한국농공학회지 (Magazine of the Korean Society of Agricultural Engineers)

한국농공학회 (The Korean Society of Agricultural Engineers)
권호 표지

온실작물의 관개계획의 수립을 위한 엽온의 활용

Using Leaf Temperature for Irrigation Scheduling in Greenhouse

  • 발행 : 2001.11.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

The development of infrared thermometry has led many researchers to use plant temperatures, and specifically the temperature of the crop canopy in the field, for estimating the water stress of a crop. The purpose of this study was to evaluate the role of leaf temperature in irrigation scheduling. An experiment was carried out in a greenhouse with chinese cabbage. Leaf temperature was measured with infrared thermometry and evapotranspiration of the crop was measured by lysimeters. Influence of the difference between leaf temperature and air temperature on crop evapotranspiration was evaluated under varying water stress condition. A further objective was to evaluate the effect of other climatic variables on the relationship between evapotranspiration and temperature difference between leaf and air. A statistical model for estimating evapotranspiration using the temperature difference, relative humidity. and radiation was developed and tested. Crop water stress index was calculated using vapour pressure deficit and the temperature difference. Relations between the crop water stress index and crop evapotranspiration was tested. The index was closely related with evapotranspiration.

키워드

참고문헌

  1. 한국농업기계학회지 v.24 no.5 열영상 정보를 이용한 온실 재배 작물의 수분 스트레스 분석 김기영;류관희;채희연
  2. 한국농화학회 적외선 복사계를 이용한 벼 군락 표면온도 측정 이양수
  3. Irrig. Sci. v.19 Non-water-stressed baselines for irrigation scheduling with infrared thermometers : A new approach Alves,I.;L.S.Pereira
  4. Agricultural Water Management v.12 Utilization of thermal infrathermometry of water stress in spring barley Azzam, A. Tabaileh;T.W.Sammis;D.G.Lugg
  5. Combination equation used to calculate evaporation and potential evaporation, USDA-ARS-41-170 Bartholic,J.F.;L.N.Namken;C.L.Wiegand
  6. Argon. J. v.64 Aerial thermal scanner to determine temperatures of soils and of crop canopies differing in water stress Bartholic,J.F.;L.N.Namken;C.L.Wiegand
  7. Agron. J. v.68 Evaluation of resistance and mass transport evapotranspiration model requiring canopy termperature data Blad,B.L.;N.J.Resenberg
  8. J. Prod. Agric. v.5 Infrared thermometry and the crop water stress index,Ⅰ. History, theory, and baselines Gardner,B.R.;D.C.Nielsen;C.C.Shock
  9. Science v.196 Remoto sensing of crop yields Idso,S.B.;R.D.Jackson;R.J.Reginato
  10. Metorol. v.24 Normalizing the stress-degree-day parameter for environmental variability Idso,S.B.;Jackson,R.D.;Pinter,P.J.Jr.;Reginato,R.J.;J.L.Hatfield
  11. Water Res v.17 Canopy Temperature as a crop water stress indicatior Jackson,R.D.;S.B.Idso;R.J.Reginato;P.J.Print
  12. Water Resour. Res. v.13 Wheat canopy temperature: a practical tool for evaluating water requirements Jackson,R.D.;R.J.Reginato;S.B.Ids
  13. Advances in Evapotranspiration Predicting evapotration from canopy temperature Mitchell,A.R.;R.J.Hanks
  14. Agric. For. Meteorol. v.56 Evapotranspiration and canopy temperature of rice and groundnut in southeast coastal India, Crop coefficient appreach and relationship between evapotranspiration and canopy temperature Peterschmitt,J.M.;A.Perrier
  15. Argon. J. v.66 Estimating evapotranspiration using canopy temeratures: field evalution Stone,L.R.;M.L.Horton
  16. Irrig. Sci. v.18 Evaluation of crop water stress index, for LEPA irrigated corn Yazar,A.;T.A.Howell;D.A.Dusek;K.S.Copeland