Title page for ETD etd-11152011-125714


Type of Document Dissertation
Author Taylor, Linda Lea
Author's Email Address lltaylor@vt.edu
URN etd-11152011-125714
Title Storage of Pine Tree Substrate Influences Plant Growth, Nitrification, and Substrate Properties
Degree PhD
Department Horticulture
Advisory Committee
Advisor Name Title
Niemiera, Alexander X. Committee Chair
Evanylo, Gregory K. Committee Member
Harris, James Roger Committee Member
Thomason, Wade E. Committee Member
Wright, Robert D. Committee Member
Keywords
  • bound acidity
  • electrical conductivity
  • carbon to nitrogen ratio
  • bulk density
  • loblolly pine
  • Pinus taeda L.
  • particle size distribution
  • Tagetes erecta L 'Inca Gold'
  • marigold
  • pH
  • cation exchange capacity
  • ammonium
  • nitrate
  • Most Probable Number
Date of Defense 2011-10-28
Availability restricted
Abstract
Pine tree substrate (PTS) is a relatively new substrate for container crop production. There are no detailed studies that elucidate how storage time impacts PTS chemical, physical, and biological aspects. The objective of this research was to determine how PTS storage time influenced PTS chemical and physical properties, nitrification, and plant growth. Pine tree substrate was manufactured by hammer-milling chips of loblolly pine trees (Pinus taeda L.) through two screen sizes, 4.76 mm (PTS) and 15.9 mm amended with peat (PTSP). PTS and PTSP were amended with lime at five rates. A peat-perlite mix (PL) served as a control treatment. Prepared substrates were placed in storage bags and stored in an open shed in Blacksburg, Virginia. Subsamples were taken at 1, 42, 84, 168, 270, and 365 days. At each subsampling day, twelve 1-L containers were filled with each substrate. Six containers were left fallow and six were planted with marigold (Tagetes erecta L. ‘Inca Gold’) seedlings. Substrate was also collected from select treatments for Most Probable Number assays to estimate density of nitrifying microorganisms, and for chemical and physical property analyses. Pour-through extracts were collected from fallow containers at 0, 2, and 4 weeks, and from marigold containers at harvest for determination of pH, electrical conductivity, ammonium-N and nitrate-N. At harvest, marigold height, width, and dry weight were measured. At least 1 kg•m-3 lime for PTS, and 2 to 4 kg•m-3 lime for PTSP were needed to maintain pH values ≥ 5.5 for 365 days. Bound acidity of unlimed PTS increased but cation exchange capacity for unlimed PTS and PTSP decreased over 365 days. Carbon to nitrogen ratio and bulk density values were unchanged over time in all treatments. There were minor changes in particle size distribution for limed PTS and unlimed and limed PTSP. Marigold growth in PTS and PTSP was ≥ PL in all limed treatments, except at day 1. Nitrite-oxidizing microorganisms were present and nitrification occurred in PTS and PTSP at all subsampling days. Pine tree substrate is relatively stable in storage, but pH decreases, and lime addition may be necessary to offset this decrease.

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