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Erschienen in:
State-Of-The-Art Methods for Dynamic Texture Classification: A Comprehensive Review Kapitel lesen Erstes Kapitel lesen

2024 | OriginalPaper | Buchkapitel

Integrated Control of Strawberry Anthrachnose by Trichoderma Asperellum–Pyraclostrobin/Boscalid Combination

verfasst von : Hanane El Kaissoumi, Fadoua Berbera, Najoua Mouden, Amina Ouazzani Touhami, Karima Selmaoui, Rachid Benkirane, Allal Douira

Erschienen in: Sustainable and Green Technologies for Water and Environmental Management

Verlag: Springer Nature Switzerland

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Abstract

The different Trichoderma asperellum—Pyraclostrobin + Boscalid preventive treatment programs were applied before inoculation with Colletotrichum gloeosporioides, to the aerial parts of Camarosa strawberry plants. They reduced anthracnose symptoms for 80 days, The disease severity reduction percentages on leaves were ranged from 66.66 to 99.1%. The numbers of symptomatic flowers, green and red strawberries are zero to low compared to the inoculated control, the reduction percentages varied between 94.1–100%, 92.25–100% and 81.35–100%. The C. gloeosporioides inoculum on leaves and petioles of treated plants was low to nil compared to plants inoculated with the pathogen, the re-isolation percentages fluctuated from 0 to 25%/100% and 0 to 33%/100%. The combined treatments provided better development of the aerial and root parts than the inoculated plants. The aerial perpendicular diameter growth, root length development and their fresh weights reached respectively 16.66/7.66 cm, 35.33/14 cm, 8.6/3.3 g and 21.83/9.16 g. The Trichoderma asperellum—Pyraclostrobin + Boscalid combination provided integrated protection of strawberry plants against anthracnose and compatibility between biological control agent and fungicide.

