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Aquatic adventitious root development in partially and completely submerged wetland plants Cotula coronopifolia and Meionectes brownii
Aquatic adventitious root development in partially and completely submerged wetland plants Cotula coronopifolia and Meionectes brownii
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Aquatic adventitious root development in partially and completely submerged wetland plants Cotula coronopifolia and Meionectes brownii

Rich, Sarah Meghan ; Ludwig, Martha ; Colmer, Timothy David

Annals of botany, 2012-07, Vol.110 (2), p.405-414 [Periódico revisado por pares]

England: Oxford University Press

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2
Surviving floods: leaf gas films improve O2 and CO2 exchange, root aeration, and growth of completely submerged rice
Surviving floods: leaf gas films improve O2 and CO2 exchange, root aeration, and growth of completely submerged rice
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Surviving floods: leaf gas films improve O2 and CO2 exchange, root aeration, and growth of completely submerged rice

Pedersen, Ole ; Rich, Sarah Meghan ; Colmer, Timothy David

The Plant journal : for cell and molecular biology, 2009-04, Vol.58 (1), p.147-156 [Periódico revisado por pares]

Oxford, UK: Blackwell Publishing Ltd

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3
Shoot atmospheric contact is of little importance to aeration of deeper portions of the wetland plant Meionectes brownii; submerged organs mainly acquire O₂ from the water column or produce it endogenously in underwater photosynthesis
Shoot atmospheric contact is of little importance to aeration of deeper portions of the wetland plant Meionectes brownii; submerged organs mainly acquire O₂ from the water column or produce it endogenously in underwater photosynthesis
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Artigo 		Adicionar ao Meu Espaço

Shoot atmospheric contact is of little importance to aeration of deeper portions of the wetland plant Meionectes brownii; submerged organs mainly acquire O₂ from the water column or produce it endogenously in underwater photosynthesis

RICH, SARAH MEGHAN ; PEDERSEN, OLE ; LUDWIG, MARTHA ; COLMER, TIMOTHY DAVID

Plant, cell and environment, 2013, Vol.36 (1), p.213-223 [Periódico revisado por pares]

Oxford, UK: Blackwell Publishing Ltd

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4
Crassulacean acid metabolism enhances underwater photosynthesis and diminishes photorespiration in the aquatic plant Isoetes australis
Crassulacean acid metabolism enhances underwater photosynthesis and diminishes photorespiration in the aquatic plant Isoetes australis
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Crassulacean acid metabolism enhances underwater photosynthesis and diminishes photorespiration in the aquatic plant Isoetes australis

Pedersen, Ole ; Rich, Sarah Meghan ; Pulido, Cristina ; Cawthray, Gregory Robert ; Colmer, Timothy David

The New phytologist, 2011-04, Vol.190 (2), p.332-339 [Periódico revisado por pares]

Oxford, UK: John Wiley & Sons

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5
Surviving floods: leaf gas films improve O 2 and CO 2 exchange, root aeration, and growth of completely submerged rice
Surviving floods: leaf gas films improve O 2 and CO 2 exchange, root aeration, and growth of completely submerged rice
Material Type:
Artigo 		Adicionar ao Meu Espaço

Surviving floods: leaf gas films improve O 2 and CO 2 exchange, root aeration, and growth of completely submerged rice

Pedersen, Ole ; Rich, Sarah Meghan ; Colmer, Timothy David

The Plant journal : for cell and molecular biology, 2009-04, Vol.58 (1), p.147-156 [Periódico revisado por pares]

Texto completo disponível

Citações Citado por
6
Shoot atmospheric contact is of little importance to aeration of deeper portions of the wetland plant Meionectes brownii ; submerged organs mainly acquire O 2 from the water column or produce it endogenously in underwater photosynthesis
Shoot atmospheric contact is of little importance to aeration of deeper portions of the wetland plant Meionectes brownii ; submerged organs mainly acquire O 2 from the water column or produce it endogenously in underwater photosynthesis
Material Type:
Artigo 		Adicionar ao Meu Espaço

Shoot atmospheric contact is of little importance to aeration of deeper portions of the wetland plant Meionectes brownii ; submerged organs mainly acquire O 2 from the water column or produce it endogenously in underwater photosynthesis

RICH, SARAH MEGHAN ; PEDERSEN, OLE ; LUDWIG, MARTHA ; COLMER, TIMOTHY DAVID

Plant, cell and environment, 2013-01, Vol.36 (1), p.213-223 [Periódico revisado por pares]

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7
Aquatic adventitious roots of the wetland plant Meionectes brownii can photosynthesize: implications for root function during flooding
Aquatic adventitious roots of the wetland plant Meionectes brownii can photosynthesize: implications for root function during flooding
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Artigo 		Adicionar ao Meu Espaço

Aquatic adventitious roots of the wetland plant Meionectes brownii can photosynthesize: implications for root function during flooding

Rich, Sarah Meghan ; Ludwig, Martha ; Pedersen, Ole ; Colmer, Timothy David

The New phytologist, 2011-04, Vol.190 (2), p.311-319 [Periódico revisado por pares]

Oxford, UK: Blackwell Publishing Ltd

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8
In situ O2 dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O2
In situ O2 dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O2
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Artigo 		Adicionar ao Meu Espaço

In situ O2 dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O2

Pedersen, Ole ; Pulido, Cristina ; Rich, Sarah Meghan ; Colmer, Timothy David

Journal of experimental botany, 2011-08, Vol.62 (13), p.4691-4700 [Periódico revisado por pares]

Oxford: Oxford University Press

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9
In situ O2dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O2
In situ O2dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O2
Material Type:
Artigo 		Adicionar ao Meu Espaço

In situ O2dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O2

Pedersen, Ole ; Pulido, Cristina ; Rich, Sarah Meghan ; Colmer, Timothy David

Journal of experimental botany, 2011-01, Vol.62 (13), p.4691-4700 [Periódico revisado por pares]

Oxford University Press

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10
In situ O sub(2) dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O sub(2)
In situ O sub(2) dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O sub(2)
Material Type:
Artigo 		Adicionar ao Meu Espaço

In situ O sub(2) dynamics in submerged Isoetes australis: varied leaf gas permeability influences underwater photosynthesis and internal O sub(2)

Pedersen, Ole ; Pulido, Cristina ; Rich, Sarah Meghan ; Colmer, Timothy David

Journal of experimental botany, 2011-01, Vol.62 (13), p.4691-4700 [Periódico revisado por pares]

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