Biomass allocation and leaf life span in relation to light interception by tropical forest plants during the first years of secondary succession
Autor: | Roelof J. Oomen, N. Galia Selaya, Marinus J. A. Werger, Niels P. R. Anten, Jordie J. C. Netten |
---|---|
Přispěvatelé: | Plant Ecology, Dep Biologie, CERES |
Jazyk: | angličtina |
Rok vydání: | 2008 |
Předmět: |
Canopy
Aquatic Ecology and Water Quality Management growth Plant Science Biology size Biologie/Milieukunde (BIOL) Botany Leaf area index Plant biology (Botany) Shade tolerance Ecology Evolution Behavior and Systematics photosynthetic capacity shade-tolerance Forest floor canopy Biomass (ecology) Pioneer species WIMEK Ecology trees Aquatische Ecologie en Waterkwaliteitsbeheer PE&RC Life sciences saplings Agronomy Liana community Interception competition lianas |
Zdroj: | Journal of Ecology, 96(6), 1211-1221 Journal of Ecology 96 (2008) 6 |
ISSN: | 0022-0477 |
Popis: | Summary 1. We related above-ground biomass allocation to light interception by trees and lianas growing in three tropical rain forest stands that were 0.5, 2 and 3-year-old regeneration stages after slash and burn agriculture. 2. Stem height and diameter, leaf angle, the vertical distribution of total above-ground biomass and leaf longevity were measured in individuals of three short-lived pioneers (SLP), four later successional species (LS) and three lianas (L). Daily light capture per individual ( Φ d ) was calculated with a canopy model. Mean daily light interception per unit leaf area ( Φ area ), leaf mass ( Φ leaf mass ) and above-ground mass ( Φ mass ) were used as measures of instantaneous efficiency of biomass use for light capture. 3. With increasing stand age, vegetation height and leaf area index increased while light at the forest floor declined from 34 to 5%. The SLP, Trema micanthra and Ochroma pyramidale , dominated the canopy early in succession and became three times taller than the other species. SLP had lower leaf mass fractions and leaf area ratios than the other groups and this difference increased with stand age. 4. Over time, the SLP intercepted increasingly more light per unit leaf mass than the other species. Lianas, which in the earliest stage were self-supporting and started climbing later on, gradually became taller at a given mass and diameter than the trees. Yet, they were not more efficient than trees in light interception. 5. SLP had at least three-fold shorter leaf life spans than LS and lianas. Consequently, total light interception calculated over the mean life span of leaves ( Φ leaf mass total = Φ area × SLA death leaves × leaf longevity) was considerably lower for the SLP than for the other groups. 6. Synthesis . We suggest that early dominance in secondary forest is associated with a high rate of leaf turnover which in turn causes inefficient long-term use of biomass for light capture, whereas persistence in the shade is associated with long leaf life spans. This analysis shows how inherent tradeoffs in crown and leaf traits drive long-term competition for light, and it presents a conceptual tool to explain why early dominants are not also the long-term dominants. |
Databáze: | OpenAIRE |
Externí odkaz: |