. Nitrogen uptake intensity is an important factor for N accumulation. The root traits of cultivars with high N accumulation, including the number of adventitious roots per plant, root dry weight per plant, total length of adventitious roots per plant, the total root absorption area per plant, the root activity absorptions per plant and root activity per plant, are superior to those with low N accumulation, root dry weight per plant, the ratio of shoot to root, the total length of adventitious roots per plant and dry weight per adventitious are the main factors influencing N absorptive capacity.

Key words: japonica rice, cultivars, N accumulation, root morphology, root activity

[1]Zheng Y M, Ding Y F, Wang Q S, Li G H, Wu H, Yuan Q, Wang H Z, Wang S H. Effect of nitrogen applied before transplanting on NUE in rice. Agricultural Sciences in China, 2007, 6(7): 842-848.

[2]孙传范, 曹卫星, 戴廷波. 土壤—作物系统中氮肥利用率的研究进展. 土壤, 2001(2): 64-69, 71.

Sun C F, Cao W X, Dai T B. Advance of nitrogen use efficiency in soil-crops system. Soils, 2001(2): 64-69, 71. (in Chinese)

[3]Konishi H, Ishiguro K, Komatsu S. A proteomics approach towards understanding blast fungus infection of rice grown under different levels of nitrogen fertilization. Proteomics, 2001, 1(9): 1162-1171.

[4]尤小涛, 荆 奇, 姜 东, 戴廷波, 周冬琴, 曹卫星. 节水灌溉条件下氮肥对粳稻稻米产量和品质及氮素利用的影响. 中国水稻科学, 2006, 20(2): 199-204.

You X T, Jing Q, Jiang D, Dai T B, Zhou D Q, Cao W X. Effects of nitrogen application on nitrogen utilization and grain yield and quality in rice under water saving irrigation. Chinese Journal of Rice Science, 2006, 20(2): 199-204. (in Chinese)

[5]贺 帆, 黄见良, 崔克辉, 曾建敏, 徐 波, 彭少兵, R J Buresh. 实时实地氮肥管理对水稻产量和稻米品质的影响. 中国农业科学, 2007, 40(1): 123-132.

He F, Huang J L, Cui K H, Zeng J M, Xu B, Peng S B, Buresh R J. Effect of real-time and site-specific nitrogen management on rice yield and quality. Scientia Agricultura Sinica, 2007, 40(1): 123-132. (in Chinese)

[6]彭少兵, 黄见良, 钟旭华, 杨建昌, 王光火, 邹应斌, 张福锁, 朱庆森, Roland Buresh, Chrstian Witt. 提高中国稻田氮肥利用率的研究策略. 中国农业科学, 2002, 35(9): 1095-1103.

Peng S B, Huang J L, Zhong X H, Yang J C, Wang G H, Zou Y B, Zhang F S, Zhu Q S, Buresh R, Witt C. Research strategy in improving fertilizer-nitrogen use efficiency of irrigated rice in China. Scientia Agricultura Sinica, 2002, 35(9): 1095-1103. (in Chinese)

[7]娄 庭, 龙怀玉, 杨丽娟, 陈宝鸿, 周水亮, 穆 真. 在过量施氮农田中减氮和有机无机配施对土壤质量及作物产量的影响. 中国土壤与肥料, 2010(2): 11-15, 34.

Lou T, Long H Y, Yang L J, Chen B H, Zhou S L, Mu Z. The effect of fertilizer ratio and rate on soil quality and crop yields in the farmland of excessive use of nitrogenous fertilizers. Soil and Fertilizer Sciences in China, 2010(2): 11-15, 34. (in Chinese)

[8]严小龙, 张福锁. 植物营养遗传学. 北京: 中国农业出版社, 1997: 6-9.

Yan X L, Zhang F S. Genetics of Plant Nutrition. Beijing: China Agriculture Press, 1997:6-9.(in Chinese)

[9]韩碧文. 根系的合成作用及其与地上部部分的相关. 植物学通报, 1984(2): 23-25.

Han B W. The synthetic activities of roots and their relation to the above-ground parts. Chinese Bulletin of Botany, 1984(2): 23-25. (in Chinese)

[10]张传胜, 王余龙, 龙银成, 董桂春, 杨连新, 黄建晔. 影响籼稻品种产量水平的主要根系性状. 作物学报, 2005, 31(2): 137-143.

