식물환경연구실편 : 수도병해 조기예찰을 위한 군락내 미기상측정용 마이크로 콤퓨터시스템 개발이용 (2)

임정남(Jeong Nam Im),윤성호(Seong Ho Yoon),김장규(Jang Gyu Kim),정영상(Yeong Sang Jung) 강원대학교 농업과학연구소 1989 강원 농업생명환경연구 Vol.3 No.-

土壤의 物理性과 有機物

任正男(Jeong-Nam Im) 한국토양비료학회 1979 한국토양비료학회지 Vol.11 No.3

식물영양

임정남(Jeong-Nam Im),장병춘(Byoung-Choon Jang),송범헌(Beom-Heon Song),김태완(Tae-Wan Kim) 한국토양비료학회 2009 한국토양비료학회지 Vol.42 No.S1

OECD 회원국들의 농업지식체계 ( AKS ) 동향과 전망

임정남(Jeong Nam Im),박무언(Moo Eon Park),박경철(Kyung Chul Park) 한국농촌지도학회 2000 농촌지도와 개발 Vol.7 No.1

During the last 10 year period, OECD member countries were in a trend of `less government` from `more government`, thus resulted in restructuring and reducing staffs in government agricultural institutions including the Agricultural Knowledge System. In recognizing the crisis of `less government`, member countries were in a trend of paradigm shift to the `better government`. In producing and transferring agricultural information, member countries are more concerned about consumers as well as producers as the target of good quality services of the `better government`. The general consensus of member countries identified the importance of food safety and environmental protection as new agendas for the 21st century. Agricultural Knowledge Systems (AKS) in OECD member countries were in a trend of reorganization in addressing food safety, and agriculture / environmental issues. The approaches, functions and responsibilities were diversified to multi-governmental institutions from the ministry of agriculture. Thus the importance of institutional cooperation and coordination were emphasized more in the newly changed AKS paradigms. The objectives, functions and approaches of AKS in OECD member countries as well as in Korea will be directed to emphasize the importance of environment, sustainable agriculture, food safety, and rural development. They will also focus on establishing mutual cooperative systems among policy makers, consumes, non-governmental organizations, and agri-related organizations as necessary for sustainable development in the future.

氣象資料에 依한 배추 生育時期別 土壤水分, 蒸發散量 및 收量의 推定模型

任正男(Jeong-Nam Im),柳順昊(Soon-Ho Yoo) 한국토양비료학회 1988 한국토양비료학회지 Vol.21 No.4

Evapotranspiration of Soybean-Barley Cropping as a Function of Evaporation and Available Soil Water in the Root Zone

Jeong-Nam Im(任正男),Yeong-Sang Jung(鄭英祥),Kwan-Shig Ryu(柳寬植),Sun-Ho Yoo(柳順昊) 한국토양비료학회 1982 한국토양비료학회지 Vol.15 No.4

시론-지구온난화의 득과 실

임정남,Im, Jeong-Nam 한국과학기술단체총연합회 1992 과학과 기술 Vol.25 No.2

Evapotranspiration of Soybean-Barley Cropping as a Function of Evaporation and Available Soil Water in the Root Zone

임정남,정영상,류관식,유순호,Im, Jeong-Nam,Jung, Yeong-Sang,Ryu, Kwan-Shig,Yoo, Sun-Ho 한국토양비료학회 1982 한국토양비료학회지 Vol.15 No.4

