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1.
低钾胁迫对水稻(Oryza sativa L.)化感潜力变化的影响   总被引:4,自引:0,他引:4  
研究以国际公认的化感水稻P1312777和非化感水稻Lemont为供体,稗草(Echinochloa cru-galli L.)为受体,采用稻/稗共培体系,研究低钾胁迫对水稻化感潜力变化的影响及其机制。受体稗草的形态指标分析结果表明,低钾胁迫促使化感水稻P1312777对共培稗草的根长、株高和干重的抑制率均升高,增幅远大于非化感水稻Lemont。受体稗草生理生化指标分析结果表明,低钾胁迫下化感与非化感水稻对受体稗草保护酶系(SOD、POD、CAT)及根系活力的抑制作用增强,但化感水稻P1312777比非化感水稻Lemont的抑制程度大,且达极显著差异。实时荧光定量PCR分析结果表明,低钾胁迫下,化感水稻P1312777根部与叶部中酚类代谢的关键酶——苯丙氨酸解氨酶、肉桂酸-4-羟化酶、羟化酶、O-甲基转移酶的基因均上调表达,而非化感水稻根部相应酶均下调表达,叶部除苯丙氨酸解氨酶上调,其余酶也下调表达。而萜类代谢途径关键酶——HMG—CoA还原酶、角鲨烯合酶、单萜烯环化酶、倍半萜烯环化酶、二萜烯环化酶的基因,在两种水稻根部中呈现出相同或相似的表达方式(上调或下调),即HMG—CoA还原酶上调表达,角鲨烯合酶、单萜烯环化酶、倍半萜烯环化酶、二萜烯环化酶下调表达;而在水稻叶部,非化感水稻Lmont相应酶基因表达方式仍然不变,化感水稻P1312777除了角鲨烯合酶下调表达,其余4个酶均上调表达。水稻根系分泌物中酚类物质的HPLC分析结果表明,低钾胁迫下,化感水稻P1312777根系分泌物中,所检出的酚酸类物质总量是正常营养条件下的2.30倍,而非化感水稻Lemont则是正常营养条件下的0.91倍。综合分析认为低钾胁迫下,化感水稻P1312777抑草能力增强主要是由于酚类代谢途径关键酶基因表达上调,导致酚类代谢途径旺盛,分泌出更多的酚类物质,进而破坏受体稗草保护酶系统,抑制了稗草的正常生长。  相似文献   

2.
化感水稻不同组织水浸提液对稗草的化感作用   总被引:15,自引:2,他引:13  
本研究利用HG1和HG2两个化感水稻品种和稗草为材料,研究了化感水稻品种的叶、叶鞘、根组织的水浸提液对稗草幼苗的化感作用。结果表明:HG1不论是对稗草幼苗的株高还是对稗草幼苗的根都有极强的化感作用,而HG2只对稗草的根有极强的化感作用。在不同组织之间,叶和叶鞘的水浸提液对稗草的抑制作用显著大于根的水浸提液和对照。两个化感水稻对稗草幼苗根的抑制更强于对苗高的抑制。随着稗草密度的增加,稗草受抑程度减少,这可能与单株吸收化感物质的量减少有关。  相似文献   

3.
水稻和稗草共生土壤微生物生物量碳及酶活性的变化   总被引:8,自引:0,他引:8  
李海波  孔垂华 《应用生态学报》2008,19(10):2234-2238
以稻田稗草、化感水稻PI312777和普通水稻辽粳9为试材,研究了田间稗草和水稻1∶1共生条件下,土壤微生物生物量碳及脱氢酶、脲酶和转化酶活性的变化.结果表明:在稗草 的干扰下,化感水稻PI312777根区土壤微生物生物量碳含量比单作减少了 50.52%(P<0.01),而行间土壤微生物生物量碳含量增加;普通水稻辽粳9根区土壤 微生物生物量碳含量比单作减少了38.99%(P<0.01),但其行间土壤微生物生物量碳含量无明显变化.两个水稻品种根区土壤脱氢酶活性均被显著抑制(P<0.05),下降率都在20%以上;PI312777根区土壤脲酶和转化酶活性均被显著促进(P<0.01);而辽粳9根区土壤转化酶活性也被显著抑制(P<0.01),但脲酶活性无明显变化.化感水稻根区土壤微生物生物量碳含量的显著减少及脲酶、转化酶活性的增加是其化感特性的表现,表明土壤微生物和酶均参与了水稻和稗草的种间作用,化感水稻具有抗稗草干扰的明显优势.  相似文献   

