하천연변에 식재된 3년생 포플러 클론의 지상부 biomass의 질소 저장능력 추정추정

여진기,이원우,구영본,우관수,변재경 경상대학교 농업생명과학연구원 2010 농업생명과학연구 Vol.44 No.3

We estimated the biomass productivity and the storage potential of nitrogen, the major contributor of non-point source pollution, with four three-year-old four poplar clones in a riparian woody buffer established in the Anseong River in Anseong, Korea. Stem of Populus alba × P. glandulosa clone 72-31 and Populus deltoides × P. nigra clone Dorskamp showed the highest percentage of aboveground biomass components, followed by branch and leaf. Nitrogen content in aboveground biomass components of two poplar clones was the highest in leaf and the lowest in stem. Nitrogen content in leaf and branch of clone 72-31 was higher than that of clone Dorskamp, while it in stem was lower. Populus deltoides clone Ay48 showed the highest above-ground biomass productivity, which was estimated as 37.5 ton ha-1 at age 3. However, clone 72-31 was the lowest in above-ground biomass productivity. Nitrogen storage potential in aboveground biomass of 3-year-old poplar clones was high in order of aboveground biomass. Clone Ay48 showed the highest nitrogen storage potential in aboveground biomass, which was estimated as 218.3 kg ha-1 at age 3. 수변완충림으로 조성된 3년생 포플러 4클론에 대하여 biomass 생산능력과 주요 비점오염원 중 하나인 질소의 저장능력을 조사하였다. 현사시 72-31 및 미루나무 교잡종 Dorskamp 클론의 지상부 biomass 구성 비율은 줄기, 가지, 잎의 순으로 높았으며, 잎과 가지의 비율은 두 클론간에 차이를 보였다. 지상부 biomass의 질소 함량은 잎, 가지, 줄기의 순으로 높았고 72-31 클론의 잎과 가지의 질소함량은 Dorskamp에 비해 높았으나 줄기의 질소 함량은 낮게 나타났다. 3년생 Ay48 클론의 지상부 biomass 추정량은 37.5 ton․ha-1로 가장 높았으며, 72-31 클론이 가장 낮았다. 3년생 포플러 클론의 지상부 biomass의 질소 저장능력은 biomass 생산량의 순위와 일치하였다. 지상부 biomass 생산능력이 가장 우수한 3년생 Ay48 클론은 218.3 kg․ha-1의 질소를 지상부 biomass에 저장할 수 있는 것으로 추정되었다.

하천연변에 식재된 3년생 포플러 클론의 지상부 biomass의 질소 저장능력 추정추정

여진기,이원우,구영본,우관수,변재경 경상대학교 농업생명과학연구원 2010 농업생명과학연구 Vol.44 No.3

수변완충림으로 조성된 3년생 포플러 4클론에 대하여 biomass 생산능력과 주요 비점오염원 중 하 나인 질소의 저장능력을 조사하였다. 현사시 72-31 및 미루나무 교잡종 Dorskamp 클론의 지상부 biomass 구성 비율은 줄기, 가지, 잎의 순으로 높았으며, 잎과 가지의 비율은 두 클론간에 차이를 보 였다. 지상부 biomass의 질소 함량은 잎, 가지, 줄기의 순으로 높았고 72-31 클론의 잎과 가지의 질 소함량은 Dorskamp에 비해 높았으나 줄기의 질소 함량은 낮게 나타났다. 3년생 Ay48 클론의 지상 부 biomass 추정량은 37.5 ton․ha -1로 가장 높았으며, 72-31 클론이 가장 낮았다. 3년생 포플러 클론의 지상부 biomass의 질소 저장능력은 biomass 생산량의 순위와 일치하였다. 지상부 biomass 생산능력 이 가장 우수한 3년생 Ay48 클론은 218.3 kg․ha -1의 질소를 지상부 biomass에 저장할 수 있는 것으로 추정되었다. We estimated the biomass productivity and the storage potential of nitrogen, the major contributor of non-point source pollution, with four three-year-old four poplar clones in a riparian woody buffer established in the Anseong River in Anseong, Korea. Stem of Populus alba × P. glandulosa clone 72-31 and Populus deltoides × P. nigra clone Dorskamp showed the highest percentage of aboveground biomass components, followed by branch and leaf. Nitrogen content in aboveground biomass components of two poplar clones was the highest in leaf and the lowest in stem. Nitrogen content in leaf and branch of clone 72-31 was higher than that of clone Dorskamp, while it in stem was lower. Populus deltoides clone Ay48 showed the highest above-ground biomass productivity, which was estimated as 37.5 ton ha -1 at age 3. However, clone 72-31 was the lowest in above-ground biomass productivity. Nitrogen storage potential in aboveground biomass of 3-year-old poplar clones was high in order of aboveground biomass. Clone Ay48 showed the highest nitrogen storage potential in aboveground biomass, which was estimated as 218.3 kg ha -1 at age 3.

