Katie Webb scite author profile

The importance of vacteria in the cycling of carbon in the Pamlico River estuary was studied by measuring the rates of uptake of organic compounds. Our methods allowed analysis with the Michaelis—Menten kinetics equations, and both the rates of uptake of dissolved free amino acids (DFAA) and glucose as well as the percentage of carbon subsequently respired as CO2 were determined. In addition, the concentrations of the amino acids in the water were determined using ion exchange chromatography. Other tests included measurements of primary productivity and of the effects of the other amino acids in the water upon the uptake of one amino acid. There was considerable variation in the heterotrophic activity over time and distance probably caused by patchiness in distribution of plankton and dissolved compounds in the water. Although there is some competition between amino acids being taken up, the effect upon kinetics measurements is probably negligible. Tests made every 3 hr showed a coefficient of variability (CV) of the measured maximum velocity of uptake (Vmax) of aspartic acid to be only 26%, and a similar CV was found for daily samples. In several instances the uptake of one amino acid was found to be competitively inhibited by the presence of another amino acid, but the concentrations necessary to inhibit were far above natural concentrations and such effects are probably unimportant in nature. Mutual inhibition was found between the similar amino acid pairs glutamic acid and aspartic acid, threonine and serine, glycine and alanine, and leucine and alanine. Highest Vmax values were found during the summer months and early fall and ranged from a high of 69.42 mg C/1°hr for alanine in August to less than 0.20 mg C/1°hr for most of the substrates tested in the colder months. The Vmax values for glucose uptake (0.06 to 9.64 mg C/1°hr) indicate that this estuarine system is one of the most microbially—active environments tested. The DFAA were presented in the water at concentrations of from 10 to 30 mg C/1; over half of this was ornithine, glycine, and serine. The DFAA were only about 0.2% of the total dissolved organic carbon in the water. Further, seasonal variations of DFAA concentrations, generally paralleling those of primary productivity, suggested that the amino acids originated from algal excretion and the decay of algal cells. The orders of abundance and concentrations of individual amino acids were similar to those reported for other bodies of water. When the natural concentration of a substrate is known the actual velocity of uptake (Vn) or flux for that substrate may be found. Flux rates were only 1%—10% of the Vmax values in the coldest months; the highest values were found in the warmest months. At each experimental concentration of amino acid, a certain amount was taken up, and a percentage of this amount was oxidized to caron dioxide. This percentage was constant for a particular amino acid in spite of varying experimental times, substrate concentrations, and temperatures. Leucine had the lowest percen...

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Making the leap to medical education: a qualitative study of medical educators' experiences

Browne

Webb

Bullock

2017

Med Educ

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Photosynthetic temperature acclimation in two coexisting seagrasses, Zostera marina L. and Ruppia maritima L.

1986

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Nutritional mode of several non-pigmented microflagellates from the York River estuary, Virginia

Haas¹,

Webb²

1979

Journal of Experimental Marine Biology and Ecology

109

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Nitrogen Fixation in a Coral Reef Community

Wiebe

Johannes

Webb³

1975

Science

162

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Algal reef flats at Enewetak Atoll, Marshall Islands, fix atmospheric nitrogen at rates comparable to those in managed agriculture. The dominant nitrogen fixer appears to be the blue-green alga Calothrix crustacea. Since this nutrient enrichment contributes to the high productivity of adjacent coral reefs and undoubtedly to atoll lagoons, it is recommended that the algal reef flats receive increased conservation priority.

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Nutrient uptake kinetics of freshly isolated zooxanthellae

1983

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Studies of the Release of Dissolved Free Amino Acids by Marine Zooplankton1

Webb

Johannes

1967

Limnology & Oceanography

122

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Rates of release of dissolved free amino acids by marine net zooplankton are a positive function of water temperature and can be estimated by the equation R = T − 6.0, where R = release rate in mg α‐amino N g−1 day−1, = temperature (°C), and 6.0 is a constant. Most of the common protein amino acids are present in release products. Glycine, taurine, and alanine usually predominate. It is estimated that in an “average” water column net zooplankton release an amount of total dissolved amino acids equal to the amount in solution in about one month.

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The Metabolism of Some Coral Reef Communities: A Team Study of Nutrient and Energy Flux at Eniwetok

et al. 1972

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Katie Webb

The Utilization of Dissolved Free Amino Acids by Estuarine Microorganisms

Making the leap to medical education: a qualitative study of medical educators' experiences

Photosynthetic temperature acclimation in two coexisting seagrasses, Zostera marina L. and Ruppia maritima L.

Nutritional mode of several non-pigmented microflagellates from the York River estuary, Virginia

Nitrogen Fixation in a Coral Reef Community

Nutrient uptake kinetics of freshly isolated zooxanthellae

Studies of the Release of Dissolved Free Amino Acids by Marine Zooplankton1

The Metabolism of Some Coral Reef Communities: A Team Study of Nutrient and Energy Flux at Eniwetok

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