4.
不同类型稻种资源对稗草化感潜力差异评价   总被引:1,自引:0,他引:1  
以120份不同类型稻种资源为研究对象,将田间鉴定和室内叶浸提液处理鉴定方法相结合,对其化感作用差异进行了鉴定评价.结果表明,在田间不同类型稻种资源对稗草生长的抑制效果大小趋势为地方品种>选育品种(系)>引进品种(系)>杂交水稻(恢复系和不育系),对稗草苗鲜重和苗干重的抑制效果大于对苗高的抑制效果.室内叶浸提液处理鉴定结果,不同类型稻种资源间化感作用差异相对较小,但仍以地方品种较强,并对稗草根长的抑制效果大于对稗草苗高的抑制效果.地方品种中具有较强化感作用的种质资源频率高于其他类型品种,今后要加强对地方品种资源的化感潜力鉴定和评价.  相似文献   

5.
针对已报道属于羟基肟酸(丁布)、酚酸和酞酸酯类的稗草潜在的化感物质,本文以水稻、稗草和莴苣为试验材料,对2,4-二叔丁基酚、对羟基扁桃酸2种酚酸以及3种酞酸酯类物质的化感活性进行了研究.采用高效液相色谱法( HPLC)研究了上述5种物质以及丁布在稗草组织、根区土壤和种子萌发液的含量.结果表明:在100μg·ml-1作用浓度下,对羟基扁桃酸对莴苣、水稻以及稗草的种子萌发和幼苗生长的综合抑制活性最弱,2,4-二叔丁基酚化感抑制活性相对最强.酞酸二甲酯、酞酸二异辛酯和2,4-二叔丁基酚这3种物质对稗草的抑制活性大干水稻.通过HPLC只在稗草苗期叶、根和种子萌发液中检测出对羟基扁桃酸,其含量分别为9.72 μg·g-1、7.29 μg·g-1和0.24 μg·ml-1,而其他生长期组织以及根区土壤中均未检出.所有样品均未检测出2,4-二叔丁基酚、丁布和3种酞酸酯类物质.对羟基扁桃酸的浓度-效应试验显示,接近实测浓度(20 μg·g-1)时其对3种受试植物没有显著的化感抑制效应.本研究表明,对羟基扁桃酸不是稗草中主要的化感物质;通过HPLC-标准物质比对方法可以准确分析上述6种化合物,并证实了稗草不含有2,4-二叔丁基酚、丁布和酞酸酯类物质.  相似文献   

6.
在低磷(0.5 mg·L-1) 营养胁迫下,运用生理生化方法分析了化感水稻PI312777(PI)与非化感水稻Lemont (Le) 对稗草抑制作用潜力的变化特性及其内在机理.结果表明,在低磷营养胁迫下,化感水稻品种PI对受体稗草根干重的抑制能力明显提高,在处理后的5 、10和15 d,其对稗草地下部干重的抑制率分别增加了5.64%、3.89%和12.13%,增加幅度比非化感水稻品种Le显著.生理生化分析结果表明,与正常营养条件相比,用低磷营养下生长的化感水稻PI的根系分泌物处理稗草5、10和15 d,受体稗草叶片中POD活性的促进率分别提高了20.19%、15.47%和6.68%,吲哚乙酸氧化酶活性的促进率分别提高了18.08%、17.71%和12.50%,硝酸还原酶活性的抑制率分别增加了13.89%、18.60%和2.10%. 在低磷营养胁迫下,化感水稻通过抑制受体植物的硝酸还原酶活性,影响其对氮营养的吸收,同时显著提高了吲哚乙酸氧化酶活性,减缓了受体稗草的生长速度,提高了其抑草作用潜力.  相似文献   

