不同硼效率棉花品种根系参数和伤流液组分的差异   总被引：4，自引：0，他引：4  

耿明建  朱建华  吴礼树  刘武定 《土壤通报》2006,37(4):744-747

溶液培养条件下研究硼对不同硼效率棉花品种根系参数、伤流量及伤流液组分的影响。结果表明,缺硼抑制棉花根系生长,根重、根体积、根长、活跃吸收面积、总吸收面积、活跃吸收面积占总吸收面积的比例以及伤流量均显著降低,高效品种降低幅度比低效品种小;缺硼还使高效品种根系比表面积升高,而低效品种无显著变化。缺硼显著影响不同棉花品种伤流液各组分含量,与低效品种相比,高效品种伤流液中有较多的NO3-、K+、无机磷、可溶性糖和游离氨基酸。说明缺硼条件下高效品种根系比低效品种具有更强的吸收、代谢活力,可能是其硼效率较高的主要原因之一。  相似文献   

不同氮效率木薯品种根系形态、构型及氮吸收动力学特征   总被引：4，自引：2，他引：2  

康亮  梁琼月  姚一华  蒋强  董蒙蒙  顾明华  何冰 《植物营养与肥料学报》2019,25(11):1920-1928

【目的】比较分析低氮 (N) 条件下不同氮效率木薯品种的根系形态、构型及吸收动力学变化,以阐明木薯氮高效吸收机制,为指导木薯生产和木薯品种选育提供理论基础。【方法】于2015年在广西大学国家重点实验室温室大棚内进行了试验。盆栽试验采用双因素 (品种 × 氮水平) 区组设计。供试木薯品种包括氮高效品种华南10号 (SC10) 与氮低效品种华南205(SC205)。氮水平包括不施氮 (N0) 和施N 55.2 mg/kg土 (N1)。每盆装10 kg土,种植1株幼苗。木薯出苗60天后,取出并洗净根系,利用根系扫描仪EPSON2000进行根系图像采集,利用WinRHIZO PRO根系分析软件分析图片,获得根系形态指标。将整株植株分成根、茎、叶三个部分,测量干重和氮含量。根系分层试验在大型根系观测系统中进行。吸收动力学试验采用改进常规耗竭法,并比较分析了木薯根系形态、根系构型特征及硝态氮吸收动力学参数差异。【结果】N1和N0条件下,氮高效品种SC10生物量和氮素积累量均显著高于氮低效品种SC205(P < 0.05)。N0条件下,SC10的整株生物量降幅为37.4%,SC205的降幅为69.4%,品种SC10的降幅显著低于SC205 (P < 0.05);SC10的根、茎、叶和全株氮积累量均显著高于SC205,全株氮积累量为SC205的152%。与N1相比,N0处理的木薯品种SC10总根长、根系表面积和细根根长的降幅分别为11.0%、10.0%和20.4%,SC205的降幅分别高达35.9%、27.7%和50.2%,两个品种下降幅度差异显著 (P < 0.05)。低氮诱导木薯根系分布下移,SC10根系呈上宽下窄三角形,最深可达180 cm土层;SC205根系呈椭圆形,最深达130cm土层。氮素吸收动力学试验结果发现SC10、SC205的Km分别为3.27和7.87 mmol/L,表明SC10根系对NO₃–的亲和性更高。【结论】氮高效品种SC10的根系对硝态氮的亲和力 (Km) 几乎是氮低效品种SC205的两倍。在氮素胁迫条件下,氮高效品种可形成优于氮低效品种的根系构型,特别是根系的总根长、根系表面积和细根根长的下降幅度显著小于氮低效品种,是有效缓解氮胁迫的重要原因。  相似文献   

不同磷营养油菜品种根系形态及生理特性差异研究   总被引：35，自引：1，他引：34  

刘慧  刘景福  刘武定 《植物营养与肥料学报》1999,5(1):40-45

研究不同磷营养油菜对磷素的反应及其根系形态特征、生理特性等方面的差异,结果表明:磷高效油菜需磷量较小,而在缺磷时吸磷量较大;缺磷时两种油菜品种根冠比增加,且磷高效品种增加幅度大于磷低效品种;缺磷时,磷高效品种具有较长的根系,较大的根体积、根表面积与根活跃吸收表面积,而加磷时,两品种差异不大。油菜缺磷时,磷高效品种磷外渗率小于磷低效品种,加磷时两品种磷外渗率差异不大。缺磷时磷高效品种对磷的亲和力大于磷低效品种,加磷时磷高效品种中磷进入根系的最大净流量小于磷低效品种。  相似文献   