Zhang C S, Wang Y L, Long Y C, Dong G C, Yang L X, Huang J Y. Main root traits affecting yield level in conventional indica rice cultivars (Oryza sativa L.). Acta Agronomica Sinica, 2005, 31(2): 137-143. (in Chinese)

[11]石庆华, 李木英, 涂起红. 杂交水稻根系生长优势与吸氮特性关系的初步研究. 江西农业大学学报, 1999, 21(2): 145-148.

Shi Q H, Li M Y, Tu Q H. Preliminary study on the growth superiority and the characteristics of nitrogen uptake of hybrid rice roots. Acta Agriculturae Universitis Jiangxiensis, 1999, 21(2): 145-148.(in Chinese)

[12]张岳芳, 王余龙, 张传胜, 董桂春, 杨连新, 黄建晔, 龙银成. 籼稻品种的氮素累积量与根系性状的关系. 作物学报, 2006, 32(8): 1121-1129.

Zhang Y F, Wang Y L, Zhang C S, Dong G C, Yang L X, Huang J Y, Long Y C. Relationship between N accumulation and root traits in conventional indica rice varieties (Oryza sativa L.). Acta Agronomica Sinica, 2006, 32(8): 1121-1129. (in Chinese)

[13]叶利庭, 樊剑波, 徐晔红, 赵海娟, 图尔迪, 沈其荣, 张亚丽. 不同氮效率水稻的生长特性. 南京农业大学学报, 2010, 33(3): 77-81.

Ye L T, Fan J B, Xu Y H, Zhao H J, Tu E D, Shen Q R, Zhang Y L. Characteristics of growth in rice genotypes with different nitrogen use efficiency. Journal of Nanjing Agricultural University, 2010, 33(3): 77-81. (in Chinese)

[14]石庆华, 李木英, 涂起红. 杂交水稻根系N素营养效率及其生理因素研究. 杂交水稻, 2002, 17(4): 45-48.

Shi Q H, Li M Y, Tu Q H. Studies on efficiency of N nutrition and physiological factors in roots of  hybrid rice. Hybrid Rice, 2002, 17(4): 45-48. (in Chinese)

[15]Inthapanya P, Sihavong P, Sihathep V, Chanhphengsay M, Fukai S, Basnayake J. Genotypic performance under fertilized and non-fertilized conditions in rained low land rice. Field Crops Research, 2000, 65: 1-14.

[16]Tirol-padre A, Ladha J K, Singh U, Laureles E, Punzalan G, Akita S. Grain yield performance of rice genotypes at suboptimal levels of soil N as affected by N uptake and utilization efficiency. Field Crops Research, 1996, 46(1-3): 127-143.

[17]朴钟泽, 韩龙植, 高熙宗. 水稻不同基因型氮素利用效率差异. 中国水稻科学, 2003, 17(3): 233-238.

Piao Z Z, Han L Z, Koh H J. Variations of nitrogen use efficiency by rice. Chinese Journal of Rice Science, 2003, 17(3): 233-238. (in Chinese)

[18]殷春渊, 张 庆, 魏海燕, 张洪程, 戴其根, 霍中洋, 许 轲, 马 群, 杭 杰, 张胜飞. 不同产量类型水稻基因型氮素吸收、利用效率的差异. 中国农业科学, 2010, 43(1): 39-50.

Yin C Y, Zhang Q, Wei H Y, Zhang H C, Dai Q G, Huo Z Y, Xu K, Ma Q, Hang J, Zhang S F. Differences in nitrogen absorption and use efficiency in rice genotypes with different yield performance. Scientia Agricultura Sinica, 2010, 43(1): 39-50. (in Chinese)

[19]Zhang Y H, Fan J B, Zhang Y L, Wang D S, Huang Q W, Shen Q R. N accumulation and translocation in four japonica rice cultivars at different N rates. Pedosphere, 2007, 17(6): 792-800.

[20]童依平, 李继云, 李振声. 农作物N素利用效率基因型差异及其机理. 生态农业研究, 1999, 7(2): 23-27.

Tong Y P, Li J Y, Li Z S. The mechanism behind genotypic differences for nitrogen use efficiency in crops. Eco-Agricultural Research. 1999, 7(2): 23-27. (in Chinese)

[21]张宪政. 作物生理研究法. 北京: 中国农业出版社, 1992: 139-142.