7.
为了探讨外源水杨酸(SA)调控水稻化感抑草效应的可行性,研究了不同浓度的外源SA对强化感水稻PI312777抑草效应的影响及其生理生化特性,并运用实时定量RT-PCR(FQ-PCR)技术检测SA介导的关键酶苯丙氨酸解氨酶基因(ZB8)的相对表达量.结果表明:外源SA能够诱导水稻化感抑草效应增强,而且这种诱导效应与SA的浓度和处理时间相关.叶面喷施SA后,PI312777对稗草的抑制率显著提高,其根系活力、超氧化物歧化酶(SOD)和过氧化物酶(POD)活性增强,过氧化氢酶(CAT)活性降低;而伴生杂草稗草的相应生理指标的变化趋势则相反.PI312777植株中的苯丙氨酸解氨酶(PAL)活性增强,总酚含量升高.0.2 mmol·L-1的SA诱导水稻化感抑草效应最显著,该浓度下目的基因ZB8的相对表达丰度随处理时间先上调后下调,在24 h达到表达高峰.  相似文献   

8.
入侵植物会通过化感作用等手段抑制本地种的生存繁衍,但本土植物尤其是地被层的藓类植物对入侵植物有何影响尚不清楚。本文以本土羽枝青藓和瘤柄匐灯藓为供体材料,以恶性入侵杂草稗草和野胡萝卜为受试材料,从藓丛结构特征和化感作用角度探究藓类植物对入侵植物种子萌发和幼苗生长的影响。结果表明: 2种入侵植物种子落入藓丛后其发芽率、发芽势和发芽指数均受到显著抑制,抑制效果为藓丛上部>藓丛下部>无藓丛。稗草种子落入藓丛下部会显著影响其根长和根芽比。施加藓类浸提液均显著降低2种入侵植物的发芽率、发芽势及发芽指数,但呈现不同的浓度效应。施加浸提液在一定程度上增加了稗草幼苗芽长、根长和根芽比,但对野胡萝卜无明显的规律性影响。藓类植物对2种入侵植物种子萌发和幼苗生长的化感综合效应均表现为抑制作用,其中,野胡萝卜的敏感性大于稗草,且高浓度下更加明显。可见,藓类植物对入侵植物种子萌发和幼苗生长具有一定抑制作用。  相似文献   

9.
水稻苯丙氨酸解氨酶(PAL)调控酚酸类化感物质的合成代谢。编码PAL的基因是一个基因家族,包含至少11个基因成员,并受不同环境条件的调控。为了明确PAL基因家族中调控水稻化感作用的特定基因成员,本研究运用实时荧光定量PCR技术分析了低氮及稗草胁迫条件下强化感水稻PI312777与非化感水稻Lemont中根系的11个PAL成员基因的表达差异。结果表明,低氮和稗草胁迫条件下,PI312777和Lemont中的 PAL4和PAL10均不表达,其余9个PAL基因成员发生了不同程度的表达变化。其中,PAL11均上调表达,其分别在低氮处理和稗草胁迫的PI312777中上调3.29倍和1.07倍,而在相同处理下的Lemont中上调3.92倍和1.08倍;PAL3和PAL9则仅在低氮和稗草胁迫条件下的PI312777中上调表达,低氮胁迫分别为1.83倍和2.66倍,稗草胁迫为1.46倍和2.65倍;而这两个基因在相同处理下的Lemont中表达下调,低氮胁迫下调1.05和1.24倍,稗草胁迫下调1.14和1.16倍,推测PAL3和PAL9可能与胁迫初期调控水稻化感作用有关。  相似文献   

10.
胡椒、芒果和黄皮的化感作用潜力   总被引:15,自引:0,他引:15  
以胡椒、芒果和黄皮作为供体,玉米、黄豆、南瓜、花生、萝卜、稗草、马唐、柱花草为受体,通过种子萌发法和根生长法测定胡椒、芒果和黄皮的化感作用潜力.结果表明,玉米、黄豆、南瓜、稗草和马唐的萌发和根生长都受到3种供体水浸提液的影响,3种供体水浸提液在高浓度下抑制而在低浓度下则促进受体的萌发和根生长;胡椒和芒果根系周围的土壤对玉米萌发和根生长有促进作用而对花生的萌发和根生长则有抑制作用.3种供体的水浸提液通过乙酸乙酯、正丁醇萃取分离成不同极性的三相后分别对玉米、萝卜和柱花草进行处理.结果表明,胡椒和芒果浸提液的水相与正丁醇相对受体的抑制作用明显强于乙酸乙酯相,表明胡椒和芒果的化感物质具有较强的极性.  相似文献   