田间玉米和蚕豆对低磷胁迫响应的差异比较   总被引：1，自引：1，他引：0  

张瑜  刘海涛  周亚平  李春俭 《植物营养与肥料学报》2015,21(4):911-919

【目的】植物在长期进化过程中形成了一系列适应机制,以应对低磷胁迫。本文提出玉米主要通过根系形态变化适应低磷胁迫的假设,并通过与蚕豆植株在根系形态与生理方面对低磷胁迫反应的比较试验加以验证。【方法】在中国农业大学上庄长期定位试验田进行两年田间实验,玉米和蚕豆分别单作,重复3次。在玉米抽雄前的拔节至大喇叭口期和蚕豆的初花至盛花期两次取样(两年的两次取样时间间隔10~12天),比较研究了不供磷和供磷100 kg/hm2下玉米和蚕豆生长和磷素吸收、根系在0—40 cm土层中分布、以及根际p H值和酸性磷酸酶活性的差异。【结果】1)玉米植株的生物量和含磷量远远高于蚕豆;第一次取样时蚕豆的根冠比高于玉米,而且两种植物低磷下的根冠比高于供磷充足处理。两次取样时玉米的总根长大于蚕豆,两种植物的大部分根系分布在0—20 cm表层土壤,玉米根系在0—10 cm土层的分布更多。2)蚕豆根系的比根长明显大于玉米,但单位根长吸磷量低于玉米,两种植物间的上述差异不受取样时间和供磷水平的影响。3)两次取样时,蚕豆根表的酸性磷酸酶活性均明显高于玉米。玉米根表的酸性磷酸酶活性在两个供磷水平下没有差异。第一次取样时,缺磷蚕豆根表的酸性磷酸酶活性高于供磷充足的蚕豆植株。4)缺磷蚕豆的根际土壤p H值明显低于供磷充足蚕豆;但玉米根际土壤p H值在缺磷和供磷充足条件下无显著差异。【结论】低磷条件下两种植物的根冠比均明显增加。玉米根系单位根长的吸磷量高于蚕豆,并且在含磷量丰富的表层土壤分布有更多根系,但缺磷条件下玉米没有增加根系的质子和酸性磷酸酶的分泌,主要以根系形态变化来适应低磷胁迫。结果支持本文提出的玉米主要通过根系形态变化适应低磷胁迫的假设。但蚕豆在低磷条件下除了增加根系生长外,还具有通过增加质子分泌和根表酸性磷酸酶活性提高根际土壤有效磷浓度的潜力。  相似文献   

小麦不同磷效率品种对不同磷源的利用差异及酸性磷酸酶的作用   总被引：3，自引：0，他引：3  

吴沂珀  张锡洲  李廷轩  阳显斌  吴德勇 《核农学报》2013,27(3)

以小麦磷高效利用品种(03-2917)和低效利用品种(S-10-1)为材料,在水培条件下,测定其生物量、磷含量、根系分泌酸性磷酸酶、根系及叶片酸性磷酸酶活性等,研究不同磷素利用效率小麦品种有机磷吸收利用的差异.结果表明:(1)不同供磷条件下,磷高效品种干物质量、磷积累量较低效品种的大,而磷含量低于低效品种.小麦不同磷素利用效率品种均表现为无机磷处理下根冠比大于有机磷处理,磷高效品种在不同施磷处理下根冠比均较大.(2)不同磷效率小麦品种根系分泌酸性磷酸酶活性在低无机磷处理(0.05mmolP·L-1,Ⅳ)下最大,1/2无机磷+1/2有机磷处理(0.30mmolP·L-1,Ⅱ)大于正常有机磷处理.不同磷处理下,高效品种根系分泌酸性磷酸酶活性均大于低效品种.(3)不同磷效率小麦根系与叶片酸性磷酸酶活性呈现为正常无机磷(Ⅰ)＜1/2无机磷+1/2有机磷(Ⅱ)＜正常有机磷(Ⅲ)＜低无机磷(Ⅳ)的处理,且低效品种大于高效品种.(4)无机磷总量在磷处理及品种间表现与酸性磷酸酶相反的趋势,正常无机磷(Ⅰ)＞1/2无机磷+1/2有机磷(Ⅱ)＞正常有机磷(Ⅲ)＞低无机磷(Ⅳ)的处理,高效品种大于低效品种.  相似文献   