Zhang X Z. Research Methods of Crop Physiology. Beijing: China Agriculture Press, 1992: 139-142. (in Chinese)

[22]顾世梁, 莫惠栋. 动态聚类的一种新方法—最小组内平方和法. 江苏农学院学报, 1989, 10(4): 1-8.

Gu S L, Mo H D. A new dynamic clustering method-MinSSw method. Journal of Jiangsu Agricultural College, 1989, 10(4): 1-8. (in Chinese)

[23]董桂春, 王余龙, 王坚刚, 单玉华, 马爱京, 杨洪建, 张传胜, 蔡惠荣. 不同类型水稻品种间根系性状的差异. 作物学报, 2002, 28(6): 749-755.

Dong G C, Wang Y L, Wang J G, Shan Y H, Ma A J, Yang H J, Zhang C S, Cai H R. Differences of root traits among varietal types in rice (Oryza sativa L. ). Acta Agronomica Sinica, 2002, 28(6): 749-755. (in Chinese)

[24]陈 健. 籼粳稻及其杂交育成种根系的比较研究. 沈阳农业大学学报, 1991(增1) :99-105.

Chen J. Comparative study on roots of indica and japonica varieties and their hybrids. Journal of Shenyang Agricultural University, 1991, (S1): 99-105. (in Chinese)

[25]董桂春, 董燕萍, 张 彪, 周 娟, 李进前, 于小凤, 田 昊, 王余龙. 不同库容量类型籼稻品种根系性状的差异. 中国农业科学, 2009, 42(9): 3058-3066.

Dong G C, Dong Y P , Zhang B, Zhou J, Li J Q, Yu X F, Tian H, Wang Y L. Differences of root traits in conventional indica rice cultivars with different types of sink-potential. Scientia Agricultura Sinica, 2009, 42(9): 3058-3066. (in Chinese)

[26]董桂春, 李进前, 田 昊, 于小凤, 张 彪, 张传胜, 张岳芳, 黄建晔, 王余龙. 大穗型籼稻品种根系性状的差异. 作物学报, 2009, 35(7): 1357-1363.

Dong G C, Li J Q, Tian H, Yu X F, Zhang B, Zhang C S, Zhang Y F, Huang J Y, Wang Y L. Characteristics of roots traits in conventional indica rice cultivars with large-panicle. Acta Agronomica Sinica, 2009, 35(7): 1357-1363.(in Chinese)

[27]程建峰, 戴廷波, 荆 奇, 姜 东, 潘晓云, 曹卫星. 不同水稻基因型的根系形态生理特性与高效氮素吸收. 土壤学报, 2007, 44(2): 266-272.

Cheng J F, Dai T B, Jin Q, Jiang D, Pan X Y, Cao W X. Root morphological and physiological characteristics in relation to nitrogen absorption efficiency in different rice genotypes. Acta Pedologica Sinica, 2007, 44(2): 266-272. (in Chinese)

[28]樊剑波, 张亚丽, 万小羽, 沈其荣. 水稻根系与氮素吸收利用之研究进展. 中国农学通报, 2007, 23(2): 236-240.

Fan J B, Zhang Y L, Wan X Y, Shen Q R. Progress in research of rice root related to nitrogen uptake and utilization. Chinese Agricultural Science Bulletin, 2007, 23(2): 236-240. (in Chinese)

[29]赵学强, 施卫明. 水稻根系生长对不同氮形态响应的动态变化. 土壤, 2007, 39(5): 766-771.

Zhao X Q, Shi W M. Dynamic responses of rice in root growth to different NH4+ and NO3- supply. Soils, 2007, 39(5): 766-771. (in Chinese)

[30]樊剑波, 沈其荣, 谭炯壮, 叶利庭, 宋文静, 张亚丽. 不同氮效率水稻品种根系生理生态指标的差异. 生态学报, 2009(6): 3052-3058.

Fan J B, Shen Q R, Tan J Z, Ye L T, Song W J, Zhang Y L. Difference of root physiological and ecological indices in rice cultivars with different N use efficiency. Acta Ecologica Sinica, 2009(6): 3052-3058. (in Chinese)

[31]徐富贤, 熊 洪, 谢 戎, 张 林, 郭晓艺, 杨大金, 周兴兵, 朱永川, 刘 茂. 水稻氮素利用效率的研究进展及其动向. 植物营养与肥料学报, 2009, 15(5):1215 -1225.

