Environmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance

Environmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance

Pre-harvest sprouting [PHS] is a serious risk when adapting quinoa [Chenopodium quinoa] seed production to different temperate environments. Two quinoa accessions, 2-Want and Chadmo were evaluated under field conditions in the Argentinean pampas over 2 years on five different sowing dates, to explore a range of climate conditions under which seed filling is manageable in this region. Both accessions exhibited dormancy during seed development and maturation under the conditions examined; however, dormancy expression was restricted to low temperatures in 2-Want, while seeds of Chadmo, originating from the humid island of Chiloe, southern Chile, expressed a high level of dormancy at all examined temperatures. Dormancy release was observed as a reduction in the lowest temperature permissible for seed germination, which broadened the optimal germination temperature window. Higher storage temperature increased the rate of dormancy release. The environment during seed development on the mother plant affected the levels and patterns of seed dormancy, with higher temperatures and longer photoperiods promoting dormancy. As dormancy was released before the next production period, the levels of dormancy observed in the accession would allow timely planting and uniform germination, while dormancy during seed maturation ensures the prevention of PHS. Chadmo showed deeper dormancy levels in all situations, compared with 2-Want, therefore greater PHS tolerance under various conditions in the pampas region can be expected for Chadmo, which makes this accession a better candidate to be included in adaptive breeding programmes for quinoa.

