相似瓢虫对香蕉(Musa AAA cv Grande Naine)叶片光合作用的影响

A. Castillo, Ricardo Astúa, Walter Jiménez, J. Delgado, E. Salas, M. Araya
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In the evaluation at 10 am a reduction of 46% (P= 0.0307) in the photosynthesis rate was found on plants inoculated with R. similis that were grown in the sterilized banana soil. In experiment II: five treatments were evaluated on sterilized banana soil. One treatment was non-inoculated (control) and in the others, each plant was inoculated 15 days after sowing with 500 (509 ± 21), 1000 (1049 ± 34), 1500 (1526 ± 39) or 2000 (2056 ± 67) R. similis. After 75 days of the inoculation, from the six photosynthesis evaluation times (6-7, 8- 9, and 10-11 am or 12-1, 1-2 and 2-3 pm) with exception of that at 2-3 pm, the highest photosynthesis rate was observed in the plants free of nematodes. Reductions in the photosynthesis rate with nematode inoculation varied between 12 and 36% at 6-7 am, between 13 and 57% at 8- 9 am, between 32 and 57% at 10-11 am, and between 16 and 65% at 12-1 pm, and between 13 and 47% at 1-2 pm. The photosynthesis rate decreased linearly as the number of R. similis inoculated increased in the evaluations of 8-9 (P= 0.0070) and 10-11 am (P= 0.0049) or 12-1 pm (P= 0.0048) and 1-2 pm (P= 0.0255). In experiment III: two treatments were evaluated in sterilized banana soil in which the plants of one treatment were inoculated 19 days after sowing with 1500 (1564 ± 49) R. similis and the others were the control. A photosynthetic light response curve was determined at 75 days after inoculation showing that the area under curve of the potential assimilation rate of the plants inoculated with R. similis was reduced (P= 0.0153) by 70% compared to non-inoculated plants. In experiment IV: three treatments were evaluated where the plants of two treatments were sown in sterilized banana soil. One treatment was inoculated with 2000 (2078 ± 63) R. similis per pot, 21 days after sowing, and the other had no inoculation. The remaining treatment was set up in Castillo et al., J. Appl. Biosci. Vol : 169, 2022 Reduction of banana (Musa AAA cv Grande Naine) leaf photosynthesis by Radopholus similis 17618 unsterilized soil without nematode inoculation. The net assimilation rate curve before nematode inoculation differed (P= 0.0072) among treatments. A reduction of 33% in the accumulated net assimilation rate across the sequence of light points (0-2200 µmol m-2 s -1 ) was evidenced on the plants cultivated on banana soil without sterilization, which was infected with residual R. similis on the soil. The net assimilation rate curve at 4 (P< 0.0001), 11 (P= 0.0340) and 25 (P= 0.0127) days after nematode inoculation was higher on the plants free of nematodes. Conclusion and Application of results: In the four experiments, the lowest photosynthetic rate was found in the plants infected by R. similis. This confirms that the infection or parasitism of banana roots by R. similis, independently of if there are obvious root and foliage symptoms, consistently it reduces their photosynthesis rate, which in a long term will reduce crop performance. Therefore, nematode population must be monitored during the crop cycle to apply control measures in time in order to prevent production losses. Keywords: banana, Musa AAA, nematodes, photosynthesis, Radopholus similis","PeriodicalId":14998,"journal":{"name":"Journal of Applied Biosciences","volume":"32 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-01-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Reduction of banana (Musa AAA cv Grande Naine) leaf photosynthesis by Radopholus similis\",\"authors\":\"A. Castillo, Ricardo Astúa, Walter Jiménez, J. Delgado, E. Salas, M. 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The photosynthesis rate decreased linearly as the number of R. similis inoculated increased in the evaluations of 8-9 (P= 0.0070) and 10-11 am (P= 0.0049) or 12-1 pm (P= 0.0048) and 1-2 pm (P= 0.0255). In experiment III: two treatments were evaluated in sterilized banana soil in which the plants of one treatment were inoculated 19 days after sowing with 1500 (1564 ± 49) R. similis and the others were the control. A photosynthetic light response curve was determined at 75 days after inoculation showing that the area under curve of the potential assimilation rate of the plants inoculated with R. similis was reduced (P= 0.0153) by 70% compared to non-inoculated plants. In experiment IV: three treatments were evaluated where the plants of two treatments were sown in sterilized banana soil. One treatment was inoculated with 2000 (2078 ± 63) R. similis per pot, 21 days after sowing, and the other had no inoculation. The remaining treatment was set up in Castillo et al., J. Appl. Biosci. 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引用次数: 0