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Vorheriges Kapitel Tomato Growth Promotion by Trichoderma Asperellum Laboratory-Made Bioproduct
Nächstes Kapitel A Systematic Study on Implementation of Smart Devices for Sustainable Environment
Literatur
Abdel-kader MH, El-tayeb TA (2012) Field implementation using chlorophyll derivatives with sunlight for malaria, filaria and dengue fever vectors control in infested African swamps. Malar J 11(1):42CrossRef
Abdellatif OC, Amina OT, Wafae K, Rachid B, Allal D (2019) Production, formulation and recycling of a biofungicide and biostimulant product based on Trichoderma asperellum. MA 41534. Publication date 31 May 2019. https://​patentregister.​ompic.​ma/​SearchPatentsear​chByDepot?​typeNum=​AP&​numDepot=​41534&​count=​0&​lang=​FR
Adandonon A, Aveling TAS, Labuschagne N, Tamo M (2006) Biocontrol agents in combination with Moringaoleifera extract for integrated control of Sclerotium-causedcowpeadamping-off and stem rot. Eur J Plant Pathol 115(4):409–418CrossRef
Aesan TE, Oancea AO, atefan LM, Mãnoiu VS, Ghiurea M, Rãut I, ConstantinescuAruxandei D, Toma A, Bira AF, Pomohaci CM, Oancea F (2020) Effects of foliartreatment with a Trichoderma plant biostimulant consortium on Passiflora caerulea yield and quality. Microorganisms 8(13):2–27. https://​doi.​org/​10.​3390/​microorganisms80​10123
Anonymous (2023) Interproberries Morocco: Moroccan interprofessional federation of fruit berries. Moroccan berries sector. In: 4th international strawberry congress, Antwerp, Belgium, 21–22 September 2022. https://​www.​iscbelgium.​com. Accessed 10 Feb 2023
Buddie AG, Martínez-Culebras P, Bridge PD, García MD, Querol A, Cannon PF, Monte E (1999) Molecular characterization of Colletotrichum isolates derived from strawberry. Mycol Res 103:385–394CrossRef
Cai L, Giraud T, Zhang N, Begerow D, Cai G, Shivas RG (2011) The evolution of species concepts and species recognition criteria in plant pathogenic fungi. Fungal Divers 50:121–133CrossRef
Carisse O, Lefebvre A, Van der Heyden H, Roberge L, Brodeur L (2013) Analysis of incidence-severity relationships for strawberry powdery mildew as influenced by cultivar, cultivar type, and production systems. Plant Dis 97(3):354–362CrossRef
Carvalho FP (2006) Agriculture, pesticides, food security and food safety. Environ Sci Policy 9(7):685–692CrossRef
Chandler D, Bailey AS, Tatchell GM, Davidson G, Greaves J, Grant WP (2011) The development, regulation and use of biopesticides for integrated pest management. Philos Trans Royal Soc B: Biol Sci 366(1573):1987–1998CrossRef
Chen M, Liu Q, Gao SS, Young AE, Jacobsen SE, Tang Y (2019) Genomemining and biosynthesis of a polyketide from a biofertilizer fungus that can facilitate reductive iron assimilation in plant. Proc National Acad Sci USA 116(12):5499–5504. https://​doi.​org/​10.​1073/​pnas.​1819998116
Chliyeh M, Ouazzani Chahdi A, Selmaoui K, Ouazzani Touhami A, Filali Maltouf A, El Modafar C, Moukhli A, Oukabli A, Benkirane R, Douira A (2014) Effect of Trichoderma harzianum and Arbuscular mycorrhizal fungi against Verticillium wilt of tomato. Int J Recent Sci Res 5(2):449–459
Daami-Remadi M (2001) Biological control of Fusarium spp. pathogens responsible for dry rot of potato tubers. Dissertation for Advanced Studies in Plant Protection and Environment. Tunisia: Higher School of Horticulture and Livestock of Chott Mariem, 72 p
Dowling ME, Hu MJ, Schnabel G (2017) Identification and characterization of Botrytis fragariae isolates on strawberry in the United States. Plant Dis 101(10):1769–1773CrossRef
El Kaissoumi H, Mouden N, Chliyeh M, Benkirane R, OuazzaniTouhami A, Douira A (2018) Comparative pathogenicity of Colletotrichumspp. against different varieties of strawberry plants (Fragariaananassa) widely grown in Morocco. Acta Phytopathologica and EntomologicaHungarica 53(2):1–20
Fenibo E, Ijoma G, Matambo T (2020) Biopesticides in sustainable agriculture: current status and prospects. Preprints, pp 1–43
Fiorentino N, Ventorino V, Woo SL, Pepe O, De Rosa A, Gioia L, Romano I, Lombardi N, Napolitano M, Colla G, Rouphael Y (2018) Trichoderma-based biostimulants modulaterhizospheremicrobial populations and improve N uptakeefficiency, yield, and nutritionalquality of leafyvegetables. Front Plant Sci 9(June):1–15. https://​doi.​org/​10.​3389/​fpls.​2018.​00743
Forcelini BB, Rebello CS, Wang NY, Peres NA (2018) Fitness, competitive ability, and mutation stability of isolates of Colletotrichum acutatum from strawberry resistant to QoI fungicides. Phytopathology 108(4):462–468CrossRef
Freeman S (2008) Management, survival strategies, and host range of Colletotrichum acutatum on strawberry. HortScience 43(1):66–68CrossRef
Gauhl F, Pasberg-Gauhl C, Vuylsteke D, Ortiz R (1995) Multilocational evaluation of black Sigatoka resistance in banana and plantain. IITA Research Guide 47. 2nd edn. Training Program, International Institute of Tropical Agriculture (IITA), Ibadan, Nigeria, 59 p
Hibar K, Daami-Remadi M, Khiareddine H, El Mahjoub M (2005) In vitro and in vivo inhibitory effect of Trichoderma harzianum on Fusarium oxysporum. sp. radicis-lycopersici. Biotechnol, Agron, Soc Environ 9(3):163–171
