Exposure to environmentally-relevant levels of ozone negatively influence pollen and fruit development
Exposure to environmentally-relevant levels of ozone negatively influence pollen and fruit development
A combination of in vitro and in vivo studies on tomato (Lycopersicon esculentum Mill. cv. Triton) revealed that environmentally-relevant levels of ozone (O3) pollution adversely affected pollen germination, germ tube growth and pollen-stigma interactions - pollen originating from plants raised in charcoal-Purafil(®) filtered air (CFA) exhibited reduced germ tube development on the stigma of plants exposed to environmentally-relevant levels of O3. The O3-induced decline in in vivo pollen viability was reflected in increased numbers of non-fertilized and fertilized non-viable ovules in immature fruit. Negative effects of O3 on fertilization occurred regardless of the timing of exposure, with reductions in ovule viability evident in O3 × CFA and CFA × O3 crossed plants. This suggests O3-induced reductions in fertilization were associated with reduced pollen viability and/or ovule development. Fruit born on trusses independently exposed to 100 nmol mol(-1) O3 (10 h d(-1)) from flowering exhibited a decline in seed number and this was reflected in a marked decline in the weight and size of individual fruit - a clear demonstration of the direct consequence of the effects of the pollutant on reproductive processes. Ozone exposure also resulted in shifts in the starch and ascorbic acid (Vitamin C) content of fruit that were consistent with accelerated ripening. The findings of this study draw attention to the need for greater consideration of, and possibly the adoption of weightings for the direct impacts of O3, and potentially other gaseous pollutants, on reproductive biology during 'risk assessment' exercises.
Ascorbic Acid/metabolism, Environment, Fruit/drug effects, Solanum lycopersicum/drug effects, Ozone/analysis, Pollen/drug effects, Reproduction/drug effects, Seeds/drug effects
494-501
Gillespie, Colin
3068259f-c046-4a24-b1ec-c625ca13dd8c
Stabler, Daniel
b275ba93-2cd8-460a-b5dc-b527a268f351
Tallentire, Eva
ff47a9e6-a3ef-4a29-abaf-10cd7eb6c4ff
Goumenaki, Eleni
e1b8a332-b886-4135-910c-fc2a3904ad60
Barnes, Jeremy
e9fa61a3-d28c-488c-ab92-ca8ec8c84f0b
1 November 2015
Gillespie, Colin
3068259f-c046-4a24-b1ec-c625ca13dd8c
Stabler, Daniel
b275ba93-2cd8-460a-b5dc-b527a268f351
Tallentire, Eva
ff47a9e6-a3ef-4a29-abaf-10cd7eb6c4ff
Goumenaki, Eleni
e1b8a332-b886-4135-910c-fc2a3904ad60
Barnes, Jeremy
e9fa61a3-d28c-488c-ab92-ca8ec8c84f0b
Gillespie, Colin, Stabler, Daniel, Tallentire, Eva, Goumenaki, Eleni and Barnes, Jeremy
(2015)
Exposure to environmentally-relevant levels of ozone negatively influence pollen and fruit development.
Environmental Pollution, 206, .
(doi:10.1016/j.envpol.2015.08.003).
Abstract
A combination of in vitro and in vivo studies on tomato (Lycopersicon esculentum Mill. cv. Triton) revealed that environmentally-relevant levels of ozone (O3) pollution adversely affected pollen germination, germ tube growth and pollen-stigma interactions - pollen originating from plants raised in charcoal-Purafil(®) filtered air (CFA) exhibited reduced germ tube development on the stigma of plants exposed to environmentally-relevant levels of O3. The O3-induced decline in in vivo pollen viability was reflected in increased numbers of non-fertilized and fertilized non-viable ovules in immature fruit. Negative effects of O3 on fertilization occurred regardless of the timing of exposure, with reductions in ovule viability evident in O3 × CFA and CFA × O3 crossed plants. This suggests O3-induced reductions in fertilization were associated with reduced pollen viability and/or ovule development. Fruit born on trusses independently exposed to 100 nmol mol(-1) O3 (10 h d(-1)) from flowering exhibited a decline in seed number and this was reflected in a marked decline in the weight and size of individual fruit - a clear demonstration of the direct consequence of the effects of the pollutant on reproductive processes. Ozone exposure also resulted in shifts in the starch and ascorbic acid (Vitamin C) content of fruit that were consistent with accelerated ripening. The findings of this study draw attention to the need for greater consideration of, and possibly the adoption of weightings for the direct impacts of O3, and potentially other gaseous pollutants, on reproductive biology during 'risk assessment' exercises.
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Published date: 1 November 2015
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Copyright © 2015 Elsevier Ltd. All rights reserved.
Keywords:
Ascorbic Acid/metabolism, Environment, Fruit/drug effects, Solanum lycopersicum/drug effects, Ozone/analysis, Pollen/drug effects, Reproduction/drug effects, Seeds/drug effects
Identifiers
Local EPrints ID: 477083
URI: http://eprints.soton.ac.uk/id/eprint/477083
ISSN: 0269-7491
PURE UUID: 56019eee-12fa-4c78-877b-d1f698311f42
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Date deposited: 25 May 2023 16:49
Last modified: 17 Mar 2024 01:35
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Author:
Colin Gillespie
Author:
Daniel Stabler
Author:
Eva Tallentire
Author:
Eleni Goumenaki
Author:
Jeremy Barnes
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