Yang-Ho Choi scite author profile

This study examines the effect of issue obtrusiveness on the agenda-setting effects of the national network television news. Two competing models are tested: (a) the obtrusive contingency, which holds that agenda-setting effects decrease as the obtrusiveness of, or amount of personal experience with, an issue increases, and (b) the cognitive-priming contingency, which posits just the opposite−that agenda-setting effects increase as obtrusiveness increases. Findings provide no support for the obtrusive contingency; some support is found for cognitive priming. Only modest support for the basic agenda-setting hypothesis is found. Alternative hypotheses are suggested.

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Anthropogenic nitrogen is changing the East China and Yellow seas from being N deficient to being P deficient

Moon

Lee

Lim

et al. 2020

Limnology & Oceanography

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Addition of the increased anthropogenic nitrogen (NO x and NH y) emitted from northeast Asian countries to the Yellow and East China seas and coastal waters around Korea has resulted in an unparalleled increase in the nitrate (N) concentration relative to the phosphate (P) and silicate (Si) concentrations in the upper ocean. We found that for the Yellow Sea the increase in N over P was largely explained by increased atmospheric nitrogen deposition, whereas for the northern East China Sea, downstream of the Changjiang River plume, the trend in N increase relative to P was more associated with a change in the combined input of nutrients from atmospheric deposition and riverine discharges. In contrast, the dynamics of the N to P relationship in the southern East China Sea was largely controlled by a change in the intrusion intensity of the Kuroshio Current, which has a low N : P ratio. The disproportionate and persistent input of nutrients to the marine waters of this region over the past four decades has transformed extensive areas from being N deficient to being P deficient, and has concurrently decreased the concentration of Si relative to N. In coastal waters around Korea in particular, these shifts in the nutrient regime have been accompanied by a change from diatom-dominated to dinoflagellatedominated blooms. Given the complexity of coastal ecosystems, the associations between changes in nutrient regimes and biological changes need to be investigated in other coastal areas receiving increasing loads of anthropogenic nitrogen.

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Anthropogenic Nitrogen‐Induced Changes in Seasonal Carbonate Dynamics in a Productive Coastal Environment

Kim

Lee

Han

et al. 2020

Geophysical Research Letters

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We estimated the seasonal extremes in pH and the aragonite saturation state (Ωarag) for the Yellow Sea over the past 30 years using recent (2015–2018) carbonate data sets, along with historical data sets of surface N and bottom water dissolved O2 concentrations. The rate of increase in surface N was assumed to determine the postbloom surface dissolved inorganic C concentration resulting from the complete utilization of N by phytoplankton, while the decrease in bottom water O2 was assumed to reflect the prebloom surface C, as a consequence of C‐rich bottom water (resulting from the oxidation of greater amounts of organic matter transported from the surface) being brought to the surface. With the increasing loads of anthropogenic N, the net community metabolism (an increase in organic matter production at the surface and subsequent remineralization at the seafloor) has lowered the seasonal amplitude of pH by 0.14 but increased the amplitude of Ωarag by 0.8.

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Analysis of Current Distribution around a Scaled-down Abalone System to determine the cause of mass mortality of abalone, Haliotis discus hannai (Ino, 1952)

Cha¹,

Choi²,

Yang³

et al. 2014

The Korean Journal of Malacology

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This study is aimed at figuring out the reasons of the mass mortality of abalone and the increase in its mortality rate in the sea cage. The study suggests that lack seawater circulation in an abalone aquaculture cage is an important culprit for it. We analyzed the current distribution around a 1/20 scaled-down abalone unit cage of 4 rows and 10 columns by fluid flow visualization technique (PIV : Particle Image Velocimetry). The speed of current in the model cage definitely slowed down in the first column of a unit cage. We also observed currents going down to the bottom of a water tank from the unit cages placed in the middle. The speed of wakes behind inside the row in the middle was slower than that outside the row. Water velocity inside and outside a real abalone cage at Nowha Island adjacent to Wan Island was measured to verify results from the tank test. The speed of current in front of the cage by 2 m was 0.11 m/sec while it was only 0.0009 m/sec inside the cage. It had similar findings with those of a tank test.

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Comparative Analysis of Doctor-patient Perception on Physician-patient Relationship : Coorientation Model Test

박진영¹,

Choi²,

Kim³

2015

kjapr

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Yang-Ho Choi

Issue Obtrusiveness and the Agenda-Setting Effects of National Network News

Anthropogenic nitrogen is changing the East China and Yellow seas from being N deficient to being P deficient

Anthropogenic Nitrogen‐Induced Changes in Seasonal Carbonate Dynamics in a Productive Coastal Environment

Analysis of Current Distribution around a Scaled-down Abalone System to determine the cause of mass mortality of abalone, Haliotis discus hannai (Ino, 1952)

Comparative Analysis of Doctor-patient Perception on Physician-patient Relationship : Coorientation Model Test

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