低磷胁迫下箭筈豌豆和毛叶苕子根际过程的差异比较   总被引：2，自引：1，他引：1  

吕阳  程文达  黄珂  李晓卿  曹卫东  申建波 《植物营养与肥料学报》2011,17(3):674-679

采用我国北方两个豆科绿肥品种: 箭筈豌豆（Vicia sativa L.）与毛叶苕子（Vicia villosa Roth）,在控制条件下通过不同供磷处理的营养液培养,研究了不同绿肥作物适应低磷胁迫根际过程的差异,并揭示其高效利用磷的机理。试验通过分次取样的方法,测定了两种豆科作物在缺磷与供磷条件下的生物量、根系质子释放速率、根系有机酸分泌速率以及根表酸性磷酸酶活性的动态。结果表明,箭筈豌豆与毛叶苕子在生长前期对低磷胁迫的响应存在明显差异。箭筈豌豆主要靠增大质子释放量和提高酸性磷酸酶活性来适应低磷胁迫; 而毛叶苕子主要通过提高根冠比、扩大根系生物量来对外界环境中的缺磷状况做出响应,在缺磷时其根表酸性磷酸酶的活性显著提高。箭筈豌豆与毛叶苕子可通过协调根系形态和生理的适应性变化提高对磷的吸收。  相似文献   

甘蓝型油菜不同磷效率品种苗期根系生长及磷营养的差异   总被引：17，自引：4，他引：17  

段海燕  徐芳森  王运华 《植物营养与肥料学报》2002,8(1):65-69

对甘蓝型油菜磷高效品种 970 81和磷低效品种 97029苗期根系生长状况和体内无机磷含量及酸性磷酸酯酶活性进行了比较。结果表明 ,磷高效品种的主根长 ,根体积、根 /冠比及根系活力受缺磷影响均比低效品种降低9 3、2 1.9、10 .9、7.8个百分点 ,表现出根系良好的适应性。在缺磷条件下 ,2个品种各部位无机磷含量都有所降低 ,而酸性磷酸酯酶活性则增加。其中磷低效品种 970 2 9各部位无机磷含量降低幅度较大 ,酶活性增长较快 ,表明其根系吸收能力较差 ,体内有机磷分解的程度高 ,苗期即需通过再利用来维持其基本生长 ,使后期的生长失去保障。磷高效品种 970 81各部位无机磷所受影响较小 ,酶活性增长较少 ,根系衰老较慢 ,再利用程度小 ,后期生长潜力大。  相似文献   

不同磷效率油菜根际土壤磷活化机理研究   总被引：8，自引：2，他引：6  

王文华  周鑫斌  周永祥  常红 《植物营养与肥料学报》2011,17(6):1379-1387

筛选和培育耐低磷植物是缓解磷矿资源缺乏和提高磷肥利用效率的有效途径之一。本研究在前期材料筛选的基础上,通过根箱试验研究不同磷效率油菜根际土壤磷活化机理,其结果如下:在施磷和不施磷处理条件下,磷高效油菜品种B56（HG）的吸磷量和生物量均高于磷低效品种B10（LG）;两油菜品种根际土壤中的NaHCO3-Pi, NaHCO3-Po和 NaOH-Pi,NaOH-Po四种磷素形态均有显著的亏缺现象;磷高效品种（HG）根际土壤上述四种磷素形态亏缺程度大于磷低效品种（LG）,但Resin-P则出现富集,并且HG的富集程度大于LG,这可能与HG具有较高吸磷能力有关。两油菜品种根际土壤HCl-Pi 和 残渣态磷（Residual-P）没有发生明显的亏缺现象。相比较而言,HG能分泌更多的酸性磷酸酶,该酶活性与NaHCO3-Po含量呈显著的负相关,说明酸性磷酸酶对有机磷矿化起着非常重要的作用。  相似文献   

