• 보존과학회지
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• 제37권6호
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• pp.659-669
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• 2021

이 연구에서는 초분광 영상을 기반으로 산출된 식생지수를 활용하여 2014년부터 2020년까지 울주 천전리 각석에 대한 모니터링을 수행하였다. 모니터링에 적합한 식생지수 선정을 위해 실내분석을 수행하였고, 생물오염에 대한 민감도를 고려하여 NDVI와 TVI를 선정하였다. 선정된 식생지수를 활용하여 모니터링을 수행한 결과, NDVI는 2014년부터 2018년까지 증가하는 경향을 보이고 보존처리 이후인 2020년 감소하였으나, TVI는 모니터링 시점에 따른 경향성을 확인하기 어려웠다. 이러한 경향은 연도별 촬영조건에 따른 분광반사율 편차에서 기인하는 것을 확인하였다. 이때 NDVI는 TVI보다 분광반사율 편차에 대한 민감도가 낮아 모니터링에 활용할 수 있을 것으로 판단되며, TVI의 활용을 위해서는 심화연구가 필요하다.

• 한국산림과학회지
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• 제96권2호
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• pp.151-159
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• 2007

This study was conducted to investigate the effects of thinning on changes in stand characteristics and understory vegetation in a silvopasture practiced Japanese larch plantation in the Research Forest of Kangwon National University, Korea. Three different thinning intensities (64%, 35%, and control) were applied. Before and after thinning, the understory plant species increased its number from 48 (7 tree species, 7 shrubs species, 28 herbaceous species, and 6 woody climbers) to 100 (11 tree species, 15 shrub species, 67 herbaceous species, and 7 woody climbers). Thinning made plants invade easily on the forest floor, and plot A (325 stems/ha) had much higher number of undersory species than those Of plot B (575 stems/ha) and control plot (1,150 stems/ha). In three years after thinning, understory aboveground biomass (kg/ha) of herbs were 523 for control, 1,230 for plot B, and 1,288 for plot A. The canopy coverage had remarkable influence on the understory biomass production, resulting in relatively small amount of herbage production on control plot. The differences were statistically significant between thinned plots and unthinned plot, but there were no significant differences among the thinned plots (p<0.05).

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 2003년도 Proceedings of ACRS 2003 ISRS
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• pp.965-967
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• 2003

Information on forest volume, forest coverage and biomass are important for developing global perspectives about CO$_{2}$ concentration changes. Forest biomass cannot be directly measured from space yet, but remotely sensed greenness can be used to estimate biomass on decadal and longer time scales in regions of distinct seasonality, as in the north. Hence, in this research, numerical methods were used to estimate forest biomass in higher northern regions. A regression model linking Normalized Difference Vegetation Index(NDVI), to forest biomass extracted from SPOT/4 VEGETATION data and PAL 8km data in regional and continental area (N40-N70) respectively. Statistical tests indicated that the regression model can be used to represent the changes of forest biomass carbon pools and sinks at high latitude regions over years 1982-2000. This study suggests that the implementation of estimation of biomass based on 8-km resolution NOAA/AVHRR PAL and SPOT-4/VEGETATION data could be detected over a range of land cover change processes of interest for global biomass change studies.

• Journal of Plant Biology
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• 제14권3호
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• pp.43-46
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• 1971

Losses of nitrogenin the gaseous form were determined with closed systems in the filed under different vegetation types. Ammonia volatilization was greatest from the pine stand, and least from the sod stand, and was greatly reduced in all three sites in the rainy season due to the low temperature. There were only insignificant differences in the nitrogen dioxide volatilization from the soil of the three vegetation types. Losses of ammonia and nitrogen dioxide at various soil depth also showed little variation. Evidently the microbial activity responsible for the $NO_2$ loss was relatively unaffected by the changes in temperature and soil moisture content during the investigation.

