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New Approach to Control Sclerotium rolfsii Induced Sugar Beet Root Rots Disease by Trichoderma with Improved Sucrose Contents
In Egypt, sugar beet (Beta vulgaris L.) has become a major sugar manufacturing plant in latest years. It is recognized that sugar beet damaged by different pathogens, including root rot disease caused by Sclerotium rollsii, in terms of quantity and quality. The aim of the current study was to contro...
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| Published in: | Journal of pure & applied microbiology : an international research journal of microbiology 2019-09, Vol.13 (3), p.1595-1604 |
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| container_title | Journal of pure & applied microbiology : an international research journal of microbiology |
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| creator | Ellatif, Sawsan Abd Gharieb, Mohamed Medhat El-Moghazy, Soliman M El-Yazied, Mai N. Abo Bakry, Amal M |
| description | In Egypt, sugar beet (Beta vulgaris L.) has become a major sugar manufacturing plant in latest years. It is recognized that sugar beet damaged by different pathogens, including root rot disease caused by Sclerotium rollsii, in terms of quantity and quality. The aim of the current study was to control the disease of the root rot sugar beet and determine the sucrose content during two successive cropping seasons. Trichoderma harzianum kj831197 produced [beta]- glucanase enzymes that play a key role in fungal disease biocontrol. Twenty two bioactive isolates were tested for the activity of [beta]- glucanases, ten of which are Trichoderma spp strains. Sclerotium rolfsii radial growth has been suppressed with efficiency ranging from 77.77 to 91.11% in dual culture technique. The Vitavax200 fungicide increased control of the disease under greenhouse conditions followed by a combination of [beta]- glucanase enzyme with Trichoderma harzianum kj831197 spore suspension. The use of [beta]- glucanase enzyme mixed with Trichoderma harizianum kj831197 cells leads to an increase above other treatments in the total soluble solid and sucrose content of the sugar beet. Despite the fungicide Vitavax200, the overall soluble solid and sucrose content were significantly affected by disease control but the sugar beets yield was lowered. Keywords: Sugar beet, Sclerotium rolfsii, Glucanase, Trichoderma, Biological control. |
| doi_str_mv | 10.22207/JPAM.13.3.32 |
| format | article |
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The Vitavax200 fungicide increased control of the disease under greenhouse conditions followed by a combination of [beta]- glucanase enzyme with Trichoderma harzianum kj831197 spore suspension. The use of [beta]- glucanase enzyme mixed with Trichoderma harizianum kj831197 cells leads to an increase above other treatments in the total soluble solid and sucrose content of the sugar beet. Despite the fungicide Vitavax200, the overall soluble solid and sucrose content were significantly affected by disease control but the sugar beets yield was lowered. 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Abo</creatorcontrib><creatorcontrib>Bakry, Amal M</creatorcontrib><title>New Approach to Control Sclerotium rolfsii Induced Sugar Beet Root Rots Disease by Trichoderma with Improved Sucrose Contents</title><title>Journal of pure & applied microbiology : an international research journal of microbiology</title><description>In Egypt, sugar beet (Beta vulgaris L.) has become a major sugar manufacturing plant in latest years. It is recognized that sugar beet damaged by different pathogens, including root rot disease caused by Sclerotium rollsii, in terms of quantity and quality. The aim of the current study was to control the disease of the root rot sugar beet and determine the sucrose content during two successive cropping seasons. Trichoderma harzianum kj831197 produced [beta]- glucanase enzymes that play a key role in fungal disease biocontrol. Twenty two bioactive isolates were tested for the activity of [beta]- glucanases, ten of which are Trichoderma spp strains. Sclerotium rolfsii radial growth has been suppressed with efficiency ranging from 77.77 to 91.11% in dual culture technique. The Vitavax200 fungicide increased control of the disease under greenhouse conditions followed by a combination of [beta]- glucanase enzyme with Trichoderma harzianum kj831197 spore suspension. The use of [beta]- glucanase enzyme mixed with Trichoderma harizianum kj831197 cells leads to an increase above other treatments in the total soluble solid and sucrose content of the sugar beet. Despite the fungicide Vitavax200, the overall soluble solid and sucrose content were significantly affected by disease control but the sugar beets yield was lowered. Keywords: Sugar beet, Sclerotium rolfsii, Glucanase, Trichoderma, Biological control.</description><subject>Biological control</subject><subject>Enzymes</subject><subject>glucanase</subject><subject>Medical research</subject><subject>Medicine, Experimental</subject><subject>Mycoses</subject><subject>Pests</subject><subject>sclerotium rolfsii</subject><subject>sugar beet</subject><subject>Sugar industry</subject><subject>trichoderma</subject><issn>0973-7510</issn><issn>2581-690X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><sourceid>DOA</sourceid><recordid>eNptUU1rGzEQXUoLMUmOvQt6XlffWh1dt00d0jYkKeQmZrWSreBdGUluyKH_vbJdCoXyYMQM772Z0TTNW4LnlFKs3l_fLr7OCZtX0FfNjIqOtFLjx9fNDGvFWiUIPmsuc37CGBNJu451s-bXN_eMFrtdimA3qES0jFNJcYvu7dalWMJ-RDX1OQS0moa9dQO6368hoQ_OFXQX4yGUjD6G7CA71L-ghxTsJg4ujYCeQ9mg1Vj9fx6VNsVKOjRxU8kXzRsP2-wu_7znzY_Pnx6WX9qb71er5eKmtRzr0lrWgRIgAEBY1dNBWiWpxowK4Z3vtew8k9xq0TEhuBK0wvVY8l5BJyQ7b1Yn3yHCk9mlMEJ6MRGCORZiWhtIJdSVjVJu4E5r5jHmmOIepKRWED4IosDb6vXu5LWGSg-TjyWBHUO2ZiEVV4RxTSpr_h9WxeDGYOPkfKj1fwTtSXD4oZyc_zsmweZ4YXO4sCHMVFD2G353l8A</recordid><startdate>20190901</startdate><enddate>20190901</enddate><creator>Ellatif, Sawsan Abd</creator><creator>Gharieb, Mohamed Medhat</creator><creator>El-Moghazy, Soliman M</creator><creator>El-Yazied, Mai N. 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Trichoderma harzianum kj831197 produced [beta]- glucanase enzymes that play a key role in fungal disease biocontrol. Twenty two bioactive isolates were tested for the activity of [beta]- glucanases, ten of which are Trichoderma spp strains. Sclerotium rolfsii radial growth has been suppressed with efficiency ranging from 77.77 to 91.11% in dual culture technique. The Vitavax200 fungicide increased control of the disease under greenhouse conditions followed by a combination of [beta]- glucanase enzyme with Trichoderma harzianum kj831197 spore suspension. The use of [beta]- glucanase enzyme mixed with Trichoderma harizianum kj831197 cells leads to an increase above other treatments in the total soluble solid and sucrose content of the sugar beet. Despite the fungicide Vitavax200, the overall soluble solid and sucrose content were significantly affected by disease control but the sugar beets yield was lowered. Keywords: Sugar beet, Sclerotium rolfsii, Glucanase, Trichoderma, Biological control.</abstract><pub>Oriental Scientific Publishing Company</pub><doi>10.22207/JPAM.13.3.32</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record> |
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| source | Directory of Open Access Journals |
| subjects | Biological control Enzymes glucanase Medical research Medicine, Experimental Mycoses Pests sclerotium rolfsii sugar beet Sugar industry trichoderma |
| title | New Approach to Control Sclerotium rolfsii Induced Sugar Beet Root Rots Disease by Trichoderma with Improved Sucrose Contents |
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