AbstractsBiology & Animal Science


by Anthony Adesemoye

Institution: Auburn University
Year: 2009
Keywords: Entomology and Plant Pathology
Record ID: 1839920
Full text PDF: http://hdl.handle.net/10415/1593


The basis for the application of fertilizers (manure and chemical) is to make up for soil nutrient deficiencies and maintain soil fertility towards improved crop yield. Fertilizers could exacerbate environmental problems such as pollution of groundwater, leaching, nutrient runoff, soil salinization, greenhouse effect, global warming, etc which are major concerns. Alternatives that will halt this trend and which will have applications in different parts of the world are needed. Plant growth-promoting rhizobacteria (PGPR) and arbuscular mycorrhiza fungi (AMF) are important biofertilizers that could be used in an environmentally benign manner to improve plant nutrient use efficiency. My first objective was to determine if PGPR or PGPR plus AMF will enhance N, P, and K uptake in plants with: (i) inorganic fertilizer application and (ii) organic fertilizer (chicken litter) application. A three-year field study was conducted with field corn from 2005 to 2007 in Sand Mountain, Alabama. Microbial inoculants, which included a formulated PGPR product, AMF, and their combination, were evaluated across two tillage systems (no-till and conventional till) and two fertilization regimes (poultry litter and ammonium nitrate). Data were collected on plant height, yield (dry weight of ears and silage), and nutrient content of corn grain and silage. In addition, nutrient content of soil was determined, and bioavailability of soil nutrient was measured with plant root simulator (PRSTM) probes. Results showed that inoculants promoted plant growth and yield. For example, grain yield (kg ha-1) in 2007 for inoculants were 7,717 for AMF, 7,260 for PGPR+AMF, 7,313 for PGPR, 5,725 for Control, and for fertilizer were 7,470 for Poultry litter and 6,537 for NH4NO3. Nitrogen content per gram of grain tissues was significantly enhanced in 2006 by inoculant, fertilizer, and their interactions. Significantly higher amounts of N, P, K were removed from the plots with inoculants, based on total nutrient content of grain per plot. The second objective was to determine (i) if reduced rates of inorganic fertilizer coupled with microbial inoculants (PGPR or PGPR plus AMF) will produce plant growth, yield, and nutrient uptake equivalent to that obtained with full rates of the fertilizer and (ii) to what minimum level the fertilizer could be safely reduced. The microbial inoculants used in this greenhouse study were a mixture of PGPR strains Bacillus amyloliquefaciens IN937a and Bacillus pumilus T4, a formulated PGPR product, and the AMF, Glomus intraradices. Results showed that supplementing 75% of the recommended fertilizer rate with inoculants produced plant growth, yield, and nutrient (N and P) uptake that were statistically equivalent to full fertilizer rate without inoculants. When inoculants were used with lower rates of fertilizer, the beneficial effects were not noted; however, inoculation with the mixture of PGPR and AMF at 70% fertility consistently produced the same yield as the full fertility rate without inoculants. My third objective was…