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Bibliographic Details
Main Authors: Ceccato, Diana V., Bertero, Héctor Daniel, Batlla, Diego
Format: Texto biblioteca
Language:eng
Subjects:AFTERRIPENING, CHENOPODIUM QUINOA, DORMANCY, PHOTOPERIOD, PRE-HARVEST SPROUTING, TEMPERATURE,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46782
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spelling KOHA-OAI-AGRO:467822023-08-10T19:00:03Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46782AAGEnvironmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting toleranceCeccato, Diana V.Bertero, Héctor DanielBatlla, Diegotextengapplication/pdfPre-harvest sprouting [PHS] is a serious risk when adapting quinoa [Chenopodium quinoa] seed production to different temperate environments. Two quinoa accessions, 2-Want and Chadmo were evaluated under field conditions in the Argentinean pampas over 2 years on five different sowing dates, to explore a range of climate conditions under which seed filling is manageable in this region. Both accessions exhibited dormancy during seed development and maturation under the conditions examined; however, dormancy expression was restricted to low temperatures in 2-Want, while seeds of Chadmo, originating from the humid island of Chiloe, southern Chile, expressed a high level of dormancy at all examined temperatures. Dormancy release was observed as a reduction in the lowest temperature permissible for seed germination, which broadened the optimal germination temperature window. Higher storage temperature increased the rate of dormancy release. The environment during seed development on the mother plant affected the levels and patterns of seed dormancy, with higher temperatures and longer photoperiods promoting dormancy. As dormancy was released before the next production period, the levels of dormancy observed in the accession would allow timely planting and uniform germination, while dormancy during seed maturation ensures the prevention of PHS. Chadmo showed deeper dormancy levels in all situations, compared with 2-Want, therefore greater PHS tolerance under various conditions in the pampas region can be expected for Chadmo, which makes this accession a better candidate to be included in adaptive breeding programmes for quinoa.Pre-harvest sprouting [PHS] is a serious risk when adapting quinoa [Chenopodium quinoa] seed production to different temperate environments. Two quinoa accessions, 2-Want and Chadmo were evaluated under field conditions in the Argentinean pampas over 2 years on five different sowing dates, to explore a range of climate conditions under which seed filling is manageable in this region. Both accessions exhibited dormancy during seed development and maturation under the conditions examined; however, dormancy expression was restricted to low temperatures in 2-Want, while seeds of Chadmo, originating from the humid island of Chiloe, southern Chile, expressed a high level of dormancy at all examined temperatures. Dormancy release was observed as a reduction in the lowest temperature permissible for seed germination, which broadened the optimal germination temperature window. Higher storage temperature increased the rate of dormancy release. The environment during seed development on the mother plant affected the levels and patterns of seed dormancy, with higher temperatures and longer photoperiods promoting dormancy. As dormancy was released before the next production period, the levels of dormancy observed in the accession would allow timely planting and uniform germination, while dormancy during seed maturation ensures the prevention of PHS. Chadmo showed deeper dormancy levels in all situations, compared with 2-Want, therefore greater PHS tolerance under various conditions in the pampas region can be expected for Chadmo, which makes this accession a better candidate to be included in adaptive breeding programmes for quinoa.AFTERRIPENINGCHENOPODIUM QUINOADORMANCYPHOTOPERIODPRE-HARVEST SPROUTINGTEMPERATURESeed Science Research
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic AFTERRIPENING
CHENOPODIUM QUINOA
DORMANCY
PHOTOPERIOD
PRE-HARVEST SPROUTING
TEMPERATURE
AFTERRIPENING
CHENOPODIUM QUINOA
DORMANCY
PHOTOPERIOD
PRE-HARVEST SPROUTING
TEMPERATURE
spellingShingle AFTERRIPENING
CHENOPODIUM QUINOA
DORMANCY
PHOTOPERIOD
PRE-HARVEST SPROUTING
TEMPERATURE
AFTERRIPENING
CHENOPODIUM QUINOA
DORMANCY
PHOTOPERIOD
PRE-HARVEST SPROUTING
TEMPERATURE
Ceccato, Diana V.
Bertero, Héctor Daniel
Batlla, Diego
Environmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance
description Pre-harvest sprouting [PHS] is a serious risk when adapting quinoa [Chenopodium quinoa] seed production to different temperate environments. Two quinoa accessions, 2-Want and Chadmo were evaluated under field conditions in the Argentinean pampas over 2 years on five different sowing dates, to explore a range of climate conditions under which seed filling is manageable in this region. Both accessions exhibited dormancy during seed development and maturation under the conditions examined; however, dormancy expression was restricted to low temperatures in 2-Want, while seeds of Chadmo, originating from the humid island of Chiloe, southern Chile, expressed a high level of dormancy at all examined temperatures. Dormancy release was observed as a reduction in the lowest temperature permissible for seed germination, which broadened the optimal germination temperature window. Higher storage temperature increased the rate of dormancy release. The environment during seed development on the mother plant affected the levels and patterns of seed dormancy, with higher temperatures and longer photoperiods promoting dormancy. As dormancy was released before the next production period, the levels of dormancy observed in the accession would allow timely planting and uniform germination, while dormancy during seed maturation ensures the prevention of PHS. Chadmo showed deeper dormancy levels in all situations, compared with 2-Want, therefore greater PHS tolerance under various conditions in the pampas region can be expected for Chadmo, which makes this accession a better candidate to be included in adaptive breeding programmes for quinoa.
format Texto
topic_facet AFTERRIPENING
CHENOPODIUM QUINOA
DORMANCY
PHOTOPERIOD
PRE-HARVEST SPROUTING
TEMPERATURE
author Ceccato, Diana V.
Bertero, Héctor Daniel
Batlla, Diego
author_facet Ceccato, Diana V.
Bertero, Héctor Daniel
Batlla, Diego
author_sort Ceccato, Diana V.
title Environmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance
title_short Environmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance
title_full Environmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance
title_fullStr Environmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance
title_full_unstemmed Environmental control of dormancy in quinoa [Chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance
title_sort environmental control of dormancy in quinoa [chenopodium quinoa] seeds two potential genetic resources for pre - harvest sprouting tolerance
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46782
work_keys_str_mv AT ceccatodianav environmentalcontrolofdormancyinquinoachenopodiumquinoaseedstwopotentialgeneticresourcesforpreharvestsproutingtolerance
AT berterohectordaniel environmentalcontrolofdormancyinquinoachenopodiumquinoaseedstwopotentialgeneticresourcesforpreharvestsproutingtolerance
AT batlladiego environmentalcontrolofdormancyinquinoachenopodiumquinoaseedstwopotentialgeneticresourcesforpreharvestsproutingtolerance
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