@ARTICLE{TreeBASE2Ref27140,
author = {Shiri Goldental-Cohen and Carmit Burstein and Iris Biton and Sivan Ben Sasson and Amit Sadeh and Yair Manni and Adi doron-faigenboim and Hanita Zemach and Doron Schneider and Reuben Birger and Shimon Meir and Sonia Philosoph-Hadas and Vered Irihomovitch and Benjamin Avidan and Shimon Lavee and Giora Ben-Ari},
title = {Ethephon induced oxidative stress in the olive leaf abscission zone enables development of a selective abscission compound.},
year = {2017},
keywords = {},
doi = {},
url = {http://},
pmid = {},
journal = {BMC Plant Biology},
volume = {},
number = {},
pages = {},
abstract = {Table olives (Olea europaea L.), despite their widespread production, are still harvested manually. The low efficiency of manual harvesting and the rising costs of labor have reduced the profitability of this crop. A selective abscission treatment, inducing abscission of fruits but not leaves, is crucial for the adoption of mechanical harvesting of table olives. In the present work we studied the anatomical and molecular differences between the three abscission zones (AZs) of olive fruits and leaves. The fruit abscission zone 3 (FAZ3), located between the fruit and the pedicel, was found to be the active AZ in mature fruits, whereas FAZ2, between the pedicel and the rachis, is the flower active AZ as well as functioning as an ethephon induced fruit AZ. We found anatomical differences between the leaf AZ (LAZ) and the two FAZs. Unlike the FAZs, the LAZ is characterized by small cells with less pectin compared to neighboring cells. In an attempt to differentiate between the fruit and leaf AZs, we examined the effect of treating olive-bearing trees with ethephon, an ethylene-releasing compound, with or without antioxidants, on the detachment force (DF) of fruits and leaves five days after the treatment. Ethephon treatment enhanced pectinase activity and reduced DF in all the three olive AZs. A transcriptomic analysis of the three olive AZs after ethephon treatment revealed induction of several genes encoding for hormones (ethylene, auxin and ABA), as well as for several cell wall degrading enzymes. However, up-regulation of cellulase genes was found only in the LAZ. Many genes involved in oxidative stress were induced by the ethephon treatment in the LAZ alone. In addition, we found that reactive oxygen species (ROS) mediated abscission in response to ethephon only in leaves. Thus, adding antioxidants such as ascorbic acid or butyric acid to the ethephon inhibited leaf abscission but enhanced fruit abscission. Our findings suggest that treating olive-bearing trees with a combination of ethephon and antioxidants reduces the detachment force (DF) of fruit without weakening that of the leaves. Hence, this selective abscission treatment may be used in turn to promote mechanized harvest of olives.}
}
Citation for Study 20915
Citation title:
"Ethephon induced oxidative stress in the olive leaf abscission zone enables development of a selective abscission compound.".
Study name:
"Ethephon induced oxidative stress in the olive leaf abscission zone enables development of a selective abscission compound.".
This study is part of submission 20915
(Status: Published).
Citation
Goldental-cohen S., Burstein C., Biton I., Ben sasson S., Sadeh A., Manni Y., Doron-faigenboim A., Zemach H., Schneider D., Birger R., Meir S., Philosoph-hadas S., Irihomovitch V., Avidan B., Lavee S., & Ben-ari G. 2017. Ethephon induced oxidative stress in the olive leaf abscission zone enables development of a selective abscission compound. BMC Plant Biology, .
Authors
-
Goldental-cohen S.
-
Burstein C.
-
Biton I.
-
Ben sasson S.
-
Sadeh A.
-
Manni Y.
-
Doron-faigenboim A.
-
Zemach H.
-
Schneider D.
-
Birger R.
-
Meir S.
-
Philosoph-hadas S.
-
Irihomovitch V.
-
Avidan B.
-
Lavee S.
-
Ben-ari G.
Abstract
Table olives (Olea europaea L.), despite their widespread production, are still harvested manually. The low efficiency of manual harvesting and the rising costs of labor have reduced the profitability of this crop. A selective abscission treatment, inducing abscission of fruits but not leaves, is crucial for the adoption of mechanical harvesting of table olives. In the present work we studied the anatomical and molecular differences between the three abscission zones (AZs) of olive fruits and leaves. The fruit abscission zone 3 (FAZ3), located between the fruit and the pedicel, was found to be the active AZ in mature fruits, whereas FAZ2, between the pedicel and the rachis, is the flower active AZ as well as functioning as an ethephon induced fruit AZ. We found anatomical differences between the leaf AZ (LAZ) and the two FAZs. Unlike the FAZs, the LAZ is characterized by small cells with less pectin compared to neighboring cells. In an attempt to differentiate between the fruit and leaf AZs, we examined the effect of treating olive-bearing trees with ethephon, an ethylene-releasing compound, with or without antioxidants, on the detachment force (DF) of fruits and leaves five days after the treatment. Ethephon treatment enhanced pectinase activity and reduced DF in all the three olive AZs. A transcriptomic analysis of the three olive AZs after ethephon treatment revealed induction of several genes encoding for hormones (ethylene, auxin and ABA), as well as for several cell wall degrading enzymes. However, up-regulation of cellulase genes was found only in the LAZ. Many genes involved in oxidative stress were induced by the ethephon treatment in the LAZ alone. In addition, we found that reactive oxygen species (ROS) mediated abscission in response to ethephon only in leaves. Thus, adding antioxidants such as ascorbic acid or butyric acid to the ethephon inhibited leaf abscission but enhanced fruit abscission. Our findings suggest that treating olive-bearing trees with a combination of ethephon and antioxidants reduces the detachment force (DF) of fruit without weakening that of the leaves. Hence, this selective abscission treatment may be used in turn to promote mechanized harvest of olives.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S20915
