Tillage system effects on 15-year carbon-based and simulated N budgets in a tile-drained Iowa field

Karlen, Douglas L.

doi:10.1016/s0167-1987(98)00142-1

Cited by 37 publications

(25 citation statements)

References 23 publications

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“…Simulated N fixation for soybean was highest under MP, followed by CP and NT (Table 4) due to higher N uptake demand and higher soybean biomass. Increase in soil organic N was slightly higher with CS compared to CC, which is in agreement with experimental observations (Karlen et al, 1991(Karlen et al, , 1998. The slightly higher soil organic N increase under MP for CS was due to higher soybean yield simulated under MP.…”

Section: Simulated Long-term Crop Rotation and Tillage Effectssupporting

confidence: 90%

“…The seasonal water table fluctuates from 20 to 160 cm and subsurface drainage tubes/pipes (10 cm in diameter) were installed in the fall of 1979 at 120 cm depth and 29 m apart. A trenchless drain plow was used to install the center drain in each plot and a chain trencher was used to install the drains between the plots (Karlen et al, 1991(Karlen et al, , 1998.…”

Section: Experimental Site Descriptionmentioning

confidence: 99%

“…In RZWQM, tillage practice only affects the soil hydraulic properties and mixes surface crop residue. It may be necessary to increase mineralization of organic N under MP or CP as suggested by McGechan et al (2005) to simulate lower organic N under MP compared to NT (Karlen et al, 1998). Higher residual soil nitrate-N was simulated under CC than under CS during the 24 years of simulation.…”

Section: Simulated Long-term Crop Rotation and Tillage Effectsmentioning

confidence: 99%

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RZWQM simulated effects of crop rotation, tillage, and controlled drainage on crop yield and nitrate-N loss in drain flow

Ma¹,

Malone²,

Heilman

et al. 2007

Geoderma

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Accurate simulation of agricultural management effects on N loss in tile drainage is vitally important for understanding hypoxia in the Gulf of Mexico. An experimental study was initiated in 1978 at Nashua, Iowa of the USA to study long-term effects of tillage, crop rotation, and N management practices on subsurface drainage flow and associated N losses. The Root Zone Water Quality Model (RZWQM) was applied to evaluate various management effects in several previous studies. In this study, the simulation results were further analyzed for management effects (tillage, crop rotation, and controlled drainage) on crop production and N loss in drain flow. RZWQM simulated the observed increase in N concentration in drain flow with increasing tillage intensity from NT (no-till) to RT (ridge till) to CP (chisel plow) and to MP (moldboard plow). It also adequately simulated tillage effects on yearly drain flow and yearly N loss in drain flow. However, the model failed to simulate lower corn and soybean yields under NT than under MP, CP, and RT. On the other hand, RZWQM adequately simulated lower yearly drain flow and lower flow-weighted N concentration in drain flow under CS (corn-soybean) and SC (soybean-corn) than under CC (continuous corn). The model adequately simulated higher corn yield under CS and SC than under CC. Applying the newly suggested N management practice for the Midwest of controlled drainage, the model simulated a 30% reduction in drain flow and a 29% decrease in N losses in drain flow under controlled drainage (CD) compared to free drainage (FD). With most of the simulations in reasonably close agreement with observations, we concluded that RZWQM is a promising tool for quantifying the relative effects of tillage, crop rotation, and controlled drainage on N loss in drainage flow. Further improvements on simulated management effects on crop yield and N mineralization are needed, however. RightsWorks produced by employees of the U.S. Government as part of their official duties are not copyrighted within the U.S. The content of this document is not copyrighted. AbstractAccurate simulation of agricultural management effects on N loss in tile drainage is vitally important for understanding hypoxia in the Gulf of Mexico. An experimental study was initiated in 1978 at Nashua, Iowa of the USA to study long-term effects of tillage, crop rotation, and N management practices on subsurface drainage flow and associated N losses. The Root Zone Water Quality Model (RZWQM) was applied to evaluate various management effects in several previous studies. In this study, the simulation results were further analyzed for management effects (tillage, crop rotation, and controlled drainage) on crop production and N loss in drain flow. RZWQM simulated the observed increase in N concentration in drain flow with increasing tillage intensity from NT (no-till) to RT (ridge till) to CP (chisel plow) and to MP (moldboard plow). It also adequately simulated tillage effects on yearly drain flow and yearly N loss in drain flow....

