Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>

Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>

Wild oat (<i>Avena sterilis </i>ssp.<i> ludoviciana</i> (Durieu) Nyman) is considered the most difficult-to-control winter weed in the northern grain region (NGR) of Australia particularly following the adoption of no-till conservation agriculture and the enhanced reliance on...

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Main Authors: Mohammad Ali, Michael Widderick, Alwyn Williams, Steve Adkins
Format: Article
Language:English
Published: MDPI AG 2019-12-01
Series:Proceedings
Subjects:
wild oat
soil water stress
seed dormancy
no-till conservation agriculture
winter crop
Online Access:https://www.mdpi.com/2504-3900/36/1/1
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spelling doaj-0e4ba32250d8448a87b20241c64cf3c52020-11-24T22:09:55ZengMDPI AGProceedings2504-39002019-12-01361110.3390/proceedings2019036001proceedings2019036001Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>Mohammad Ali0Michael Widderick1Alwyn Williams2Steve Adkins3School of Agriculture and Food Sciences, The University of Queensland, Gatton 4343, AustraliaDepartment of Agriculture and Fisheries, Leslie Research Facility, Toowoomba 4350, AustraliaSchool of Agriculture and Food Sciences, The University of Queensland, Gatton 4343, AustraliaSchool of Agriculture and Food Sciences, The University of Queensland, Gatton 4343, AustraliaWild oat (<i>Avena sterilis </i>ssp.<i> ludoviciana</i> (Durieu) Nyman) is considered the most difficult-to-control winter weed in the northern grain region (NGR) of Australia particularly following the adoption of no-till conservation agriculture and the enhanced reliance on herbicides for weed control. A diversity of survival mechanisms is responsible for its persistence in no-till conservation cropping. Among them long-term, variable seed dormancy is the most important. A number of environmental stresses (for example drought) are known to affect the seed dormancy status. We hypothesized that the increasing frequency of hot and dry period in late winter/early spring season in the NGR might help to mature and shed less dormant wild oat seeds before the wheat crop is harvested. This early shedding of highly germinable seed better aids persistence in no-till conservation cropping systems. Our research showed that soil water stress applied at seed development stage resulted in lower number (16–22% less) of early maturing (5–20 days earlier) less dormant (28% less) seeds compared with control plants. This observation was made for a number of biotypes either coming from within one location or between locations within the NGR. Thus, the frequent hot and dry period at the time of seed development in the NGR is responsible for production of less dormant <i>Avena sterilis</i> ssp. <i>ludoviciana</i> seeds where no-till conservation cropping is helping to retain these seeds on the top soil. Under favourable germination conditions in the following season these less dormant seeds will immediately be available to re-infest the autumn/winter-sown wheat crop.https://www.mdpi.com/2504-3900/36/1/1wild oatsoil water stressseed dormancyno-till conservation agriculturewinter crop
collection DOAJ
language English
format Article
sources DOAJ
author Mohammad Ali
Michael Widderick
Alwyn Williams
Steve Adkins
spellingShingle Mohammad Ali
Michael Widderick
Alwyn Williams
Steve Adkins
Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>
Proceedings
wild oat
soil water stress
seed dormancy
no-till conservation agriculture
winter crop
author_facet Mohammad Ali
Michael Widderick
Alwyn Williams
Steve Adkins
author_sort Mohammad Ali
title Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>
title_short Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>
title_full Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>
title_fullStr Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>
title_full_unstemmed Impact of Soil Water Stress at Seed Development Stage on Phenology, Fecundity and Seed Dormancy of <em>Avena sterilis </em>ssp.<em> ludoviciana</em>
title_sort impact of soil water stress at seed development stage on phenology, fecundity and seed dormancy of <em>avena sterilis </em>ssp.<em> ludoviciana</em>
publisher MDPI AG
series Proceedings
issn 2504-3900
publishDate 2019-12-01
description Wild oat (<i>Avena sterilis </i>ssp.<i> ludoviciana</i> (Durieu) Nyman) is considered the most difficult-to-control winter weed in the northern grain region (NGR) of Australia particularly following the adoption of no-till conservation agriculture and the enhanced reliance on herbicides for weed control. A diversity of survival mechanisms is responsible for its persistence in no-till conservation cropping. Among them long-term, variable seed dormancy is the most important. A number of environmental stresses (for example drought) are known to affect the seed dormancy status. We hypothesized that the increasing frequency of hot and dry period in late winter/early spring season in the NGR might help to mature and shed less dormant wild oat seeds before the wheat crop is harvested. This early shedding of highly germinable seed better aids persistence in no-till conservation cropping systems. Our research showed that soil water stress applied at seed development stage resulted in lower number (16–22% less) of early maturing (5–20 days earlier) less dormant (28% less) seeds compared with control plants. This observation was made for a number of biotypes either coming from within one location or between locations within the NGR. Thus, the frequent hot and dry period at the time of seed development in the NGR is responsible for production of less dormant <i>Avena sterilis</i> ssp. <i>ludoviciana</i> seeds where no-till conservation cropping is helping to retain these seeds on the top soil. Under favourable germination conditions in the following season these less dormant seeds will immediately be available to re-infest the autumn/winter-sown wheat crop.
topic wild oat
soil water stress
seed dormancy
no-till conservation agriculture
winter crop
url https://www.mdpi.com/2504-3900/36/1/1
work_keys_str_mv AT mohammadali impactofsoilwaterstressatseeddevelopmentstageonphenologyfecundityandseeddormancyofemavenasterilisemsspemludovicianaem
AT michaelwidderick impactofsoilwaterstressatseeddevelopmentstageonphenologyfecundityandseeddormancyofemavenasterilisemsspemludovicianaem
AT alwynwilliams impactofsoilwaterstressatseeddevelopmentstageonphenologyfecundityandseeddormancyofemavenasterilisemsspemludovicianaem
AT steveadkins impactofsoilwaterstressatseeddevelopmentstageonphenologyfecundityandseeddormancyofemavenasterilisemsspemludovicianaem
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