甘蓝型油菜幼苗体内磷组分差异与磷高效关系的研究   总被引：2，自引：1，他引：1  

石磊  梁宏玲  徐芳森  王运华 《植物营养与肥料学报》2008,14(2):351-356

利用盆栽土培和营养液培养的方法,研究了甘蓝型油菜磷高效品种97081和磷低效品种97009在正常磷和低磷胁迫下幼苗植株生长、磷的吸收累积、植物磷组分以及酸性磷酸酶活性的差异。结果表明,缺磷条件下,97081品种的干物质重和磷累积量分别比97009高85.7%和50.0%,并且单位磷含量可以生产较多的干物质,具有较强的磷的吸收和利用效率。两品种中不可溶性有机磷、可溶性有机磷和无机磷含量都随着营养液磷水平的增加而提高。低磷胁迫时,根部不可溶性有机磷含量97009显著下降。两品种可溶性有机磷占总磷的比例均表现为下部叶＞上部叶;97081根和下部叶可溶性有机磷含量及其比例均高于97009。97081根部无机磷含量高于97009,但其所占全磷比例却较低。缺磷处理,上部叶酸性磷酸酶（APase）活性两品种无显著差异;但根中和下部叶APase活性97081显著高于97009。这与甘蓝型油菜高效品种具有较强的磷吸收和再利用能力密切相关。  相似文献   

低磷胁迫下小麦根系反应的基因型差异   总被引：13，自引：0，他引：13  

刘国栋  李继云 《植物营养与肥料学报》1996,2(3):212-218

本研究采用液培、根际原位显色和离子耗竭技术等方法,探索了小麦不同基因型根际对磷酸三钙的溶解作用,根际分泌酸性磷酸酯酶,根际氧化还原活力以及吸磷动力学的差异。结果表明,磷高效基因型不仅根系发达,而且溶解磷酸三钙的能力、酸性磷酸酯酶的分泌量和活性,对还原态甲烯蓝的氧化作用,对TTC的还原作用和吸磷动力系参数中的Imax等都显著优于磷低效基因型。有机碳分泌量高,对钙的吸收速度快也是磷高效基因型的重要特性。  相似文献   

Adaptive Phenotypic Differences to Low Potassium Soil of Two Cotton Genotypes with Various Potassium-Use Efficiencies     

《Communications in Soil Science and Plant Analysis》2012,43(15):1984-1993

Cotton (Gossypium hirsutum L.) is one of the most important cash crops in the world, and potassium (K) is an important limiting factor for cotton farming. Therefore, it is critical to improve K-use efficiency by selecting or breeding cotton genotypes with high K-use efficiency. Through a pot experiment with low-K soil, this article documentes the differences in vessel element anatomy and root hair traits between two cotton genotypes with different K-use efficiencies at both seedling and boll stages. Experimental results showed that at the seedling stage both frequency and length of root hair in the genotype with high K-use efficiency were significantly greater than those of the genotype with low K-use efficiency, but the frequency and diameter of vessels were not significantly different between the two genotypes. In the boll stage, the vessel frequencies in root, stem, petiole, and carpophore; root hair frequency, and length of high K-use-efficiency genotype were all significantly greater than those of the low K-use-efficiency genotype. The denser and longer root hairs were often found and accompanied by thicker vessel elements in the genotype with high K-use efficiency. This means the genotype had greater nutrient uptake and transportation capacity. The root hairs, vessel elements in root, stem, petiole, and carpophore, formed a complete system for nutrient uptake and translocation. The results from this study provide valuable information for the breeding of high K-use-efficiency cotton.  相似文献   

