Nitrogen and Chloride Movement in Small Upland Piedmont Watersheds: II. Nitrogen and Chloride Transport in Runoff

Langdale, G. W.; Leonard, R. A.; Fleming, W. G.; Jackson, W. A.

doi:10.2134/jeq1979.00472425000800010013x

Cited by 15 publications

(4 citation statements)

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“…Results suggest that nitrate in surface runoff (R 2 = 0.27) is more influenced by the fertilization rate than subsurface loss (R 2 = 0.14). This is consistent with findings by [21], which suggest that nitrate loss, especially through subsurface loss, is often difficult to correlate with fertilization rate due to nitrogen interaction within the soil and water in the presence of crop. We developed a multilinear regression model to estimate nitrate in surface runoff based on fertilization rate and annual precipitation, see Figure 2.…”

Section: Surface Nitrate Losssupporting

confidence: 91%

Surface and Subsurface Transport of Nitrate Loss from the Selected Bioenergy Crop Fields: Systematic Review, Analysis and Future Directions

Sharma

Chaubey

2017

Agriculture

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Nitrate loss from bioenergy crop fields has attracted considerable attention during the last few years because of its potential negative impact on aquatic and human health. Both controllable and uncontrollable factors for nitrate loss have been the subject of several previous studies. Due to differences in climate, biophysical dissimilarities and land management characteristics in different parts of the world the factors affecting nitrate loss are often inconsistent and hence difficult to generalize. Therefore, reanalyzing the experimental field or plot scale studies to understand the nitrate loss factors in crop fields is useful and necessary in developing management strategies for reducing nitrate loss. This research synthesized and investigated 36 peer reviewed scientific journal articles related to selected bioenergy crop fields that included: continuous corn, corn in rotation with soybean, switchgrass and Miscanthus to conduct a meta-analysis of the available research. In this study, factors such as drain tile spacing, tillage practices, type and timing of the fertilization rate, irrigation and various other factors, which are challenging to represent in regression equations, were also systematically analyzed. In addition, various other agronomic characteristics that are attributed too nitrate loss are caused by perennially planted bio energized crops such as Miscanthus and switchgrass. Results indicated that 49% of nitrate loss through surface runoff from corn fields is directly related to the annual precipitation and fertilization rate. Multiple linear regression equations were developed to estimate the annual subsurface nitrate loss for the continuous corn fields with a R 2 value of 0.65, 0.58 and 0.26 for sandy loam, silty loam and clay loam, respectively. Our analysis resulted in the conclusion that corn has a 2 to 3 times higher nitrate loss in surface runoff compared to switchgrass. Likewise, continuous corn and corn in rotation with soybean contributed more than 9 times the subsurface loss of nitrate compared to the established subsurface loss attributed to the Miscanthus and switchgrass.

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Section: Surface Nitrate Losssupporting

confidence: 91%

Surface and Subsurface Transport of Nitrate Loss from the Selected Bioenergy Crop Fields: Systematic Review, Analysis and Future Directions

Sharma

Chaubey

2017

Agriculture

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“…The range of literature values was determined from multiple studies (not all studies contained data on each pollutant or land use). [20][21][22][23]33,34,41,49,51,53,55,[60][61][62]65,68,70,71,73,[76][77][78][79][80][81][82][83][84][85] Development of integrated management plans and implementation of best management practices (BMPs) may reduce the environmental footprint of golf course management. BMPs such as buffers, wetlands, fertilizer formulation, placement, and timing have demonstrated effectiveness at reducing nutrient losses.…”

