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Effect of Coal Combustion By-products on Phosphorus Runoff from a Coastal Plain Soil

Johnson, Keisha N. ; Allen, Arthur L. ; Kleinman, Peter J. A. ; [et al.]

Informa UK Limited ; 2011

In: Communications in Soil Science and Plant Analysis Vol. 42, No. 7 ( 2011-03-18), p. 778-789

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In: Communications in Soil Science and Plant Analysis, Informa UK Limited, Vol. 42, No. 7 ( 2011-03-18), p. 778-789

Type of Medium: Online Resource

ISSN: 0010-3624 , 1532-2416

URL: Article

DOI: 10.1080/00103624.2011.552660

Language: English

Publisher: Informa UK Limited

Publication Date: 2011

detail.hit.zdb_id: 2053897-2

SSG: 12

SSG: 13

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Impact of Dredging on Phosphorus Transport in Agricultural Drainage Ditches of the Atlantic Coastal Plain 1

Shigaki, Francirose ; Kleinman, Peter J. A. ; Schmidt, John P. ; [et al.]

Wiley ; 2008

In: JAWRA Journal of the American Water Resources Association Vol. 44, No. 6 ( 2008-12), p. 1500-1511

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In: JAWRA Journal of the American Water Resources Association, Wiley, Vol. 44, No. 6 ( 2008-12), p. 1500-1511

Abstract: Abstract: Drainage ditches can be a key conduit of phosphorus (P) between agricultural soils of the Atlantic Coastal Plain and local surface waters, including the Chesapeake Bay. This study sought to quantify the effect of a common ditch management practice, sediment dredging, on fate of P in drainage ditches. Sediments from two drainage ditches that had been monitored for seven years and had similar characteristics (flow, P loadings, sediment properties) were sampled (0‐5 cm) after one of the ditches had been dredged, which removed fine textured sediments (clay = 41%) with high organic matter content (85 g/kg) and exposed coarse textured sediments (clay = 15%) with low organic matter content (2.2 g/kg). Sediments were subjected to a three‐phase experiment (equilibrium, uptake, and release) in recirculating 10‐m‐long, 0.2‐m‐wide, and 5‐cm‐deep flumes to evaluate their role as sources and sinks of P. Under conditions of low initial P concentrations in flume water, sediments from the dredged ditch released 13 times less P to the water than did sediments from the ditch that had not been dredged, equivalent to 24 mg dissolved P. However, the sediments from the dredged ditch removed 19% less P (76 mg) from the flume water when it was spiked with dissolved P to approximate long‐term runoff concentrations. Irradiation of sediments to destroy microorganisms revealed that biological processes accounted for up to 30% of P uptake in the coarse textured sediments of the dredged ditch and 18% in the fine textured sediments of the undredged ditch. Results indicate that dredging of coastal plain drainage ditches can potentially impact the P buffering capacity of ditches draining agricultural soils with a high potential for P runoff.

Type of Medium: Online Resource

ISSN: 1093-474X , 1752-1688

URL: Issue

URL: Article

DOI: 10.1111/jawr.2008.44.issue-6

DOI: 10.1111/j.1752-1688.2008.00254.x

Language: English

Publisher: Wiley

Publication Date: 2008

detail.hit.zdb_id: 2090051-X

SSG: 14

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Nitrogen Fate in Drainage Ditches of the Coastal Plain after Dredging

Shigaki, Francirose ; Schmidt, John P. ; Kleinman, Peter J. A. ; [et al.]

Wiley ; 2009

In: Journal of Environmental Quality Vol. 38, No. 6 ( 2009-11), p. 2449-2457

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In: Journal of Environmental Quality, Wiley, Vol. 38, No. 6 ( 2009-11), p. 2449-2457

Abstract: Drainage ditches are a key conduit of nitrogen (N) from agricultural fields to surface water. The effect of ditch dredging, a common practice to improve drainage, on the fate of N in ditch effluent is not well understood. This study evaluated the effect of dredging on N transport in drainage ditches of the Delmarva Peninsula. Sediments from two ditches draining a single field were collected (0–5 cm) to represent conditions before and after dredging. Sediments were packed in 10‐m‐long recirculating flumes and subjected to a three‐phase experiment to assess the sediment's role as a sink or source of ammonium (NH 4 ) and nitrate (NO 3 ). Under conditions of low initial NH 4 –N and NO 3 –N concentrations in flume water, sediment from the undredged ditch released 113 times more NO 3 –N to water than did sediment from the dredged ditch. When flume water was spiked with NH 4 –N and NO 3 –N to simulate increases in N concentrations from drainage and runoff from adjacent fields, NO 3 –N in flume water increased during 48 h compared with the initial spiked concentration, while NH 4 –N decreased. These simultaneous changes were attributed to nitrification, with 23% more NO 3 –N observed in flume water with undredged ditch sediment compared with dredged ditch sediment. Replacing the N‐spiked water with deionized water resulted in two times more NO 3 –N released from the undredged ditch sediment than the dredged ditch sediment. These results suggest that ditch sediments could represent significant stores of N and that dredging could greatly affect the ditch sediment's ability to temporarily assimilate N input from field drainage.

Type of Medium: Online Resource

ISSN: 0047-2425 , 1537-2537

URL: Article

DOI: 10.2134/jeq2008.0268

Language: English

Publisher: Wiley

Publication Date: 2009

detail.hit.zdb_id: 120525-0

detail.hit.zdb_id: 2050469-X

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Evaluating the Success of Phosphorus Management from Field to Watershed

Sharpley, Andrew N. ; Kleinman, Peter J.A. ; Jordan, Philip ; [et al.]

Wiley ; 2009

In: Journal of Environmental Quality Vol. 38, No. 5 ( 2009-09), p. 1981-1988

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In: Journal of Environmental Quality, Wiley, Vol. 38, No. 5 ( 2009-09), p. 1981-1988

Abstract: Studies have demonstrated some P loss reduction following implementation of remedial strategies at field scales. However, there has been little coordinated evaluation of best management practices (BMPs) on a watershed scale to show where, when, and which work most effectively. Thus, it is still difficult to answer with a degree of certainty, critical questions such as, how long before we see a response and where would we expect to observe the greatest or least response? In cases where field and watershed scales are monitored, it is not uncommon for trends in P loss to be disconnected. We review case studies demonstrating that potential causes of the disconnect varies, from competing sources of P at watershed scales that are not reflected in field monitoring to an abundance of sinks at watershed scales that buffer field sources. To be successful, P‐based mitigation strategies need to occur iteratively, involve stakeholder driven programs, and address the inherent complexity of all P sources within watersheds.

Type of Medium: Online Resource

ISSN: 0047-2425 , 1537-2537

URL: Article

DOI: 10.2134/jeq2008.0056

Language: English

Publisher: Wiley

Publication Date: 2009

detail.hit.zdb_id: 120525-0

detail.hit.zdb_id: 2050469-X

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