University of Tehran Iranian Journal of Plant Protection Science 2008-4781 44 2 2014 02 20 Efficacy of Native Strains of Trichoderma harzianum in Biocontrol of Pistachio Gummosis Efficacy of Native Strains of Trichoderma harzianum in Biocontrol of Pistachio Gummosis 243 252 36672 10.22059/ijpps.2014.36672 FA Seyed Reza Fani Expert, Department of Plant Protection, Agriculture and Natural Resources Research Center, Yazd, Iran Mohammad Moradi Ghahderijani Research Assistant Professor, Department of Plant Protection,Pistachio Research Institute, Rafsanjan, Iran Mahdiye Alipour Moghaddam Research Assistant Professor, Department of Plant Protection,Pistachio Research Institute, Rafsanjan, Iran Abdolhamid Sherafati Expert,Pistachio Research Station Faizabad, Agriculture and Natural Resources Research Centerof Khorasan Razavi, Iran Mahdi Mohammadi Moghaddam Expert, Pistachio Research Station Damghan,Semnan Province Research Center for Agriculture and Natural Resources, Iran Ebraim Sedaghati Assistant Professors, Department of Plant Protection,Valiasr Universityof Rafsanjan, Iran Pejman Khodaygan Assistant Professors, Department of Plant Protection,Valiasr Universityof Rafsanjan, Iran Journal Article 2013 02 16 To identify Trichoderma isolates for potential biocontrol of crown and root rot in<br />pistachio, 100 samples of soil taken from rhizosphere, fertilizer channels and from soil surface<br />were collected from Kerman, Yazd, Khorasane Razavi and Semnan provinces during 2009-<br />2011. Overall, 32 isolates of Trichoderma harzianum were obtained mostly from rhizosphere<br />soil using either general or special environmental surroundings. The antagonistic potential of<br />the isolates against P. melonis was screened using the dual culture technique. A total of 11<br />isolates were employed for further assessment of their capability to inhibit P. melonis, in<br />various assays under in vitro and as well in vivo conditions. Overall, the results indicated that<br />the incidecne of interactions through different mechanisms reduced mycelialy growth of P.<br />melonis to different degrees, ranging from 38.1 to 63.6%, 25.4 to 58.7%, 50 to 89.6% and 44.7<br />to 71.77% in the simultaneous vs non-simultaneous dual cultures, and volatile vs non-volatile<br />compounds, respectively. In greenhouse experiments, and in mixed inoculations with<br />Trichoderma harzianum strains and P. melonis it was observed that, root length and plant<br />height increased respectively from 1.5 to 2.7 and from 1.4 to 2.1 times of inoculation with<br />pathogen alone, as well as 1 to1.9 of root length and 1 to 1.6 times the plant height as<br />compared with non-inoculated control plants. Incidence of T. harzianum isolates before,<br />simultaneous with, and following pathogen inoculations (in pots) significantly influenced the<br />mortality of seedlings with the respective ranges of 0 to 31%, 0 to 56%, and 12.5 to 75%. This<br />is the first report on the introduction of T. harzianum isolates to pistachio orchards, along with<br />their interactions with gummosis (crown and root rot) causal agents. To identify Trichoderma isolates for potential biocontrol of crown and root rot in<br />pistachio, 100 samples of soil taken from rhizosphere, fertilizer channels and from soil surface<br />were collected from Kerman, Yazd, Khorasane Razavi and Semnan provinces during 2009-<br />2011. Overall, 32 isolates of Trichoderma harzianum were obtained mostly from rhizosphere<br />soil using either general or special environmental surroundings. The antagonistic potential of<br />the isolates against P. melonis was screened using the dual culture technique. A total of 11<br />isolates were employed for further assessment of their capability to inhibit P. melonis, in<br />various assays under in vitro and as well in vivo conditions. Overall, the results indicated that<br />the incidecne of interactions through different mechanisms reduced mycelialy growth of P.<br />melonis to different degrees, ranging from 38.1 to 63.6%, 25.4 to 58.7%, 50 to 89.6% and 44.7<br />to 71.77% in the simultaneous vs non-simultaneous dual cultures, and volatile vs non-volatile<br />compounds, respectively. In greenhouse experiments, and in mixed inoculations with<br />Trichoderma harzianum strains and P. melonis it was observed that, root length and plant<br />height increased respectively from 1.5 to 2.7 and from 1.4 to 2.1 times of inoculation with<br />pathogen alone, as well as 1 to1.9 of root length and 1 to 1.6 times the plant height as<br />compared with non-inoculated control plants. Incidence of T. harzianum isolates before,<br />simultaneous with, and following pathogen inoculations (in pots) significantly influenced the<br />mortality of seedlings with the respective ranges of 0 to 31%, 0 to 56%, and 12.5 to 75%. This<br />is the first report on the introduction of T. harzianum isolates to pistachio orchards, along with<br />their interactions with gummosis (crown and root rot) causal agents. https://ijpps.ut.ac.ir/article_36672_b6a894511524629b366c67d4f3791c6b.pdf