원격탐사와 인공지능 모델링을 활용한 제주도 지역의 준맹그로브 탄소 축적량 예측

이철호,이종성,김채빈,추연수,이보라 응용생태공학회 2023 Ecology and resilient infrastructure Vol.10 No.4

We attempted to estimate the carbon accumulation of Hibiscus hamabo and Paliurus ramosissimus, semimangroves native to Jeju Island, by remote sensing and to build an artificial intelligence model that predicts its spatial variation with climatic factors. The aboveground carbon accumulation of semi-mangroves was estimated from the aboveground biomass density (AGBD) provided by the Global Ecosystem Dynamics Investigation (GEDI) lidar upscaled using the normalized difference vegetation index (NDVI) extracted from Sentinel-2 images. In Jeju Island, carbon accumulation per unit area was 16.6 t C/ha for H. hamabo and 21.1 t C/ha for P. ramosissimus. Total carbon accumulation of semi-mangroves was estimated at 11.5 t C on the entire coast of Jeju Island. Random forest analysis was applied to predict carbon accumulation in semi-mangroves according to environmental factors. The deviation of aboveground biomass compared to the distribution area of semi-mangrove forests in Jeju Island was calculated to analyze spatial variation of biomass. The main environmental factors affecting this deviation were the precipitation of the wettest month, the maximum temperature of the warmest month, isothermality, and the mean temperature of the wettest quarter. The carbon accumulation of semi-mangroves predicted by random forest analysis in Jeju Island showed spatial variation in the range of 12.0 t C/ha – 27.6 t C/ha. The remote sensing estimation method and the artificial intelligence prediction method of carbon accumulation in this study can be used as basic data and techniques needed for the conservation and creation of mangroves as carbon sink on the Korean Peninsula. 본 연구에서는 제주도에서 자생하는 준맹그로브인 황근 (Hibiscus hamabo)과 갯대추나무 (Paliurus ramosissimus)의탄소 저장량을 원격탐사로 추정하고 기후요인에 의하여 공간변이를 예측하는 인공지능 모델을 구축하고자 하였다. 준맹그로브의지상부 탄소 축적량은 Global Ecosystem Dynamics Investigation (GEDI) 라이다에 의하여 제공되는 지상부 생물량 밀도(aboveground biomass density, AGBD)를 Sentinel-2 영상으로부터 추출한 normalized difference vegetation index (NDVI)으로해상도를 상향하여 추정하였다. 제주도에서 단위면적당 탄소 축적량은 황근이 16.6 t C/ha, 갯대추나무가 21.1 t C/ha이었다. 제주도 전 해안에서 준맹그로브의 탄소 축적량은 11.5 t C로 추정되었다. 환경요인에 따른 준맹그로브의 탄소 축적량을 예측하기위하여 랜덤 포레스트 기술을 적용하였다. 제주도 준맹그로브림의 분포면적 대비 지상부 생물량의 잔차를 계산하였다. 이 잔차에영향을 미치는 주요 환경요인으로는 가장 습한 달의 강수량, 가장 더운 달의 최고온도, 등온성 및 가장 습한 달의 평균 온도가선정되었다. 제주도에서 랜덤 포레스트 분석으로 예측된 준맹그로브의 탄소 축적량은 12.0 t C/ha – 27.6 t C/ha 범위의 공간적변이를 나타내었다. 본 연구에서 개발된 탄소 축적량의 원격탐사 추정법과 환경요인에 따른 인공지능 예측법은 한반도에서 탄소흡수원으로서 맹그로브의 보전과 조성에 필요한 기초자료로 활용할 수 있을 것이다.