11.
He HB  Wang HB  Fang CX  Lin ZH  Yu ZM  Lin WX 《PloS one》2012,7(5):e37201
Plant-plant interference is the combined effect of allelopathy, resource competition, and many other factors. Separating allelopathy from resource competition is almost impossible in natural systems but it is important to evaluate the relative contribution of each of the two mechanisms on plant interference. Research on allelopathy in natural and cultivated plant communities has been hindered in the absence of a reliable method that can separate allelopathic effect from resource competition. In this paper, the interactions between allelopathic rice accession PI312777, non-allelopathic rice accession Lemont and barnyardgrass were explored respectively by using a target (rice)-neighbor (barnyardgrass) mixed-culture in hydroponic system. The relative competitive intensity (RCI), the relative neighbor effect (RNE) and the competitive ratio (CR) were used to quantify the intensity of competition between each of the two different potentially allelopathic rice accessions and barnyardgrass. Use of hydroponic culture system enabled us to exclude any uncontrolled factors that might operate in the soil and we were able to separate allelopathy from resource competition between each rice accession and barnyardgrass. The RCI and RNE values showed that the plant-plant interaction was positive (facilitation) for PI312777 but that was negative (competition) for Lemont and barnyardgrass in rice/barnyardgrass mixed-cultures. The CR values showed that one PI312777 plant was more competitive than 2 barnyardgrass plants. The allelopathic effects of PI312777 were much more intense than the resource competition in rice/barnyardgrass mixed cultures. The reverse was true for Lemont. These results demonstrate that the allelopathic effect of PI312777 was predominant in rice/barnyardgrass mixed-cultures. The most significant result of our study is the discovery of an experimental design, target-neighbor mixed-culture in combination with competition indices, can successfully separate allelopathic effects from competition.  相似文献   

12.
利用相同遗传背景不同株形水稻浙辐802等基因系为材料,研究了IG1、IG4、IG25和IG26与无芒稗的竞争和化感作用潜力,探索了二者之间的相互关系.结果表明,IG1和IG4的植株高度和分蘖角度显著大于IG25和IG26,但它们的根系活力却显著小于IG25和IG26.IG1和IG4对无芒稗生物量干重抑制率分别达到15%和17%,显著高于IG26的64%,表明水稻与无芒稗竞争力与水稻植株高度和分蘖角度成正比,而与水稻根系活力成反比.IG1叶片水浸提液对无芒稗根长抑制率为776%,显著高于非化感对照品种秀水63,而植株形态相近的IG4的化感作用却未达到显著水平,显示在相同遗传背景下水稻化感作用强弱与水稻株型无相关性.  相似文献   

13.
水稻对稗草的化感作用研究   总被引:29,自引:7,他引:22  
用差时播种共培法的改进方法对138份稻种资源进行了化感作用抑稗评价。结果表明,江西的青困二号、江苏的吓一跳、安徽的鸡早籼、江西的赣早籼37、陕西的商糯1号、IRRI的1R68465-2-3-2、韩国的水原92对稗草表现出较强的化感抑制作用。盆栽研究表明,谷梅2号、中156对稗草的抑制作用显著大于对照,而化感作用材料TN1对稗草的抑制作用与无化感作用材料秀水63无显著差异,中156的抑制作用强与其株高与秀水63有显著差异有关,而谷梅2号对稗草的抑制作用强主要在于其本身具有化感作用特性。  相似文献   