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Section: Simulated Long-term Crop Rotation and Tillage Effectssupporting

confidence: 90%

Section: Experimental Site Descriptionmentioning

confidence: 99%

Section: Simulated Long-term Crop Rotation and Tillage Effectsmentioning

confidence: 99%

See 1 more Smart Citation

RZWQM simulated effects of crop rotation, tillage, and controlled drainage on crop yield and nitrate-N loss in drain flow

Ma¹,

Malone²,

Heilman

et al. 2007

Geoderma

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“…Lksat for these two layers were optimized and listed in Table 2 (Ma et al, 2007b-this issue). Soil carbon pools were calibrated based on measured data assuming all the carbon was in the slow humus pool since the site had very low fertility when the experiments were started in 1978 (Karlen et al, 1991(Karlen et al, , 1998. Microbial population was initialized by running the model using current management practices for Plot #25 and weather data for a course of 26 years.…”

Section: Model Calibrationmentioning

confidence: 99%

RZWQM simulation of long-term crop production, water and nitrogen balances in Northeast Iowa

Ma¹,

Malone²,

Heilman

et al. 2007

Geoderma

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Agricultural system models are tools to represent and understand major processes and their interactions in agricultural systems. We used the Root Zone Water Quality Model (RZWQM) with 26 years of data from a study near Nashua, IA to evaluate year to year crop yield, water, and N balances. The model was calibrated using data from one 0.4 ha plot and evaluated by comparing simulated values with data from 29 of the 36 plots at the same research site (six were excluded). The dataset contains measured tile flow that varied considerably from plot to plot so we calibrated total tile flow amount by adjusting a lateral hydraulic gradient term for subsurface lateral flow below tiles for each plot. Keeping all other soil and plant parameters constant, RZWQM correctly simulated year to year variations in tile flow (r 2 = 0.74) and N loading in tile flow (r 2 = 0.71). Yearly crop yield variation was simulated with less satisfaction (r 2 = 0.52 for corn and r 2 = 0.37 for soybean) although the average yields were reasonably simulated. Root mean square errors (RMSE) for simulated soil water storage, water table, and annual tile flow were 3.0, 22.1, and 5.6 cm, respectively. These values were close to the average RMSE for the measured data between replicates (3.0, 22.4, and 5.7 cm, respectively). RMSE values for simulated annual N loading and residual soil N were 16.8 and 47.0 kg N ha −1 , respectively, which were much higher than the average RMSE for measurements among replicates (7.8 and 38.8 kg N ha −1 , respectively). The high RMSE for N simulation might be caused by high simulation errors in plant N uptake. RightsWorks produced by employees of the U.S. Government as part of their official duties are not copyrighted within the U.S. The content of this document is not copyrighted. AbstractAgricultural system models are tools to represent and understand major processes and their interactions in agricultural systems. We used the Root Zone Water Quality Model (RZWQM) with 26 years of data from a study near Nashua, IA to evaluate year to year crop yield, water, and N balances. The model was calibrated using data from one 0.4 ha plot and evaluated by comparing simulated values with data from 29 of the 36 plots at the same research site (six were excluded). The dataset contains measured tile flow that varied considerably from plot to plot so we calibrated total tile flow amount by adjusting a lateral hydraulic gradient term for subsurface lateral flow below tiles for each plot. Keeping all other soil and plant parameters constant, RZWQM correctly simulated year to year variations in tile flow (r 2 = 0.74) and N loading in tile flow (r 2 = 0.71). Yearly crop yield variation was simulated with less satisfaction (r 2 = 0.52 for corn and r 2 = 0.37 for soybean) although the average yields were reasonably simulated. Root mean square errors (RMSE) for simulated soil water storage, water table, and annual tile flow were 3.0, 22.1, and 5.6 cm, respectively. These values were close to the average RMSE for the measured data betwee...

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“…The results of these studies have been reported in many publications (Bjorneberg et al, 1998;Karlen et al, 1991;Weed et al, 1995;Singh and Kanwar, 1995;Weed and Kanwar, 1996;Singh et al, 1996;Kanwar et al, 1997;Azevedo et al, 1997;Karlen et al, 1998;Kumar et al, 1998a,b;Kanwar et al, 1999;Kumar et al, 1999;Bakhsh et al, 1999Bakhsh et al, , 2000aBakhsh et al, , 2002Karlen et al, 2004;Bakhsh and Kanwar, 2004;Kanwar et al, 2005;. The publications seniorauthored by Singh, Azevedeo, Kumar, and Bakhsh involved the use of models.…”

Section: Goal Of This Special Issuementioning

confidence: 94%

Integrating soil and crop research with system models in the midwest USA: Purpose and overview of the Special Issue

Ahuja¹,

Hatfield

2007

Geoderma

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Tillage system effects on 15-year carbon-based and simulated N budgets in a tile-drained Iowa field

Cited by 37 publications

References 23 publications

RZWQM simulated effects of crop rotation, tillage, and controlled drainage on crop yield and nitrate-N loss in drain flow

RZWQM simulated effects of crop rotation, tillage, and controlled drainage on crop yield and nitrate-N loss in drain flow

RZWQM simulation of long-term crop production, water and nitrogen balances in Northeast Iowa

Integrating soil and crop research with system models in the midwest USA: Purpose and overview of the Special Issue

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