Journal
AGRONOMY-BASEL
Volume 11, Issue 9, Pages -Publisher
MDPI
DOI: 10.3390/agronomy11091745
Keywords
organic waste; manure; nematode community; 16S; bacterial community
Categories
Funding
- U.S. Department of Agriculture's (USDA) Agricultural Marketing Service [17-SCBGP-CA-0041]
- California Safe Soils
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The study aimed to characterize the effects of dairy manure compost and food waste compost on soil nitrogen and carbon pools, bacterial and nematode soil food webs, and tree growth. The results showed that both composts increased soil organic matter pools, nitrate, and ammonium levels, as well as altered bacterial communities and increased populations of bacterial feeding nematodes. Food waste compost also promoted tree growth, mainly in the first year after application.
Composting is an effective strategy to process agricultural and urban waste into forms that may be beneficial to crops. The objectives of this orchard field study were to characterize how a dairy manure compost and a food waste compost influenced: (1) soil nitrogen and carbon pools, (2) bacterial and nematode soil food webs and (3) tree growth and leaf N. The effects of composts were compared with fertilized and unfertilized control plots over two years in a newly planted almond orchard. Both dairy manure compost and food waste compost increased soil organic matter pools, as well as soil nitrate and ammonium at certain time points. Both composts also distinctly altered bacterial communities after application, specifically those groups with carbon degrading potential, and increased populations of bacterial feeding nematodes, although in different timeframes. Unique correlations were observed between nematode and bacterial groups within compost treatments that were not present in controls. Food waste compost increased trunk diameters compared to controls and had greater relative abundance of herbivorous root tip feeding nematodes. Results suggest that recycled waste composts contribute to biologically based nitrogen cycling and can increase tree growth, mainly within the first year after application.
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