Hou SF, Liu JJ, Xu TF, Li XF, Li S, Wang HQ (2022) Simultaneous detection of three crown rot pathogens in field-grown strawberry plants using a multiplex PCR assay. Crop Prot 156:105957CrossRef
Howell CR (2003) Mechanisms employed by Trichoderma species in the biological control of plant diseases: the history and evolution of current concepts. Plant Dis 87(1):4–10CrossRef
Khalequzzaman KM, Uddin MK, Hossain MM, Hasan MK (2016) Effect of fungicides in controlling wilt disease of cumin. Malays J Med Biol Res 3:69–74
Kim MS, Jin JS, Kwak YS, Hwang GS (2016) Metabolic response of strawberry (Fragaria × ananassa) leaves exposed to the angular leaf spot bacterium (Xanthomonas fragariae). J Agric Food Chem 64(9):1889–1898CrossRef
Kranthi KR, Jadhav D, Wanjari R, Kranthi S, Russell D (2001) Pyrethroid resistance and mechanisms of resistance in field strains of Helicoverpaarmigera (Lepidoptera: Noctuidae). J Econ Entomol 94(1):253–263CrossRef
Leng J, Lan X, Liu Y, Du S (2011) Shape-memory polymers and their composites: stimulus methods and applications. Prog Mater Sci 56(7):1077–1135CrossRef
Li X, Jing T, Zhou D, Zhang M, Qi D, Zang X, Zhao Y, Li K, Tang W, Chen Y, Qi C, Wang W, Xie J (2021) Biocontrol efficacy and possible mechanism of Streptomyces sp. H4 against postharvest anthracnose caused by Colletotrichum fragariae on strawberry fruit. Postharvest Biol Technol 175:111401
Maas JL (1998) Compendium of strawberry diseases. Second edition. The American Phytopathological Society Press, St Paul, Minnesota, USA, 98 pp
Meng X, Miao Y, Ma Q, Liu L, Guo K, Wei D, Liu R, Qirong S (2019) TgSWO from Trichodermaguizhouense NJAU4742 promotes growth in cucumber plants by modifying the rootmorphology and the cellwall architecture. MicrobialCellFactories 18(1):1–15. https://​doi.​org/​10.​1186/​s12934-019-1196-8
Meyer G De, Bigirimana J, Elad Y, Höfte M (1998) Induced systemic resistance in Trichodermaharzianum T39 biocontrol of Botrytis cinerea. Eur J Plant Pathol 104(3):279–286p
Mrabet R, Bahri H, Zaghouane O, Chiekh M’hamed H, El-Areed SRM, Abou El-Enin MM (2002) Chapter 6: Adoption and spread of conservation agriculture in North Africa. In: Advances in Conservation Agriculture. Volume 3: Adoption and Spread, Kassam A (ed). Burleigh Dodds, Cambridge, UK. ISBN-13: 9781786764751
Nicolopoulou-Stamati P, Maipas S, Kotampasi C, Stamatis P, Hens L (2016) Chemical pesticides and human health: The urgent need for a new concept in agriculture. Front Public Health 4(148)
Noel J-P, Lytle M, Cascio C, Wallace MT (2018) Disrupted integration of exteroceptive and interoceptive signaling in autism spectrum disorder. Autism Res 11(1):194–205CrossRef
Paulus AO (1990) Fungal diseases of strawberry. J HortScience 25(8):885–889pCrossRef
Peres NA, Timmer LW, Adaskaveg JE, Correll JC (2005) Lifestyles of Colletotrichum Acutatum. Plant Dis 89(8):784–796CrossRef
Pray CE, Huang J, Hu R, Rozelle S (2002) Five years of Bt cotton in China—the benefits continue. Plant J 31(4):423–430CrossRef
Roach JA, Verma S, Peres NA, Jamieson AR, van de Weg WE, Bink MCAM, Bassil NV, Lee S, Whitaker VM (2016) FaRXf1: a locus conferring resistance to angular leaf spot caused by Xanthomonas fragariae in octoploid strawberry. Theor Appl Genet 129(6):1191–1201CrossRef
Sellami S, Tounsi S, Jamoussi K (2015) Biological control, an alternative to chemical phytosanitary products. Sfax Biotechnology Center, Biopesticides Laboratory, Tunisia 19(5):2286–5314p
Shelton AM, Zhao JZ, Roush RT (2002) Economic, ecological, food safety, and social consequences of the deployment of Bt transgenic plants. Ann Rev Entomol 47(1):845–881
Tanji A, Benicha M, Mamdouh M (2014) Strawberry production technique, Results of surveys at Loukkos. Transfer of Technology in Agriculture MADER/DERD_PNTTA (Ed.), Ministry of Agriculture and Rural Development, Monthly Information and Liaison Bulletin of the PNTTA. No. 201: 9 pp
Vincent C, Panneton B (2001) Physical control methods as alternatives to pesticides. Vertigo—Electron J Environ Sci 2(2)
Windham MTY, Baker RA (1986) mechanism for increased plant growth induced by Trichoderma spp. Phytopathology76:518–521
Xu J, Cui W, Cheng JJ, Stomp AM (2011) Production of high-starch duckweed and its conversion to bioethanol. Biosyst Eng 110(2):67–72
Xu XF, Lin T, Yuan SK, Dai DJ, Shi HJ, Zhang CQ, Wang HD (2014) Characterization of baseline sensitivity and resistance risk of Colletotrichum gloeosporioides complex isolates from strawberry and grape to two demethylation-inhibitor fungicides, prochloraz and tebuconazole. Australas Plant Pathol 43:605–613CrossRef
Yedidia I, Benhamou N, Chet I (1999) Induction of defense responses in cucumber plants (CucumissativusL.) by the biocontrol agent Trichoderma harzianum. Appl Environ Microbiol 65(3):1061–1070
Yovo OPD (2007) Search for genes modifying the clinical expression of sickle cell disease. Doctoral dissertation
Metadaten
Titel
Integrated Control of Strawberry Anthrachnose by Trichoderma Asperellum–Pyraclostrobin/Boscalid Combination
verfasst von
Hanane El Kaissoumi
Fadoua Berbera
Najoua Mouden
Amina Ouazzani Touhami
Karima Selmaoui
Rachid Benkirane
Allal Douira
Copyright-Jahr
2024
Buch
Sustainable and Green Technologies for Water and Environmental Management

Print ISBN: 978-3-031-52418-9

Electronic ISBN: 978-3-031-52419-6

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-3-031-52419-6_14