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The abilities of spent mushroom substrate to suppress basal rot disease (Fusarium oxysporum f.sp cepae) in shallot

By: Ida Yusidah, Noor Istifadah

Key Words: Pleurotus ostreatus, Volvariella volvaceae, Lentinula edodes, organic matters, SMS.

Int. J. Biosci. 13(1), 440-448, July 2018.

DOI: http://dx.doi.org/10.12692/ijb/13.1.440-448

Certification: ijb 2018 0131 [Generate Certificate]

Abstract

Basal rot disease caused by Fusarium oxysporum f.sp cepae is an important disease in shallot. One of control measure safe to the environment is the use of organic matters including spent mushroom substrate (SMS). The aims of this research were to examine the potential and application method of spent substrate of oyster mushroom (Pleurotus ostreatus), straw mushroom (Volvariella volvaceae) and shiitake (Lentinula edodes) to control basal rot disease caused by F. oxysporum f.sp cepae in shallot. In this study three kinds of SMS were applied in planting site and or drenching their water extract every two weeks. The results showed that the SMS of oyster mushroom, straw mushroom and shiitake reduced the intensity of basal rot disease in shallot by 44-76,8%. The treatment that showed highest disease reduction and shallot growth was the application of V. volvaceae SMS in the planting site and drenching its water extract every two weeks.

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The abilities of spent mushroom substrate to suppress basal rot disease (Fusarium oxysporum f.sp cepae) in shallot

Abbasi N, Torkashvan AM, Rahanandeh H. 2014. Evaluation of mushroom compost for the bio control root knot nematode. International Journal of Biosciences 5, 147-153.

Adedeji KO, Modupe AAO. 2016. In vitro evaluation of spent mushroom compost on growth of fusarium oxysporium f. sp. lycopersici. Advances in Plants and Agriculture Research 4, 00147.

http://dx.doi.org/10.15406/apar.2016.04.00147

Ahlawat OP, Manikandan K, Sagar MP, Gupta P, Vijay B. 2011. Effect of composted button mushroom spent substrate on yield, quality and disease incidence of Pea (Pisumsativum). Mushroom Research 20, 87-94

Ahlawat OP, Sagar MP. 2007. Management of spent mushroom substrate. National Research Center for Mushroom (Indian Council of Agricultural Research).Yugantar Prakashan Pvt. Ltd.. New Delhi.

Anisyah F, Sipayung R, Hanum C. 2014. Growth and production of shallot by aplication various organic fertilizer. Journal of Agroecotechnology 2, 482-496 (in Indonesian).

Bonanomi G, Incerti G, Giannino F, Cartenì F, Spaccini R, Mazzei P, Piccolo A, Mazzoleni S. 2017. Omdy: a new model of organic matter decomposition based on biomolecular content as assessed by 13 c-cpmas-nmr. Plant Soil.

http://dx.doi.org/10.1007/s11104-016-3039-2.

Cronin MJ, Yohalem DS, Harris RF, Andrews JH. 1996. Putative mechanism and dynamics of inhibition of theapple scab pathogen Venturia inaequalis by compost extracts.  Soil Biology and Biochemistry 28, 1241-1249.

Cumagun CJR. 2012. Managing plant diseases and promoting sustainability and productivity with Trichoderma: The Philippine experience. Journal of Agricultural Science and Technology 14, 699-714.

Dhingra OD, Sinclair JB. 1995. Basic Plant Pathology Methods, 2nd Edition. Lewis Publishers, Boca Raton, London, Tokyo.

El-Fallal AA, Moussa Z. 2008. Prospects for biocontrol of brown rot disease of potato in vitro and under greenhouse conditions. Plant Pathology Journal 7, 54-64.

Goonani Z, Sharifi K, Riahi H. 2011. The effects of spent mushroom compost and municipal solid waste compost on Phytophthora drechsleri in vivo and in vitro, Archives of Phytopathology and Plant Protection 44, 1171-1181.