Allometric models and aboveground biomass of Lumnitzera racemosa Willd. forest in Rawa Aopa Watumohai National Park, Southeast Sulawesi, Indonesia

Analuddin Kangkuso,Jamili Jamili,Andi Septiana,Rasas Raya,Idin Sahidin,Usman Rianse,Saban Rahim,Alfirman Alfirman,Sahadev Sharma,Kazuo Nadaoka 한국산림과학회 2016 Forest Science And Technology Vol.12 No.1

Information on aboveground biomass of mangrove forest at Rawa Aopa Watumohai National (RAWN) Park is fundamental for the management of mangroves (Lumnitzera racemosa Willd.) in the park. Allometric relationships of partial or whole L. racemosa trees were examined using independent variables D30, DBH, and DB or quadratics D302H, DBH2H, and DB2H from different individuals of L. racemosa trees. Aboveground biomass was estimated by allometric equations and tree census data. Results showed that the best fit for allometric models of stem biomass (WS) and leaf biomass (WL) used the independent variable of DBH2H, while the best fit for branch biomass (WB) used quadratic DB2H. The quadratic DBH2H is the most reliable parameter for estimating aboveground biomass of L. racemosa trees. Aboveground biomass of L. racemosa varied among stands, ranging from 26.23 to 191.01 ton ha ¡1. Biomass density of L. racemosa forest varied from 4.07 to 29.80 ton ha ¡1 m ¡1. The high aboveground biomass of L. racemosa indicates its high blue carbon stock, which maintains the productivity of nearby coastal areas. Therefore, the results of this study can help the sustainable management of mangroves in the RAWN Park and surrounding areas.

양돈분뇨 처리에 따른 수목의 질소저장 및 지상부 바이오매스 추정

김현철 ( Hyun Chul Kim ),여진기 ( Jin Kie Yeo ),신한나 ( Han Na Shin ),이헌호 ( Heon Ho Lee ) 한국산림과학회 2011 한국산림과학회지 Vol.100 No.4

This study was conducted to estimate aboveground biomass and nitrogen storage potential of tree species-eight clones of a poplar and hybrids, one clone of Salix alba L., dawn redwood (Metasequoia glyptostroboides Hu and W.C. Cheng), yellow poplar (Liriodendron tulipifera L.), Okamoto maple (Acer okamotoanum Nakai), and pin oak (Quercus palustris Munchh.)- after treating with liquid pig manure. Stems showed the highest percentage of aboveground biomass, and followed by branches and leaves. Nitrogen content in aboveground biomass components was the highest in leaves, and followed by branches and stems. Average aboveground biomass production was higher in the clones and species treated with manure than those of not treated, 30 ton/ha and 16 ton/ha, respectively. In the manure-treated site, clone ``Dorskamp`` of Populus deltoides×Populus nigra showed the highest aboveground biomass (48.3 ton/ha). Average nitrogen storage potential was superior in the clones and species treated with manure than those of not treated, 159 kg/ha and 90 kg/ha, respectively. Clone ``Dorskamp`` also showed the greatest nitrogen storage potential (286.5 kg/ha) among tested tree species. Therefore, ``Dorskamp`` is the most suitable clone for treating liquid pig manure, but additional studies are needed to determine any damages or tolerance from the treatment.

광양, 평창, 영동 지역 신갈나무 임분의 현존생물량 및 순생산량

박관수 ( Park Gwan Su ) 한국산림과학회 2003 한국산림과학회지 Vol.92 No.6

This study was carried out to estimate aboveground biomass and net primary production(NPP) in an average 42-years-old Quercus mongolica stand in Kwangyang area, 52-years-old Quercus mongolica stand in Pyungchang area, and 36-years-old Quercus mongolica stand in Youngdong area. Nine sample trees were cut in each stands and soil samples were collected in July to August, 2002. Estimation for aboveground biomass and net primary production were made by the equation model Wt=aD^(b) where Wt is oven dry weight in kg and D is DBH in cm. Total aboveground biomass was 62.35ton/ha in Kwangyang area, 156.0ton/ha in Pyungchang area, and 110.3ton/ha in Youngdong area. The proportion of each tree component to total aboveground biomass was high in order of bolewood, branches, bolebark and leaves in the three forests. Aboveground total net primary production was estimated at 5.7Ron/ha in Kwangyang area, 10.3lton/ha in Pyungchang area, and 11.36ton/ha in Youngdong area.