14.
Rice allelopathy is a hot topic in the field of allelopathy, and behaviour of donor allelopathic rice has been well documented. However, few study addresses response of receiver barnyardgrass (BYG). We found that expression of miRNAs relevant to plant hormone signal transduction, nucleotide excision repair and the peroxisome proliferator‐activated receptor and p53 signalling pathways was enhanced in BYG co‐cultured with the allelopathic rice cultivar PI312777, the expression levels of these miRNAs in BYG plants were positively correlated with allelopathic potential of the co‐cultured rice varieties. Treatment of BYG plants with rice‐produced phenolic acids also increased miRNA expression in BYG, while treatment with rice‐produced terpenoids had no obvious effect on miRNA expression. In the hydroponic system, the largest number of Myxococcus sp. was found in the growth medium containing rice with the highest allelopathic potential. The addition of phenolic acids in the hydroponic medium also increased the number of Myxococcus sp. More interestingly, inoculation with Myxococcus xanthus significantly increased miRNA expression in the treated BYG. Jointed treatments of ferulic acid and M. xanthus led to strongest growth inhibition of BYG. The results suggest that there exist involvement of Myxococcus sp. and mediation of miRNA expression in rice allelopathy against BYG.  相似文献   

15.
应用差异蛋白质组学方法分析作物化感作用的分子机理   总被引:9,自引:1,他引:8  
试验旨在分析运用分子标记技术(QTL)和差异蛋白组学技术研究作物化感作用分子机理的差异性。首先运用差异蛋白组学技术探讨在生物胁迫(稗草)下水稻化感作用潜力变化的内在分子机理。分别用稗草和水稻的根系分泌物培养切自一株5叶龄化感水稻P I312777植株并经恢复的2个分蘖。7d后,提取处理和对照相同叶位叶片的全蛋白质并进行双向电泳,每张电泳胶片上获得800多个电泳胶点,其中差异表达的蛋白质点有4个。采用M ALD I-TOF-M S对各差异蛋白质点进行肽质量指纹图谱分析,经过SW ISS-PROT数据库查询,结果表明化感水稻P I312777在稗草胁迫下的特异蛋白分别与苯丙氨酸氨解酶(PAL)、硫还原型蛋白(T rx-m)、3-羟基-3-甲基戊二酰辅酶A还原酶(HM GR)和过氧化物酶(POD)相匹配。根据编码以上4个差异蛋白质的DNA序列,发现编码以上4个差异蛋白的基因分别位于水稻染色体4、7、8和12上的特定克隆位点,这就是与化感作用相关基因。前人也运用QTL方法开展作物化感作用的分子机理研究,但由于所采用的供体材料、受体植物及对表型性状的评价方法等的不同,定位结果存在较大的差异。综合比较两种方法后认为,运用差异蛋白组学技术分析水稻化感作用的分子机理,比QTL技术更加直接和深入。因为比较胁迫处理和对照植物组织的2-DE图谱将能鉴定出由表达候选基因编码的胁迫蛋白质,氨基酸残基序列的测定将揭示那些功能与胁迫性状密切相关的蛋白质,这种编码的基因就是兼具功能与表达的候选基因。  相似文献   

16.
Bei Sun  Chui-Hua Kong  Peng Wang  Rui Qu 《Plant Ecology》2012,213(12):1917-1926
The production of secondary metabolites and biomass of plants may be altered by coexistence and competition. Rice has coexisted with barnyardgrass in paddy systems for centuries and represents a model system for understanding plant–plant interactions. Despite increasing knowledge of allelochemicals produced and released by rice involved in coexistence of these two species, relatively little is known about the role and production of beneficial chemicals of rice in response to competing barnyardgrass. The purpose of this study was to quantify the growth-stimulating allantoin (5-ureidohydantoin) and its effect on barnyardgrass growth in a rice–barnyardgrass system. In this system, rice produced and released allantoin but barnyardgrass did not. The production of allantoin by rice responded to competition from barnyardgrass, and its concentration varied among rice cultivars tested. At 1:1 barnyardgrass and rice mixture proportion, allantoin concentration in allelopathic cultivars was obviously lowered by competing barnyardgrass, while no significant variation of allantoin concentration was observed in non-allelopathic cultivars. Barnyardgrass biomass was reduced in mixed-culture with rice cultivars, in particular, allelopathic cultivars. There was a positive relationship between allantoin concentration in rice cultivars and barnyardgrass biomass. Furthermore, allantoin stimulated the growth of barnyardgrass once released from rice or added to soil. The results suggest that rice plants of allelopathic cultivars appear to be able to detect the presence of competing barnyardgrass and respond by decreasing production of growth-stimulating allantoin, regulating the growth of barnyardgrass. In this manner, given rice cultivars may alleviate the competition of barnyardgrass and provide greater benefit to their own growth.  相似文献   

