Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical Conductivities

Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical Conductivities

Root and crown rot (gummosis) is known as the most destructive disease affecting pistachio in Iran. The efficiency of bacterial strains to reduce the growth rate of Phytophthora pistaciae was studied under different electrical conductivities (EC, 0, 2, 4, 8, 12 ds/m). Soil and rhizosphere samples we...

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Main Authors: Moslem Hajabdolahi, Mohammad Moradi, Seyed Reza Fani
Format: Article
Language:English
Published: Islamic Azad University 2018-06-01
Series:Journal of Nuts
Subjects:
Biological control
Electrical conductivities
Phytophthora
Rhizosphere
Salinity
Sustainable agriculture
Online Access:http://ijnrs.damghaniau.ac.ir/article_540863_42c190aeb2800b87c0dc49c94072dbc2.pdf
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spelling doaj-1970bcba350444579cd8f31ee90407742020-11-24T21:02:20ZengIslamic Azad UniversityJournal of Nuts2383-319X2383-34162018-06-010912130540863Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical ConductivitiesMoslem Hajabdolahi0Mohammad Moradi1Seyed Reza Fani2Department of Pant Pathology, Faculty of Agriculture, Islamic Azad University, Damghan Branch, Damghan, Iran2Pistachio Research Center, Horticultural Sciences Research Institute, Agricultural Research, Education and Extension Organization (AREEO), Rafsanjan, Iran Pistachio Safety Research Center, Rafsanjan University of Medical Sciences, Rafsanjan, IranPlant Protection Research Department, Yazd Agricultural and Natural Resources Research and Education Center, AREEO, Yazd, IranRoot and crown rot (gummosis) is known as the most destructive disease affecting pistachio in Iran. The efficiency of bacterial strains to reduce the growth rate of Phytophthora pistaciae was studied under different electrical conductivities (EC, 0, 2, 4, 8, 12 ds/m). Soil and rhizosphere samples were collected from pistachio growing regions in Kerman province, Iran, during 2011 - 2012. Overall, the strains of bacteria were presented in all sampling areas in both infected and uninfected orchards. Out of 400 bacterial isolates, 63% and 37% were collected from soil and rhizosphere samples, respectively. Among 400 bacterial isolates, 19 exhibited the highest ability to reduce the growth of P. pistaciae in dual culture, volatile and non-volatile compounds, though by different degrees. The degrees of inhibitory activities against mycelial growth of P. pistaciae by Pseudomonas fluorescens strains ranged from 40 to 97.5%, 8 to 97.5% and 7.5 to 90% in dual culture, non-volatile and volatile assays, respectively. The Bacillus subtilis strains reduced the growth of P. pistaciae by 22-92.5%, 17-85%, 21-92.5% in dual culture, non-volatile and volatile assays, respectively. The negative effects of ECs on the growth of P. pistaciae in modified CMA were observed in 8 and 12 ECs. ECs had no effect until 8 ds/m on the growth of P. pistaciae, while the mycelial growth decreased by ECs higher than 8 ds/m. No mycelial growth was observed at EC 14 ds/m. There were significant differences between different bacterial isolates, ECs and their interactions on the mycelial growth of P. pistaciae. The highest mycelial suppression belonged to isolates Nos. 123 and 112 in dual culture, volatile and non-volatile compounds test. More research is required to understand the native mechanisms involved in biological control under natural conditions in pistachio orchardshttp://ijnrs.damghaniau.ac.ir/article_540863_42c190aeb2800b87c0dc49c94072dbc2.pdfBiological controlElectrical conductivitiesPhytophthoraRhizosphereSalinitySustainable agriculture
collection DOAJ
language English
format Article
sources DOAJ
author Moslem Hajabdolahi
Mohammad Moradi
Seyed Reza Fani
spellingShingle Moslem Hajabdolahi
Mohammad Moradi
Seyed Reza Fani
Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical Conductivities
Journal of Nuts
Biological control
Electrical conductivities
Phytophthora
Rhizosphere
Salinity
Sustainable agriculture
author_facet Moslem Hajabdolahi
Mohammad Moradi
Seyed Reza Fani
author_sort Moslem Hajabdolahi
title Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical Conductivities
title_short Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical Conductivities
title_full Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical Conductivities
title_fullStr Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical Conductivities
title_full_unstemmed Effects of Bacterial Strains to Inhibit Growth of Phytophthora pistaciae under Different Electrical Conductivities
title_sort effects of bacterial strains to inhibit growth of phytophthora pistaciae under different electrical conductivities
publisher Islamic Azad University
series Journal of Nuts
issn 2383-319X
2383-3416
publishDate 2018-06-01
description Root and crown rot (gummosis) is known as the most destructive disease affecting pistachio in Iran. The efficiency of bacterial strains to reduce the growth rate of Phytophthora pistaciae was studied under different electrical conductivities (EC, 0, 2, 4, 8, 12 ds/m). Soil and rhizosphere samples were collected from pistachio growing regions in Kerman province, Iran, during 2011 - 2012. Overall, the strains of bacteria were presented in all sampling areas in both infected and uninfected orchards. Out of 400 bacterial isolates, 63% and 37% were collected from soil and rhizosphere samples, respectively. Among 400 bacterial isolates, 19 exhibited the highest ability to reduce the growth of P. pistaciae in dual culture, volatile and non-volatile compounds, though by different degrees. The degrees of inhibitory activities against mycelial growth of P. pistaciae by Pseudomonas fluorescens strains ranged from 40 to 97.5%, 8 to 97.5% and 7.5 to 90% in dual culture, non-volatile and volatile assays, respectively. The Bacillus subtilis strains reduced the growth of P. pistaciae by 22-92.5%, 17-85%, 21-92.5% in dual culture, non-volatile and volatile assays, respectively. The negative effects of ECs on the growth of P. pistaciae in modified CMA were observed in 8 and 12 ECs. ECs had no effect until 8 ds/m on the growth of P. pistaciae, while the mycelial growth decreased by ECs higher than 8 ds/m. No mycelial growth was observed at EC 14 ds/m. There were significant differences between different bacterial isolates, ECs and their interactions on the mycelial growth of P. pistaciae. The highest mycelial suppression belonged to isolates Nos. 123 and 112 in dual culture, volatile and non-volatile compounds test. More research is required to understand the native mechanisms involved in biological control under natural conditions in pistachio orchards
topic Biological control
Electrical conductivities
Phytophthora
Rhizosphere
Salinity
Sustainable agriculture
url http://ijnrs.damghaniau.ac.ir/article_540863_42c190aeb2800b87c0dc49c94072dbc2.pdf
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AT mohammadmoradi effectsofbacterialstrainstoinhibitgrowthofphytophthorapistaciaeunderdifferentelectricalconductivities
AT seyedrezafani effectsofbacterialstrainstoinhibitgrowthofphytophthorapistaciaeunderdifferentelectricalconductivities
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