不同氮效率玉米根系时空分布与氮素吸收对氮肥的响应   总被引：2，自引：2，他引：0  

屈佳伟  高聚林  王志刚  于晓芳  胡树平  孙继颖 《植物营养与肥料学报》2016,22(5):1212-1221

【目的】 研究玉米根系时空分布对不同供氮水平的响应及其与植株氮素吸收的关系,对于充分挖掘氮高效基因型,探讨氮高效栽培途径具有重要意义。 【方法】 以氮高效玉米品种 (郑单 958、金山 27) 和氮低效玉米品种 (蒙农 2133 、内单 314) 为材料,以不施氮为对照 (N0),施氮 300 kg/hm2 为适量处理 (N300)、450 kg/hm2 为过量处理 (N450),进行了两年田间试验,调查了玉米根重、根长的时空分布及其与植株氮素吸收量的关系。 【结果】 对照 (N0) 和适量施氮 (N300) 条件下,氮高效品种的根系生物量显著高于氮低效品种,过量施氮 (N450) 条件下二者在吐丝前无显著差异,吐丝后氮高效品种根重降低缓慢,根系生物量高于氮低效品种。N0 和 N300 条件下,氮高效品种 0—100 cm 土层根长均显著高于氮低效品种,吐丝期到乳熟期,N0 处理 0—20 cm 耕层和 40 cm 以下土层内,氮高效品种的根系降低比率显著低于氮低效品种;施氮条件下,两类型品种 0—40 cm 土层内根系降低比率无显著差异,但 40 cm 以下土层氮高效品种根系降低比率显著低于氮低效品种。吐丝前氮素吸收量在 N0 和 N300 条件下,单位根长氮吸收速率对氮素吸收的直接作用较大,直接通径系数是 0.590 和 0.649,在 N450 条件下,根长对于氮素吸收的直接作用较大,直接通径系数是 0.536;吐丝后氮素吸收量在 N0 和 N300 条件下,根长对氮素的吸收直接作用较大,直接通径系数是 1.148 和 0.623,在 N450 条件下,单位根长氮吸收速率对氮素吸收的直接作用较大,直接通径系数是 0.858。 【结论】 不同氮效率玉米品种根系分布和氮素吸收对氮肥的响应存在明显差异。在低氮和适量施氮条件下,氮高效品种较氮低效品种表现出较高的根系生物量、根长和较低的根系衰老速率,其吐丝前氮素吸收主要与单位根长氮吸收速率有关,吐丝后则主要与根长有关;过量施氮条件下,其吐丝前氮素吸收主要受根长影响,吐丝后则主要与单位根长氮吸收速率有关。   相似文献   

Phosphorus acquisition and wheat growth are influenced by shoot phosphorus status and soil phosphorus distribution in a split‐root system     

Qifu Ma  Zed Rengel 《植物养料与土壤学杂志》2008,171(2):266-271

Root proliferation and greater uptake per unit of root in the nutrient‐rich zones are often considered to be compensatory responses. This study aimed to examine the influence of plant phosphorus (P) status and P distribution in the root zone on root P acquisition and root and shoot growth of wheat (Triticum aestivum L.) in a split‐root soil culture. One compartment (A) was supplied with either 4 or 14 mg P (kg soil)^–1, whereas the adjoining compartment (B) had 4 mg P kg^–1 with a vertical high‐P strip (44 mg kg^–1) at 90–110 mm from the plant. Three weeks after growing in the split‐root system, plants with 4 mg P kg^–1 (low‐P plants) started to show stimulatory root growth in the high‐P strip. Two weeks later, root dry weight and length density in the high‐P strip were significantly greater for the low‐P plants than for the plants with 14 mg P (kg soil)^–1. However, after 8 weeks of growth in the split‐root system, the two P treatments of compartment A had similar root growth in the high‐P strip of compartment B. The study also showed that shoot P concentrations in the low‐P plants were 0.6–0.8 mg g^–1 compared with 1.7–1.9 mg g^–1 in the 14 mg P kg^–1 plants after 3 and 5 weeks of growth, but were similar (1.1–1.4 mg g^–1) between the two plants by week 8. The low‐P plants had lower root P concentration in both compartments than those with 14 mg P kg^–1 throughout the three harvests. The findings may indicate that root proliferation and P acquisition under heterogeneous conditions are influenced by shoot P status (internal) and soil P distribution (external). There were no differences in the total root and shoot dry weight between the two P treatments at weeks 3 and 5 because enhanced root growth and P uptake in the high‐P strip by the low‐P plants were compensated by reduced root growth elsewhere. In contrast, total plant growth and total root and shoot P contents were greater in the 14 mg P kg^–1 soil than in the low‐P soil at week 8. The two P treatments did not affect the ratio of root to shoot dry weight with time. The results suggest that root proliferation and greater P uptake in the P‐enriched zone may meet the demand for P by P‐deficient plants only for a limited period of time.  相似文献   

