Artigo

Submergence, seed germination, and seedling development of the Amazonian floodplain tree Pseudobombax munguba: evidence for root oxytropism

Key message: Primary root of seeds germinating while submerged grew upwards towards oxygen-rich surface layers. Height of water column influenced germination and root growth. Seedlings removed from water attached to substrate and grow vertically. Abstract: Oxygen and light are potentially limiting r...

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Autor principal: Ferreira, Cristiane Silva
Outros Autores: Piedade, Maria Teresa Fernandez, Franco, Augusto C.
Grau: Artigo
Idioma: English
Publicado em: Trees - Structure and Function 2020
Assuntos:
Banks (bodies Of Water)
Cultivation
Floods
Forestry
Oxygen
Plants (botany)
Surface Waters
Water Aeration
Amazonian Flooded Forest
Floodplain Forest
Gravitropisms
Oxygen Concentrations
Seedling Development
Seedling Establishment
Tree Characteristics
Tropism
Seed
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/17129
id oai:repositorio:1-17129
recordtype dspace
spelling oai:repositorio:1-17129 Submergence, seed germination, and seedling development of the Amazonian floodplain tree Pseudobombax munguba: evidence for root oxytropism Ferreira, Cristiane Silva Piedade, Maria Teresa Fernandez Franco, Augusto C. Banks (bodies Of Water) Cultivation Floods Forestry Oxygen Plants (botany) Surface Waters Water Aeration Amazonian Flooded Forest Floodplain Forest Gravitropisms Oxygen Concentrations Seedling Development Seedling Establishment Tree Characteristics Tropism Seed Key message: Primary root of seeds germinating while submerged grew upwards towards oxygen-rich surface layers. Height of water column influenced germination and root growth. Seedlings removed from water attached to substrate and grow vertically. Abstract: Oxygen and light are potentially limiting resources in floodplain forests where plants are subjected to long periods of flooding, particularly in early stages of the life cycle. We experimentally evaluated the effect of flooding and availability of oxygen and light on germination and initial growth of Pseudobombax munguba (Malvaceae), a tree characteristic of the lower portions of the flood-level gradient in Central Amazonian floodplains. Neither flooding nor darkness affected germination (≥93%); however, only seeds that germinated in light developed into seedlings. Germinated seeds floating in water showed positive gravitropic curvature of the primary root and presence of starch-dense amyloplasts (statoliths) in the root cap. Seed germination decreased under 5–7 cm of non-aerated water and the primary root curved upward, extending towards the water surface where oxygen concentration would be higher. Statoliths were not present in the cap cells of these upwardly growing roots suggesting an absence of gravity-directed growth and the involvement, instead, of re-orientation along an oxygen gradient. Although about 50% of seeds germinated under 10 cm of non-aerated water, their primary root did not elongate further after emergence. Seedlings removed from water and positioned horizontally on the surface of a moist, well-aerated substrate attached themselves as roots curved downward, penetrated into the substrate and anchored the plant. The stem bent upright and resumed vertical growth. These features contribute to reducing the time required for establishment in this type of environment where successful colonization is constrained by the short terrestrial phase. © 2016, Springer-Verlag Berlin Heidelberg. 2020-06-15T21:39:10Z 2020-06-15T21:39:10Z 2017 Artigo https://repositorio.inpa.gov.br/handle/1/17129 10.1007/s00468-016-1501-7 en Volume 31, Número 2, Pags. 705-716 Restrito Trees - Structure and Function
institution Instituto Nacional de Pesquisas da Amazônia - Repositório Institucional
collection INPA-RI
language English
topic Banks (bodies Of Water)
Cultivation
Floods
Forestry
Oxygen
Plants (botany)
Surface Waters
Water Aeration
Amazonian Flooded Forest
Floodplain Forest
Gravitropisms
Oxygen Concentrations
Seedling Development
Seedling Establishment
Tree Characteristics
Tropism
Seed
spellingShingle Banks (bodies Of Water)
Cultivation
Floods
Forestry
Oxygen
Plants (botany)
Surface Waters
Water Aeration
Amazonian Flooded Forest
Floodplain Forest
Gravitropisms
Oxygen Concentrations
Seedling Development
Seedling Establishment
Tree Characteristics
Tropism
Seed
Ferreira, Cristiane Silva
Submergence, seed germination, and seedling development of the Amazonian floodplain tree Pseudobombax munguba: evidence for root oxytropism
topic_facet Banks (bodies Of Water)
Cultivation
Floods
Forestry
Oxygen
Plants (botany)
Surface Waters
Water Aeration
Amazonian Flooded Forest
Floodplain Forest
Gravitropisms
Oxygen Concentrations
Seedling Development
Seedling Establishment
Tree Characteristics
Tropism
Seed
description Key message: Primary root of seeds germinating while submerged grew upwards towards oxygen-rich surface layers. Height of water column influenced germination and root growth. Seedlings removed from water attached to substrate and grow vertically. Abstract: Oxygen and light are potentially limiting resources in floodplain forests where plants are subjected to long periods of flooding, particularly in early stages of the life cycle. We experimentally evaluated the effect of flooding and availability of oxygen and light on germination and initial growth of Pseudobombax munguba (Malvaceae), a tree characteristic of the lower portions of the flood-level gradient in Central Amazonian floodplains. Neither flooding nor darkness affected germination (≥93%); however, only seeds that germinated in light developed into seedlings. Germinated seeds floating in water showed positive gravitropic curvature of the primary root and presence of starch-dense amyloplasts (statoliths) in the root cap. Seed germination decreased under 5–7 cm of non-aerated water and the primary root curved upward, extending towards the water surface where oxygen concentration would be higher. Statoliths were not present in the cap cells of these upwardly growing roots suggesting an absence of gravity-directed growth and the involvement, instead, of re-orientation along an oxygen gradient. Although about 50% of seeds germinated under 10 cm of non-aerated water, their primary root did not elongate further after emergence. Seedlings removed from water and positioned horizontally on the surface of a moist, well-aerated substrate attached themselves as roots curved downward, penetrated into the substrate and anchored the plant. The stem bent upright and resumed vertical growth. These features contribute to reducing the time required for establishment in this type of environment where successful colonization is constrained by the short terrestrial phase. © 2016, Springer-Verlag Berlin Heidelberg.
format Artigo
author Ferreira, Cristiane Silva
author2 Piedade, Maria Teresa Fernandez
Franco, Augusto C.
author2Str Piedade, Maria Teresa Fernandez
Franco, Augusto C.
title Submergence, seed germination, and seedling development of the Amazonian floodplain tree Pseudobombax munguba: evidence for root oxytropism
title_short Submergence, seed germination, and seedling development of the Amazonian floodplain tree Pseudobombax munguba: evidence for root oxytropism
title_full Submergence, seed germination, and seedling development of the Amazonian floodplain tree Pseudobombax munguba: evidence for root oxytropism
title_fullStr Submergence, seed germination, and seedling development of the Amazonian floodplain tree Pseudobombax munguba: evidence for root oxytropism
title_full_unstemmed Submergence, seed germination, and seedling development of the Amazonian floodplain tree Pseudobombax munguba: evidence for root oxytropism
title_sort submergence, seed germination, and seedling development of the amazonian floodplain tree pseudobombax munguba: evidence for root oxytropism
publisher Trees - Structure and Function
publishDate 2020
url https://repositorio.inpa.gov.br/handle/1/17129
_version_ 1787142598671990784
score 11.755432

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