Please use this identifier to cite or link to this item: https://hdl.handle.net/1959.11/16158
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dc.contributor.authorBajgai, Yadunathen
dc.contributor.authorKristiansen, Paulen
dc.contributor.authorHulugalle, Nilanthaen
dc.contributor.authorMcHenry, Melindaen
dc.date.accessioned2014-11-27T09:10:00Z-
dc.date.issued2011-
dc.identifier.citationResilient Food Systems for a Changing World: Proceedings of the 5th World Congress of Conservation Agriculture incorporating 3rd Farming Systems Design Conference, p. 26-29en
dc.identifier.urihttps://hdl.handle.net/1959.11/16158-
dc.description.abstractAnnual horticultural systems commonly rely on frequent and intensive tillage to prepare beds and manage weeds and insects. However, tillage increases the loss of soil organic carbon (SOC) through accelerated CO2 emission brought about by improvement in soil aeration and soil and crop residue contact (Angers et al., 1993). In contrast, some vegetable farmers use green manures, organic inputs (e.g. compost, mulch) and crop residues to perform various functions including increasing soil organic matter (SOM). Crop residue management systems that maintain organic materials in situ can benefit SOM (van Groenigen, et al., 2011). The effects of tillage and crop residue management can have opposing influences and may be difficult to isolate (Dalal et al., 2011). The SOC pool in the soil is the balance of C inputs in the form of crop residue and biomass, and C outputs such as CO₂ emissions and other losses. The CO₂ fixed in plant biomass by photosynthesis is returned to soil that forms SOM, some of which is lost due to tillage (Jarecki and Lal, 2003). Vegetable systems are vulnerable with very little crop residue input and heavy reliance on tillage, reducing SOC. We hypothesised that such systems could be made more resilient by including a high-residue grain crop like sweet corn ('Zea mays' var. 'rugosa' L.) in the rotation. The subsequent corn stover input in the soil could balance the expected loss of SOC due to tillage. This laboratory study was conducted to separate the effects of residue incorporation and tillage in an associated field trial where sweet corn stover incorporation in a corn-cabbage ('Brassica oleracea' L.) rotation had a positive effect on SOC, but no differences in SOC for organic and conventional soil management systems. Organic vegetable systems rely on tillage for weed control, whereas conventional systems rely on herbicide. The laboratory study sought to evaluate CO₂ emissions in incubated soil after simulated tillage (weed control in organic) with and without the incorporation of ground corn stover.en
dc.languageenen
dc.publisherAustralian Centre for International Agricultural Research (ACIAR)en
dc.relation.ispartofResilient Food Systems for a Changing World: Proceedings of the 5th World Congress of Conservation Agriculture incorporating 3rd Farming Systems Design Conferenceen
dc.titleInteractions of corn stover incorporation and simulated tillage on emission of CO₂: a laboratory studyen
dc.typeConference Publicationen
dc.relation.conferenceWCCA/FSD 2011: 5th World Congress of Conservation Agriculture and 3rd Farming Systems Design Conferenceen
dc.subject.keywordsSustainable Agricultural Developmenten
dc.subject.keywordsCarbon Sequestration Scienceen
local.contributor.firstnameYadunathen
local.contributor.firstnamePaulen
local.contributor.firstnameNilanthaen
local.contributor.firstnameMelindaen
local.subject.for2008050301 Carbon Sequestration Scienceen
local.subject.for2008070108 Sustainable Agricultural Developmenten
local.subject.seo2008829899 Environmentally Sustainable Plant Production not elsewhere classifieden
local.subject.seo2008961402 Farmland, Arable Cropland and Permanent Cropland Soilsen
local.profile.schoolSchool of Environmental and Rural Scienceen
local.profile.emailybajgai@gmail.comen
local.profile.emailpkristi2@une.edu.auen
local.profile.emailNilantha.Hulugalle@industry.nsw.gov.auen
local.profile.emailm.mchenry@cqu.edu.auen
local.output.categoryE3en
local.record.placeauen
local.record.institutionUniversity of New Englanden
local.identifier.epublicationsrecordune-20141126-230056en
local.date.conference26th - 29th September, 2011en
local.conference.placeBrisbane, Australiaen
local.publisher.placeCanberra, Australiaen
local.format.startpage26en
local.format.endpage29en
local.title.subtitlea laboratory studyen
local.contributor.lastnameBajgaien
local.contributor.lastnameKristiansenen
local.contributor.lastnameHulugalleen
local.contributor.lastnameMcHenryen
dc.identifier.staffune-id:ybajgaien
dc.identifier.staffune-id:pkristi2en
dc.identifier.staffune-id:nhulugalen
dc.identifier.staffune-id:mharri10en
local.profile.orcid0000-0003-2116-0663en
local.profile.roleauthoren
local.profile.roleauthoren
local.profile.roleauthoren
local.profile.roleauthoren
local.identifier.unepublicationidune:16395en
dc.identifier.academiclevelAcademicen
dc.identifier.academiclevelAcademicen
local.title.maintitleInteractions of corn stover incorporation and simulated tillage on emission of CO₂en
local.output.categorydescriptionE3 Extract of Scholarly Conference Publicationen
local.relation.urlhttp://aciar.gov.au/files/node/14068/interactions_of_corn_stover_incorporation_and_simu_12141.pdfen
local.relation.urlhttp://aciar.gov.au/wccapostersen
local.conference.detailsWCCA/FSD 2011: 5th World Congress of Conservation Agriculture and 3rd Farming Systems Design Conference, Brisbane, Australia, 26th - 29th September, 2011en
local.search.authorBajgai, Yadunathen
local.search.authorKristiansen, Paulen
local.search.authorHulugalle, Nilanthaen
local.search.authorMcHenry, Melindaen
local.uneassociationUnknownen
local.year.published2011en
local.date.start2011-09-26-
local.date.end2011-09-29-
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School of Environmental and Rural Science
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