경남 산청지역 리기다소나무림의 지상부 바이오매스와 순생산량 추정

서연옥,이영진 경상대학교 농업생명과학연구원 2011 농업생명과학연구 Vol.45 No.2

This study was conducted to estimate the aboveground biomass and net primary production of 40 year old Pinus rigida forest in Sancheong, Gyeongnam province. The aboveground biomass was 127.7 Mg ha^(-1) and 103.1 Mg ha^(-1) of which were found from stem, 17.2 Mg ha^(-1) from branch and 7.4 Mg ha^(-1) from leaf. Biomass distribution ratio of Pinus rigida stands showed the highest in stem wood with 71.1%, followed by the branch with 13.5%, stem bark with 9.6% and lastly the leaf with 5.8%. Net primary production of aboveground biomass was 10.4 Mg ha^(-1) and 3.6 Mg ha^(-1) were found from stem, 2.2 Mg ha^(-1) from branch, 1.3 Mg ha^(-1) from twig and 2.8 Mg ha^(-1) from leaf. Net primary production distribution ratio of Pinus rigida was 34.6% on stem wood, 26.9 on leaf, 21.2% on branch, 12.5% on twig and 4.8% on stem bark. 본 연구의 목적은 경남 산청 지역에 분포하는 40년생 리기다소나무 임분을 대상으로 지상부 바이오매스와 순생산량에 대하여 분석하고자 하였다. 본 연구의 결과에 의하면, 지상부 바이오매스량은 127.7 Mg ha^(-1)으로 나타났고, 줄기 103.1 Mg ha^(-1), 가지 17.2 Mg ha^(-1), 잎 7.4 Mg ha^(-1)으로 나타났으며, 바이오매스 함량은 줄기목질부 (71.1%) > 가지 (13.5%) > 줄기 수피 (9.6%) > 잎 (5.8%) 순으로 나타났다. 또한 지상부 순생산량은 10.4 Mg ha^(-1)로 나타났고 줄기 3.6 Mg ha^(-1), 가지 2.2 Mg ha^(-1), 1년생 소지 1.3 Mg ha^(-1), 잎 2.8 Mg ha^(-1)로 나타났다. 순생산량 함량은 줄기 목질부 (34.6%) > 잎 (26.9%) > 가지 (21.2%) > 소지 (12.5%) > 줄기 수피 (4.8%) 순으로 나타났다.

Effect of Fertilizer with Low Levels of Potassium on Radiocesium-137 Decontamination

강동진,Hirofumi Tazoe,Yasuyuki Ishii,Katsunori Isobe,Masao Higo,Masatoshi Yamada 한국작물학회 2018 Journal of crop science and biotechnology Vol.21 No.2

Potassium (K) fertilizer closely affects both above-ground biomass production and radiocesium-137 (137Cs) uptake by plants from Cs-contaminated soil. Here we investigated the effects of low levels of K on aboveground biomass, 137Cs concentration, and 137Cs removal ratio (CR) using Napier grass (Pennisetum purpureum Schum.). Experimental plots fertilized with either 2 g K (20% K) or 6 g K (60% K) per m2 were compared with that with no K fertilization (0% K) under low-, medium-, and high-density planting conditions. As a result, with increasing amounts of K fertilizer, the aboveground biomass of Napier grass tended to increase, and the 137Cs concentration significantly decreased. The greatest CR was observed at the plot fertilized with 20% K and with plants grown under highly dense conditions. CR was positively correlated with biomass in all the experimental plots. Moreover, a positive correlation between CR and 137Cs concentration was found only at low levels of K application (0% and 20% K). In the present study, the application of 20% K produced more aboveground biomass and smaller decreases in 137Cs concentration in Napier grass compared with those with 0% K application; therefore, applying a fertilizer with low levels of K, such as 20% K, is better for 137Cs decontamination than applying 0% or 60% K fertilizer.