Soil water changes in lysimeters with four different soils and two different available soil depths were monitored during the growing seasons of the soybean-barley cropping from 1977 to 1980 in Suweon to evaluate evapotranspiration (ET) as a function of available soil water and evaporative demand of the atmosphere. ET was calculated with soil water profile and water balance. Soil water content was measured with a neutron moisture depth gauage and The evaporative demand of the atmosphere was estimated with a class A pan evaporation. Rainfall. solar radiation, and wind speed were observed to examine heat and water balances. The average ET of soybeans ranged from 1.6 mm/day at seedling to 6.5 mm/day at flowering, and that of barley ranged from 0.5 mm/day at the regrowth stage to 4.6 mm/day at heading; however, a large variability was observed. The ratio of ET to pan evaporation ($ET/E_o$) ranged from 0.5 to 1.1 for soybeans and 0.4 to 1.2 for barley. The soil evaporation factor ($K_e$) of the $ET/E_o$ component decreased as the soil water depleted and the canopy developed. The crop transpiration factor ($K_t$), another component of $ET/E_o$, also was a function of time and the soil water. $K_t$ was constant when the available soil water fraction (f) in the root zone was greater than a threshold value, and $K_e$ was decreased linearly when f was lower than this threshold. The threshold was 0.7 for the moderate evaporative demand days, 0.4 to 0.5 for the low evaporative demand days, and 0.9 to 0.96 for the high evaporative demand days. Conclusively, the ET can be estimated from the evaporative demand of the atmosphere, $E_o$, $K_e$ and $K_t$, and the available soil water content in the root zone. 기상자료(氣象資料)와 토양수분조건에 의하여 작물(作物)의 증발산량(蒸發散量)을 산정(算定)할 수 있는 방법(方法)을 모색(模索)하기 위하여 유효토심과 토성(土性)이 상이(相異)한 Lysimeter내(內)에서 콩-보리를 재배(栽培)하면서 1977년(年)부터 1980년(年)까지 토양수분함량(土壤水分含量)의 변화양상을 조사(調査)하였다. 증발산량(蒸發散量)은 깊이별(別) 토양수분함량(土壞水分含量) 증성자(中性子) 수분측정기(水分測定器)(Neutron moisture depth gauge)로 조사(調査)하여 물수지식에 의거(依據) 계산(計算)하였으며, 대기(大氣)의 증발요구도(蒸發要求度)는 대형(大型)팬 증발량(蒸發量)을 직접(直接) 이용(利用)하였고, 열(熱)-물 수지를 계산(計算)하는데 강우량(降雨量) 일사량(日射量) 풍속(風速)을 활용(活用)하였다. 작물(作物)의 1일(日) 증발산량(蒸發散量)은 산출기간(算出値間)에 변이(變異)가 컸으나 평균(平均)해서 보면 콩에 있어서는 파종기(播種期)에 1.6mm/일(日)에서 개화기(開花期)에 6.5mm/일(日)에서 범위(範圍)이었고, 보리에 있어서는 월동직후(越冬直後)에 0.5mm/일(日)에서 출수기(出穗期)에 4.6mm/일(日)의 범위(範圍)에 있었다. 대형(大型)팬 증발량(蒸發量)에 대한 증발산량(蒸發散量)의 비(比)(ET/Eo)는 콩에서는 0.5~1.1, 보리에서는 0.4~1.2범위이었다. ET/Eo는 토양증발인자(土壤蒸發因子)(Ke)와 작물증산인자(作物蒸散因子)(Kt)로 구분 평가하였는데 Ke는 0.02~0.60, Kt는 0~1.2 범위(範圍)로 밝혀졌다. Ke는 토양수분(土壤水分)이 낮을수록 작물피복도(作物被覆度)가 클수록 감소(減少)되는 양상(樣相)을 보였으며 Kt는 근권(根圈)의 유효수분률(有效水分率)(f)이 임계치(臨界値) 이상(以上)에서는 일정(一定)값을 보이나 그이하(以下)에서는 f에 따라 직선적(直線的)으로 감소(減少)되는데 그 변화양상(變化樣相)은 작물(作物)과 대기(大氣)의 증발요구도(蒸發要求度)에 따라 다르게 나타났다. Kt가 직선적(直線約)으로 감소(減少)되는 임계(臨界) f치(値)는 Eo가 클 경우에는 0.90~0.95, 보통일 때는 0.7정도, 낮을 때는 0.4~0.5이었다. 이상에서 밝혀진 Eo, Ke, Kt 및 f를 이용(利用)하여 콩-보리 작부(作付)에서 증발산량(蒸發散量)을 산출(算出)할 수 있도록 수식화하였다.

콩군낙(群落)의 열수지특성(熱收支特性)과 건물(乾物)로의 물이용효율(利用效率)