不同基因型棉花根系对局部供磷的响应特征   总被引：1，自引：0，他引：1  

冯琳  顾惠敏  叶祖鹏  魏广东  黄国平  白旭明  韩伟  候银莹  陈波浪 《植物营养与肥料学报》2018,24(5):1303-1312

【目的】 养分异质性存在于自然土壤或农田土壤,探讨不同基因型棉花根系对异质性养分的响应,对提高棉花磷利用效率具有重要意义。 【方法】 本试验在土培条件下,设磷均质供应和磷局部供应两种供磷方式,根箱自上而下分为三层 (上层0—20 cm、中层20—40 cm、下层40—60 cm)。磷均质供应方式下根箱每一层的磷肥用量均为P₂O₅ 100 mg/kg,磷局部供应方式下磷肥用量为P₂O₅ 300 mg/kg,全部集中施在中层 (20—40 cm),上下两层均不施磷,两种供磷方式下氮钾肥均按N 150 mg/kg和K₂O 5 mg/kg均匀加入至根箱各层 (施钾量按75 kg/hm2计算),利用根箱分层研究2种基因型棉花根系对局部供磷 (20—40 cm) 响应的差异。 【结果】 局部供磷能显著改变棉花的根系形态,磷低效基因型‘新陆早13号’和磷高效基因型‘新陆早19号’总根长、根系表面积、根系总体积、比根长、中层细根长度分别增加了38.0%、41.9%、97.6%、27.3%、35.9%和34.5%、21.7%、39.0%、22.5%、42.8%。棉花对局部供磷的响应存在基因型差异,磷高效基因型‘新陆早19号’的总根长、根系表面积、根系总体积、比根长、中层细根长度均显著高于磷低效基因型‘新陆早13号’,分别是磷低效基因型‘新陆早13号’的1.23、1.31、1.73、1.07、1.30倍。主成分分析表明,棉花根系的可塑性主要受养分供应方式影响,而根系的基本构架主要受基因型控制。偏最小二乘回归分析表明,总根长、中层 (20—40 cm) 细根 (0—0.4 mm) 长度、根系表面积和根系总体积的VIP值超过1,对地上磷吸收起着明显重要的作用,其中中层 (20—40 cm) 细根 (0—0.4 mm) 长度10%的增加量可以引起地上部磷吸收2.33%的增加,即中层 (20—40 cm) 细根 (0—0.4 mm) 长度对植株磷吸收的贡献最大。 【结论】 在局部供磷区,磷高效基因型棉花具有更高的环境适应能力。对于高效和低效基因型,都应采取局部供磷的方式,优化根系分布和生长,提高棉花获取异质性磷养分的能力,以发挥棉花的最大生物学潜力,提高养分利用率,减少肥料用量,保护生态环境。   相似文献   

Neotyphodium coenophialum‐endophyte infection affects the ability of tall fescue to use sparingly available phosphorus     

D. P. Malinowski  D. P. Belesky 《Journal of plant nutrition》2013,36(4-5):835-853

Neotyphodium coenophialum, (Morgan‐Jones & Gams) Glenn, Bacon & Hanlin, infected tall fescue (Festuca arundinacea Schreb.) plants perform better than non‐infected isolines on phosphorus (P)‐deficient soils. Our objective was to characterize growth and P uptake dynamics of tall fescue in response to endophyte infection and P source at low P availability in soil. Two tall fescue genotypes (DN2 and DN4) infected with their naturally occurring N. coenophialum strains (E+), and in noninfected (E‐) forms were grown in Lily soil (fine loamy siliceous, mesic Typic Hapludult) in a greenhouse for 20 weeks. Three soil P treatments were imposed: no P supplied (control) and P supplied as commercial fertilizer (PF) or as phosphate rock (PR) at the level of 25 mg P kg^‐1 soil. Interaction of tall fescue genotype and endophyte status had a significant influence on mineral element uptake suggesting high specificity of endophyte‐tall fescue associations. Endophyte infection did not affect root dry matter (DM) when no P was supplied but shoot DM was reduced by 20%. More biomass was produced and greater P uptake rate occurred in PR than PF treatment. Root DM was greater in E+ DN4 than E‐DN4 when supplied with either PF or PR. In contrast, endophyte infection did not affect root DM of DN2, regardless of P source. Relative growth rate (RGR) of E+ plants grown with PR was 16% greater than that of E‐plants. Endophyte infection did not improve growth or P uptake in PF treatment. When PR was supplied, P uptake rate was 24% greater in E+ DN2 than E‐ DN2, but endophyte infection did not benefit DN4. Phosphorus‐use efficiency was 6% less in E+ DN2 but 16% greater in E+ DN4 compared to E‐ plants, regardless of P source. Root exudates of E+ DN2, but not E+ DN4 solubilized more P from PR than those of E‐ plants. The correlation between root RGR and P uptake rate was relatively high for E‐ plants (r=0.76), but low for E+ plants (r=0.27) grown with PR. Results suggest that P uptake by E+ tall fescue might rely on mechanisms other than an increase in root biomass (surface area). Endophyte infection modified tall fescue responses to P source. This phenomenon was associated with modes of P acquisition which included enhanced activity of root exudates in releasing P from PR in E+ plants (DN2), and increased root biomass (DN4). The dominant means of P acquisition may be determined by a specific association of endophyte and tall fescue genomes. Endophyte‐tall fescue association plasticity contributes to widespread success of symbiotic in marginal resource conditions.  相似文献   

