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Journal Abstract Search

192 related items for PubMed ID: 23357087

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  • 2. Anaerobically digested food waste in compost for Agaricus bisporus and Agaricus subrufescens and its effect on mushroom productivity.
    Stoknes K, Beyer DM, Norgaard E.
    J Sci Food Agric; 2013 Jul; 93(9):2188-200. PubMed ID: 23371778
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  • 6. The physiology of Agaricus bisporus in semi-commercial compost cultivation appears to be highly conserved among unrelated isolates.
    Pontes MVA, Patyshakuliyeva A, Post H, Jurak E, Hildén K, Altelaar M, Heck A, Kabel MA, de Vries RP, Mäkelä MR.
    Fungal Genet Biol; 2018 Mar; 112():12-20. PubMed ID: 29277563
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  • 7. The physical structure of compost and C and N utilization during composting and mushroom growth in Agaricus bisporus cultivation with rice, wheat, and reed straw-based composts.
    Wang Q, Juan J, Xiao T, Zhang J, Chen H, Song X, Chen M, Huang J.
    Appl Microbiol Biotechnol; 2021 May; 105(9):3811-3823. PubMed ID: 33877414
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  • 9. Microbial ecology of the Agaricus bisporus mushroom cropping process.
    McGee CF.
    Appl Microbiol Biotechnol; 2018 Feb; 102(3):1075-1083. PubMed ID: 29222576
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  • 12. Physiologic response of Agaricus subrufescens using different casing materials and practices applied in the cultivation of Agaricus bisporus.
    Dias ES, Zied DC, Rinker DL.
    Fungal Biol; 2013 Feb; 117(7-8):569-75. PubMed ID: 23931122
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  • 14. Compost bacteria and fungi that influence growth and development of Agaricus bisporus and other commercial mushrooms.
    Kertesz MA, Thai M.
    Appl Microbiol Biotechnol; 2018 Feb; 102(4):1639-1650. PubMed ID: 29362825
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  • 15. Physical degradation of wheat straw by the in-vessel and windrow methods of mushroom compost production.
    Lyons GA, McCall RD, Sharma HS.
    Can J Microbiol; 2000 Sep; 46(9):817-25. PubMed ID: 11006842
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  • 16. Use of spent mushroom substrates from Agaricus subrufescens (syn. A. blazei, A. brasiliensis) and Lentinula edodes productions in the enrichment of a soil-based potting media for lettuce (Lactuca sativa) cultivation: Growth promotion and soil bioremediation.
    Ribas LC, de Mendonça MM, Camelini CM, Soares CH.
    Bioresour Technol; 2009 Oct; 100(20):4750-7. PubMed ID: 19467593
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  • 17. Effect of cultivation practices on the β-glucan content of Agaricus subrufescens basidiocarps.
    Zied DC, Pardo Giménez A, Pardo González JE, Dias ES, Carvalho MA, Minhoni MT.
    J Agric Food Chem; 2014 Jan 08; 62(1):41-9. PubMed ID: 24308309
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  • 18. An Exploration into the Bacterial Community under Different Pasteurization Conditions during Substrate Preparation (Composting-Phase II) for Agaricus bisporus Cultivation.
    Vieira FR, Pecchia JA.
    Microb Ecol; 2018 Feb 08; 75(2):318-330. PubMed ID: 28730353
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  • 19. Lignocellulose Degradation Efficiency of Agaricus bisporus Strains Grown on Wheat Straw-Based Compost.
    Wang Q, Xiao T, Juan J, Qian W, Zhang J, Chen H, Shen X, Huang J.
    J Agric Food Chem; 2023 Jul 19; 71(28):10607-10615. PubMed ID: 37417743
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  • 20. Fate of Carbohydrates and Lignin during Composting and Mycelium Growth of Agaricus bisporus on Wheat Straw Based Compost.
    Jurak E, Punt AM, Arts W, Kabel MA, Gruppen H.
    PLoS One; 2015 Jul 19; 10(10):e0138909. PubMed ID: 26436656
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