Effects of short-term and prolonged saturation on seed germination of Amazonian floodplain forest species

Effects of short-term and prolonged saturation on seed germination of Amazonian floodplain forest species

► We tested the effects of saturation on ten flood-tolerant species from Amazon flooded forests. ► Zero of ten flood-tolerant species required prolonged submergence for germination. ► Light-demanding species had dry-tolerant seeds. ► Shade-tolerant species had recalcitrant seeds that required satura...

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Bibliographic Details
Published in:Aquatic botany Vol. 99; no. 1; pp. 49 - 55
Main Authors: Lucas, Christine M., Mekdeçe, Fatima, Nascimento, Cristiane M.N., Holanda, Ana-Sofia S., Braga, Jacqueline, Dias, Suelen, Sousa, Suelen, Rosa, Pamella S., Suemitsu, Chieno
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-05-2012
Elsevier
Subjects:
air drying
Animal and plant ecology
Animal, plant and microbial ecology
Autoecology
Biological and medical sciences
Cecropia
Cordia
Flooding
floodplains
Forestry
forests
Fundamental and applied biological sciences. Psychology
General forest ecology
Generalities. Production, biomass. Quality of wood and forest products. General forest ecology
Germination
Hydrochory
Hypoxia
Plants and fungi
Santarém
seed germination
seeds
shade
shade tolerance
submergence
Vitex
Várzea
woody plants
South America
America
Amazon Basin
Hypoxia
Santarém
Hydrochory
Flooding
Germination
Várzea
Short term
Flood plain
Seeds
Flood
Tropical rain forest
Aquatic plant
Santarem
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Summary:► We tested the effects of saturation on ten flood-tolerant species from Amazon flooded forests. ► Zero of ten flood-tolerant species required prolonged submergence for germination. ► Light-demanding species had dry-tolerant seeds. ► Shade-tolerant species had recalcitrant seeds that required saturation to germinate. ► One of four species showed increased germination with increased time underwater. Many tropical floodplain species show enhanced germination after submergence in annual flood waters. In this study, we tested seed germination response to time in water (ranging 2–84d) among Amazonian floodplain species. To test seed response to short-term saturation, seeds from ten flood-tolerant woody species were air-dried or placed in water (i.e., saturated) for 45h before germination. Germination rates varied across species, achieving 50% germination in 12–58d among saturated seeds and 2–84d among air-dry seeds. Short-term saturation enhanced germination of the five shade-tolerant species by 14–100%. Three light-demanding species (Pseudobombax, Cordia, and Vitex) increased germination by 3–48% following air-drying. Cecropia and Laetia had poor germination in germination chambers (<20%), but Cecropia doubled germination rates in sunlit shade houses. Long-term saturation (removing seeds at 2-week intervals over 12 weeks) of four species showed that prolonged submergence enhanced germination only among Crataeva. The wind-dispersed Pseudobombax was intolerant of submergence >14d, while water-and fish-dispersed Crataeva seeds increased germination rates with submergence time, peaking at 6 weeks and maintaining >80% germination for up to 12 weeks. None of the ten flood-tolerant species required prolonged submergence for germination. Short-term saturation was sufficient to stimulate germination for most species, while prolonged submergence enhanced germination for one species, Crataeva. While species differed in seed physiology and seed size, they grouped into successional guilds of light-demanding species with dry-tolerant seeds and shade-tolerant species with recalcitrant seeds.
Bibliography:http://dx.doi.org/10.1016/j.aquabot.2012.02.004
ISSN:0304-3770
1879-1522
DOI:10.1016/j.aquabot.2012.02.004