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Novel applications for Oxalate-Phosphate-Amine Metal-Organic-Frameworks (OPA-MOFs): Can an iron-based OPA-MOF be used as slow-release fertilizer

Southern Cross University
Anstoetz, Manuela ; Clark, Malcolm ; Grain Research & Development Corporation https://grdc.com.au/
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.4226/47/587dab89314f1&rft.title=Novel applications for Oxalate-Phosphate-Amine Metal-Organic-Frameworks (OPA-MOFs): Can an iron-based OPA-MOF be used as slow-release fertilizer&rft.identifier=10.4226/47/587dab89314f1&rft.publisher=Southern Cross University&rft.description=A novel hybrid material developed at Southern Cross University was investigated as fertiliser and soil modifying agent to address problems associated with acidification of agricultural soils. The compound, containing phosphorus, nitrogen and oxalate as structural elements, was tested in extended pot trials using wheat cv. Dollarbird. Its degradation, controlled by oxalate solubility and consumption by bacteria using it as carbon source to biomineralise carbonate, enables slow release of enclosed nutrients. Research objectives were met as trial results include increases in grain yield, protein content and micronutrient uptake, and presence of active oxalate degrading bacteria was confirmed. Data Processing: All statistical analyses were performed GENSTAT 16.1 software, 2-way ANOVA and Duncan's Tests.&rft.creator=Anstoetz, Manuela &rft.creator=Clark, Malcolm &rft.creator=Grain Research & Development Corporation https://grdc.com.au/ &rft.date=2017&rft.coverage=153.39999999999998,-28.816667&rft.coverage=Latitude: -28.816 Longitude: 153.399&rft.coverage=Wollongbar NSW&rft_rights=CC BY-SA V3.0&rft_subject=fertilizer; slow-release fertilizer; enhanced efficiency fertilizer; oxalotrophic bacteria; oxalate-carbonate-pathway; wheat; metal-organic framework&rft.type=dataset&rft.language=English Access the data
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A novel hybrid material developed at Southern Cross University was investigated as fertiliser and soil modifying agent to address problems associated with acidification of agricultural soils. The compound, containing phosphorus, nitrogen and oxalate as structural elements, was tested in extended pot trials using wheat cv. Dollarbird. Its degradation, controlled by oxalate solubility and consumption by bacteria using it as carbon source to biomineralise carbonate, enables slow release of enclosed nutrients. Research objectives were met as trial results include increases in grain yield, protein content and micronutrient uptake, and presence of active oxalate degrading bacteria was confirmed.

Data Processing: All statistical analyses were performed GENSTAT 16.1 software, 2-way ANOVA and Duncan's Tests.

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Novel applications for oxalate-phosphate-amine metal-organic-frameworks (OPA-MOFs): can an iron-based OPA-MOF be used as slow-release fertilizer?
EsploroIEID : 1167326160002368

Available: 20170116

Issued: 2017

Created:

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153.4,-28.81667

153.4,-28.816667

text: Latitude: -28.816 Longitude: 153.399

text: Wollongbar NSW

Subjects
fertilizer; slow-release fertilizer; enhanced efficiency fertilizer; oxalotrophic bacteria; oxalate-carbonate-pathway; wheat; metal-organic framework |

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