Abstract
The spur leaves of 20-year-old apple trees (CV. Starking/Malus prunifolia Borkh) were applied with H{sub 3}{sup 10} BO{sub 3} solution ({sup 10}B 250 {mu}g/g) during blooming period. The results showed that the {sup 10}B were transported to the other parts after two days, and the bourse shoot got most of B. The content of {sup 10}B in labelled leaves decreased with time and 60% of {sup 10}B was transported after 12 days, while the content of {sup 10}B in the young fruits and the xylem kept increasing, though {sup 10}B content was only about 10{approx}13 percent of the total B. Within 4 days, {sup 10}B content was about 30 percent of the total B in the labelled leaves. When the boron was foliar-applied the symptom of B deficiency was alleviated temporarily.
Manru, Gu;
Yuanmao, Jiang;
Huacheng, Huang;
Futian, Peng
[1]
- Shandong Agricultural University, Taian (China)
Citation Formats
Manru, Gu, Yuanmao, Jiang, Huacheng, Huang, and Futian, Peng.
The translocation and distribution of foliar-applied boron during blooming period of apple trees.
China: N. p.,
1995.
Web.
Manru, Gu, Yuanmao, Jiang, Huacheng, Huang, & Futian, Peng.
The translocation and distribution of foliar-applied boron during blooming period of apple trees.
China.
Manru, Gu, Yuanmao, Jiang, Huacheng, Huang, and Futian, Peng.
1995.
"The translocation and distribution of foliar-applied boron during blooming period of apple trees."
China.
@misc{etde_169149,
title = {The translocation and distribution of foliar-applied boron during blooming period of apple trees}
author = {Manru, Gu, Yuanmao, Jiang, Huacheng, Huang, and Futian, Peng}
abstractNote = {The spur leaves of 20-year-old apple trees (CV. Starking/Malus prunifolia Borkh) were applied with H{sub 3}{sup 10} BO{sub 3} solution ({sup 10}B 250 {mu}g/g) during blooming period. The results showed that the {sup 10}B were transported to the other parts after two days, and the bourse shoot got most of B. The content of {sup 10}B in labelled leaves decreased with time and 60% of {sup 10}B was transported after 12 days, while the content of {sup 10}B in the young fruits and the xylem kept increasing, though {sup 10}B content was only about 10{approx}13 percent of the total B. Within 4 days, {sup 10}B content was about 30 percent of the total B in the labelled leaves. When the boron was foliar-applied the symptom of B deficiency was alleviated temporarily.}
journal = []
issue = {2}
volume = {9}
journal type = {AC}
place = {China}
year = {1995}
month = {Jun}
}
title = {The translocation and distribution of foliar-applied boron during blooming period of apple trees}
author = {Manru, Gu, Yuanmao, Jiang, Huacheng, Huang, and Futian, Peng}
abstractNote = {The spur leaves of 20-year-old apple trees (CV. Starking/Malus prunifolia Borkh) were applied with H{sub 3}{sup 10} BO{sub 3} solution ({sup 10}B 250 {mu}g/g) during blooming period. The results showed that the {sup 10}B were transported to the other parts after two days, and the bourse shoot got most of B. The content of {sup 10}B in labelled leaves decreased with time and 60% of {sup 10}B was transported after 12 days, while the content of {sup 10}B in the young fruits and the xylem kept increasing, though {sup 10}B content was only about 10{approx}13 percent of the total B. Within 4 days, {sup 10}B content was about 30 percent of the total B in the labelled leaves. When the boron was foliar-applied the symptom of B deficiency was alleviated temporarily.}
journal = []
issue = {2}
volume = {9}
journal type = {AC}
place = {China}
year = {1995}
month = {Jun}
}