Progressive decline in xylem inflow into developing plums

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Authors

  • Bishnu P. Khanal
  • Indu Acharya
  • Moritz Knoche

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Details

Original languageEnglish
Pages (from-to)1263-1268
Number of pages6
JournalHORTSCIENCE
Volume56
Issue number10
Early online date7 Sept 2021
Publication statusPublished - Oct 2021

Abstract

Recent evidence suggests xylem functionality may decline in developing European plums. Loss of xylem function may have negative consequences for fruit quality. The aim of this study was to establish and localize the loss of xylem functionality, both spatially and temporally using detached fruit. Fruit were detached from the tree under water and fed through a capillary mounted on the cut end of the pedicel. The rate of water movement through the capillary was recorded. Fruit were held above dry silica gel [≈0% relative humidity (RH)] or above water (≈100% RH) to maximize or minimize transpiration, respectively. Water inflow rate depended on developmental stage. It increased from stage I to a maximum at early stage III and then decreased until maturity. Feeding acid fuchsin to developing fruit revealed a progressive decline in dye distribution. The decline progressed basipetally, from the stylar end toward the stem end. At the mature stage III, only the pedicel/fruit junction was stained. The same pattern was observed in four further plum cultivars at the mature stage III. The inflow into early stage III fruit decreased as the RH increased. In contrast, the inflow was less dependent of RH at the mature stage III. Abrading the fruit skin cuticle had no effect on water inflow during early and mature stage III but did markedly increase fruit transpiration rate. Decreasing the osmotic potential (more concentrated) of the feeding solution decreased the water inflow. Our results indicate a progressive loss of xylem functionality in European plum. Transpiration and osmotic pull are the main drivers of this xylem inflow.

Keywords

    European plum, Osmotic pull, Prunus ×domestica, Transpiration, Water inflow, Xylem

ASJC Scopus subject areas

Cite this

Progressive decline in xylem inflow into developing plums. / Khanal, Bishnu P.; Acharya, Indu; Knoche, Moritz.
In: HORTSCIENCE, Vol. 56, No. 10, 10.2021, p. 1263-1268.

Research output: Contribution to journalArticleResearchpeer review

Khanal, BP, Acharya, I & Knoche, M 2021, 'Progressive decline in xylem inflow into developing plums', HORTSCIENCE, vol. 56, no. 10, pp. 1263-1268. https://doi.org/10.21273/HORTSCI16012-21
Khanal, B. P., Acharya, I., & Knoche, M. (2021). Progressive decline in xylem inflow into developing plums. HORTSCIENCE, 56(10), 1263-1268. https://doi.org/10.21273/HORTSCI16012-21
Khanal BP, Acharya I, Knoche M. Progressive decline in xylem inflow into developing plums. HORTSCIENCE. 2021 Oct;56(10):1263-1268. Epub 2021 Sept 7. doi: 10.21273/HORTSCI16012-21
Khanal, Bishnu P. ; Acharya, Indu ; Knoche, Moritz. / Progressive decline in xylem inflow into developing plums. In: HORTSCIENCE. 2021 ; Vol. 56, No. 10. pp. 1263-1268.
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T1 - Progressive decline in xylem inflow into developing plums

AU - Khanal, Bishnu P.

AU - Acharya, Indu

AU - Knoche, Moritz

N1 - Funding Information: This research was funded by grant KN 402/20-1 from the Deutsche Forschungsgemeinschaft. The publication of this article was funded by the Open Access Fund of Leibniz Universit€at Hannover. We thank Dr. Alexander Lang and Dr. Andreas Winkler for helpful comments on an earlier version of this manuscript.

PY - 2021/10

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N2 - Recent evidence suggests xylem functionality may decline in developing European plums. Loss of xylem function may have negative consequences for fruit quality. The aim of this study was to establish and localize the loss of xylem functionality, both spatially and temporally using detached fruit. Fruit were detached from the tree under water and fed through a capillary mounted on the cut end of the pedicel. The rate of water movement through the capillary was recorded. Fruit were held above dry silica gel [≈0% relative humidity (RH)] or above water (≈100% RH) to maximize or minimize transpiration, respectively. Water inflow rate depended on developmental stage. It increased from stage I to a maximum at early stage III and then decreased until maturity. Feeding acid fuchsin to developing fruit revealed a progressive decline in dye distribution. The decline progressed basipetally, from the stylar end toward the stem end. At the mature stage III, only the pedicel/fruit junction was stained. The same pattern was observed in four further plum cultivars at the mature stage III. The inflow into early stage III fruit decreased as the RH increased. In contrast, the inflow was less dependent of RH at the mature stage III. Abrading the fruit skin cuticle had no effect on water inflow during early and mature stage III but did markedly increase fruit transpiration rate. Decreasing the osmotic potential (more concentrated) of the feeding solution decreased the water inflow. Our results indicate a progressive loss of xylem functionality in European plum. Transpiration and osmotic pull are the main drivers of this xylem inflow.

AB - Recent evidence suggests xylem functionality may decline in developing European plums. Loss of xylem function may have negative consequences for fruit quality. The aim of this study was to establish and localize the loss of xylem functionality, both spatially and temporally using detached fruit. Fruit were detached from the tree under water and fed through a capillary mounted on the cut end of the pedicel. The rate of water movement through the capillary was recorded. Fruit were held above dry silica gel [≈0% relative humidity (RH)] or above water (≈100% RH) to maximize or minimize transpiration, respectively. Water inflow rate depended on developmental stage. It increased from stage I to a maximum at early stage III and then decreased until maturity. Feeding acid fuchsin to developing fruit revealed a progressive decline in dye distribution. The decline progressed basipetally, from the stylar end toward the stem end. At the mature stage III, only the pedicel/fruit junction was stained. The same pattern was observed in four further plum cultivars at the mature stage III. The inflow into early stage III fruit decreased as the RH increased. In contrast, the inflow was less dependent of RH at the mature stage III. Abrading the fruit skin cuticle had no effect on water inflow during early and mature stage III but did markedly increase fruit transpiration rate. Decreasing the osmotic potential (more concentrated) of the feeding solution decreased the water inflow. Our results indicate a progressive loss of xylem functionality in European plum. Transpiration and osmotic pull are the main drivers of this xylem inflow.

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