Xu F X, Xiong H, Xie R, Zhang L, Guo X Y, Yang D J, Zhou X B, Zhu Y C, Liu M. Advance of rice fertilizer-nitrogen use efficiency. Plant Nutrition and Fertilizer Science, 2009, 15(5): 1215-1225. (in Chinese)

[32]曾建敏. 水稻氮效率评价系统的建立与氮高效形成机理的研究[D]. 武汉: 华中农业大学, 2006: 83-107.

Zeng J M. Establishment of evaluation system for nitrogen use efficiency (nue) and study on the mechanisms of high-nue development in rice[D]. Wuhan: Huazhong Agricultural University, 2006: 83-107. (in Chinese)

[33]殷春渊, 张洪程, 张 庆, 魏海燕, 戴其根, 霍中洋, 许 轲, 马 群, 李 敏, 李国业. 水稻不同生育期类型品种精确定量施氮参数的初步研究. 作物学报, 2010, 36(8): 1342-1354.

Yin C Y, Zhang H C, Zhang Q, Wei H Y, Dai Q G, Huo Z Y, Xu K, Ma Q, Li M, Li G Y. Preliminary study on parameters of precise and quantitative nitrogen application in rice varieties with different growth period durations. Acta Agronomica Sinica, 2010, 36(8): 1342-1354. (in Chinese)

[34]董桂春, 于小凤, 赵江宁, 居 静, 田 昊, 李进前, 张 燕, 王余龙. 不同穗型常规籼稻品种氮素吸收利用的基本特点. 作物学报, 2009, 35(11): 2091-2100.

