Studies on water transport through the sweet cherry fruit surface: IV. Regions of preferential uptake

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Marco Beyer
  • Stefanie Peschel
  • Moritz Knoche
  • Manfred Knörgen

Externe Organisationen

  • Martin-Luther-Universität Halle-Wittenberg
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)637-641
Seitenumfang5
FachzeitschriftHORTSCIENCE
Jahrgang37
Ausgabenummer4
PublikationsstatusVeröffentlicht - 1 Jan. 2002
Extern publiziertJa

Abstract

Water uptake in different regions of the sweet cherry fruit (Prunus avium L. cv. Sam) was investigated following selective application of silicone sealant to the pedicel end, pedicel cavity, pedicel/fruit juncture, or stylar scar of detached fruit. The time course of water uptake was monitored gravimetrically during a 3-hour incubation period in deionized water (20°C). Sealing the pedicel end and/or pedicel/fruit juncture significantly reduced rates and total amount (3 hours) of water uptake, but sealing the stylar scar had no effect. The amount of water penetrating via the pedicel/fruit juncture increased between 50 and 85 days after full bloom. During the same period the maximum force required to detach pedicels from fruit (fruit removal force) fell from 5.2±0.5 to 2.1±0.2 N. The amount of water penetrating via the pedicel/fruit juncture and the fruit removal force were negatively related. Nuclear magnetic resonance (NMR) imaging of mature fruit incubated in D2O indicated that D2O accumulated in the pedicel cavity region and the pedicel. Our data suggest that the pedicel end and pedicel/fruit juncture, but not the stylar scar, are regions of preferential water uptake in detached fruit. Chemical name used: deuterium oxide (D2O).

ASJC Scopus Sachgebiete

  • Agrar- und Biowissenschaften (insg.)
  • Gartenbau

Zitieren

Studies on water transport through the sweet cherry fruit surface: IV. Regions of preferential uptake. / Beyer, Marco; Peschel, Stefanie; Knoche, Moritz et al.
in: HORTSCIENCE, Jahrgang 37, Nr. 4, 01.01.2002, S. 637-641.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Beyer M, Peschel S, Knoche M, Knörgen M. Studies on water transport through the sweet cherry fruit surface: IV. Regions of preferential uptake. HORTSCIENCE. 2002 Jan 1;37(4):637-641. doi: 10.21273/hortsci.37.4.637
Beyer, Marco ; Peschel, Stefanie ; Knoche, Moritz et al. / Studies on water transport through the sweet cherry fruit surface : IV. Regions of preferential uptake. in: HORTSCIENCE. 2002 ; Jahrgang 37, Nr. 4. S. 637-641.
Download
@article{ca23c5da8db24ba5a0eed32891f91b11,
title = "Studies on water transport through the sweet cherry fruit surface: IV. Regions of preferential uptake",
abstract = "Water uptake in different regions of the sweet cherry fruit (Prunus avium L. cv. Sam) was investigated following selective application of silicone sealant to the pedicel end, pedicel cavity, pedicel/fruit juncture, or stylar scar of detached fruit. The time course of water uptake was monitored gravimetrically during a 3-hour incubation period in deionized water (20°C). Sealing the pedicel end and/or pedicel/fruit juncture significantly reduced rates and total amount (3 hours) of water uptake, but sealing the stylar scar had no effect. The amount of water penetrating via the pedicel/fruit juncture increased between 50 and 85 days after full bloom. During the same period the maximum force required to detach pedicels from fruit (fruit removal force) fell from 5.2±0.5 to 2.1±0.2 N. The amount of water penetrating via the pedicel/fruit juncture and the fruit removal force were negatively related. Nuclear magnetic resonance (NMR) imaging of mature fruit incubated in D2O indicated that D2O accumulated in the pedicel cavity region and the pedicel. Our data suggest that the pedicel end and pedicel/fruit juncture, but not the stylar scar, are regions of preferential water uptake in detached fruit. Chemical name used: deuterium oxide (D2O).",
keywords = "Cracking, Fruit, NMR, Prunus avium, Sweet cherry, Water uptake",
author = "Marco Beyer and Stefanie Peschel and Moritz Knoche and Manfred Kn{\"o}rgen",
year = "2002",
month = jan,
day = "1",
doi = "10.21273/hortsci.37.4.637",
language = "English",
volume = "37",
pages = "637--641",
journal = "HORTSCIENCE",
issn = "0018-5345",
publisher = "American Society for Horticultural Science",
number = "4",

}

Download

TY - JOUR

T1 - Studies on water transport through the sweet cherry fruit surface

T2 - IV. Regions of preferential uptake

AU - Beyer, Marco

AU - Peschel, Stefanie

AU - Knoche, Moritz

AU - Knörgen, Manfred

PY - 2002/1/1

Y1 - 2002/1/1

N2 - Water uptake in different regions of the sweet cherry fruit (Prunus avium L. cv. Sam) was investigated following selective application of silicone sealant to the pedicel end, pedicel cavity, pedicel/fruit juncture, or stylar scar of detached fruit. The time course of water uptake was monitored gravimetrically during a 3-hour incubation period in deionized water (20°C). Sealing the pedicel end and/or pedicel/fruit juncture significantly reduced rates and total amount (3 hours) of water uptake, but sealing the stylar scar had no effect. The amount of water penetrating via the pedicel/fruit juncture increased between 50 and 85 days after full bloom. During the same period the maximum force required to detach pedicels from fruit (fruit removal force) fell from 5.2±0.5 to 2.1±0.2 N. The amount of water penetrating via the pedicel/fruit juncture and the fruit removal force were negatively related. Nuclear magnetic resonance (NMR) imaging of mature fruit incubated in D2O indicated that D2O accumulated in the pedicel cavity region and the pedicel. Our data suggest that the pedicel end and pedicel/fruit juncture, but not the stylar scar, are regions of preferential water uptake in detached fruit. Chemical name used: deuterium oxide (D2O).

AB - Water uptake in different regions of the sweet cherry fruit (Prunus avium L. cv. Sam) was investigated following selective application of silicone sealant to the pedicel end, pedicel cavity, pedicel/fruit juncture, or stylar scar of detached fruit. The time course of water uptake was monitored gravimetrically during a 3-hour incubation period in deionized water (20°C). Sealing the pedicel end and/or pedicel/fruit juncture significantly reduced rates and total amount (3 hours) of water uptake, but sealing the stylar scar had no effect. The amount of water penetrating via the pedicel/fruit juncture increased between 50 and 85 days after full bloom. During the same period the maximum force required to detach pedicels from fruit (fruit removal force) fell from 5.2±0.5 to 2.1±0.2 N. The amount of water penetrating via the pedicel/fruit juncture and the fruit removal force were negatively related. Nuclear magnetic resonance (NMR) imaging of mature fruit incubated in D2O indicated that D2O accumulated in the pedicel cavity region and the pedicel. Our data suggest that the pedicel end and pedicel/fruit juncture, but not the stylar scar, are regions of preferential water uptake in detached fruit. Chemical name used: deuterium oxide (D2O).

KW - Cracking

KW - Fruit

KW - NMR

KW - Prunus avium

KW - Sweet cherry

KW - Water uptake

UR - http://www.scopus.com/inward/record.url?scp=0036323693&partnerID=8YFLogxK

U2 - 10.21273/hortsci.37.4.637

DO - 10.21273/hortsci.37.4.637

M3 - Article

AN - SCOPUS:0036323693

VL - 37

SP - 637

EP - 641

JO - HORTSCIENCE

JF - HORTSCIENCE

SN - 0018-5345

IS - 4

ER -