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 2002년도 Proceedings of International Symposium on Remote Sensing
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• pp.685-689
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• 2002

This study focused the relationship between the Normalized Difference Vegetation Index (NDVI) and the evapotranspiration (ET) temporal changes. Especially, the interannual change of the NDVI and ET from 1982 to 2000 at regional to continental scales was highlighted mainly over Asia. Monthly global NDVI data were acquired from Pathfinder AVHRR Land (PAL) data (1$\times$1 degree resolution). The monthly ET was estimated from assimilated atmospheric data provided from National Centers for Environmental Prediction (NCEP) (2.5$\times$2.5 degree resolution), and gridded global precipitation data of CPC Merged Analysis of Precipitation (CMAP) (2.5$\times$2.5 degree resolution). Significant positive correlations were found between the NDVI and ET interannual changes in May and June over western Siberia. Moreover, it was revealed that the most of area in Asia has positive correlation coefficient in May and June. These results delineate that the vegetation activity significantly contributes to the ET interannual change over extensive areas.

• Ocean and Polar Research
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• 제40권4호
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• pp.289-297
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• 2018

This study reconstructs past vegetation changes in southeastern Korea over the last 30 thousand years using plant waxes (i.e. long chain n-alkanes) and their carbon isotopic compositions (${\delta}^{13}C_{alk}$) preserved in marine sediment core (KIODP 12-1) retrieved from the East Sea. Here we show changes in vegetation composition in the Korean peninsula in relation to the strength of the East Asian Summer Monsoon. During the Last Glacial Maximum (LGM), when the summer monsoon weakened, precipitation decreased and $C_3$ grassland expanded. After the LGM, the summer monsoon gradually intensified, increasing rainfall, and thus expanding the forestland coverage. Precipitation climaxed from 10 to 6 kyr BP, which includes the Holocene Climate Optimum. The grassland began to expand since 5 kyr BP due to climate warming and drying towards the present. The ${\delta}^{13}C_{alk}$ values may also have been influenced by agricultural activities, which is known to have begun since the late Neolithic (ca. 7.0~3.0 kyr BP). Our results demonstrate how changes in the global climate state influence regional atmospheric circulation and precipitation distribution, and consequently terrestrial plant composition in southeastern Korea.

• 대한원격탐사학회지
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• 제39권3호
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• pp.325-338
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• 2023

구상나무는 한반도 아고산대 생태계에 미치는 기후변화 영향 평가에 중요한 환경지표종이다. 하지만 아고산대의 특성상 해발고도 약 1,000 m 이상에 주로 분포한 구상나무를 주기적으로 현장 조사하는 것은 많은 인력을 요구한다. 따라서 본 연구는 주기적인 관측이 가능한 원격탐사 자료를 활용하여 한라산과 지리산을 대상으로 2003년부터 2020년까지의 9월 Moderate Resolution Imaging Spectroradiometer (MODIS)의 normalized difference vegetation index (NDVI)와 지표면 온도 그리고 Global Precipitation Measurement (GPM)Integrated Multi-satellitE Retrievals for GPM의 강수량 자료를 이용해 구상나무의 식생 변동 및 환경변수와의 연관성을 분석하였다. 2003년과 비교하여 2020년에 구상나무 서식지역의 식생지수 감소를 확인하였으며, 이를 바탕으로 구상나무 생육 우수 지역과 구상나무 고사율이 높은 지역을 선별하였다. 이러한 지역들에 대한 장기간 식생지수 시계열 분석 결과, 한라산과 지리산 모두 고사지역에서 식생지수가 감소하는 경향을 보였다(한라산: -0.46, 지리산: -0.43). 또한 Hodrick-Prescott 필터를 통해 추출된 식생지수와 지표면온도 그리고 강수량의 추세변화를 통해 구상나무의 장기간 변동을 분석한 결과, 한라산의 경우 지표면온도가 증가하고 강수량이 감소하는 시기에 구상나무 생육 우수 지역과 구상나무 고사율이 높은 지역의 식생지수 차이가 증가하였다. 이는 온도 상승과 강수량 감소가 한라산 구상나무 생육쇠퇴에 영향을 미치는 것으로 해석된다. 반면 지리산은 장기적으로 구상나무 고사지역의 장기적인 식생지수 감소 추세를 보여주었으나, 식생지수 변화 패턴이 지표면온도와 강수량과는 유의미한 상관성을 발견하지 못하였다. 추후 지표면 온도와 강수량 외에 선행연구에서 구상나무 생육쇠퇴와 연관이 있다고 알려진 환경인자(토양수분, 일사량, 강풍 등)에 대한 추가 분석이 필요하다. 본 연구를 통해 위성 자료로 구상나무 생태계의 장기간 모니터링 및 환경 변수들의 상관성 분석에 대한 가능성을 제시하였다. 본 연구를 토대로 위성 기반 모니터링이 구상나무의 생태학적 연구에 어떻게 활용될 수 있는지에 대한 이해를 높이는데 도움이 될 것으로 기대한다.