Growth, P uptake and rhizosphere properties of intercropped wheat and chickpea in soil amended with iron phosphate or phytate     

Dongmei Wang  Petra Marschner  Zakaria Solaiman 《Soil biology & biochemistry》2007,39(1):249-256

Intercropping has been shown to increase total yield and nutrient uptake compared to monocropping. However, depending on crop combinations, one crop may dominate and decrease the growth of the other. Interactions in the soil, especially in the rhizosphere, may be important in the interactions between intercropped plant genotypes. To assess the role of the rhizosphere interactions, we intercropped a P-inefficient wheat genotype (Janz) with either the P-efficient wheat genotype (Goldmark) or chickpea in a soil with low P availability amended with 100 mg P kg⁻¹ as FePO₄ (FeP) or phytate. The plants were grown for 10 weeks in pots where the roots of the genotypes could intermingle (no barrier, NB), were separated by a 30 μm mesh (mesh barrier, MB), preventing direct root contact but allowing exchange of diffusible compounds and microorganisms, or were completely separated by a solid barrier (SB). When supplied with FeP, Janz intercropped with chickpea had higher shoot and grain dry weight (dw) and greater plant P uptake in NB and MB than in SB. Contact with roots of Janz increased shoot, grain and root dw, root length, shoot P concentration and shoot P uptake of chickpea compared to SB. Root contact between the two wheat genotypes, Janz and Goldmark, had no effect on growth and P uptake of Janz. Shoot and total P uptake by Goldmark were significantly increased in NB compared to MB or SB. In both crop combinations, root contact significantly increased total plant dw and P uptake per pot. Plant growth and P uptake were lower with phytate and not significantly affected by barrier treatment. Differences in microbial P, available P and phosphatase activity in the rhizosphere among genotypes and barrier treatments were generally small. Root contact changed microbial community structure (assessed by fatty acid methyl ester (FAME) analysis) and all crops had similar rhizosphere microbial community structure when their roots intermingled.  相似文献   

Genotypic variation of potassium uptake and use efficiency in cotton (Gossypium hirsutum)     

Li Wang  Fang Chen 《植物养料与土壤学杂志》2012,175(2):303-308

Potassium (K) deficiency is one of the main limiting factors in cotton (Gossypium hirsutum L.) production. To study the mechanism of high K‐use efficiency of cotton, a pot experiment was conducted. The experiment consisted of two cotton genotypes differing in K‐use efficiency (H103 and L122) and two K‐application levels (K₀: 0 g (kg soil)^–1; K₁: 0.40 g (kg soil)^–1). Root‐hair density and length, partitioning of biomass and K in various organs, as well as K‐use efficiency of the two cotton genotypes were examined. The results show that there was no significant difference in K uptake between the two genotypes at both treatments, although the genotype H103 (high K‐use efficiency) exhibited markedly higher root‐hair density than genotype L122 in the K₁ treatment. Correlation analysis indicates that neither root‐hair density nor root‐hair length was correlated with plant K uptake. Furthermore, the boll biomass of genotype H103 was significantly higher than that of genotype L122 in both treatments, and the K accumulation in bolls of genotype H103 was 39%–48% higher than that of genotype L122. On the other hand, the litter index (LI) and the litter K‐partitioning index (LKPI) of genotype H103 were 14%–21% and 22%–27% lower than that of genotype L122. Lastly, the K‐use efficiency of total plant (KUE‐P) of genotype H103 was comparable with that of genotype L122 in both treatments, but the K‐use efficiency in boll yield (KUE‐B) of genotype H103 was 24% and 41% higher than that of genotype L122 in K₀ and K₁ treatments. Pearson correlation analysis indicated that KUE‐P was positively correlated with BKPI and negatively correlated with LKPI, while KUE‐B was positively correlated with BKPI and boll‐harvest index (HI_B), and negatively correlated with LKPI. It is concluded that there were no pronounced effects of root‐hair traits on plant K uptake of the two genotypes. The difference in K‐use efficiency was attributed to different patterns of biomass and K partitioning rather than difference in K uptake of the two genotypes.  相似文献   

Zinc uptake kinetics in the low and high‐affinity systems of two contrasting rice genotypes          下载免费PDF全文