摘要

目的:研究相似瓢虫对香蕉(Musa AAA cv)的影响。叶片光合作用。方法与结果:在实验室条件下进行了4项实验。离体植株播种在1.8 L容积的盆栽中,其中含有来自商业香蕉农场的土壤(灭菌或未灭菌)。实验1:对4种处理进行评价。每盆接种500(506±18)株相似根线虫的3个测定时间(上午7点、上午10点和下午1点)中,接种45 d后,未接种线虫的植株光合速率最高,接种相似根线虫的植株光合速率最低。在上午10点的评估中,接种了相似镰刀菌的植株在香蕉无菌土壤中生长的光合速率降低了46% (P= 0.0307)。试验二:对香蕉土进行5种处理。1个处理为不接种(对照),其余处理在播种后15 d分别接种500(509±21)、1000(1049±34)、1500(1526±39)和2000(2056±67)株similis。接种75 d后,从6个光合作用评估时间(上午6-7、8- 9、10-11点和下午12-1、1-2、2-3点)开始,除下午2-3点外,无线虫植株光合作用速率最高。接种线虫对光合速率的影响在上午6-7点为12% - 36%,上午8- 9点为13% - 57%,上午10-11点为32% - 57%,下午12-1点为16% - 65%,下午1-2点为13% - 47%。在8 ~ 9点(P= 0.0070)、10 ~ 11点(P= 0.0049)和12 ~ 1点(P= 0.0048)、1 ~ 2点(P= 0.0255)接种时,随着接种数的增加,光合速率呈线性下降。试验三:在香蕉无菌土壤上进行两种处理,播种后19 d接种1500(1564±49)株相似白僵菌,其余为对照。接种75 d后测定的光合光响应曲线显示,与未接种的植株相比,接种小檗后植株的潜在同化率曲线下面积减小了70% (P= 0.0153)。试验四:对3个处理进行评价,其中2个处理的植株在香蕉消毒土壤上播种。1个处理播种后21 d,每盆接种2000(2078±63)只,另1个处理不接种。其余处理设置在Castillo et al., J. apple。Biosci。土壤对香蕉(Musa AAA cv Grande Naine)叶片光合作用的影响。接种线虫前净同化率曲线在不同处理间差异显著(P= 0.0072)。在未消毒的香蕉土壤上栽培的植株,在光照点(0 ~ 2200µmol m-2 s -1)序列上的累计净同化速率降低了33%。接种线虫后第4天(P< 0.0001)、第11天(P= 0.0340)和第25天(P= 0.0127)的净同化率曲线在无线虫植株上较高。结论及应用结果:在4个试验中,相似镰刀菌侵染植株的光合速率最低。这证实,不论香蕉根系和叶片是否有明显的症状,相似弧菌对香蕉根系的侵染或寄生都会持续降低香蕉根系的光合速率,从长期来看,这将降低作物的生产性能。因此,必须在作物周期对线虫种群进行监测,及时采取控制措施,防止生产损失。关键词:香蕉;Musa AAA;线虫
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Reduction of banana (Musa AAA cv Grande Naine) leaf photosynthesis by Radopholus similis
Objective: to determine the effect of Radopholus similis on banana (Musa AAA cv. Grande Naine) leaf photosynthesis. Methodology and Results: Four experiments were carried out under lathhouse conditions. In vitro plants were sown in pot of 1.8 L volume containing a soil (sterilized or unsterilized) from a commercial banana farm. Experiment 1: four treatments were evaluated. The treatments consisted of plants on unsterilized and sterilized banana soil without and with the inoculation of 500 (506 ± 18) R. similis per pot. During the three measuring times (7 am, 10 am, and 1 pm), at 45 days after inoculation, the highest photosynthesis rate was observed in the plants free of nematodes and the lowest in those plants inoculated with R. similis. In the evaluation at 10 am a reduction of 46% (P= 0.0307) in the photosynthesis rate was found on plants inoculated with R. similis that were grown in the sterilized banana soil. In experiment II: five treatments were evaluated on sterilized banana soil. One treatment was non-inoculated (control) and in the others, each plant was inoculated 15 days after sowing with 500 (509 ± 21), 1000 (1049 ± 34), 1500 (1526 ± 39) or 2000 (2056 ± 67) R. similis. After 75 days of the inoculation, from the six photosynthesis evaluation times (6-7, 8- 9, and 10-11 am or 12-1, 1-2 and 2-3 pm) with exception of that at 2-3 pm, the highest photosynthesis rate was observed in the plants free of nematodes. Reductions in the photosynthesis rate with nematode inoculation varied between 12 and 36% at 6-7 am, between 13 and 57% at 8- 9 am, between 32 and 57% at 10-11 am, and between 16 and 65% at 12-1 pm, and between 13 and 47% at 1-2 pm. The photosynthesis rate decreased linearly as the number of R. similis inoculated increased in the evaluations of 8-9 (P= 0.0070) and 10-11 am (P= 0.0049) or 12-1 pm (P= 0.0048) and 1-2 pm (P= 0.0255). In experiment III: two treatments were evaluated in sterilized banana soil in which the plants of one treatment were inoculated 19 days after sowing with 1500 (1564 ± 49) R. similis and the others were the control. A photosynthetic light response curve was determined at 75 days after inoculation showing that the area under curve of the potential assimilation rate of the plants inoculated with R. similis was reduced (P= 0.0153) by 70% compared to non-inoculated plants. In experiment IV: three treatments were evaluated where the plants of two treatments were sown in sterilized banana soil. One treatment was inoculated with 2000 (2078 ± 63) R. similis per pot, 21 days after sowing, and the other had no inoculation. The remaining treatment was set up in Castillo et al., J. Appl. Biosci. Vol : 169, 2022 Reduction of banana (Musa AAA cv Grande Naine) leaf photosynthesis by Radopholus similis 17618 unsterilized soil without nematode inoculation. The net assimilation rate curve before nematode inoculation differed (P= 0.0072) among treatments. A reduction of 33% in the accumulated net assimilation rate across the sequence of light points (0-2200 µmol m-2 s -1 ) was evidenced on the plants cultivated on banana soil without sterilization, which was infected with residual R. similis on the soil. The net assimilation rate curve at 4 (P< 0.0001), 11 (P= 0.0340) and 25 (P= 0.0127) days after nematode inoculation was higher on the plants free of nematodes. Conclusion and Application of results: In the four experiments, the lowest photosynthetic rate was found in the plants infected by R. similis. This confirms that the infection or parasitism of banana roots by R. similis, independently of if there are obvious root and foliage symptoms, consistently it reduces their photosynthesis rate, which in a long term will reduce crop performance. Therefore, nematode population must be monitored during the crop cycle to apply control measures in time in order to prevent production losses. Keywords: banana, Musa AAA, nematodes, photosynthesis, Radopholus similis
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