국가산림자원조사 자료와 임상도를 이용한 지상부 바이오매스의 공간규모 확장

김은숙 ( Eun Sook Kim ),김경민 ( Kyoung Min Kim ),이정빈 ( Jung Bin Lee ),이승호 ( Seung Ho Lee ),김종찬 ( Chong Chan Kim ) 한국임학회 2011 한국산림과학회지 Vol.100 No.3

기후변화에 대응하기 위해 산림의 탄소저장 능력을 정량적으로 이해하기 위한 연구가 국내외적으로 요구되고 있다. 본 연구에서는 지상부바이오매스의 공간적 분포현황을 제공하기 위해 국가산림자원조사 표본점 단위로 계산된 지상부바이오매스를 임상도를 이용하여 공간규모를 확장(upscaling)하는 기법을 개발하고자 한다. 이를 위해 국가산림자원조사 자료를 이용하여 우세/준우세목 수고와 수관 밀도를 설명변수로 하는 지상부바이오매스 회귀모델과 영급을 설명변수로 하는 우세/준우세목 수고 회귀모델을 개발하였다. 그리고 이 회귀모델들과 임상도 속성정보(수종, 수관밀도, 영급)을 결합하여 지상부 바이오매스 공간분포를 추정하였다. 그 결과 단양군 산림의 지상부바이오매스는 6,606,324 ton으로 추정되었고, 표본점 기반 통계에 의한 추정치와 유의적인 차이가 없는 것으로 나타났다. 임상도를 활용하는 본 기법은 손쉽게 대면적에 대한 바이오매스를 추정하는 장점이 있는 반면, 임상도의 주요 속성이 범주형이기 때문에 산림바이오매스 공간 변이의 세밀한 추정에는 한계가 있었다. In order to assess and mitigate climate change, the role of forest biomass as carbon sink has to be understood spatially and quantitatively. Since existing forest statistics can not provide spatial information about forest resources, it is needed to predict spatial distribution of forest biomass under an alternative scheme. This study focuses on developing an upscaling method that expands forest variables from plot to landscape scale to estimate spatially explicit aboveground biomass(AGB). For this, forest stand variables were extracted from National Forest Inventory(NFI) data and used to develop AGB regression models by tree species. Dominant/codominant height and crown density were used as explanatory variables of AGB regression models. Spatial distribution of AGB could be estimated using AGB models, forest type map and the stand height map that was developed by forest type map and height regression models. Finally, it was estimated that total amount of forest AGB in Danyang was 6,606,324 ton. This estimate was within standard error of AGB statistics calculated by sample-based estimator, which was 6,518,178 ton. This AGB upscaling method can provide the means that can easily estimate biomass in large area. But because forest type map used as base map was produced using categorical data, this method has limits to improve a precision of AGB map.

Comparative study of forest biomass and carbon stocks of Margalla Hills National Park, Pakistan

Qasim Mohammad,Csaplovics Elmar 한국산림과학회 2023 Forest Science And Technology Vol.19 No.3

Forests can play an important role in climate change mitigation. However, limited information is available worldwide regarding forest carbon and biomass stocks. Financial mechanisms such as ‘reducing emissions from deforestation and forest degradation and the role of conservation of forest carbon, sustainable management of forests and enhancement of forest carbon stocks’ (REDD+) also emphasize the quantification of forest biomass and carbon. This study aimed to estimate the forest biomass in two forests of Margalla Hills National Park (MHNP): Sub-tropical Chir Pine Forest (SCPF) and Sub-tropical Broadleaved Evergreen Forest (SBEF). For this, circular sampling plots of a 20 m radius were used for the collection of the variables, “diameter at breast height (DBH) and height”. Statistical analysis was done for exploring regression relationships between the variables. We found a mean Aboveground Carbon (AGC) of 73.36 ± 32.55 Mg C ha−1 in SCPF and a mean AGC of 16.88 ± 25.81 Mg C ha−1 in SBEF. The mean Aboveground Biomass (AGB) for SCPF was recorded as 146.73 ± 65.11 Mg ha−1, while for SBEF it was 33.77 ± 51.63 Mg ha−1. It was therefore concluded that the SCPF had higher mean AGB and mean AGC than the SBEF. Similar differences were also noticed in the structural characteristics of the two forests. These could be valuable information while designing sustainable management plans and afforestation programmes for the future and also for accessing nature-based funding such as REDD+.