- Other versions:
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref27140,
author = {Shiri Goldental-Cohen and Carmit Burstein and Iris Biton and Sivan Ben Sasson and Amit Sadeh and Yair Manni and Adi doron-faigenboim and Hanita Zemach and Doron Schneider and Reuben Birger and Shimon Meir and Sonia Philosoph-Hadas and Vered Irihomovitch and Benjamin Avidan and Shimon Lavee and Giora Ben-Ari},
title = {Ethephon induced oxidative stress in the olive leaf abscission zone enables development of a selective abscission compound.},
year = {2017},
keywords = {},
doi = {},
url = {http://},
pmid = {},
journal = {BMC Plant Biology},
volume = {},
number = {},
pages = {},
abstract = {Table olives (Olea europaea L.), despite their widespread production, are still harvested manually. The low efficiency of manual harvesting and the rising costs of labor have reduced the profitability of this crop. A selective abscission treatment, inducing abscission of fruits but not leaves, is crucial for the adoption of mechanical harvesting of table olives. In the present work we studied the anatomical and molecular differences between the three abscission zones (AZs) of olive fruits and leaves. The fruit abscission zone 3 (FAZ3), located between the fruit and the pedicel, was found to be the active AZ in mature fruits, whereas FAZ2, between the pedicel and the rachis, is the flower active AZ as well as functioning as an ethephon induced fruit AZ. We found anatomical differences between the leaf AZ (LAZ) and the two FAZs. Unlike the FAZs, the LAZ is characterized by small cells with less pectin compared to neighboring cells. In an attempt to differentiate between the fruit and leaf AZs, we examined the effect of treating olive-bearing trees with ethephon, an ethylene-releasing compound, with or without antioxidants, on the detachment force (DF) of fruits and leaves five days after the treatment. Ethephon treatment enhanced pectinase activity and reduced DF in all the three olive AZs. A transcriptomic analysis of the three olive AZs after ethephon treatment revealed induction of several genes encoding for hormones (ethylene, auxin and ABA), as well as for several cell wall degrading enzymes. However, up-regulation of cellulase genes was found only in the LAZ. Many genes involved in oxidative stress were induced by the ethephon treatment in the LAZ alone. In addition, we found that reactive oxygen species (ROS) mediated abscission in response to ethephon only in leaves. Thus, adding antioxidants such as ascorbic acid or butyric acid to the ethephon inhibited leaf abscission but enhanced fruit abscission. Our findings suggest that treating olive-bearing trees with a combination of ethephon and antioxidants reduces the detachment force (DF) of fruit without weakening that of the leaves. Hence, this selective abscission treatment may be used in turn to promote mechanized harvest of olives.}
}
- Show RIS reference
TY - JOUR
ID - 27140
AU - Goldental-Cohen,Shiri
AU - Burstein,Carmit
AU - Biton,Iris
AU - Ben Sasson,Sivan
AU - Sadeh,Amit
AU - Manni,Yair
AU - doron-faigenboim,Adi
AU - Zemach,Hanita
AU - Schneider,Doron
AU - Birger,Reuben
AU - Meir,Shimon
AU - Philosoph-Hadas,Sonia
AU - Irihomovitch,Vered
AU - Avidan,Benjamin
AU - Lavee,Shimon
AU - Ben-Ari,Giora
T1 - Ethephon induced oxidative stress in the olive leaf abscission zone enables development of a selective abscission compound.
PY - 2017
KW -
UR - http://dx.doi.org/
N2 - Table olives (Olea europaea L.), despite their widespread production, are still harvested manually. The low efficiency of manual harvesting and the rising costs of labor have reduced the profitability of this crop. A selective abscission treatment, inducing abscission of fruits but not leaves, is crucial for the adoption of mechanical harvesting of table olives. In the present work we studied the anatomical and molecular differences between the three abscission zones (AZs) of olive fruits and leaves. The fruit abscission zone 3 (FAZ3), located between the fruit and the pedicel, was found to be the active AZ in mature fruits, whereas FAZ2, between the pedicel and the rachis, is the flower active AZ as well as functioning as an ethephon induced fruit AZ. We found anatomical differences between the leaf AZ (LAZ) and the two FAZs. Unlike the FAZs, the LAZ is characterized by small cells with less pectin compared to neighboring cells. In an attempt to differentiate between the fruit and leaf AZs, we examined the effect of treating olive-bearing trees with ethephon, an ethylene-releasing compound, with or without antioxidants, on the detachment force (DF) of fruits and leaves five days after the treatment. Ethephon treatment enhanced pectinase activity and reduced DF in all the three olive AZs. A transcriptomic analysis of the three olive AZs after ethephon treatment revealed induction of several genes encoding for hormones (ethylene, auxin and ABA), as well as for several cell wall degrading enzymes. However, up-regulation of cellulase genes was found only in the LAZ. Many genes involved in oxidative stress were induced by the ethephon treatment in the LAZ alone. In addition, we found that reactive oxygen species (ROS) mediated abscission in response to ethephon only in leaves. Thus, adding antioxidants such as ascorbic acid or butyric acid to the ethephon inhibited leaf abscission but enhanced fruit abscission. Our findings suggest that treating olive-bearing trees with a combination of ethephon and antioxidants reduces the detachment force (DF) of fruit without weakening that of the leaves. Hence, this selective abscission treatment may be used in turn to promote mechanized harvest of olives.
L3 -
JF - BMC Plant Biology
VL -
IS -
ER -