Scholarly
    Communications Project


Document Type:Dissertation
Name:Regine Ndole Mankolo
Email address:rmankolo@vt.edu
URN:1997/00480
Title:EFFECT OF POULTRY LITTER-YARD WASTE COMPOST APPLICATION ON PHOSPHORUS AVAILABILITY IN DIVERSE SOILS
Degree:Doctor of Philosophy
Department:Crop and Soil Environmental Sciences
Committee Chair: David C. Martens
Chair's email:martensd@vt.edu
Committee Members:James R. McKenna, Co-chair
James C. Baker
Julian D. Brake
Ronald D. Morse
Keywords:waste, compost, phosphorus adsorption, mineralization
Date of defense:October 8, 1997
Availability:Release the entire work for Virginia Tech access only.
After one year release worldwide only with written permission of the student and the advisory committee chair.

Abstract:

EFFECT OF POULTRY LITTER-YARD WASTE COMPOST APPLICATION ON PHOSPHORUS AVAILABILITY IN DIVERSE SOILS
by
Regine N. Mankolo

Dr. David C. Martens, Co-chair
Dr. James R. McKenna, Co-chair
(ABSTRACT)

Land application of poultry litter has been successfully practiced for centuries to maintain and improve soil fertility, although over application may promote loss of nutrients through runoff or leaching. To decrease the potential for adverse environmental impacts of N and P in groundwater, a new approach developed in this research was to use a composted mixture of poultry litter (PL) and yard waste (YW) as a soil amendment for corn (Zea mays L.) production. Objectives of this research were to evaluate effects of pre-compost C:N substrate ratios for poultry litter-yard waste compost (PYC) on the availability of soil P, to determine the P response of corn plants to inorganic P, PL and PYC application, and to study relationships between P availability and both inorganic P and PYC application. Langmuir isotherms were used in this research to select soils with relatively high P fixation capacities. Phosphorus sorption maximum for soils evaluated were as follows: 304 and 449 micrograms of P per gram for A horizon Coastal Plain soils (Series: Kempsville and Myatt, respectively); 487 micrograms of P per gram for an A horizon Ridge and Valley soil (Series: Frederick); 918 and 603 micrograms of P per gram for A horizon Piedmont soils (Series: Elioak and Vance, respectively); 1099 microgram of P per gram for mine tailings (Series: Emporia located in the Coastal Plain); and 1524 microgram of P per gram for A and upper mixed horizon soil (Series: Starr from Piedmont region). Based on intermediate to high P sorption maxima, soil from the Vance and Starr series and mine tailing from Emporia series were selected for greenhouse research to evaluate P availability of PYC . Treatments applied to the soil in the greenhouse and field studies consisted of various levels of P as Ca(H2PO4)2.H2O, PL and PYC from 15:1, 20:1, and 25:1 C:N ratio substrates. Each P source increased dry weight of corn plants grown in the greenhouse by alleviation of P deficiency. Phosphorus uptake from PYC and PL application was either equal to or higher than P uptake from an equal level of P application as Ca(H2PO4)2.H2O. Application of 87.2 kg of P per ha increased corn grain yields in a field experiment on Vance sandy loam from 6340 kg per ha on the control to a range of 10,170 to 11,350 kg ha for PYC digested from the three C:N ratio substrates. The yields on PYC treatments were attributed to a combination of factors including slow mineralization of P with less fixation during the growing season. The low P fixing capacity results from the blockage of H2PO4- sorption by competition of negative charge from organic material and from the displacement of H2PO4- in soil solution by OH- from application of the alkaline composts. It would be desirable from the standpoint of more PL utilization to prepare composts from low substrate ratio substrates. Hence, in this research composts were prepared from 15:1, 20:1, and 25:1 C:N substrates, which consisted of PL and YW. The composting process was complete after only four months for the PYC from the 20:1 and 25:1 C:N ratio substrates. Yard waste compost without PL may require somewhere between two to three years for complete composting as opposed to four months with PL addition. The composting was incomplete in four months (presence of undigested leaves and NH3) for the PYC from the 15:1 C:N ratio substrate. The latter compost resembled poultry manure rather than a high quality compost after the 4-month composting period.

List of Attached Files

appa.pdf ch1.pdf ch2.pdf
ch3.pdf ch4.pdf ch5.pdf
ch6.pdf ch7.pdf etd.pdf
vita.pdf

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