Section: Water Quality Impacts and Bmpsmentioning

confidence: 99%

Stream water nutrient enrichment in a mixed-use watershed

King

Balogh

2011

J. Environ. Monit.

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Eutrophic conditions, in both saline and freshwater systems, result from nutrient export from upstream watersheds. The objective of this study was to quantify the surface runoff losses of nitrate-nitrogen (NO₃-N), total nitrogen (TN), dissolved reactive phosphorus (DRP), and total phosphorus (TP) resulting from prevailing practices on a managed golf course. Inflow and outflow discharge waters on a sub-area of Northland Country Club (NCC) located in Duluth, Minnesota were measured for both quantity and quality from April through November from 2003 to 2008. Nutrient losses were detectable throughout the year, had a seasonal trend, and routinely exceeded recommended levels to minimize eutrophication. The median outflow TN concentration (1.04 mg L⁻¹) was significantly greater (p < 0.05) than the median inflow (0.81 mg L⁻¹) concentration. Similarly, the median outflow TP concentration (0.03 mg L⁻¹) was significantly greater (p < 0.05) than the median inflow concentration (0.02 mg L⁻¹). Maximum recorded concentrations during the study period were 1.9 mg L⁻¹ NO₃-N, 3.93 mg L⁻¹ TN, 0.34 mg L⁻¹ DRP, and 1.11 mg L⁻¹ TP. Mean annual export coefficients at NCC were 0.7 kg ha⁻¹ NO₃-N (1.7% of applied), 4.43 kg ha⁻¹ TN (10.7% of applied), 0.14 kg ha⁻¹ DRP (2.6% of applied), and 0.25 kg ha⁻¹ TP (4.6% of applied). The findings of this study highlight the need for adopting conservation practices aimed at reducing offsite nutrient transport.

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“…The values are ranges (soil) or means ± SE (seeds). Langdale et al 1979) although the ratio of NHt-NO, could be extremely variable (Sharpley et al 1983). Percentage of germination for the seeds incubated with various concentrations of nitrate (as potassium nitrate) and ammonium (as ammonium chloride), roughly corresponding to their natural range of variation in the soil, are shown in Tab.…”

Section: Imbibition Tim€ In Dark (Days)mentioning

confidence: 99%

Effect of light and its interaction with nitrate and ammonium ions in seed germination of Caesulia axillaris

Singh

Amritphale

1992

Physiologia Plantarum

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Effect of light and its interaction with nitrate and ammonium ions in seed germination of CaesuUa axillaris. -Physiol. Plant. 85: 43-^8.Seeds of Caesulia axillaris Roxb. displayed an absolute light requirement for germination throughout the period of dry storage at 28°C. Tbe seeds were found to show a gradual increase in percent germination with storage time -reaching a maximum value between 8-14 months and then a sharp decline. Percent water uptake and photosensitivity were at maximum after a 5-day imbibition period in the dark io both seedlots studied. Seedlot I, which was only marginally responsive to far-red light, showed a nearly complete red-far-red reversal effect in contrast to seedlot II. The latter also displayed a considerable promotion of germination in far-red light. Interestingly, a noticeable degree of heterogeneity, besides the one observed in both seedlots with reference to red light, was found to exist in seedlot II for far-red light. Exogenous application of nitrate and ammonium, at the levels occurring in soil during seed germination/seedling emergence phase of the plant in nature, promoted a considerable proportion of high 0-requiring seeds to germinate under irradiation conditions establishing low ^-value. The probable ecological implication of this reponse has been discussed. Little correlation was found between the requirement for an exogenous supply of nitrate and the endogenous nitrate level in tbe seeds in their response to far-red light.

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Nitrogen and Chloride Movement in Small Upland Piedmont Watersheds: II. Nitrogen and Chloride Transport in Runoff

Cited by 15 publications

References 0 publications

Surface and Subsurface Transport of Nitrate Loss from the Selected Bioenergy Crop Fields: Systematic Review, Analysis and Future Directions

Surface and Subsurface Transport of Nitrate Loss from the Selected Bioenergy Crop Fields: Systematic Review, Analysis and Future Directions

Stream water nutrient enrichment in a mixed-use watershed

Effect of light and its interaction with nitrate and ammonium ions in seed germination of Caesulia axillaris

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