• 한국IT서비스학회지
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• 제14권1호
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• pp.159-173
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• 2015

This paper presents a study on the Internet of Things based low-power wireless sensor networks for remote monitoring of wildlife ecosystem due to climate change. Especially, it is targeting the wild vegetation communities ecological monitoring. First, we performed a pre-test and analysis for selecting the appropriate frequency for the sensor network to collect and deliver information reliably in harsh propagation environment of the forest area, and selected for sensors for monitoring wild vegetation communities on the basis of considerations for selecting the best sensor. In addition, we have presented the platform concept and hierarchical function structures for effectively monitoring, analyzing and predicting of ecosystem changes, to apply the Internet of Things in the ecological monitoring area. Based on this, this paper presents the system architecture and design of the Internet of Things based low-power wireless sensor networks for monitoring the ecosystem of the wild vegetation communities. Finally, we constructed and operated the test-bed applied to real wild trees, using the developed prototype based on the design.

• 한국측량학회지
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• 제38권2호
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• pp.97-107
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• 2020

To analyze temporal and spatial changes in vegetation, it is necessary to determine the associated continuous distribution and conduct growth observations using time series data. For this purpose, the normalized difference vegetation index, which is calculated from optical images, is employed. However, acquiring images under cloud cover and rainfall conditions is challenging; therefore, time series data may often be unavailable. To address this issue, La et al. (2015) developed a multilinear simulation method to generate missing images on the target date using the obtained images. This method was applied to a small simulation area, and it employed a simple analysis of variables with lower constraints on the simulation conditions (where the environmental characteristics at the moment of image capture are considered as the variables). In contrast, the present study employs variables that reflect the growth characteristics of vegetation in a greater simulation area, and the results are compared with those of the existing simulation method. By applying the accumulated temperature, the average coefficient of determination (R²) and RMSE (Root Mean-Squared Error) increased and decreased by 0.0850 and 0.0249, respectively. Moreover, when data were unavailable for the same season, R² and RMSE increased and decreased by 0.2421 and 0.1289, respectively.

• 한국환경과학회지
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• 제15권4호
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• pp.373-378
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• 2006

The western coast of South Korea is famous for its large and broad tidal lands. Nevertheless, land reclamation, which has been conducted on a large scale, such as Sihwa embankment construction project has accelerated coastal environmental changes in the embankment inland. For monitoring of environmental change, vegetation change detecting of the embankment inland were carried out and field survey data compared with Landsat TM, ETM+, IKONOS, and EOC satellite remotely sensed data. In order to utilize multi-temporal remotely sensed images effectively, all data set with pixel size were analyzed by same geometric correction method. To detect the tidal land vegetation change, the spectral characteristics and spatial resolution of Landsat TM and ETM+ images were analyzed by SMA(spectral mixture analysis). We obtained the 78.96% classification accuracy and Kappa index 0.2376 using March 2000 Landsat data. The SMA(spectral mixture analysis) results were considered with comparing of vegetation seasonal change detection method.