Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.

Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.

Peach Prunus persica (L.) Batsch is self-compatible and largely self-fertile, but under greenhouse conditions pollinators must be introduced to achieve good fruit set and quality. Because little work has been done to assess the effectiveness of different pollinators on peach trees under greenhouse c...

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Main Authors: Hong Zhang, Jiaxing Huang, Paul H Williams, Bernard E Vaissière, Zhiyong Zhou, Qinbao Gai, Jie Dong, Jiandong An
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0121143
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spelling doaj-91fc1fe1265d40bfa3ff4f83db1ee0022021-03-03T20:07:54ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01103e012114310.1371/journal.pone.0121143Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.Hong ZhangJiaxing HuangPaul H WilliamsBernard E VaissièreZhiyong ZhouQinbao GaiJie DongJiandong AnPeach Prunus persica (L.) Batsch is self-compatible and largely self-fertile, but under greenhouse conditions pollinators must be introduced to achieve good fruit set and quality. Because little work has been done to assess the effectiveness of different pollinators on peach trees under greenhouse conditions, we studied 'Okubo' peach in greenhouse tunnels near Beijing between 2012 and 2014. We measured pollen deposition, pollen-tube growth rates, ovary development, and initial fruit set after the flowers were visited by either of two managed pollinators: bumblebees, Bombus patagiatus Nylander, and honeybees, Apis mellifera L. The results show that B. patagiatus is more effective than A. mellifera as a pollinator of peach in greenhouses because of differences in two processes. First, B. patagiatus deposits more pollen grains on peach stigmas than A. mellifera, both during a single visit and during a whole day of open pollination. Second, there are differences in the fertilization performance of the pollen deposited. Half of the flowers visited by B. patagiatus are fertilized 9-11 days after bee visits, while for flowers visited by A. mellifera, half are fertilized 13-15 days after bee visits. Consequently, fruit development is also accelerated by bumblebees, showing that the different pollinators have not only different pollination efficiency, but also influence the subsequent time course of fertilization and fruit set. Flowers visited by B. patagiatus show faster ovary growth and ultimately these flowers produce more fruit. Our work shows that pollinators may influence fruit production beyond the amount of pollen delivered. We show that managed indigenous bumblebees significantly outperform introduced honeybees in increasing peach initial fruit set under greenhouse conditions.https://doi.org/10.1371/journal.pone.0121143
collection DOAJ
language English
format Article
sources DOAJ
author Hong Zhang
Jiaxing Huang
Paul H Williams
Bernard E Vaissière
Zhiyong Zhou
Qinbao Gai
Jie Dong
Jiandong An
spellingShingle Hong Zhang
Jiaxing Huang
Paul H Williams
Bernard E Vaissière
Zhiyong Zhou
Qinbao Gai
Jie Dong
Jiandong An
Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.
PLoS ONE
author_facet Hong Zhang
Jiaxing Huang
Paul H Williams
Bernard E Vaissière
Zhiyong Zhou
Qinbao Gai
Jie Dong
Jiandong An
author_sort Hong Zhang
title Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.
title_short Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.
title_full Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.
title_fullStr Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.
title_full_unstemmed Managed bumblebees outperform honeybees in increasing peach fruit set in China: different limiting processes with different pollinators.
title_sort managed bumblebees outperform honeybees in increasing peach fruit set in china: different limiting processes with different pollinators.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description Peach Prunus persica (L.) Batsch is self-compatible and largely self-fertile, but under greenhouse conditions pollinators must be introduced to achieve good fruit set and quality. Because little work has been done to assess the effectiveness of different pollinators on peach trees under greenhouse conditions, we studied 'Okubo' peach in greenhouse tunnels near Beijing between 2012 and 2014. We measured pollen deposition, pollen-tube growth rates, ovary development, and initial fruit set after the flowers were visited by either of two managed pollinators: bumblebees, Bombus patagiatus Nylander, and honeybees, Apis mellifera L. The results show that B. patagiatus is more effective than A. mellifera as a pollinator of peach in greenhouses because of differences in two processes. First, B. patagiatus deposits more pollen grains on peach stigmas than A. mellifera, both during a single visit and during a whole day of open pollination. Second, there are differences in the fertilization performance of the pollen deposited. Half of the flowers visited by B. patagiatus are fertilized 9-11 days after bee visits, while for flowers visited by A. mellifera, half are fertilized 13-15 days after bee visits. Consequently, fruit development is also accelerated by bumblebees, showing that the different pollinators have not only different pollination efficiency, but also influence the subsequent time course of fertilization and fruit set. Flowers visited by B. patagiatus show faster ovary growth and ultimately these flowers produce more fruit. Our work shows that pollinators may influence fruit production beyond the amount of pollen delivered. We show that managed indigenous bumblebees significantly outperform introduced honeybees in increasing peach initial fruit set under greenhouse conditions.
url https://doi.org/10.1371/journal.pone.0121143
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