• Korean Journal of Remote Sensing
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• v.33 no.5_1
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• pp.469-480
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• 2017

This study aims to understand the relationship between lineaments and epicenters in Geochang region, Gyungsangnam-do, South Korea. An instrumental observation of earthquakes has been started by Korea Meteorological Administration (KMA) since 1978 and there were 6 earthquakes with magnitude ranging 2 to 2.5 in Geochang region from 1978 to 2016. Lineaments were extracted from LANDSAT 8 satellite image and shaded relief map displayed in 3-dimension using Digital Elevation Model (DEM). Then, lineament density was statistically examined by hotspot analysis. Hexagonal grids were generated to perform the analysis because hexagonal pattern expresses lineaments with less discontinuity than square girds, and the size of the grid was selected to minimize a variance of lineament density. Since hotspot analysis measures the extent of clustering with Z score, Z scores computed with lineaments' frequency ($L_f$), length ($L_d$), and intersection ($L_t$) were used to find lineament clusters in the density map. Furthermore, the Z scores were extracted from the epicenters and examined to see the relevance of each density elements to epicenters. As a result, 15 among 18 densities,recorded as 3 elements in 6 epicenters, were higher than 1.65 which is 95% of the standard normal distribution. This indicates that epicenters coincide with high density area. Especially, $L_f$ and $L_t$ had a significant relationship with epicenter, being located in upper 95% of the standard normal distribution, except for one epicenter in $L_t$. This study can be used to identify potential seismic zones by improving the accuracy of expressing lineaments' spatial distribution and analyzing relationship between lineament density and epicenter. However, additional studies in wider study area with more epicenters are recommended to promote the results.

• Korean Journal of Poultry Science
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• v.8 no.1
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• pp.1-5
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• 1981

In trying to predict the effect of genetics on the broiler in the year 2000, this is a relatively short period of time as far as broiler genetics in concerned. Modern broiler genetics started around 1945 and tremendous gains when made in past 35 years. Futher improvements on broiler will depend on the evolution and revolution: 1. Evolution: (1) Growth rate has been made 4-5% per year. (2) Feed conversion has improved approximately 1% per year. (3) Abdominal fat is becoming a major complaint in broiler. (4) Because of the changing life-style, broiler meat sales in the future will be more and more in cut-up form. (5) Breeding for stress resistance and selection for docile temperament can be important in order to funker improve fled efficiency. (6) In female parent stock, reproduction characteristics are in many can negatively correlated with the desired broiler traits. (7) Egg production and hatchability in moot commercial parent nod m at a fairly high level. (8) In male parent stock, the heavier and mon super-meat-type male lines are desired to Product better broilers. 2. Revolution: Trying to forecast revolutionary change in broiler genetics is highly speculative, as sudden change are aften unpredictable. (1) Species hybridization, such as a turkey-chicken cross (2) Biochemical tools, such as blood typing. (3) Mutation breeding by radiation or chemical mutagentia. (4) Broiler breeding would be to change the phenotypic appearance by single gene, such as naked, wingless. (5) Changes in production techniques. such as growing in cage or growing in filtered air positive pressure houses.

• Korean Journal of Poultry Science
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• v.15 no.1
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• pp.1-19
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• 1988

A study was carried out to investigate meat production ability of Korean native Ogol fowl (Natural Monument No, 265). The aims of this study were to provide basal data necessary for preserve of purebred and improvement of meat production ability of this breed. A total 300 chickens were used in this study. All the chickens were ad libitum fed broiler starter during period from 0 to 4 weeks of age and broiler finisher during period from 5 to 16 weeks of age. The investigated items are as follows; body weight; growth rate: weight of edible end inedible parts; and body shape components. The results obtained are summarized as follows. 1. Average body weight in male, female, and unsexed, of native Ogol fowls were $659.0{\pm}154.9$, $588.3{\pm}68.0$ and $623.7{\pm}121.9$ at 8 weeks of age, and $938.1{\pm}72.6$, $810{\pm}104.4$ and $874.1{\pm}109.4$g at 10 weeks of age, respectively. 2. The growth rates, unsexed, during periods 2~4, 4~6, 6~8 and 8~10 weeks of age were 166, 106, 41 and 40%, respectively. 3. The growth pattern of total edible parts in both sexes were highly significant by weeks. Total weight of edible parts in male and female were $395.4{\pm}$ and $355.6{\pm}42.0$g at 8 weeks of age, $597.5{\pm}$47.2 and $518.7{\pm}98.5$69.7g at 10 weeks of age. Percentage of total edible parts, unsexed, were 60~63% of body weight during periods from 8 to 10 weeks of age. 4. Edible giblet, unsexed, at age of 8 and 10 weeks were 4~6% of body weight. 5. Percentage of body weight of inedible part were on the decreased by weeks. The amount of blood blooded, feather plucked, inedible viscera and total inedible parts, unsexed, at 8 weeks of age were 4, 7, 12 and 31% of live body weight, respectively. 6. Except breast angle and shank diameter, the other body shape components significantly grew from 2 to 10 weeks of age. Different between male and female at 8 weeks of age were significant in breast girth, keel length, drumstick girth and shank diameter. 7. In both sexes, highly significant differences were found in the correlation coefficients between live body weight and several other body shape component, i. e., breast girth, drumstick girth, and edible part.