Title page for ETD etd-6198-115334


Type of Document Master's Thesis
Author Einsmann, Juliet Caroline Jr.
Author's Email Address jeinsman@vt.edu
URN etd-6198-115334
Title Nutrient Foraging in Ten Southeast Coastal Plain Plant Species
Degree Master of Science
Department Biology
Advisory Committee
Advisor Name Title
Mitchell, Robert J.
Mou, Paul P.
Nilsen, Erik T.
Jones, Robert H. Committee Chair
Keywords
  • morphological plasticity
  • nutrient heterogeneity
  • root distribution
  • South Carolina
Date of Defense 1998-06-18
Availability unrestricted
Abstract
Plant root system response to nutrient heterogeneity was tested in ten plant species of varying life form and successional status. All plants tested are native to the South Carolina coastal plain. Morphological responses of the root system (scale, precision and discrimination) and overall plant response (sensitivity) to increasing nutrient heterogeneity were tested. Ten individuals of each species were placed into four treatments which had varying nutrient distribution but the same overall nutrient addition. Plants were harvested when roots reached pot edge. I observed high variation in scale (mass and extent of a root system), precision (the ability to proliferate roots in nutrient patches) and sensitivity (growth benefits gained as nutrient heterogeneity increases; measured as total biomass). No significant discrimination responses were observed, although greatest mean root density occurred at intermediate fertility levels for all species. I tested the hypothesis that scale and precision would be negatively correlated, and I did not observe this relationship in these plant species. However, in herbaceous species scale and precision were positively correlated. Sensitivity was not closely related to precision indicating that proliferating roots in fertile patches does not always yield growth benefits in heterogeneous soils. Further, some sensitive species had very low precision suggesting that other characteristics lead to positive growth response in heterogeneous environments. Plasticity of root uptake rates and demography of roots are proposed as two other mechanisms which may play important roles in plant sensitivity responses. Scale was negatively correlated to sensitivity for herbaceous plants suggesting that plants that monopolize the most soil space are not able to gain benefits from nutrient patches within the soil matrix. There was no trend observed to suggest that plant life form was correlated with precision or sensitivity. However, scale was greater in herbs than in woody plants, possibly because the two life forms develop at different times.
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