Xiaoe Yang  M. J. I. Shohag  Juncheng Yang  Tingqiang Li  Lingli Lu  Ying Feng 《植物养料与土壤学杂志》2014,177(3):412-420

Rice (Oryza sativa L.) cultivars differ widely in their susceptibility to zinc (Zn) deficiency. The physiological basis of Zn efficiency (ZE) is not clearly understood. In this study, the effects of Zn‐sufficient and Zn‐deficient pretreatments on the time and concentration‐dependent uptake kinetics of Zn were examined at low (0–160 nM) and high Zn supply levels (0–80 μM) in two contrasting rice genotypes (Zn‐efficient IR36 and Zn‐inefficient IR26). The results show that ⁶⁵Zn²⁺ influx rate was over 10 times greater for the Zn‐deficient pretreatment plants than for the Zn‐sufficient pretreatment plants. At low Zn supply, significant higher ⁶⁵Zn²⁺ influx rates were found for the Zn‐efficient genotype than for the inefficient genotype, with a greater difference (over three‐fold) at Zn supply > 80 nM in the Zn‐deficient pretreatments. At high Zn supply levels, however, a difference (2.5‐fold) in ⁶⁵Zn²⁺ influx rate between the two genotypes was only noted in the Zn‐deficient pretreatments. Similarly, the ⁶⁵Zn²⁺ accumulation in the roots and shoots of Zn‐efficient IR36 pretreated with Zn‐deficiency were sharply increased with time and higher than that in the Zn‐inefficient IR26 with an over four‐fold difference at 2 h absorption time. However, with Zn‐deficient pretreatments, the Zn‐efficient genotype showed a higher shoot : root ⁶⁵Zn ratio at higher Zn supply. Remarkable differences in root and shoot ⁶⁵Zn²⁺ accumulation were noted between the two genotypes in the Zn‐deficiency pretreatment, especially at low Zn level (0.05 μM), with 2–3 times higher values for IR36 than for IR26 at an uptake time of 120 min. There appear to be two separate Zn transport systems mediating the low and high‐affinity Zn influx in the efficient genotype. The low‐affinity system showed apparent Michaelis–Menten rate constant (K_m) values ranging from 10 to 20 nM, while the high‐affinity uptake system showed apparent K_m values ranging from 6 to 20 μM. The V_max value was significantly elevated in IR36 and was 3–4‐fold greater for IR36 than for IR26 at low Zn levels, indicating that the number of root plasma membrane transporters in low‐affinity uptake systems play an important role for the Zn efficiency of rice.  相似文献   

接种菌根真菌对不同磷效率基因型大豆生长和磷吸收的影响     

辜晓婷  覃金转  王秀荣 《中国生态农业学报》2020,28(3):357-364

接种丛枝菌根真菌(AMF)能显著促进大豆生长和对磷的吸收,但不同磷效率基因型大豆对AMF接种的响应还少有报道。为探究接种AMF对不同磷效率基因型大豆生长和磷转运基因表达的影响,以磷高效大豆BX10和磷低效大豆BD2为试验材料进行盆栽试验,设置接菌和不接菌处理,对大豆干重、菌根侵染性状、氮磷养分含量、根系性状,以及菌根诱导的磷转运基因表达进行了分析。结果表明, AMF接种显著促进了大豆的磷吸收,并且接菌效果存在显著的基因型差异,接种AMF显著增加了BD2的地上部干重、磷含量以及植株总磷吸收量,但只增加了BX10的地上部磷含量和总磷吸收量,对植株地上部干重没有显著影响。无论接种与否,BD2的地上部磷含量均显著高于BX10,表明磷低效的BD2具有较高的植株体内磷转运能力。不接菌条件下,两个大豆基因型根系性状无显著差异;接种AMF后BX10的根系体积和根系平均直径均显著高于BD2。BD2的菌根生长反应(MGR)和菌根磷反应(MPR)均显著高于BX10,对菌根依赖性更高。此外,在接菌处理的BD2根系,代表菌根途径磷吸收的磷转运基因GmPT8、GmPT9和GmPT10表达均显著高于BX10;相应地,BD2的总磷吸收量也显著高于BX10。以上结果表明,接种AMF对促进磷低效大豆BD2生长和磷吸收的作用更大,这可能主要是由于BD2菌根途径的磷吸收量较高,体内磷转运效率较高。以上结果将为研究AMF接种对磷吸收的贡献提供理论依据。  相似文献