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The effect of ascorbic acid on the glycolytic and respiratory metabolism of embryonic chick tibias (1968)

Ramp, W. K. ; Thornton, P. A.

Springer

Calcified tissue international 2 (1968), S. 77-82

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ISSN: 1432-0827

Keywords: Bone ; Metabolism ; Ascorbic Acid ; Tissue Culture

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Description / Table of Contents: Résumé Du tissu osseux, cultivé pendant 5 jours dans un milieu chimiquement défini, présente une augmentation de la consommation en O2 et une diminution de la production d'acide lactique lorsqué de l'acide lactique (50 μg/mI) est présent dans le milieu de culture. Ces paramètres ont été mesurés pendant des incubations de courte durée, en cultures de tissus. En n'ajoutant de l'acide lactique qu'au dernier jour de culture ou pendant les 4 premiers jours, et non le dernier jour, les valeurs en O2 et en acide lactique sont identiques à celles observées lorsque la vitamine est présente pendant 5 jours. Des produits similaires à l'acide ascorbique (50 μg/ml), administrés pendant 5 jours donnent des résultats identiques à ceux de la vitamine C. Une expérience préliminaire pour évaleur la vitesse d'oxydation de l'acide ascorbique dans le milieu de culture a permis de montrer que la vitamine doit être remplacée quotidiennement lorsque les cultures sont traitées avec 20% d'O2 et plus fréquemment avec des concentrations d'O2 plus élevées. Les changements dans le métabolisme énergétique, liés à l'acide ascorbique et observés dans cette étude, indiquent que la vitamine pourraît être un facteur important de stimulation du métabolisme squelettique aérobique.

Notes: Abstract Bones cultured for 5 days in a chemically defined medium showed an increased O2 consumption and decreased lactic acid production when ascorbic acid (50 μg/ml) was present in the culture medium. In this and the following experiments these parameters were measured in short-term incubations following tissue culture. Adding ascorbic acid for only the final day of culture or for the first 4 days and not the final day gave O2 and lactic acid results similar to those obtained when the vitamin was present for all 5 days. Ascorbic acid analogs (50 μg/ml) added for 5 days also exhibited results similar to those for vitamin C. A preliminary experiment to evaluate the oxidation rate of ascorbic acid in the culture medium established that the vitamin must be replenished daily when cultures are gassed with 20% O2 and more frequently with higher O2 concentrations. The ascorbic acid-dependent changes in energy metabolism seen in this study suggest that the vitamin may be an important factor in stimulating skeletal aerobic metabolism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02279196

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The impact of growing-season length variability on carbon assimilation and evapotranspiration over 88 years in the eastern US deciduous forest (1999)

White, M. A. ; Running, S. W. ; Thornton, P. E.

Springer

International journal of biometeorology 42 (1999), S. 139-145

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ISSN: 1432-1254

Keywords: Key words Growing season length ; Net ecosystem production ; Gross ecosystem production ; Evapotranspiration ; BIOME-BGC

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract Recent research suggests that increases in growing-season length (GSL) in mid-northern latitudes may be partially responsible for increased forest growth and carbon sequestration. We used the BIOME-BGC ecosystem model to investigate the impacts of including a dynamically regulated GSL on simulated carbon and water balance over a historical 88-year record (1900–1987) for 12 sites in the eastern USA deciduous broadleaf forest. For individual sites, the predicted GSL regularly varied by more than 15 days. When grouped into three climatic zones, GSL variability was still large and rapid. There is a recent trend in colder, northern sites toward a longer GSL, but not in moderate and warm climates. The results show that, for all sites, prediction of a long GSL versus using the mean GSL increased net ecosystem production (NEP), gross primary production (GPP), and evapotranspiration (ET); conversely a short GSL is predicted to decrease these parameters. On an absolute basis, differences in GPP between the dynamic and mean GSL simulations were larger than the differences in NEP. As a percentage difference, though, NEP was much more sensitive to changes in GSL than were either GPP or ET. On average, a 1-day change in GSL changed NEP by 1.6%, GPP by 0.5%, and ET by 0.2%. Predictions of NEP and GPP in cold climates were more sensitive to changes in GSL than were predictions in warm climates. ET was not similarly sensitive. First, our results strongly agree with field measurements showing a high correlation between NEP and dates of spring growth, and second they suggest that persistent increases in GSL may lead to long-term increases in carbon storage.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004840050097

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