WANG Jin-sheng,WU Jun-jiang,MA Feng-ming,et al.Observation of Soybean Ultrastructure with Different Phosphorous Treatments[J].Soybean Science,2012,31(02):242-246.[doi:10.3969/j.issn.1000-9841.2012.02.016]
不同磷素水平下大豆叶片超显微结构的观察
- Title:
- Observation of Soybean Ultrastructure with Different Phosphorous Treatments
- 文章编号:
- 1000-9841(2012)02-0242-05
- Keywords:
- Soybean; Phosphorus efficiency; Ultra microscopic structure
- 分类号:
- S565.1
- 文献标志码:
- A
- 摘要:
- 利用筛选获得的表现稳定的磷高效基因型和磷低效基因型大豆品种各4个为材料,在不同供磷水平条件下培养至盛花期,取大豆生长点以下第二片复叶中间叶进行超微结构观察。结果表明:无论磷高效还是磷低效基因型品种随着施磷量的增加,叶片上单位面积气孔数目、气孔大小以及气孔开度均有所提高。在低磷处理下,磷高效基因型品种的气孔大小小于磷低效基因型品种,但气孔开度大于磷低效基因型品种,磷高效基因型品种低磷处理及中磷处理的单个叶肉细胞内叶绿体数量显著高于磷低效基因型品种,而高磷处理单个叶肉细胞内叶绿体数量则显著低于磷低效基因型品种。磷低效基因型品种随着磷肥施入量的增加,叶绿体的数量有所增加,且叶绿体形态较规则。对于磷高效基因型品种而言,高量的磷肥对叶绿体可能有一定的毒害作用,叶绿体破坏较为严重。因此,针对不同磷效基因型大豆合理地施用磷肥能有效改善叶片气孔及叶绿体的超微结构,提高大豆叶片光合作用的执行功能。
- Abstract:
- Eight soybean cultivars with different P efficiency were cultivated until flowering in 3 P levels(0, 640 and 960 mg·kg-1) and then took the mid-leaf of the second ternate for ultrastructure observation. The result showed that with the increase of P amount, the stoma number, size and aperture in unit leaf area of high or low P efficiency cultivars were increased. Under P0 control, the stoma size of high P efficiency cultivar was smaller than low P ones, but the aperture was bigger than low P cultivars. The chloroplast number in single mesophyll cell of high P efficiency cultivars in low and middle P levels were significantly higher than low P efficiency ones, but opposite in high P treatment. With the increase of P amount, the chloroplast number was increased with regular shape. However, a large amount of P fertilizer may be harmful to the chloroplast of high P efficiency genotypes and destroyed chloroplast shape seriously. In conclusion, scientifically P utilization could improve the ultra microscopic structure of stomata and chloroplast, finally increase the efficiency of photosynthesis.
参考文献/References:
[1]童学军,严小龙,李惠珍,等.大豆磷效率与形态生理性状的关系.福建师范大学学报(自然科学版),2000,16(1):84-88.(Tong X J,Yan X L,Li H Z,et al.Studies on characteristics of phosphorus efficiency of soybean genotypes and relationship between those and some morphological,physiological traits[J].Journal of Fujian Teachers University (Natural Science),2000,16(1):84-88.)
[2]Hinsinger P.Bio-availability of soil inorganic P in the rhizosphere as affected by root-induced chemical changes[J].Plant Soil,2001,237:173-95.
[3]Wang L D,Liao H,Yan X L,et al.Genetic variability for root hair traits as related to phosphorus status in soybean[J].Plant and Soil,2003,261(1):77-84.
[4]Lynch J P,Brown K M.Topsoil foraging-an architectural adaptation of plants to low phosphorus availability[J].Plant and Soil,2001,237(2):225-237.
[5]Saric'M R.Progress since the first international symposium:‘Genetic aspects of plant nutrition’,Beograd, 1982, and perspectives of future research[J].Plant and Soil,1987,99(1):197-209.
[6]刘杰,刘丽君,吴俊江,等.大豆超微结构的研究进展及展望[J].大豆科学,2004,23(3):228-231.(Liu J,Liu L J,Wu J J,et al.Progress and Prospect of research on soybean ultrastructures[J].Soybean Science,2004,23(3):228-231.)
[7]Lott J N A,Buttrose M S.Globoids in protein bodies of legume seed cotyledons[J].Plant Physiology,1978,5(1):89-111.
[8]Mlodzianowski F.The fine structure of protein bodies in lupin cotyledons during the course of seed germination[J].Plant Physiology,1978,86:1-13.
