Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish)

Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish)

Herbicides have been the primary tool for controlling large populations of yield depleting weeds from agro-ecosystems, resulting in the evolution of widespread herbicide resistance. In response, nonherbicidal techniques have been developed which intercept weed seeds at harvest before they enter the soil seed bank. However, the efficiency of these techniques allows an intense selection for any trait that enables weeds to evade collection, with early-flowering ecotypes considered likely to result in early seed shedding. Using a field-collected wild radish population, five recurrent generations were selected for early maturity and three generations for late maturity. Phenology associated with flowering time and growth traits were measured. Our results demonstrate the adaptive capacity of wild radish to halve its time to flowering following five generations of early-flowering selection. Early-maturing phenotypes had reduced height and biomass at maturity, leading to less competitive, more prostrate growth forms. Following three generations of late-flowering selection, wild radish doubled its time to flowering time leading to increased biomass and flowering height at maturity. This study demonstrates the potential for the rapid evolution in growth traits in response to highly effective seed collection techniques that imposed a selection on weed populations within agro-ecosystems at harvest.

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Bibliographic Details
Main Authors: Ashworth, M. B., Walsh, M. J., Flower, K. C., Vila Aiub, M. M., Powles, S. B.
Format: info:eu-repo/semantics/article biblioteca
Language:eng
Subjects:BIOMASS, EVOLUTION, FLOWERING HEIGHT, FLOWERING TIME, PHENOTYPIC RESISTANCE, WILD RADISH,
Online Access:http://ri.agro.uba.ar/greenstone3/library/collection/arti/document/2016ashworth
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spelling snrd:2016ashworth2021-10-15T16:56:07Z Ashworth, M. B. Walsh, M. J. Flower, K. C. Vila Aiub, M. M. Powles, S. B. 2016 Herbicides have been the primary tool for controlling large populations of yield depleting weeds from agro-ecosystems, resulting in the evolution of widespread herbicide resistance. In response, nonherbicidal techniques have been developed which intercept weed seeds at harvest before they enter the soil seed bank. However, the efficiency of these techniques allows an intense selection for any trait that enables weeds to evade collection, with early-flowering ecotypes considered likely to result in early seed shedding. Using a field-collected wild radish population, five recurrent generations were selected for early maturity and three generations for late maturity. Phenology associated with flowering time and growth traits were measured. Our results demonstrate the adaptive capacity of wild radish to halve its time to flowering following five generations of early-flowering selection. Early-maturing phenotypes had reduced height and biomass at maturity, leading to less competitive, more prostrate growth forms. Following three generations of late-flowering selection, wild radish doubled its time to flowering time leading to increased biomass and flowering height at maturity. This study demonstrates the potential for the rapid evolution in growth traits in response to highly effective seed collection techniques that imposed a selection on weed populations within agro-ecosystems at harvest. application/pdf 10.1111/eva.12350 1752-4571 http://ri.agro.uba.ar/greenstone3/library/collection/arti/document/2016ashworth eng info:eu-repo/semantics/openAccess openAccess http://ri.agro.uba.ar/greenstone3/library/page/biblioteca#section4 Evolutionary Applications Vol.9 619-629 http://www.wiley.com BIOMASS EVOLUTION FLOWERING HEIGHT FLOWERING TIME PHENOTYPIC RESISTANCE WILD RADISH Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish) info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion publishedVersion
institution UBA
collection DSpace
country Argentina
countrycode AR
component Bibliográfico
access En linea
databasecode dig-ubafa
tag biblioteca
region America del Sur
libraryname Biblioteca Facultad de Agronomía
language eng
topic BIOMASS
EVOLUTION
FLOWERING HEIGHT
FLOWERING TIME
PHENOTYPIC RESISTANCE
WILD RADISH
BIOMASS
EVOLUTION
FLOWERING HEIGHT
FLOWERING TIME
PHENOTYPIC RESISTANCE
WILD RADISH
spellingShingle BIOMASS
EVOLUTION
FLOWERING HEIGHT
FLOWERING TIME
PHENOTYPIC RESISTANCE
WILD RADISH
BIOMASS
EVOLUTION
FLOWERING HEIGHT
FLOWERING TIME
PHENOTYPIC RESISTANCE
WILD RADISH
Ashworth, M. B.
Walsh, M. J.
Flower, K. C.
Vila Aiub, M. M.
Powles, S. B.
Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish)
description Herbicides have been the primary tool for controlling large populations of yield depleting weeds from agro-ecosystems, resulting in the evolution of widespread herbicide resistance. In response, nonherbicidal techniques have been developed which intercept weed seeds at harvest before they enter the soil seed bank. However, the efficiency of these techniques allows an intense selection for any trait that enables weeds to evade collection, with early-flowering ecotypes considered likely to result in early seed shedding. Using a field-collected wild radish population, five recurrent generations were selected for early maturity and three generations for late maturity. Phenology associated with flowering time and growth traits were measured. Our results demonstrate the adaptive capacity of wild radish to halve its time to flowering following five generations of early-flowering selection. Early-maturing phenotypes had reduced height and biomass at maturity, leading to less competitive, more prostrate growth forms. Following three generations of late-flowering selection, wild radish doubled its time to flowering time leading to increased biomass and flowering height at maturity. This study demonstrates the potential for the rapid evolution in growth traits in response to highly effective seed collection techniques that imposed a selection on weed populations within agro-ecosystems at harvest.
format info:eu-repo/semantics/article
topic_facet BIOMASS
EVOLUTION
FLOWERING HEIGHT
FLOWERING TIME
PHENOTYPIC RESISTANCE
WILD RADISH
author Ashworth, M. B.
Walsh, M. J.
Flower, K. C.
Vila Aiub, M. M.
Powles, S. B.
author_facet Ashworth, M. B.
Walsh, M. J.
Flower, K. C.
Vila Aiub, M. M.
Powles, S. B.
author_sort Ashworth, M. B.
title Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish)
title_short Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish)
title_full Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish)
title_fullStr Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish)
title_full_unstemmed Directional selection for flowering time leads to adaptive evolution in Raphanus raphanistrum (Wild radish)
title_sort directional selection for flowering time leads to adaptive evolution in raphanus raphanistrum (wild radish)
url http://ri.agro.uba.ar/greenstone3/library/collection/arti/document/2016ashworth
work_keys_str_mv AT ashworthmb directionalselectionforfloweringtimeleadstoadaptiveevolutioninraphanusraphanistrumwildradish
AT walshmj directionalselectionforfloweringtimeleadstoadaptiveevolutioninraphanusraphanistrumwildradish
AT flowerkc directionalselectionforfloweringtimeleadstoadaptiveevolutioninraphanusraphanistrumwildradish
AT vilaaiubmm directionalselectionforfloweringtimeleadstoadaptiveevolutioninraphanusraphanistrumwildradish
AT powlessb directionalselectionforfloweringtimeleadstoadaptiveevolutioninraphanusraphanistrumwildradish
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