Elizabeth Trybula scite author profile

The Soil and Water Assessment Tool (SWAT) is increasingly used to quantify hydrologic and water quality impacts of bioenergy production, but crop-growth parameters for candidate perennial rhizomatous grasses (PRG) Miscanthus 9 giganteus and upland ecotypes of Panicum virgatum (switchgrass) are limited by the availability of field data. Crop-growth parameter ranges and suggested values were developed in this study using agronomic and weather data collected at the Purdue University Water Quality Field Station in northwestern Indiana. During the process of parameterization, the comparison of measured data with conceptual representation of PRG growth in the model led to three changes in the SWAT 2009 code: the harvest algorithm was modified to maintain belowground biomass over winter, plant respiration was extended via modified-DLAI to better reflect maturity and leaf senescence, and nutrient uptake algorithms were revised to respond to temperature, water, and nutrient stress. Parameter values and changes to the model resulted in simulated biomass yield and leaf area index consistent with reported values for the region. Code changes in the SWAT model improved nutrient storage during dormancy period and nitrogen and phosphorus uptake by both switchgrass and Miscanthus.Abbreviations ACRE = agronomy center for research and education BIO_E = radiation use efficiency 9 10 BLAI = maximum leaf area index CMN = rate of humus mineralization CYLD = nutrient fraction at harvest DLAI = point of the growing season when senescence begins HEFF = harvest efficiency HI = harvest index HU = heat unit LAI = leaf area index OAT = one-at-a-time method PAR = photosynthetically active radiation PLTFR = plant nutrient fraction PLTNFR = plant nitrogen fraction PLTPFR = plant phosphorus fraction PRG = perennial rhizomatous grasses RUE = radiation use efficiency SWAT = soil and water assessment tool T_BASE = base temperature WQFS = water quality field station.

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Watershed‐scale impacts of bioenergy crops on hydrology and water quality using improvedSWATmodel

Cibin

Trybula

Chaubey

et al. 2016

GCB Bioenergy

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Cellulosic bioenergy feedstock such as perennial grasses and crop residues are expected to play a significant role in meeting US biofuel production targets. We used an improved version of the Soil and Water Assessment Tool (SWAT) to forecast impacts on watershed hydrology and water quality by implementing an array of plausible land-use changes associated with commercial bioenergy crop production for two watersheds in the Midwest USA. Watershed-scale impacts were estimated for 13 bioenergy crop production scenarios, including: production of Miscanthus 9 giganteus and upland Shawnee switchgrass on highly erodible landscape positions, agricultural marginal land areas and pastures, removal of corn stover and combinations of these options. Water quality, measured as erosion and sediment loading, was forecasted to improve compared to baseline when perennial grasses were used for bioenergy production, but not with stover removal scenarios. Erosion reduction with perennial energy crop production scenarios ranged between 0.2% and 59%. Stream flow at the watershed outlet was reduced between 0 and 8% across these bioenergy crop production scenarios compared to baseline across the study watersheds. Results indicate that bioenergy production scenarios that incorporate perennial grasses reduced the nonpoint source pollutant load at the watershed outlet compared to the baseline conditions (0-20% for nitrate-nitrogen and 3-56% for mineral phosphorus); however, the reduction rates were specific to site characteristics and management practices.

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Ecosystem services and Indiana agriculture: farmers’ and conservationists’ perceptions

Logsdon

Kalcic

Trybula

et al. 2015

International Journal of Biodiversity Science, Ecosystem Servic

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Agronomic Solutions for Smallholders Community to Focus on Organic Input Management in Tampa

Trybula¹

2017

CSA News

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