Landscape Performance of Annual Bedding Plants Grown in Pine Tree Substrate

The objective of this study was to evaluate the landscape performance of annual bedding plants grown in a ground pine tree substrate (PTS) produced from loblolly pine trees (Pinus taeda) or in ground pine bark (PB) when transplanted into the landscape and grown at three different fertilizer rates. Begonia (Begonia xsemperflorens-cultorum) 'Cocktail Vodka', coleus (Solenostemen scutellarioides) 'Kingswood Torch', impatiens (Impatiens walleriana) 'Dazzler White', marigold (Tagetes erecta) 'Bonanza Yellow', petunia (Petunia xhybrid) 'Wave Purple', salvia (Salvia splendens) 'Red Hot Sally', and vinca (Catharanthus roseus) 'Cooler Pink' were evaluated in 2005, and begonia 'Cocktail Whiskey', marigold 'Inca Gold', salvia 'Red Hot Sally', and vinca 'Cooler Pink' were evaluated in 2006 and 2007. Landscape fertilizer rates were 1 lb/1000 ft2 nitrogen (N) in 2005 and 0, 1, and 2 lb/1000 ft2 N in 2006 and 2007. Visual observations throughout each year indicated that all species, whether grown in PTS or PB, had comparable foliage quality in the landscape trial beds during the growing period. With few exceptions, dry weight and plant size for all species increased with increasing fertilizer additions, regardless of the substrate in which the plants were grown. For the unfertilized treatment, when comparing plant dry weight between PB and PTS for each species and for each year (eight comparisons), PTS-grown plant dry weight was less than PB-grown plants in three out of the eight comparisons. However, there were fewer differences in plant dry weight between PTS- and PB-grown plants when fertilizer was applied (PTS-grown plants were smaller than PB-grown plants in only 2 of the 16 comparisons: four species, two fertilizer rates, and 2 years), indicating that N immobilization may be somewhat of an issue, but not to the extent expected. Therefore, the utilization of PTS as a substrate for the production of landscape annuals may be acceptable in the context of landscape performance.