태양열을 이용한 시설재배 지중변온가온의 토양 온도특성 연구(3) -지중변온가온의 재배실용화 실증시험

태양열을 이용한 시설재배 지중변온가온의 토양 온도특성 연구(3) -지중변온가온의 재배실용화 실증시험

According to the result of the first report and the second report of this study, it was expected that soil heating in a protected cultivation in winter season would affect the initial growth and development of fruit. Based on the result of previous study, we compared height, leaf number, leaf area,...

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Veröffentlicht in:Journal of Biosystems Engineering, 36(3) 2011, 36(3), 146, pp.211-216
Hauptverfasser: 김진현, J. H. Kim, 김태욱, T. W. Kim, 송재관, J. K. Song, 나규동, K. D. Nah, 하유신, Y. S. Ha, 김태수, T. S. Kim, 김은태, E. T. Kim
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Sprache:kor
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Crop growth rate
Soil depth
Soil heating
Soil temperature
Solar energy
농학
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container_end_page 216
container_issue 3
container_start_page 211
container_title Journal of Biosystems Engineering, 36(3)
container_volume 36
creator 김진현
J. H. Kim
김태욱
T. W. Kim
송재관
J. K. Song
나규동
K. D. Nah
하유신
Y. S. Ha
김태수
T. S. Kim
김은태
E. T. Kim
description According to the result of the first report and the second report of this study, it was expected that soil heating in a protected cultivation in winter season would affect the initial growth and development of fruit. Based on the result of previous study, we compared height, leaf number, leaf area, fruit weight, crop growth rate (CGR), features and quantity of cucumber for 3 months after planting between the soil heating group and the non-heating group. The result were summarized as follows: The height, leaf number, leaf area and fruit weight of cucumber in the soil heating group were 12.5%, 14.6%, 21.4% and 22.8% higher, respectively, compared to those of cucumber in the non-heating group. Although both the soil heating group and the non-heating group similarly showed an increasing pattern in CGR after transplanting, the soil heating group showed the increased CGR by 12.1% compared to that of the non-heating group. The quantity of cucumber in the soil heating group was about 26% higher than that of the non-heating group. It is assumed that the activation of initial growth and development of fruit in the heating group resulted in the increase of quantity.
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H. Kim ; 김태욱 ; T. W. Kim ; 송재관 ; J. K. Song ; 나규동 ; K. D. Nah ; 하유신 ; Y. S. Ha ; 김태수 ; T. S. Kim ; 김은태 ; E. T. Kim</creator><creatorcontrib>김진현 ; J. H. Kim ; 김태욱 ; T. W. Kim ; 송재관 ; J. K. Song ; 나규동 ; K. D. Nah ; 하유신 ; Y. S. Ha ; 김태수 ; T. S. Kim ; 김은태 ; E. T. Kim</creatorcontrib><description>According to the result of the first report and the second report of this study, it was expected that soil heating in a protected cultivation in winter season would affect the initial growth and development of fruit. Based on the result of previous study, we compared height, leaf number, leaf area, fruit weight, crop growth rate (CGR), features and quantity of cucumber for 3 months after planting between the soil heating group and the non-heating group. The result were summarized as follows: The height, leaf number, leaf area and fruit weight of cucumber in the soil heating group were 12.5%, 14.6%, 21.4% and 22.8% higher, respectively, compared to those of cucumber in the non-heating group. 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source Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; KoreaScience
subjects Crop growth rate
Soil depth
Soil heating
Soil temperature
Solar energy
농학
title 태양열을 이용한 시설재배 지중변온가온의 토양 온도특성 연구(3) -지중변온가온의 재배실용화 실증시험
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