Importance of Physiological Integration of Dwarf Bamboo to Persistence in Forest Understorey: A Field Experiment

Importance of Physiological Integration of Dwarf Bamboo to Persistence in Forest Understorey: A Field Experiment

1 Sasa spp., dwarf bamboo which dominate the undergrowth of temperate forests in Japan occur as clonal fragments in which ramets in light gaps to are connected to those in shaded understoreys by long rhizomes. We test whether persistence under shaded conditions is supported by translocation of assim...

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Veröffentlicht in:The Journal of ecology 2002-02, Vol.90 (1), p.78-85
Hauptverfasser: Saitoh, Tomoyuki, Seiwa, Kenji, Nishiwaki, Aya
Format: Artikel
Sprache:eng
Schlagworte:
Animal and plant ecology
Animal, plant and microbial ecology
Autoecology
Bamboos
Biological and medical sciences
clonal plants
Deciduous forests
Density
Ecology
Ecosystems
Flowers & plants
Forest ecology
Forests
Fundamental and applied biological sciences. Psychology
gap
Human ecology
Leaves
Light
Plant ecology
Plants and fungi
rhizome connection
Rhizomes
Sasa palmata
Stems
Trees
Understory
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creator Saitoh, Tomoyuki
Seiwa, Kenji
Nishiwaki, Aya
description 1 Sasa spp., dwarf bamboo which dominate the undergrowth of temperate forests in Japan occur as clonal fragments in which ramets in light gaps to are connected to those in shaded understoreys by long rhizomes. We test whether persistence under shaded conditions is supported by translocation of assimilates from illuminated ramets. A dense population of Sasa palmata growing at an open site, was exposed to two light conditions (homogeneous: open-open and heterogeneous: open-shaded) and two rhizome connection treatments (intact and severed) in a full factorial design. 2 Ramet mass, and the mass of many parts of the clonal fragments, was much lower in the shade than in the open, but this effect was less marked when the rhizome connection was intact than when it was severed. Clone parts in shade may therefore be supported by translocation from connected clone parts in the open, with such physiological integration enhancing persistence where light supply is heterogeneous as in the gap-understorey continuum. 3 Above-ground biomass was reduced sooner than that below ground. Clonal fragments of S. palmata recover via dormant buds on rhizomes, whose longer persistence would therefore enhance performance of the clonal fragment. 4 Specific leaf area (SLA) was greater in shade than in the open, irrespective of rhizome connection, suggesting that individual leaves show morphological plasticity independently of only physiological integration.
doi_str_mv 10.1046/j.0022-0477.2001.00631.x
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source Wiley Online Library Journals Frontfile Complete; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; JSTOR Archive Collection A-Z Listing; Wiley Free Content
subjects Animal and plant ecology
Animal, plant and microbial ecology
Autoecology
Bamboos
Biological and medical sciences
clonal plants
Deciduous forests
Density
Ecology
Ecosystems
Flowers & plants
Forest ecology
Forests
Fundamental and applied biological sciences. Psychology
gap
Human ecology
Leaves
Light
Plant ecology
Plants and fungi
rhizome connection
Rhizomes
Sasa palmata
Stems
Trees
Understory
title Importance of Physiological Integration of Dwarf Bamboo to Persistence in Forest Understorey: A Field Experiment
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