{
  "eprintid": "9725",
  "rev_number": "1",
  "eprint_status": "archive",
  "userid": "5624",
  "dir": "disk0/00/00/97/25",
  "datestamp": "2007-04-14",
  "lastmod": "2009-08-20 14:34:37",
  "status_changed": "2009-08-20 14:34:37",
  "type": "conference_item",
  "metadata_visibility": "show",
  "item_issues_count": "0",
  "doclang": "en",
  "publishedas": "The final version of this paper is published in: Niggli, Urs; Leifert, Carlo; Alföldi, Thomas; Lück, Lorna and Willer, Helga, Eds. (2007) Improving Sustainability in Organic and Low Input Food Production Systems. Proceedings of the 3rd International Congress of the European Integrated Project Quality Low Input Food (QLIF). http://orgprints.org/10417/ Printed copies may be ordered from the FiBL Shop at www.shop.fibl.org.",
  "projects": [
    "int_conf_2007qlif_3_crops"
  ],
  "confdates": "March 20-23, 2007",
  "conference": "3rd QLIF Congress: Improving Sustainability in Organic and Low Input Food Production Systems",
  "confloc": "University of Hohenheim, Germany",
  "refereed": "yes",
  "budget": "0",
  "altloc": [
    "http://orgprints.org/10417/"
  ],
  "publicfulltext": "TRUE",
  "presentationtype": "poster",
  "creators": [
    {
      "name": {
        "family": "Liang",
        "given": "Song"
      },
      "id": ""
    },
    {
      "name": {
        "family": "Chiu",
        "given": "Siu-Wai"
      },
      "id": ""
    }
  ],
  "title": "Dual roles of spent mushroom substrate on soil improvement and enhanced drought tolerance of wheat Triticum aestivum",
  "ispublished": "pub",
  "subjects": [
    "3cereals",
    "3compost"
  ],
  "keywords": "drought, spent mushroom substrate, soil remediation, wheat",
  "abstract": "This study examines the effects of the spent substrate of oyster mushroom (SMS) for growing wheat at different drought conditions. The SMS not only served as the sole fertilizer to produce normal growth and grain yield of wheat but also improved the soil quality after harvest to raise the soil organic matter, maintain the soil alkalinity and increase field capacity unlike the synthetic fertilizer amendment. Simultaneously, SMS treatment enhanced drought tolerance of wheat by enabling germination at 8.5% soil water content and completing sexual reproduction to grain production even at 6.3% soil water content.",
  "date": "2007",
  "date_type": "published",
  "full_text_status": "public",
  "documents": [
    {
      "docid": "7151",
      "rev_number": "1",
      "eprintid": "9725",
      "pos": "1",
      "format": "application/pdf",
      "language": "de",
      "security": "public",
      "main": "Liang-Chiu-2007-mushroom-substrate.pdf",
      "files": [
        {
          "filename": "Liang-Chiu-2007-mushroom-substrate.pdf",
          "filesize": "255928",
          "url": "http://orgprints.org/9725/1/Liang-Chiu-2007-mushroom-substrate.pdf"
        }
      ]
    }
  ]
}