이양수,임정남,Lee, Yang-Soo,Im, Jeong-Nam 한국토양비료학회 1990 한국토양비료학회지 Vol.23 No.2

A field experiment was conducted to study seasonal evapotranspiration above soybean canopy and its relationship with dry matter production by the Bowen ratio-energy balance method. The soybean "Paldalkong" was sown with the space of $47{\times}10cm$ at Suwon on May 27, 1988. The daily net radiation ranged from 59 to 76 percents of the total shortwave radiation under cloudless conditions, which was lower than cloud overcast condition with recorded 63 to 83 percents. The latent heat flux under overcast condition was sometimes larger than the sum of net radiation, implying transportation of energy by advection of ambient air. The linear relationship was obtained between daily or daytime net radiation and evapotranspiration. The evapotranspiration calculated by Bowen ratio-energy balance method was about 150 percent of class A pan evaporation during the growing season. The total solar radiation from June 20 to August 27 was $1043MJm^{-2}$. The 85 percent of the total shortwave radiation was used for evaporative heat. The dry matter production within the period was $836gm^{-2}$ and the water use efficiency was $2.31gDM\;kg^{-1}\;H_2O$. 콩군낙(群落)(팔달(八達)콩 ; 재식밀도(栽植密度) $45{\times}10cm$)에서의 열수지성분(熱收支成分) 변화(變化)를 계절별(季節別)로 관측(觀測)하고 열수지법(熱收支法)으로 증발산량(蒸發散量)을 계산(計算)하여 건물생산량(乾物生産量)과의 관계(關係)를 구한 결과(結果)는 다음과 같다. 1. 맑은날의 전단파복사량(全短波輻射量)에 대한 순복사량(純輻射量)의 비율(比率)은 59~76%로 흐린날의 63~83%보다 낮았다. 2. 순복사량(純輻射量)에 대한 잠열전달량(潛熱傳達量)의 비율(比率)은 흐린날에 100%를 넘는 경우가 있어 때때로 이류(移流)에 의한 열복사(熱輻射)의 수평전도(水平傳導)가 있었다. 3. 1시간(時間)마다 적산(積算)한 일적산순복사량(日積算純輻射量)(Rn)과 증발잠열(蒸發潛熱)($LE_{(+)}$) 및 화간순복사량(畵間純輻射量)($Rn_{(+)}$)과 증발잠열(蒸發潛熱)과의 관계(關係)는 각각(各各) 다음과 같은 직선관계(直線關係)가 성립(成立)하였다. $$LE_{(+)}=0.971\;Rn+1.122\;R^2=0.9017$$ $$LE_{(+)}=0.882\;Rn_{(+)}+1.945\;R^2=0.8836$$ 4. 열수지계산(熱收支計算)에 의한 군낙증발산량(群落蒸發散量)(ETa)과 대형(大型) pan 증발량(蒸發量)(Epan)과의 관계(關係)는 다음과 같았다. ETa = 1.049 Epan + 1.657 $$R^2=0.6589$$ 5. 생육초기(生育初期)를 제외(除外)한 생육기간중(生育期間中) 건물(乾物)로의 물이용효율(利用效率)은 $2.31g{\cdot}DM{\cdot}kg^{-1}\;H_2O$이었으며, 평균일증발산량(平均日蒸發散量)은 5.29mm, 일사량중(日射量中) 군낙(群落)의 증발산(蒸發散)으로 소비(消費)된 열량(熱量)의 비율(比率)은 85%이었다.

보우엔비(比)-에너지수지방법(收支方法)에 의한 옥수수군락(群落) 증발산(蒸發散)의 계절별(季節別) 관측(觀測)

이량수,임정남,강영희,Lee, Yang-Soo,Im, Jeong-Nam,Kang, Young-Hee 한국토양비료학회 1988 한국토양비료학회지 Vol.21 No.1

옥수수 군락형성과정(群落形成過程)에서 순폭사를 구성(構成)하는 열(熱)에너지의 배분(配分)을 보우엔비(比)-에너지수지방법(收支方法)으로 조사(調査)하여 다음과 같은 결론(結論)을 얻었다. 1. 옥수수 전생육기간(全生育期間)동안 군락초관부(群落草冠部)에 도달(到達)된 전천일사량(全天日射量)은 $1,559MJm^{-2}$이었으며 증발잠열(蒸發潛熱)로 쓰여진 열량(熱量)은 $960MJm^{-2}$로 전천일사량(全天日射量)의 61.6%가 군락증발산(群落蒸發散)의 열원(熱源)으로 사용(使用)되었다. 2. 계절별(季節別) 일평균(日平均) 증발산량(蒸發散量)은 2.7mm-5.6mm 범위(範圍)이었다. 3. 증발산(蒸發散)으로 소비(消費)된 물량(量)은 394mm, 전체건물생산량(全體乾物生産量)은 $2,214gm^{-2}$로 전체(全體)옥수수 군락증발산량(群落蒸發散量)에 대(對)한 전건물중(全乾物重)의 비율(比率)인 물이용효율(利用效率)은 $5.6gm^{-2}mm^{-1}$이었다. Heat energy distribution forming net radiation above corn canopy was determined by means of the Bowen ratio-energy balance method. Total-global solar radiation above crop canopy during the growing season was $1,559MJm^{-2}$ and total latent heat flux density was $960MJm^{-2}$. The data showed that 61.6% of the global solar radiation was used for a heat source of evapotranspiration (ETa) above corn canopy. Mean daily ETa ranged from 2.7 to 5.6mm. Total ETa, total drymatter, and water use efficiency were 394mm, $2,214gm^{-2}$, and $5.6gm^{-2}mm^{-1}$, respectivively.