Increased bulb yield following seed coating of radish (Raphanus sativus L.) with selected isolates of Trichoderma species in Rhizoctonia solani infected soil

Q3 Agricultural and Biological Sciences

New Zealand Plant Protection Pub Date : 2023-05-22 DOI:10.30843/nzpp.2023.76.11733

Jaeseung Lee, D. Kandula, John G. Hampton, Rainer Hofmann

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引用次数: 0

Abstract

Abstract: Red radish (Raphanus sativus) is highly susceptible to the soil-borne fungus Rhizoctonia solani, which can cause severe crop losses. In a glasshouse experiment, untreated seeds of radish cvs. French Breakfast and Red Round were grown in potting mix where R. solani inoculated wheat-bran was added at rates of 0.25, 0.5 and 1.0 g per 100 g potting mix. Seedling emergence was reduced by one third and two thirds respectively by the two higher inoculum rates, and final plant numbers were ca. 20%, 50% and 80% less than in the uninoculated control. The ability of Trichoderma spp. to increase radish yields by limiting the damage caused by R. solani has long been known but has not been evaluated in New Zealand. Inoculum of each of four Trichoderma spp. isolates LU132 (T. atroviride), LU785 (T. hamatum), LU1437 (T. harzianum) and LU1358 (T. polysporum) was prepared in sterile wheat-bran and 0.5 g wheat-bran was added per 100 g potting mix. In a second glasshouse experiment, R. solani (0.25 g inoculated wheat-bran) was added per 100 g potting mix before untreated seeds of both radish cultivars were sown. Potting mix without either R. solani or Trichoderma served as the control. Maximum seedling emergence did not differ among the treatments for cv. French Breakfast, but was increased by the presence of either isolate LU132 (T. atroviride) or LU1358 (T. polysporum) for cv. Red Round. The presence of isolate LU1347 (T. harzianum) in the potting mix significantly increased plant survival in both cultivars. Each of the four Trichoderma isolates reduced the percentage of diseased plants with isolate LU132 (T. atroviride) providing the strongest response. In a third glasshouse experiment, Trichoderma treated seeds, thiram fungicide treated and untreated seeds of both radish cultivars were sown in naturally R. solani infected soil. The same treatments were used in a field trial at a site known to be infected by R. solani. In the third glasshouse experiment, seed treatment with Trichoderma isolates LU1347 (T. harzianum), LU1358 (T. polysporum) and LU785 (T. hamatum) significantly increased bulb fresh weight in cv. Red Round, but no treatments increased bulb fresh weight in cv. French Breakfast. In the field experiment, bulb yield for the thiram seed treatment did not differ from that of the untreated control. However, seed treatment with isolate LU785 (T. hamatum) increased subsequent bulb yield by 96% for both cultivars, and seed treatment with isolate LU132 (T. atroviride) or isolate LU1358 (T. polysporum) also significantly increased bulb yield (by 85% and 60% respectively) in cv. French Breakfast. A possible explanation for this result was sought by undertaking a fourth glasshouse experiment for radish cv. Red Round only. In this experiment, all four Trichoderma spp. isolates more than doubled bulb yield by producing not only a greater number of bulbs but also larger bulbs than the untreated control. Trichoderma seed coating may provide an alternative to fungicide seed treatment for radish production.

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萝卜(Raphanus sativus L.)种包衣后，在茄枯丝核菌侵染的土壤中使用木霉菌株提高了萝卜(Raphanus sativus L.)的球茎产量

摘要/ Abstract摘要:红萝卜(Raphanus sativus)对土壤真菌索拉根丝核菌(Rhizoctonia solani)非常敏感，可造成严重的作物损失。在一项温室实验中，未经处理的萝卜种子。在每100 g盆栽混合料中分别添加0.25、0.5和1.0 g接种过番茄红霉的麦麸，培养French Breakfast和Red Round。两种较高的接种量分别使幼苗出苗率降低了1 / 3和2 / 3，最终株数比未接种对照分别减少了约20%、50%和80%。木霉通过限制番茄枯萎病的危害来提高萝卜产量的能力早已为人所知，但在新西兰尚未进行评估。将4株木霉菌株LU132 (T. atroviride)、LU785 (T. hamatum)、LU1437 (T. harzianum)和LU1358 (T. polysporum)分别接种于无菌麦麸中，每100 g培养液中加入0.5 g麦麸。在第二个温室试验中，每100 g盆栽混合料中加入0.25 g接种过的麦麸，然后播种两种萝卜品种的种子。不含茄枯霉和木霉的盆栽混合液作为对照。不同处理间最大出苗率无显著差异。法国早餐，但增加了分离LU132 (T. atroviride)或LU1358 (T. polysporum)的cv。红色的圆。盆栽混合物中分离物LU1347 (T. harzianum)的存在显著提高了两个品种的植株成活率。4个木霉分离株均能降低病株率，其中LU132 (T. atroviride)的反应最强。在第三个温室试验中，将两种萝卜品种的木霉处理过的种子、杀真菌剂处理过的种子和未处理过的种子播种在天然茄枯菌感染的土壤上。同样的处理方法在一个已知被梭兰氏菌感染的地点进行了田间试验。在第三个温室试验中，分离木霉LU1347 (T. harzianum)、LU1358 (T. polysporum)和LU785 (T. hamatum)的种子处理显著提高了玉米鳞茎鲜重。但没有处理增加球茎鲜重。法国早餐。在田间试验中，施特兰种子处理后的鳞茎产量与未处理对照无显著差异。然而，用LU785 (T. hamatum)种子处理后，两个品种的鳞茎产量均提高了96%，用LU132 (T. atroviride)或LU1358 (T. polysporum)种子处理也显著提高了鳞茎产量(分别提高了85%和60%)。法国早餐。对萝卜cv进行了第四次温室试验，寻求对这一结果的可能解释。只有红轮。在本实验中，所有四株木霉菌株的球茎产量都比未经处理的对照增加了一倍以上，不仅球茎数量更多，而且球茎体积更大。木霉包衣为萝卜生产提供了一种替代杀菌剂种子处理的方法。

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来源期刊

New Zealand Plant Protection Agricultural and Biological Sciences-Insect Science

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： New Zealand Plant Protection is the journal of the New Zealand Plant Protection Society. It publishes original research papers on all aspects of biology, ecology and control of weeds, vertebrate and invertebrate pests, and pathogens and beneficial micro-organisms in agriculture, horticulture, forestry and natural ecosystems of relevance to New Zealand.