17.
水稻品种化感潜力的双重评价与筛选   总被引:3,自引:0,他引:3  
以初筛获得的7份水稻品种为材料,用特征次生物质标记法在HPLC上测定化感指数AI值并结合田间小区试验进行双重评价与筛选,得到3份既具高化感指数又具较高田间抗草活性的水稻化感品种(系),它们是:我国台湾品种I-Kung-Pao、Parahainakoru和大陆品种HB-1。它们对无芒稗根长抑制率分别达57%、64%、55%,均超过50%;其化感指数分别是0.61、0.56、0.59,均与美国化感潜力品种PI312777的化感指数0.59相近;结果表明,水稻品种I-Kung-Pao、Parahainakoru和HB-1是我国宝贵的化感品种资源。  相似文献   

18.
The chemical cross talk between rice and barnyardgrass which is one of the most noxious weeds in rice cultivation was investigated. Allelopathic activity of rice was increased by the presence of barnyardgrass seedlings or barnyardgrass root exudates. Rice allelochemical, momilactone B, concentration in rice seedlings and momilactone B secretion level from rice were also increased by the presence of barnyardgrass seedlings or barnyardgrass root exudates. As momilactone B possesses strong growth inhibitory activity and acts as an allelochemical, barnyardgrass-induced rice allelopathy may be due to the increased momilactone B secretion. These results suggest that rice may respond to the presence of neighboring barnyardgrass by sensing the chemical components in barnyardgrass root exudates and increase allelopathic activity by elevated production and secretion levels of momilactone B. Thus, rice allelopathy may be one of the inducible defense mechanisms by chemical-mediated plant interaction between rice and barnyardgrass and the induced-allelopathy may provide a competitive advantage for rice through suppression of the growth of barnyardgrass.Key words: allelopathy, Echinochloa, chemical interaction, induced-allelopathy, momilactone, Oryza sativaThe chemical cross talk between host and symbiotic or parasitic plants is an essential process for the development of physical connections in symbiosis and parasitism.13 Barnyardgrass is one of the most common and noxious weeds in rice paddy fields.4 Although barnyardgrass is adapted rice production system due to its similarity in growth habit, the reason why barnyardgrass so often invades into the rice paddy fields is unknown. There might be some special interactions between both plant species.Plants are able to accumulate phytoalexins around infection sites of pathogens soon after sensing elicitors of pathogen origin. This accumulation of phytoalexins can protect the plants from further pathogen infection.5,6 Plants are also able to activate defense mechanisms against attacking herbivores by sensing volatile compounds, such as methacrolein and methyl jasmonate, released by herbivore-attacked plant cells. The volatile-sensed plants increase the production of phenolics, alkaloids, terpenes and defense proteins, which reduce herbivory attacks.7,8 Therefore, plants are able to elevate the defense mechanisms against several biotic stress conditions by detection of various compounds.Allelopathy is the direct influence of organic chemicals released from plants on the growth and development of other plants.911 Allelochemicals are such organic chemicals involved in the allelopathy.12,13 Allelochemicals can provide a competitive advantage for host-plants through suppression of soil microorganism and inhibition of the growth of competing plant species because of their antibacterial, antifungal and growth inhibitory activities.3,14,15Rice has been extensively studied with respect to its allelopathy as part of a strategy for sustainable weed management, such as breeding allelopathic rice strains. A large number of rice varieties were found to inhibit the growth of several plant species when these rice varieties were grown together with these plants under the field or/and laboratory conditions.1620 These findings suggest that rice may produce and release allelochemicals into the neighboring environments and may inhibit the growth of the neighboring plants by the allelochemicals.Potent allelochemical, momilactone B, was isolated from rice root exudates.21 Momilactone B inhibits the growth of typical rice weeds like barnyardgrass and Echinochloa colonum at concentrations greater than 1 µM and the toxicity of momilactone B to rice itself was very low.22 In addition, rice plants secrete momilactone B from the roots into the rhizosphere over their entire life cycle.22 The observations suggest rice allelopathy may be primarily dependant on the secretion levels of momilactone B from the rice seedlings.22,23Allelopathic activity of rice exhibited 5.3- to 6.3-fold increases when rice and barnyardgrass seedlings were