Colin Skinner scite author profile

Agricultural practices contribute considerably to emissions of greenhouse gases. So far, knowledge on the impact of organic compared to non-organic farming on soil-derived nitrous oxide (N2O) and methane (CH4) emissions is limited. We investigated N2O and CH4 fluxes with manual chambers during 571 days in a grass-clover– silage maize – green manure cropping sequence in the long-term field trial “DOK” in Switzerland. We compared two organic farming systems – biodynamic (BIODYN) and bioorganic (BIOORG) – with two non-organic systems – solely mineral fertilisation (CONMIN) and mixed farming including farmyard manure (CONFYM) – all reflecting Swiss farming practices–together with an unfertilised control (NOFERT). We observed a 40.2% reduction of N2O emissions per hectare for organic compared to non-organic systems. In contrast to current knowledge, yield-scaled cumulated N2O emissions under silage maize were similar between organic and non-organic systems. Cumulated on area scale we recorded under silage maize a modest CH4 uptake for BIODYN and CONMIN and high CH4 emissions for CONFYM. We found that, in addition to N input, quality properties such as pH, soil organic carbon and microbial biomass significantly affected N2O emissions. This study showed that organic farming systems can be a viable measure contributing to greenhouse gas mitigation in the agricultural sector.

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Potentials to mitigate greenhouse gas emissions from Swiss agriculture

Necpálová¹,

Lee²,

Skinner

et al. 2018

Agriculture, Ecosystems & Environment

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There is an urgent need to identify and evaluate management practices for their biophysical potential to maintain productivity under climate change while mitigating greenhouse gas (GHG) emissions from individual cropping systems under specific pedo-climatic conditions. Here, we examined, through DayCent modeling, the long-term impact of soil management practices and their interactions on soil GHG emissions and GHG intensity from Swiss cropping systems. Based on experimental data from four long-term experimental sites in Switzerland (Therwil, Frick, Changins, and Reckenholz), we robustly parameterized and evaluated the model for simulating crop productivity, soil C dynamics and soil N 2 O emissions across a range of management practices and pedo-climatic conditions. Net soil GHG emissions (NSGHGE) were derived from changes in soil C, N 2 O emissions and CH 4 oxidation. Soils under conventional management acted as a net source of soil GHG emissions (1361-1792 kg CO 2 eq ha-1 yr-1) and NSGHGE were dominated by N 2 O (50-63%). Reduced tillage and no-tillage reduced long-term NSGHGE by up to 31 and 58%, respectively. Organic farming, represented by organic fertilization, reduced NSGHGE by up to 31% compared to systems based solely on mineral fertilization. Replacement of slurries with a composted FYM led to an additional reduction in NSGHGE by 46%, although our approach considered only soil GHG emissions and thus did not take into account GHG emissions from the composting process. Cover cropping did not significantly influence NSGHGE, however vetch tended to reduce NSGHGE (-19%). The highest mitigation potential was associated with organic farming plus reduced tillage management, it reduced long-term NSGHGE by up to 128%. Soil C sequestration accounted, on average, for 89% of GHG mitigation potentials. Not all the management practices sustained crop yields. Nevertheless, composting of organic manures, reduced tillage and no-tillage effectively reduced NSGHGE and GHG intensity without a noticeable yield reduction. Our results suggest that implementation of the above soil 4 management practices in Swiss cropping systems have a considerable potential for climate change mitigation, although time-limited. Highlights:  DayCent was parameterized and evaluated using data from four LTEs in Switzerland  Organic farming with reduced tillage reduced net soil GHG emissions and also yield  Composting, RT and NT reduced net soil GHG emissions without a yield reduction  Soil C sequestration accounted, on average, for 89% of GHG mitigation potentials

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Reply to Leifeld et al.: Enhanced top soil carbon stocks under organic farming is not equated with climate change mitigation

Gattinger¹,

Müller²,

Haeni³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Utilizing Electronic Health Record Information to Optimize Medication Infusion Devices: A Manual Data Integration Approach

Chuk¹,

Maloney²,

Gawron³

et al. 2016

J Healthc Qual

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Health information technology is increasingly utilized within healthcare delivery systems today. Two examples of this type of technology include the capture of patient-specific information within an electronic health record and intravenous medication infusion devices equipped with dose error reduction software known as drug libraries. Automatic integration of these systems, termed intravenous (IV) interoperability, should serve as the goal toward which all healthcare systems work to maximize patient safety. For institutions lacking IV interoperability, we describe a manual approach of querying the electronic health record to incorporate medication administration information with data from infusion device software to optimize drug library settings. This approach serves to maximize utilization of available information to optimize medication safety provided by drug library software.

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Colin Skinner

Greenhouse gas fluxes from agricultural soils under organic and non-organic management — A global meta-analysis

The impact of long-term organic farming on soil-derived greenhouse gas emissions

Potentials to mitigate greenhouse gas emissions from Swiss agriculture

Reply to Leifeld et al.: Enhanced top soil carbon stocks under organic farming is not equated with climate change mitigation

Utilizing Electronic Health Record Information to Optimize Medication Infusion Devices: A Manual Data Integration Approach

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