[9]Ullah A H J,Gibson D M.Purification and characterization of acid phosphate from cotyledons of germinating soybean seeds[J].Archives of Biochemistry and Biophysics,1988,260:514-520. [10]王延枝,斯海文.植物细胞液泡膜H+ -ATPase的初步研究[J].武汉大学学报(自然科学版),1987(1):101-106.(Wang Y Z,Si H W.The preliminary study of the tonoplast H+-ATPase from plant cell[J].Journal of Wuhan Unirersity(Natural Sciences Edition),1987(1):101-106.)
[11]颜清上,陈品三,王连铮.中国小黑豆抗源对大豆孢囊线虫4号生理小种抗性机制研究[J].植物病理学报,1997,27(1):37-41.(Yan Q S,Chen P S,Wang L Z.Mechanism of Resistance to rece4 of heterodera glycines in Chinese black soybeans[J].Acta Phytopathologica Sinica,1997,27(1):37-41.)
[12]邵伯飞,胡东维,李德葆.大豆与白粉病菌相互作用的超微结构与细胞化学[J].电子显微学报,2001,20(6):744-747.(Shao B F,Hu D W,Li D B. Ultrastructural and cytochemical studies on interaction between soybean and its powdery mildew pathogen,Erysiphe glycines[J]. Journal of Chinese Electron Microscopy Society,2001,20(6):744-747.)
[13]金平.有机肥对水分胁迫下大豆几种生理指标和茎叶组织超微结构的影响[J].大豆科学,1997,16(1):76-79.(Jin P.Inrluence of organic fertilizer on some physiological indics and ulterstructure of stem and leaf of soybean plant geown under water stress condition[J]. soybean science,1997,16(1):76-79.)
[14]李学湛.渍水条件下不同抗性大豆根组织细胞结构的观察研究[J].大豆科学,1998,17(3):276-279.(Li X Z.Study on the structure of root tissue celles from soybeans with different resistance to water-logged stress[J]. Soybean Science,1998,17(3):276-279.)
[15]庄炳昌,惠东威,王玉民.中国不同纬度不同进化类型大豆RAPD分析[J].科学通报,1994,39(23):2178-2178.(Zhuang B C,Hui D W,Wang Y M.RAPD analysis of different evolutionary type soybeans in different latitude of China [J].Chinese Science Bulletin,1994,39(23):2178-2178.)
[16]庄炳昌,王玉民,徐豹,等.大豆Soja亚属植物花粉形态的比较观察[J].作物学报,1997,23(1):111-113.(Zhuang B C,Wang Y M,Xu B,et al.Comparison survey of pollen structure and ultrastructure of different species within subgenus soja[J]. Acta Agronomica Sinica,1997,23(1):111-113.)
[17]陆静梅.中国大豆属植物拮抗逆境的演化结构研究[D]. 南京:南京农业大学,1997.(Lu J M.Study on the evolving structure of Chinese Glycine L. crop of Antagonism on adverse environment[D].Nanjing:Nanjing Agricultural University,1997.)
[18]洪健,陈玉银,饶立华.水稻叶片的电镜制样技术探讨[J].植物生理学通讯,1990(6):58-60.(Hong J,Chen Y Y,Rao L H.
The preparation of rice leaf specimen with electron microscopy[J].Plant Physiology Communications,1990(6):58-60.)
[19]Yu S W. Plant physiology and molecular biology[M].Science Press,1992:141-146.
[20]余秋海,彭新湘,严小龙,等.缺磷对大豆叶片显微结构及光合作用的影响[J].吉林农业大学学报,2006,28(2):127-132.(Yu Q H,Peng X X,Yan X L,et al.Effect of phosphorus deficiency on microstructure and photosynthesis in soybean leaves[J].Journal of Jilin Agricultural University,2006,28(2):127-132.)
[21]Anderson J M,Goodchild D J, Boardman N K.Composition of the photosystems and chloroplast structure in extreme shade plants[J].Biochimica et Biophysica Acta(BBA)-Bioenergetics,1973,325:573-585.
[22]范燕萍,李慧玲,李浩健.几种花叶浅艺兰叶片色素色斑组成和叶绿体超微结构研究[J].华中农业大学学报,2006,27(2):8-12.(Fan Y P,Li H L,Li H J.Pinment composition and uitrastructural difference of chloroplast in three kinds of variegation leaf of Cymbidium sinense[J].Journal of Huazhong Agricultural University,2006,27(2):8-12.)
[23]Grover A,Mohanty P.Leaf Senescence-induced alterations in structure and function of higher plant chloroplasts[M]//Abrol Y P,Mohany P.Photosynthesis:photoreactions to plant productivity.Dordrecht:Kluwer Academic Publishers,1992:225-255.
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备注/Memo
基金项目:黑龙江省自然科学基金资助项目(C201104);"十二五"国家科技支撑计划资助项目(2011BAD35B06);现代农业产业技术体系资助项目(nycytx-004)。