Dong G C, Yu X F, Zhao J N, Ju J, Tian H, Li J Q, Zhang Y, Wang Y L. General characteristics of nitrogen uptake and utilization in conventional indica rice cultivars with different panicle weight types. Acta Agronomica Sinica, 2009, 35(11): 2091-2100. (in Chinese)
[1] CUI JieHao, ZHANG Meng, WANG Qin, YU JiaYan, LIN Kun, LI ShangZe, LAN Heng, GENG YanQiu, ZHANG Qiang, GUO LiYing, SHAO XiWen. Evaluation of Lodging Resistance and Its Physiological Mechanisms in Japonica Rice Resources [J]. Scientia Agricultura Sinica, 2026, 59(7): 1420-1438.
[2] ZHOU XinJie, REN Hao, CHEN YingLong, ZHANG JiWang, ZHAO Bin, REN BaiZhao, LIU Peng, WANG HongZhang. Effects of Calcium Peroxide on Root Morphology and Yield Formation of Summer Maize in Waterlogging Farmland [J]. Scientia Agricultura Sinica, 2026, 59(6): 1203-1216.
[3] LI XinYi, LI JiaNing, YANG WenPing, XIA Qing, HUO YingRui, HAO ShiHang, HUANG TingMiao, REN YongKang, CHEN Jie, GAO ZhiQiang, YANG ZhenPing. Effects of Post-Anthesis Foliar Zinc Application on Zinc Nutrition in Colored-Grain Wheat [J]. Scientia Agricultura Sinica, 2026, 59(3): 515-527.
[4] XIAO ChangChun, WEI XinYu, ZENG YueHui, HUANG JianHong, XU XuMing. Accumulation Characteristics of Anthocyanins in Black Rice Under Different Sowing Dates and Its Relationship with Meteorological Factors [J]. Scientia Agricultura Sinica, 2025, 58(5): 890-906.
[5] FANG Wen, LIU JunQuan, CUI Xin, LIU AiHua, FANG YaTing, CONG RiHuan, LU ZhiFeng, LI XiaoKun, REN Tao, LU JianWei. Characteristics of Crop Yield, Stability and Nitrogen Utilization in Rice-Rapeseed Rotation System Under Different Nitrogen Application Rates [J]. Scientia Agricultura Sinica, 2025, 58(16): 3220-3232.
[6] LIU Chen, FANG YaTing, REN Tao, WANG KunKun, REN YuFang, MENG ZiZhen, LIAO ShiPeng, LU JianWei. The Impact of Annual Nitrogen Fertilizer Management on Crop Yield and Nitrogen Utilization in Rice-Rapeseed Rotation System [J]. Scientia Agricultura Sinica, 2025, 58(16): 3233-3244.
[7] WANG PengFei, YU AiZhong, WANG Feng, WANG YuLong, LÜ HanQiang, SHANG YongPan, Yin Bo, LIU YaLong, ZHANG DongLing, HUO JianZhe, JIANG KeQiang, PANG XiaoNeng. Effects of Reducing Nitrogen Application on Maize Agronomic Traits, Grain Yield and Quality Under Green Manure Returning to Field System in Arid Areas [J]. Scientia Agricultura Sinica, 2025, 58(13): 2552-2563.
[8] ZHOU Yu, SUN Tong, ZHANG YanHong, RU Yan, SU Tan, WANG Shuai, ZHU JinYan, HU JinLong, XIONG QiangQiang, ZHANG HongCheng, ZHOU NianBing. Effects of Nitrogen Fertilization Levels on Matter Accumulation and Nitrogen Uptake in Different Source and Library Types of Japonica Rice [J]. Scientia Agricultura Sinica, 2025, 58(11): 2096-2117.
[9] GAO YaFei, ZHAO YuanBo, XU Lin, SUN JiaYue, XIA YuXuan, XUE Dan, WU HaiWen, NING Hang, WU AnChi, WU Lin. Long-Term Sphagnum Cultivation in Cold Waterlogged Paddy Fields Increases Organic Carbon Content and Decreases Soil Extracellular Enzyme Activities [J]. Scientia Agricultura Sinica, 2024, 57(8): 1533-1546.
[10] LIU YiHan, MU QingShan, HE Xiang, CHEN Min, HU Jin, GUAN YaJing. Study on the Involvement of OsFWL3 in the Regulation of Metal Ion Transport and Accumulation in Rice [J]. Scientia Agricultura Sinica, 2024, 57(21): 4161-4174.
[11] SHAO JiaZhu, LÜ Wen, LIAO XinLin, YUAN XinYu, SONG Zhen, JIANG DongHua. Isolation and Identification of Soybean Rhizosphere Growth-Promoting Bacteria and Their Salt Tolerance and Growth-Promoting Effects [J]. Scientia Agricultura Sinica, 2024, 57(21): 4248-4263.
[12] ZHANG Zhen, SHI Yu, YU ZhenWen, ZHANG YongLi. The Differences of Plant Nitrogen Transport and Grain Nitrogen Accumulation in Different Yield Levels of Wheat Field [J]. Scientia Agricultura Sinica, 2024, 57(13): 2539-2548.
[13] HUANG FangYuan, BIAN XiaoHua, JIANG Zhan, XIAO XiaoLu, DUAN Bo, CHEN Chang, MA Ni, GUAN ZhouBo. Characteristics of Root Growth, Carbon and Nitrogen Accumulation and Distribution in Winter Rapeseed in Different Ecological Regions [J]. Scientia Agricultura Sinica, 2024, 57(12): 2404-2423.
[14] LEI MengLin, LIU Xia, WANG YanZhen, CUI GuoQing, MU ZhiXin, LIU LongLong, LI Xin, LU LaHu, LI XiaoLi, ZHANG XiaoJun. Genetic Diversity Analysis of Winter Wheat Germplasm Resources in Shanxi Province Based on 55K SNP Array [J]. Scientia Agricultura Sinica, 2024, 57(10): 1845-1856.
[15] HE Jiang, DING Ying, LOU XiangDi, JI DongLing, ZHANG XiangXiang, WANG YongHui, ZHANG WeiYang, WANG ZhiQin, WANG WeiLu, YANG JianChang. Difference in the Comprehensive Response of Dry Matter Accumulation of Rice at Tillering Stage to Rising Atmospheric CO2 Concentration and Nitrogen Nutrition and Its Physiological Mechanism [J]. Scientia Agricultura Sinica, 2023, 56(6): 1045-1060.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
京ICP备09089781号-30
Copyright 2018 © Editorial office of Scientia Agricultura Sinica
Tel: 86-010-82106279    E-mail: zgnykx@mail.caas.net.cn
Supported by Beijing Magtech Co.Ltd