APSIM e Evolution towards a new generation of agricultural systems simulation

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cg.contactDean.Holzworth@csiro.auen_US
cg.contributor.centerCommonwealth Science and Industrial Research Organisation - CSIROen_US
cg.contributor.centerThe Australian Government Department of Agriculture and Water Resources - DAWRen_US
cg.contributor.centerUniversity of Queensland, Queensland Alliance for Agriculture and Food Innovation - Qaafien_US
cg.contributor.centerAgResearchen_US
cg.contributor.centerPlant & Food Researchen_US
cg.contributor.centerGeorg-August-Universitat Gottingen - Uni-Goettingenen_US
cg.contributor.centerCropfacts Pty Ltden_US
cg.contributor.crpCRP on Dryland Systems - DSen_US
cg.contributor.funderNot Applicableen_US
cg.coverage.countryAUen_US
cg.coverage.regionAustralia and New Zealanden_US
cg.creator.idWhitbread, Anthony: 0000-0003-4840-7670en_US
cg.date.embargo-end-date2018-07-15en_US
cg.identifier.doihttps://dx.doi.org/10.1016/j.envsoft.2014.07.009en_US
cg.isijournalISI journalen_US
cg.journalEnvironmental Modelling & Softwareen_US
cg.subject.agrovocfarming systemsen_US
cg.subject.agrovocmodelsen_US
cg.subject.agrovocagricultural systemsen_US
cg.volume62en_US
dc.contributorHuth, Neilen_US
dc.contributordeVoil, Peteren_US
dc.contributorZurcher, Ericen_US
dc.contributorHerrmann, Nevilleen_US
dc.contributorMcLean, Gregen_US
dc.contributorChenu, Karineen_US
dc.contributorVan Oosterom, Eriken_US
dc.contributorSnow, Valen_US
dc.contributorMurphy, Chrisen_US
dc.contributorMoore, Andrewen_US
dc.contributorBrown, Hamishen_US
dc.contributorWhish, Jeremyen_US
dc.contributorVerrall, Shaunen_US
dc.contributorFainges, Justinen_US
dc.contributorBell, Lindsayen_US
dc.contributorPeake, Allanen_US
dc.contributorPoulton, Perryen_US
dc.contributorHochman, Zvien_US
dc.contributorThorburn, Peteren_US
dc.contributorGaydon, Donalden_US
dc.contributorDalgliesh, Nealen_US
dc.contributorRodriguez, Danielen_US
dc.contributorCox, Howarden_US
dc.contributorChapman, Scotten_US
dc.contributorDoherty, Alastairen_US
dc.contributorTeixeira, Edmaren_US
dc.contributorSharp, Joannaen_US
dc.contributorCichota, Rogerioen_US
dc.contributorVogeler, Irisen_US
dc.contributorLi, Franken_US
dc.contributorWang, Enlien_US
dc.contributorHammer, Graemeen_US
dc.contributorRobertson, Michaelen_US
dc.contributorDimes, Johnen_US
dc.contributorWhitbread, Anthonyen_US
dc.contributorHunt, Jamesen_US
dc.contributorvan Rees, Harmen_US
dc.contributorHargreaves, Johnen_US
dc.contributorMcLeod, Neilen_US
dc.contributorMcDonald, Camen_US
dc.contributorHarsdorf, Justinen_US
dc.contributorWedgwood, Saraen_US
dc.contributorKeating, Brianen_US
dc.creatorHolzworth, Deanen_US
dc.date.accessioned2017-01-05T19:44:14Z
dc.date.available2017-01-05T19:44:14Z
dc.description.abstractAgricultural systems models worldwide are increasingly being used to explore options and solutions for the food security, climate change adaptation and mitigation and carbon trading problem domains. APSIM (Agricultural Production Systems sIMulator) is one such model that continues to be applied and adapted to this challenging research agenda. From its inception twenty years ago, APSIM has evolved into a framework containing many of the key models required to explore changes in agricultural landscapes with capability ranging from simulation of gene expression through to multi-field farms and beyond. Keating et al. (2003) described many of the fundamental attributes of APSIM in detail. Much has changed in the last decade, and the APSIM community has been exploring novel scientific domains and utilising software developments in social media, web and mobile applications to provide simulation tools adapted to new demands. This paper updates the earlier work by Keating et al. (2003) and chronicles the changing external challenges and opportunities being placed on APSIM during the last decade. It also explores and discusses how APSIM has been evolving to a “next generation” framework with improved features and capabilities that allow its use in many diverse topics.en_US
dc.formatPDFen_US
dc.identifierhttps://mel.cgiar.org/reporting/downloadmelspace/hash/FRfZTRP2/v/045fe18598badedd4da05e409dd7f9d8en_US
dc.identifier.citationDean Holzworth, Neil Huth, Peter deVoil, Eric Zurcher, Neville Herrmann, Greg McLean, Karine Chenu, Erik Van Oosterom, Val Snow, Chris Murphy, Andrew Moore, Hamish Brown, Jeremy Whish, Shaun Verrall, Justin Fainges, Lindsay Bell, Allan Peake, Perry Poulton, Zvi Hochman, Peter Thorburn, Donald Gaydon, Neal Dalgliesh, Daniel Rodriguez, Howard Cox, Scott Chapman, Alastair Doherty, Edmar Teixeira, Joanna Sharp, Rogerio Cichota, Iris Vogeler, Frank Li, Enli Wang, Graeme Hammer, Michael Robertson, John Dimes, Anthony Whitbread, James Hunt, Harm van Rees, John Hargreaves, Neil McLeod, Cam McDonald, Justin Harsdorf, Sara Wedgwood, Brian Keating. (15/7/2014). APSIM e Evolution towards a new generation of agricultural systems simulation. Environmental Modelling & Software, 62, pp. 237-350.en_US
dc.identifier.statusLimited accessen_US
dc.identifier.urihttps://hdl.handle.net/20.500.11766/5345
dc.languageenen_US
dc.publisherElsevieren_US
dc.rightsCC-BY-NC-4.0en_US
dc.sourceEnvironmental Modelling & Software;62,(2014) Pagination 237,350en_US
dc.subjectapsimen_US
dc.subjectgene-to-phenotype modelen_US
dc.subjectcropen_US
dc.titleAPSIM e Evolution towards a new generation of agricultural systems simulationen_US
dc.typeJournal Articleen_US
dcterms.available2014-07-15en_US
dcterms.extent237-350en_US
mel.impact-factor3.476en_US

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