Nutrient limitation of seedling growth on contrasting soils from Pasoh Forest Reserve Peninsular Malaysia


Citation

Wan Juliana W. A., . and Burslem D. F. R. P., . and Swaine M. D., . Nutrient limitation of seedling growth on contrasting soils from Pasoh Forest Reserve Peninsular Malaysia. pp. 316-327. ISSN 0128-1283

Abstract

A pot bioassay experiment was established to test the hypotheses that different soil types represented on a 50 ha plot in Pasoh Forest Reserve supply different amounts of nutrients for plant growth and that phosphorus (P) is the main limiting nutrient. Seedlings of the tree Lagerstroemia floribunda were grown for 54 days in pots of alluvial shale or laterised-shale soil. The experiment comprised six nutrient addition treatments and an unmanipulated control with five replicates for each treatment. The growth of seedlings of L. floribunda was limited by the availability of P but not by the other nutrients (N K Ca or Mg) added singly in the experiment. Relative growth rates were highest on alluvial and shale-derived soils which had higher available P concentrations than the laterised shale-derived soils in the absence of nutrient addition. Shifts in biomass allocation and changes to specific leaf area were the mechanisms responsible for the increase in plant growth in response to nutrient addition.


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Abstract

A pot bioassay experiment was established to test the hypotheses that different soil types represented on a 50 ha plot in Pasoh Forest Reserve supply different amounts of nutrients for plant growth and that phosphorus (P) is the main limiting nutrient. Seedlings of the tree Lagerstroemia floribunda were grown for 54 days in pots of alluvial shale or laterised-shale soil. The experiment comprised six nutrient addition treatments and an unmanipulated control with five replicates for each treatment. The growth of seedlings of L. floribunda was limited by the availability of P but not by the other nutrients (N K Ca or Mg) added singly in the experiment. Relative growth rates were highest on alluvial and shale-derived soils which had higher available P concentrations than the laterised shale-derived soils in the absence of nutrient addition. Shifts in biomass allocation and changes to specific leaf area were the mechanisms responsible for the increase in plant growth in response to nutrient addition.

Additional Metadata

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Item Type: Article
AGROVOC Term: Nutrients
AGROVOC Term: Seedlings
AGROVOC Term: Bioassays
AGROVOC Term: Soil types
AGROVOC Term: Forest reserves
AGROVOC Term: Phosphorus
AGROVOC Term: Lagerstroemia
AGROVOC Term: Growth rate
AGROVOC Term: Hydrogen peroxide
AGROVOC Term: Bioassays
Geographical Term: Malaysia
Depositing User: Ms. Suzila Mohamad Kasim
Last Modified: 26 Apr 2025 15:32
URI: http://webagris.upm.edu.my/id/eprint/21691

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