Your search keyword '"échange gazeux"' showing total 5 results

1. Response of conifer species from three latitudinal populations to light spectra generated by light-emitting diodes and high-pressure sodium lamps.

Author

Apostol, Kent G., Dumroese, R. Kasten, Pinto, Jeremiah R., and Davis, Anthony S.

Subjects

*LIGHT emitting diodes, *PHOTOSYNTHETICALLY active radiation (PAR), *FOREST nurseries, *ENERGY consumption, *EFFECT of light on plants

Abstract

Light-emitting diode (LED) technology shows promise for supplementing photosynthetically active radiation (PAR) in forest nurseries because of the potential reduction in energy consumption and an ability to supply discrete wavelengths to optimize seedling growth. Our objective was to examine the effects of light spectra supplied by LED and traditional high-pressure sodium (HPS) lamps on growth and physiology of Douglas-fir ( Pseudotsuga menziesii (Mirb.) Franco) and Engelmann spruce ( Picea engelmannii Parry ex Engelm.) seedlings. We used three latitudinal sources for each species: British Columbia (BC), Idaho (ID), and New Mexico (NM). Container seedlings were grown for 17 weeks in the greenhouse under an 18 h photoperiod of ambient solar light supplemented with light delivered from HPS or LED. In general, seedlings grown under LED had significantly greater growth, gas exchange rates, and chlorophyll contents than those seedlings grown under HPS. The growth and physiological responses to supplemental lighting varied greatly among species and seed sources. Generally, LED-grown seedlings from BC had the greatest growth and tissue dry mass followed by ID and NM populations. Compared with HPS, the significant increase in seedling growth and concomitant energy savings with LED (29% energy consumption relative to HPS) demonstrates the promise of using LED as PAR supplemental lighting for container seedling production. [ABSTRACT FROM AUTHOR]

Published

2015

2. Nitrogen form affects physiological responses and root expansigenous honeycomb aerenchyma in the emergent macrophyte Acorus americanus.

Author

Equiza, María Alejandra and Zwiazek, Janusz J.

Subjects

*EFFECT of nitrogen on plants, *ACORALES, *PLANT physiology research, *AERENCHYMA, *GAS exchange in plants, *MACROPHYTES

Abstract

High nitrogen (N) concentrations and high NH4+:NO3− ratios that are characteristic of heavily eutrophic and constructed wetlands may be detrimental to the growth and establishment of macrophytes in wetlands formed in the oil sands reclamation areas. This study investigates the effects of N form on the physiology, growth, and root expansigenous honeycomb aerenchyma structure of Acorus americanus (Raf.) Raf., an important macrophyte targeted for wetland reclamation in Canada. Three populations of A. americanus were grown in aerated solution culture and provided for up to 3 months with two different concentrations of N (2 mmol·L−1, 8 mmol·L−1) as NH4+, NO3−, or NH4+ + NO3−. Fresh mass and physiological parameters including gas exchange, chlorophyll fluorescence, stomatal traits, nitrogen and chlorophyll concentration, root morphology, and aerenchyma structure were examined. The effects of N form were concentration-dependent. At 2 mmol·L−1 N, NH4+ + NO3− plants had higher fresh mass, photosynthetic rates, number of first-order roots, root diameter, and maximum root length than those provided solely with NH4+ or NO3−. At 8 mmol·L−1 N, both NH4+ and NH4+ + NO3− treatments had a negative impact on growth, net photosynthesis, and chlorophyll concentrations, and they also led to thinner and shorter roots with necrotic tips, a significant reduction in fractional root porosity, and a denser aerenchyma with smaller lacunae. The results indicate that high levels of NH4+-N may negatively affect the establishment of A. americanus plants in constructed wetlands through its impact on growth, net photosynthesis, and root morpho-anatomy. [ABSTRACT FROM AUTHOR]

Published

2014

3. Diel patterns of leaf carbohydrate concentrations differ between seedlings and mature trees of two sympatric oak species.

Author

Baber, Ori, Slot, Martijn, Celis, Gerardo, and Kaoru Kitajima

Subjects

*GAS exchange in plants, *COMPOSITION of leaves, *CARBOHYDRATES, *LIVE oak, *CARBON cycle, ONTOGENY of plants

Abstract

A fundamental aspect of the carbon cycle is the exchange of carbon between plants and the atmosphere. It is, therefore, important to understand factors that affect differences in gas exchange and carbon balance within and among species. Concentrations of nonstructural carbohydrates are often used as a proxy for carbon balance. We determined diel patterns of leaf carbohydrate concentrations in relation to irradiance (sun vs. shade) in seedlings and mature trees of two sympatric oak species (Quercus virginiana Mill. and Quercus hemisphaerica Bartram ex Willd.). For seedlings, we also measured leaf gas exchange. Higher sun exposure significantly increased photosynthesis and carbohydrate concentrations in both species. Carbohydrate concentrations of seedling leaves showed strong diel fluctuations, whereas concentrations in mature tree leaves did not. This contrast might be attributed to faster carbohydrate export from leaves of mature trees. The difference in sink strength between seedlings and adults may be related to the decreasing ratio of leaf mass to plant mass with ontogeny, increasing the demand for carbohydrates per unit leaf mass. Seedlings and mature trees are clearly functionally different and care must be taken when extrapolating results from seedling experiments to mature trees. [ABSTRACT FROM AUTHOR]

Published

2014

4. Assistance par circulation extracorporelle veinoveineuse dans le traitement du syndrome de détresse respiratoire aiguë : rationnel et objectifs cliniques.

Author

Pham, T., Richard, J., and Brochard, L.

Abstract

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Published

2013

5. Ventilation chez les adultes d’Amblyomma hebraeum et A. marmoreum (Acarina, Ixodidae), vecteurs de la cowdriose en Afrique australe

Author

L.J. Fielden, F.D. Duncan, J.R.B. Lighton, and Y. Rechav

Subjects

Cowdria, Ixodidae, Amblyomma hebraeum, Échange gazeux, Métabolisme hydrique, Amblyomma marmoreum, Animal culture, SF1-1100

Abstract

Cette étude avait pour but de déterminer les caractéristiques principales de l'échange des gaz respiratoires chez les adultes à jeun des tiques Amblyomma hebraeum et A. marmoreum, vecteurs de la cowdriose en Afrique australe. L'émission de dioxyde de carbone a été mesurée à 25¼C par respirométrie afin de déterminer le taux de métabolisme standard (TMS) et l'évolution dans le temps de l'émission gazeuse. Le TMS était extrêmement bas pour les deux espèces et environ 100 fois moindre que celui prévisible pour un insecte d'une masse corporelle équivalente. La ventilation chez des tiques inactives était discontinue et caractérisée par des éruptions périodiques de CO2 lors de l'ouverture des spiracles. L'avantage sélectif principal de ce type de ventilation serait une réduction de la perte d'eau respiratoire. La périodicité des émissions de CO2 était moins fréquente chez A. marmoreum (toutes les 2,5 h) que chez A. hebraeum (toutes les 1,5 h), ce qui indiquerait que A. marmoreum est plus efficace pour limiter la perte d'eau respiratoire. Il est suggéré que des recherches ultérieures sur le métabolisme de l'eau chez les tiques devraient porter sur le rôle des profils de ventilation pour déterminer la survie des stades non-parasitaires et les associations des tiques avec leurs habitats.

Published

1993