¹Ù·Î°¡±â ¸Þ´º

¹Ù·Î°¡±â ¸Þ´º º»¹®³»¿ë ¹Ù·Î°¡±â ¸ÞÀθ޴º ¹Ù·Î°¡±â

ÁÖ¿ä¾È³»

HOME »çÀÌÆ®¸Ê ENGLISH

FONT SIZE

ÆùƮũ±â Å°¿ò 100% 110% 120% 130% 140% ÆùƮũ±â ÁÙÀÓ

´ë±â¡¤½Ã¼³È¯°æ&¿¡³ÊÁö°øÇÐ ¿¬±¸½Ç

¸Þ´ºº¸±â

HOME

±¹Á¦ÇмúÁö³í¹®

Á¦¸ñ
(2002) Acoustic emission in tomato plants under water stress conditions
ÀÛ¼ºÀÏ
2022-01-10
Á¶È¸¼ö
79


(2002) Acoustic emission in tomato plants under water stress conditions
 
Journal: Japan Agricultural Research Quarterly 36(2), pp.103-109.
 
Author: Guo Yu QIU, Limi OKUSHMA, Sadanori SASE and IN-Bok LEE
 
Abstract
 Acoustic emissions (AE) could be used as an indicator of water stress as "speaking plant". The objective of this study was to observe the AE of tomato plant and to analyze the relationship between AE and plant water consumption associated with transpiration.  Three glasshouse experiments were conducted with potted tomato plants. The AE, transpiration rate and "the plant transpiration transfer coefficient(hat)" as an indicator of plant water stress level were determined with hat being calculated based on sunlit leaf temperature, temperature of an artificial leaf without transpiration (hereafter, reffered to as "non-transpiration lead temperature") and air temperature. The results showed that the daily patterns of the AE varied depending on the water stress level, which was indicated by hat. Under mild or moderate water stress(hat =< 0) conditions, the AE increased with the decrease in the amount of soil water but decreased with the decrease in the amount of soil water under severe water stress conditions ( 0 <h< span="">at =< 1). To analyze the hourly changes in the relationship between AE and transpiration, the concept of "change of transpiration rate (AT)" was introduced. Under mild or in the absence of water stress conditions(hat =< 0), AE increased linearly with the increase of AT with a significant regression coefficient (r2= 0.85 and slope = 0.61). Then, as the water stress level increased, the rgradually decreased, as well as the slope of the regression line between AE and AT. When the water stress level increased futher, the slope continuously decreaced. However, r2 started to increase gradually. Thus, when the water stress increased to a critical level (0 <h< span="">at =< 1), a significant inverse linear relationship between AE and AT, with r2 = 0.64 and slope = -0.73 could be observed. On the basis of these results, AE tended to be differently affected by AT depending on the water stress level.</h<></h<>



Keywords: change of transpiration rate, transpiration, transpiration transfer coeffictient

Download Link :
https://www.jstage.jst.go.jp/article/jarq/36/2/36_103/_article/-char/ja/

 
÷ºÎÆÄÀÏ:
÷ºÎÆÄÀÏÀÌ ¾ø½À´Ï´Ù.
¸ñ·Ï ´ä±Û
´ÙÀ½±Û
(2003) STUDY OF INTERNAL CLIMATE OF NATURALLY AND MECHANICALLY VENTILATED BROILER HOUSES
/ A3EL
(2003)STUDY OF INTERNAL CLIMATE OF NATURALLY AND MECHANICALLY VENTILATED BROILER HOUSES Journal : An ASAE Meeting Presentation 034060 Author:In-Bok Lee, Byoeng-Ki You, Kyu-Hong Choi, Jong-Gil Jeun, Gyeong-Won Kim Abstract Most of broiler houses in Korea have the trouble of enviro..
ÀÌÀü±Û
(2002) OPTIMUM DESIGN OF FORCED VENTILATION SYSTEM OF PIGLET HOUSE USING COMPUTER SIMULATION
/ A3EL
(2002) OPTIMUM DESIGN OF FORCED VENTILATION SYSTEM OF PIGLET HOUSE USING COMPUTER SIMULATION Journal:An ASAE Meeting Presentation 024109 Author:I. Lee, W. Park, B. Yu, J. Yun, J. Chun, K. Kim, H. Cho Abstract The objective of this study was, by field experiment and visualization of interna..