grown together. Root exudates of barnyardgrass seedlings also increased allelopathic activity and momilactone B concentration in rice seedlings. The increasing the exudate concentration increased the allelopathic activity and momilactone B concentration in rice.24 Thus, the chemical components in barnyardgrass root exudates may affect gene expressions involved in momilactone B biosynthesis. However, effects of the barnyardgrass root exudates on the secretion level of mimilactone B from rice has not yet reported.Rice seedlings were incubated in the medium containing barnyardgrass root exudates for 10 d, and secretion level of momilactone B by rice was determined (Fig. 1). The root exudates increased the secretion level significantly at concentrations greater than 30 mg/L of barnyardgrass root exudates, and increasing the concentration increased the secretion level. At concentrations of 300 mg/L of the root exudates, the secretion level was 10-fold greater than that in control (0 mg of root exudate). There was no significant difference in the osmotic potential between the medium contained barnyardgrass root exudates and control medium (all about 10 mmol/kg), and pH value of the medium was maintained at 6.0 throughout the experiments.25 These results suggest that unknown chemical components in the barnyardgrass root exudates may induce the secretion of momilactone B from rice. As momilactone B possesses strong phytotoxic and allelopathic activities,2123,25 the elevated production and secretion of momilactone B in rice may provide a competitive advantage for root establishment through local suppression of pathogens and inhibition of the growth of competing plant species including barnyardgrass. Thus, barnyardgrass-induced rice allelopathy may be caused by the chemical components in the barnyardgrass root exudates.Open in a separate windowFigure 1Effects of barnyardgrass root exudates on momilactone B secretion level in rice. Rice seedlings were incubated in the medium containing barnyardgrass root exudates for 10 d, and secretion level of momilactone B was determined as described by Kato-Noguchi.24 The experiment was repeated six times with three assays for each determination. Different letters show significant difference (p < 0.01) according to Tukey''s HSD test.Although mechanisms of the exudation are not well understood, it is suggested that plants are able to secrete a wide variety of compounds from root cells by plasmalemma-derived exudation, endoplasmic-derived exudation and proton-pumping mechanisms.3,15 Through the root exudation of compounds, plants are able to regulate the soil microbial community in their immediate vicinity, change the chemical and physical properties of the soil, and inhibit the growth of competing plant species.3,14,15 The present research suggests that rice may be aware of the presence of neighboring barnyardgrass by detection of certain key in barnyardgrass root exudates, and this sensorial function may trigger a signal cascade resulting in increasing rice allelopathy through increasing production of momilactone B and secretion of momilactone B into the rhizosphere. Therefore, rice allelopathy may potentially be an inducible defense mechanism by chemical-mediated plant interactions between rice and barnyardgrass.  相似文献   

19.
Much research on rice allelopathy has been directed toward the selection of allelopathic rice strains and the identification of allelochemicals in rice. This paper briefly summarizes recent progress in the rice allelopathy and focuses on rediscovery of momilactone B as an allelochemical. A large number of rice varieties were found to inhibit the growth of several plant species when grown together under field and/or laboratory conditions. These findings suggest that rice probably produces and releases allelochemical(s) into the environment. The putative compound causing the inhibitory effect of rice was recently isolated from rice root exudates, and the chemical structure of the inhibitor was determined by spectral data as momilactone B. In addition, it has been found that momilactone B is released from rice roots into the neighboring environment, and the release level of momilactone B from rice may be sufficient to cause growth inhibition of neighboring plants. These findings suggest that momilactone B may play an important role in rice allelopathy.  相似文献   

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