A Model Integration Framework for Assessing Integrated Landscape Management Strategies - Environmental Software Systems: Fostering Information Sharing
Conference Papers Year : 2013

A Model Integration Framework for Assessing Integrated Landscape Management Strategies

Jared M. Abodeely
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  • PersonId : 1000413
David J. Muth
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  • PersonId : 1000414
Joshua B. Koch
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  • PersonId : 1000415
Kenneth M. Bryden
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Abstract

Nitrogen application is a standard practice for maximizing productivity of an agronomic system. The challenge is that many commercial scale agricultural systems are inefficient in utilizing the nitrogen that is applied. Therefore, understanding the impact of land management practices on nitrogen use inefficiencies within the agroecosystem is critical. This paper presents an integrated model that quantifies the impact of various land management practices on specific agroecosystem units. This integrated model is composed of the Wind Erosion Prediction System (WEPS), the Revised Universal Soil Loss Equation, Version 2 (RUSLE2), the Soil Condition Index (SCI), and the daily CENTURY model, DAYCENT. The integrated model was used to determine the impact of land management strategies on greenhouse gas emissions and nitrate leaching in a 60.5 ha field in Webster County, Iowa, USA. It was found that nitrogen use efficiency can vary significantly across a field and that integrated land management strategies can reduce overall nitrogen losses.
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hal-01457441 , version 1 (06-02-2017)

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Jared M. Abodeely, David J. Muth, Joshua B. Koch, Kenneth M. Bryden. A Model Integration Framework for Assessing Integrated Landscape Management Strategies. 10th International Symposium on Environmental Software Systems (ISESS), Oct 2013, Neusiedl am See, Austria. pp.121-128, ⟨10.1007/978-3-642-41151-9_12⟩. ⟨hal-01457441⟩
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