Greenwood DJ, Stone DA, Karpinets TV. 2001. Dynamic model for the effects of soil P and fertilizer P on crop growth, P uptake and soil P in arable cropping: Experimental test of the model for field vegetables. Annals of Botany 88, 293-306.

Hanafi FHM,  Rezania S, Taib SM, Din FM, Yamauchi M, Sakamoto M, Hara H,  Park J,  Ebrahimi SS. 2018. Environmentally sustainable applications of agro-based spent mushroom substrate (SMS): an overview. Journal of Material Cycles and Waste Management 20, 1383–1396.

Istifadah N, Sianipar RP. 2015. The potential of spent mushroom substrate to suppress bacterial wilt disease (Ralstonia solanacearum) in Potato. Jurnal Agrikultura 26, 84-89 (In Indonesian with an English Abstract).

Juwanda M, Khusnul K, Mohamad A. 2016. The improvement of shallot resistance against Fusarium basal rot disease through induction of resistance by salisilyc acid in vitro.Jurnal Agrin 20, 15-28 (In Indonesian with an English Abstract).

Kang DS, Min KJ, Kwak AM,  Lee SY, Kang HW. 2017. Defense response and suppression of Phytophthora blight disease of pepper by water extract from Spent Mushroom Substrate of Lentinula edodes. Plant Pathology Journal 33, 264-275.

https://doi.org/10.5423/PPJ.OA.02.2017.0030

Kwak AM, Min KJ, Lee SY, Kang HW. 2007. Water extract from spent mushroom substrate of Hericiumerinaceus suppresses bacterial wilt disease of tomato. Mycobiology 43, 311-318.

Maher MJ, Smyth S, Dodd VA, McCabe T, Magette WL, Duggan J, Hennerty MJ. 2000.  Managing spent mushroom compost. Project 4444. Teagasc, Kinsealy Research Centre, Malahide Road, Dublin 17.

Madden LV, Hughes G, Van den Bosch F. 2007. The Study of Plant Disease Epidemics. APS Press. St. Paul.

Napitupulu D, Winarto L. 2009. The influence of N and K fertilizers on the growth and production of shallot. Jurnal Hortikultura 20, 27-35. (in Indonesian with an English abstract).

Romaine CP, Holcomb EJ. 2000. Spent mushroom substrate: a novel multifunctional constituent of a potting medium for plants. Department of Plant Pathology and Department of Plant and Horticulture. The Pennsylvania State University. University Park. PA.Mushroom News 29, 4-15.

Saba H, Vibhash D, Manisha M, Prashant KS, Farhan H, Tauseef A. 2012.  Trichoderma – a promising plant growth stimulator and biocontrol agent. Mycosphere 3, 524–531.

http://dx.doi.org/10.5943 /mycosphere/3/4/14

Udiarto BK, Setiawati W, Suryaningsih E. 2005. Pests and diseases of onion and their control: technical guidance of onion, 2. Balai Penelitian Tanaman Sayuran, Lembang, Bandung Indonesia. (In Indonesian)

Uzun I. 2014. Use of spent mushroom compost in sustainable fruit production. Journal of Fruit and Ornamental Plant Research. Special edition 12, 157-165.

Wiyatiningsih S. 2007. Study on epidemic of basal rot disease in shallot. Magister Thesis,  PSFitopatologi UGM, Yogyakarta. (In Indonesian).

Zeeshan M, Ahmad I, Khan B, Shah A, Naeem N, Khan W, Ullah M, Adnan SRA, Shah K, Iqbal JM. 2016. Study on the management of Ralstonia solanacearum (Smith) with spent mushroom compost. Journal of Entomology and Zoology Studies 4, 114-121.

Ida Yusidah, Noor Istifadah.
The abilities of spent mushroom substrate to suppress basal rot disease (Fusarium oxysporum f.sp cepae) in shallot.
Int. J. Biosci. 13(1), 440-448, July 2018.
https://innspub.net/ijb/abilities-spent-mushroom-substrate-suppress-basal-rot-disease-fusarium-oxysporum-f-sp-cepae-shallot/
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