Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativum

Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativum

The Martian surface is constantly exposed to a high dose of cosmic radiation consisting of highly energetic particles and multiple types of ionizing radiation. The dose can increase temporarily by a factor of 50 through the occurrence of highly energetic solar flares. This may affect crop growth in...

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Main Authors: N. Tack, G.W.W. Wamelink, A.G. Denkova, M. Schouwenburg, H. Hilhorst, H.T. Wolterbeek, P.W. Goedhart
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-08-01
Series:Frontiers in Astronomy and Space Sciences
Subjects:
radiation
Mars
Secale cereale
rye
Lepidium sativum
garden cress
Online Access:https://www.frontiersin.org/articles/10.3389/fspas.2021.665649/full
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spelling doaj-9b89b84ebd7a4ad9ae445317d9fcb50e2021-08-02T07:26:09ZengFrontiers Media S.A.Frontiers in Astronomy and Space Sciences2296-987X2021-08-01810.3389/fspas.2021.665649665649Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativumN. Tack0G.W.W. Wamelink1A.G. Denkova2M. Schouwenburg3H. Hilhorst4H.T. Wolterbeek5P.W. Goedhart6Reactor Institute Delft (RID), Delft University of Technology and Wageningen University & Research, Delft, NetherlandsWageningen Environmental Research, Wageningen University & Research, Wageningen, NetherlandsReactor Institute Delft (RID), Delft University of Technology, Delft, NetherlandsReactor Institute Delft (RID), Delft University of Technology, Delft, NetherlandsPlant Sciences Group, Laboratory of Plant Physiology, Wageningen, NetherlandsReactor Institute Delft (RID), Delft University of Technology, Delft, NetherlandsBiometris, Wageningen, NetherlandsThe Martian surface is constantly exposed to a high dose of cosmic radiation consisting of highly energetic particles and multiple types of ionizing radiation. The dose can increase temporarily by a factor of 50 through the occurrence of highly energetic solar flares. This may affect crop growth in greenhouses on the Martian surface possibly making settlement of humans more complicated. Shielding crops from radiation might be done at the expense of lighting efficiency. However, the most energy-efficient cultivation may be achieved through the use of natural daylight with the addition of LED lights. The goal of our research was to investigate whether Martian radiation, both the constant and the solar flares events, affects plant growth of two crop species, rye and garden cress. The levels of radiation received on the surface of Mars, simulated with an equivalent dose of 60Co γ-photons, had a significant negative effect on the growth of the two crop species. Although germination percentages were not affected by radiation, biomass growth was significantly decreased by 32% for cress and 48% for rye during the first 4 weeks after germination. Part of the biomass differences may be due to differences in temperature between radiation and control treatment, however it cannot explain the whole difference between the treatment and control. Coloring of leaves, necrosis and brown parts, was observed as well. Temporary increases in ionizing radiation dose at different development stages of the plants did not significantly influence the final dry weight of the crops.https://www.frontiersin.org/articles/10.3389/fspas.2021.665649/fullradiationMarsSecale cerealeryeLepidium sativumgarden cress
collection DOAJ
language English
format Article
sources DOAJ
author N. Tack
G.W.W. Wamelink
A.G. Denkova
M. Schouwenburg
H. Hilhorst
H.T. Wolterbeek
P.W. Goedhart
spellingShingle N. Tack
G.W.W. Wamelink
A.G. Denkova
M. Schouwenburg
H. Hilhorst
H.T. Wolterbeek
P.W. Goedhart
Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativum
Frontiers in Astronomy and Space Sciences
radiation
Mars
Secale cereale
rye
Lepidium sativum
garden cress
author_facet N. Tack
G.W.W. Wamelink
A.G. Denkova
M. Schouwenburg
H. Hilhorst
H.T. Wolterbeek
P.W. Goedhart
author_sort N. Tack
title Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativum
title_short Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativum
title_full Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativum
title_fullStr Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativum
title_full_unstemmed Influence of Martian Radiation-like Conditions on the Growth of Secale cereale and Lepidium sativum
title_sort influence of martian radiation-like conditions on the growth of secale cereale and lepidium sativum
publisher Frontiers Media S.A.
series Frontiers in Astronomy and Space Sciences
issn 2296-987X
publishDate 2021-08-01
description The Martian surface is constantly exposed to a high dose of cosmic radiation consisting of highly energetic particles and multiple types of ionizing radiation. The dose can increase temporarily by a factor of 50 through the occurrence of highly energetic solar flares. This may affect crop growth in greenhouses on the Martian surface possibly making settlement of humans more complicated. Shielding crops from radiation might be done at the expense of lighting efficiency. However, the most energy-efficient cultivation may be achieved through the use of natural daylight with the addition of LED lights. The goal of our research was to investigate whether Martian radiation, both the constant and the solar flares events, affects plant growth of two crop species, rye and garden cress. The levels of radiation received on the surface of Mars, simulated with an equivalent dose of 60Co γ-photons, had a significant negative effect on the growth of the two crop species. Although germination percentages were not affected by radiation, biomass growth was significantly decreased by 32% for cress and 48% for rye during the first 4 weeks after germination. Part of the biomass differences may be due to differences in temperature between radiation and control treatment, however it cannot explain the whole difference between the treatment and control. Coloring of leaves, necrosis and brown parts, was observed as well. Temporary increases in ionizing radiation dose at different development stages of the plants did not significantly influence the final dry weight of the crops.
topic radiation
Mars
Secale cereale
rye
Lepidium sativum
garden cress
url https://www.frontiersin.org/articles/10.3389/fspas.2021.665649/full
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