Water Uptake and Reduced Pressure of Intercellular Space Induced by Respiration Related to Sweet Cherry Fruit Cracking
スポンサーリンク
概要
- 論文の詳細を見る
The water uptake inducing cracking of sweet cherry fruit (Prunus avium L.) was investigated in relation to the reduced pressure in flesh intercellular space caused by respiration of the fruit. The respiratory quotient decreased from 0.74 on 28 DAB to 0.43 on 60 DAB, and highly correlated with DAB in a quadratic equation. Flesh intercellular space capacity was increased from the immature stage with fruit growth, then it attained maximum of 129.4 μL/fruit on 55 DAB. However it decreased greatly to 95.6 μL/fruit on 57 DAB, and it did not change until 60 DAB. The pressure of flesh intercellular space was around 3–10 Pa lower than ambient air pressure, and negative correlation was found between the respiratory quotient of the fruit and the flesh intercellular space pressure. These results suggested that water on the fruit surface was apparently sucked into flesh intercellular spaces by that decreased pressure, which resulted from the decrease of the respiratory quotient.
- 2011-09-30
著者
-
Iwasaki Naoto
School Of Agriculture Meiji University
-
FUJIMOTO Asuka
School of Agriculture, Meiji University
-
SAGAMI Mai
School of Agriculture, Meiji University
-
Fujimoto Asuka
School Of Agriculture Meiji University
-
Sagami Mai
School Of Agriculture Meiji University
関連論文
- Relationship Between Respiratory Quotient and Water Uptake of Sweet Cherry Fruit
- Water Uptake and Reduced Pressure of Intercellular Space Induced by Respiration Related to Sweet Cherry Fruit Cracking
- Water Uptake and Reduced Pressure of Intercellular Space Induced by Respiration Related to Sweet Cherry Fruit Cracking
- Respiratory-induced Reduction of Flesh Intercellular Space Pressure Related to Fruit Crack Caused by Water Absorption in Sweet Cherry
- Respiratory-induced Reduction of Flesh Intercellular Space Pressure Related to Fruit Crack Caused by Water Absorption in Sweet Cherry