<ctx:context-object timestamp="2009-08-20T14:41:05Z" xsi:schemaLocation="info:ofi/fmt:xml:xsd:ctx http://www.openurl.info/registry/docs/info:ofi/fmt:xml:xsd:ctx" xmlns:xsi="http://www.w3.org/2001/XML" xmlns:ctx="info:ofi/fmt:xml:xsd:ctx"><ctx:referent><ctx:identifier>info:oai:orgprints.org:14554</ctx:identifier><ctx:metadata-by-val><ctx:format>info:ofi/fmt:xml:xsd:oai_dc</ctx:format><ctx:metadata><oai_dc:dc xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xmlns:dc="http://purl.org/dc/elements/1.1/">
        <dc:title>DOK-Versuch (Langzeituntersuchung zu biologisch-dynamischen, organisch-biologischen und konventionellen Landbausystemen)</dc:title>
        <dc:subject> Soil</dc:subject>
        <dc:subject> Biodiversity and ecosystem services</dc:subject>
        <dc:description>An understanding of agro-ecosystems is key to determining effective farming systems. Here we report the 21-year study of agronomic and ecological performance of bio-dynamic, bio-organic, and conventional farming systems in Central Europe. We found crop yields to be 20 % lower in the organic systems, although input of fertiliser and energy was reduced by 34 – 53 %  and pesticide input by 97 %. Enhanced soil fertility and higher biodiversity found in organic plots may render these systems less dependent on external inputs.&#13;
Definition of the problem:&#13;
	Soils are well buffered systems and an adaptation of the soil - plant relationship from high-input to low external input farming practices may last decades. For instance, soil nutrient stocks are frequently huge in European soils and a normalisation after conversion to organic low-input systems needs time. Also the adaptation of the soil micro-flora to altered chemical soil conditions presumably occurs only after a prolonged period of time upon conversion from high-input to low-input farming. Therefore, long-term trials are essential to assess the agronomic performance of low-input production systems and a focus should be put on studying the underlying soil processes.&#13;
Project aims:&#13;
-	to analyse the long-term agronomic performance of a Swiss wheat cultivar under organic and integrated farming systems (continued) &#13;
-	to investigate the interrelations of soil properties and plant growth in different farming systems&#13;
Experiments:&#13;
-	to perform a system comparison experiment with organic and integrated farming (continued, running since 1978)&#13;
-	to assess soil chemical, physical and biological properties&#13;
-	to determine nitrogen and phosphorus dynamics related processes in the soil-plant –microorganisms - system&#13;
-	to study the soil - plant interface&#13;
Methodology:&#13;
Soil microbial biomass analyses, enzyme activities, characterisation of microbial populations (Biolog, PLFA, DNA), assessment of mycorrihizal root colonisation and diversity by molecular tools, isotope tracer and dilution techniques.</dc:description>
        <dc:type>Project description</dc:type>
        <dc:type>NonPeerReviewed</dc:type>
        <dc:identifier>{Project} DOK: DOK-Versuch (Langzeituntersuchung zu biologisch-dynamischen, organisch-biologischen und konventionellen Landbausystemen). [DOK Trial (long-term trial comparing bio-dynamic, organic, conventional).] Runs 1978 - 2011. Project Leader(s): MÃ¤der, Paul and Fliessbach, Andreas, Research Institute of Organic Agriculture (FiBL), CH-5070 Frick. More information online at &lt;http://www.fibl.org/english/research/annual-crops/dok/index.php &lt;http://www.fibl.org/english/research/annual-crops/dok/index.php&gt;&gt;.</dc:identifier>
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