Young Nam Kim scite author profile

Variability in the photosynthetic performance of natural phytoplankton communities, due to both taxonomic composition and the physiological acclimation of these taxa to environmental conditions, was assessed at contrasting sites within a temperate shelf sea region. Physiological parameters relating to the structure of the photosystem II (PSII) antenna and processes downstream from PSII were evaluated using a combination of fast repetition rate fluorescence, oxygen flash yields, spectral fluorescence, and 14 C photosynthesis versus irradiance measurements. Parameters relating to PSII antenna structure, specifically the functional absorption cross-section ( PSII ) and the chlorophyll to PSII reaction center ratio, varied principally as a result of spatial (horizontal) taxonomic differences. Phenotypic plasticity in the size of the PSII light-harvesting antenna appeared to be limited. In contrast, parameters related to electron transport rates (ETRs) downstream of PSII, including the maximum ETR (1/ PSII ), the chlorophyll-specific maximum rate of carbon fixation (P ), and the light-saturation intensity (E k ), all decreased from the surface to the subsurface chlorophyll * max maximum (SCM) in stratified waters. The primary photoacclimation response to the vertical light gradient thus resulted in decreasing light-saturated carbon fixation per reaction center with increasing depth. Increases in the ratio of PSII reaction centers to carbon fixation capacity thus dominated the phenotypic response to decreased irradiance within the SCM. Perhaps counterintuitively, phytoplankton populations within fully mixed water columns, characterized by low mean irradiance, were acclimated or adapted to relatively high irradiance.Photoacclimation describes the phenotypic response of algae to changes in irradiance at the organism level (Falkowski and LaRoche 1991) and can be assessed by measuring dif-1 Present address: University of Essex, Colchester C04 3SQ, United Kingdom (cmmoore@essex.ac.uk). AcknowledgmentsWe thank E. Le Floch, G. Harris, M. Lucas, H. Thomas, and G. Tilstone for assistance with data collection at sea and M. Zubkov for assistance with the flow cytometry analysis. S. Laney kindly provided software and contributed to many useful discussions on the analysis of raw FRR fluorometer data. We also thank the officers and crew of the RRS James Clark Ross for their assistance during cruise JR98. Insightful comments from J. Cullen and an anonymous reviewer considerably improved an earlier version of this manuscript.

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Comparison of the chemical compositions and nutritive values of various pumpkin (Cucurbitaceae) species and parts

Kim

et al. 2012

Nutr Res Pract

258

139

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Pumpkins have considerable variation in nutrient contents depending on the cultivation environment, species, or part. In this study, the general chemical compositions and some bioactive components, such as tocopherols, carotenoids, and β-sitosterol, were analyzed in three major species of pumpkin (Cucurbitaceae pepo, C. moschata, and C. maxima) grown in Korea and also in three parts (peel, flesh, and seed) of each pumpkin species. C. maxima had significantly more carbohydrate, protein, fat, and fiber than C. pepo or C. moschata (P < 0.05). The moisture content as well as the amino acid and arginine contents in all parts of the pumpkin was highest in C. pepo. The major fatty acids in the seeds were palmitic, stearic, oleic, and linoleic acids. C. pepo and C. moschata seeds had significantly more γ-tocopherol than C. maxima, whose seeds had the highest β-carotene content. C. pepo seeds had significantly more β-sitosterol than the others. Nutrient compositions differed considerably among the pumpkin species and parts. These results will be useful in updating the nutrient compositions of pumpkin in the Korean food composition database. Additional analyses of various pumpkins grown in different years and in different areas of Korea are needed.

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Spring‐neap modulation of internal tide mixing and vertical nitrate fluxes at a shelf edge in summer

Sharples

Tweddle

Green

et al. 2007

Limnology & Oceanography

172

153

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Measurements of the intra-tidal and spring-neap variation in the vertical flux of nitrate into the base of the sub-surface chlorophyll maximum (SCM) were made at the shelf edge of the Celtic Sea, a region with strong internal mixing driven by an internal tide. The neap tide daily mean nitrate flux was 1.3 (0.9-1.8, 95% confidence interval) mmol m 22 d 21 . The spring tide flux was initially estimated as 3.5 (2.3-5.2, 95% confidence interval) mmol m 22 d 21 . The higher spring tide nitrate flux was the result of turbulent dissipation occurring within the base of the SCM as compared to deeper dissipation during neap tides and was dominated by short events associated with the passage of internal solitons. Taking into account the likely under-sampling of these short mixing events raised the spring tide nitrate flux estimate to about 9 mmol m 22 d 21 . The neap tide nitrate flux was sufficient to support substantial new production and a considerable fraction of the observed rates of carbon fixation. Spring tide fluxes were potentially in excess of the capacity of the phytoplankton community to uptake nitrate. This potential excess nitrate flux during spring tides may be utilized to support new production during the lower mixing associated with the transition toward neap tide. The shelf edge is shown to be a region with a significantly different phytoplankton community as compared to the adjacent Celtic Sea and northeast Atlantic Ocean, highlighting the role of gradients in physical processes leading to gradients in ecosystem structure.3 Present address: Proudman Oceanographic Laboratory, 6 Brownlow Street, Liverpool, L3 5DA, United Kingdom. AcknowledgmentsOur thanks to the crew of the RRS Charles Darwin (cruise CD173) and the technical staff of the U.K. National Marine Facilities. We are grateful for the constructive comments from two anonymous reviewers, which helped improve this paper.

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Analysis of cis-Acting Sequences Essential for Coronavirus Defective Interfering RNA Replication

1993

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Mouse hepatitis virus (MHV) defective interfering (DI) RNA was used to determine the cis-acting sequences required for MHV RNA replication. A 2.2-kb-long cDNA clone of the MHV DI RNA DIssE was used to test the effect of deletions throughout the DI RNA on replication in DI RNA-transfected, MHV-infected cells. Data from a series of deletion mutants demonstrated that about 470 nucleotides at the 5' terminus, 460 nucleotides at the 3' terminus, and about 135 nucleotides in an internal position approximately 0.9 kb from the 5' end of DI RNA were necessary for DI RNA replication. These data suggested that cis-acting sequences which were necessary for MHV RNA replication required not only terminal sequences but also an internal sequence present at about 3.2 kb from the 5' end of the genome.

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Spatial distribution of phytoplankton productivity in the Amundsen Sea, Antarctica

et al. 2012

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Young Nam Kim

Phytoplankton photoacclimation and photoadaptation in response to environmental gradients in a shelf sea

Comparison of the chemical compositions and nutritive values of various pumpkin (Cucurbitaceae) species and parts

Spring‐neap modulation of internal tide mixing and vertical nitrate fluxes at a shelf edge in summer

Analysis of cis-Acting Sequences Essential for Coronavirus Defective Interfering RNA Replication

Spatial distribution of phytoplankton productivity in the Amundsen Sea, Antarctica

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