Can yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using Paclobutrazol

Can yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using Paclobutrazol

One factor conditioning quinoa [Chenopodium quinoa Willd.] adoption is the need to increase yield. This paper analyses the effect that Paclobutrazol, a GA synthesis inhibitor, produces on yield, biomass, partitioning, seed number and weight in quinoa. Two experiments were conducted under field conditions: one compared a tall genotype [2-Want] with a shorter genotype [NL-6]; while the other analysed seed yield and its components using the 2-Want genotype. As a consequence of Paclobutrazol application in the one-genotype experiment, plant height decreased from 197 to 138 cm, yield increased from 517 to 791 g m -2, seed numbers rose from 308 000 to 432 000 seeds per m 2, and the harvest index increased from 0.282 to 0.398 g g -1. Biomass accumulation and seed weight were not affected. The leaf area index was reduced by Paclobutrazol but radiation interception was only marginally reduced; soil plant analysis development [SPAD] values and specific leaf weight were increased, but radiation use efficiency was not affected by treatments. Root biomass and lateral roots tended to increase under Paclobutrazol treatment. Genotypes were compared until the end of flowering and similar responses were obtained. Higher yields could be obtained in quinoa if reproductive partitioning was increased, turning it into a good candidate in the search for high quality protein sources.

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Main Authors: Gómez, María Belén, Aguirre Castro Moreno, Paula Haydeé, Mignone, César Mario, Bertero, Héctor Daniel
Format: Texto biblioteca
Language:eng
Subjects:FLORAL DEVELOPMENT, HARVEST INDEX, PANICLE GROWTH, PLANT GROWTH REGULATORS, ROOT GROWTH, SEED NUMBER, DICOTYLEDON, GENOTYPE, GROWTH REGULATOR, INHIBITOR, LEAF AREA INDEX, LIGHT USE EFFICIENCY, PROTEIN, ROOT, SEED, YIELD RESPONSE, CHENOPODIUM QUINOA,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46720
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spelling KOHA-OAI-AGRO:467202023-03-29T12:58:46Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46720AAGCan yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using PaclobutrazolGómez, María BelénAguirre Castro Moreno, Paula HaydeéMignone, César MarioBertero, Héctor Danieltextengapplication/pdfOne factor conditioning quinoa [Chenopodium quinoa Willd.] adoption is the need to increase yield. This paper analyses the effect that Paclobutrazol, a GA synthesis inhibitor, produces on yield, biomass, partitioning, seed number and weight in quinoa. Two experiments were conducted under field conditions: one compared a tall genotype [2-Want] with a shorter genotype [NL-6]; while the other analysed seed yield and its components using the 2-Want genotype. As a consequence of Paclobutrazol application in the one-genotype experiment, plant height decreased from 197 to 138 cm, yield increased from 517 to 791 g m -2, seed numbers rose from 308 000 to 432 000 seeds per m 2, and the harvest index increased from 0.282 to 0.398 g g -1. Biomass accumulation and seed weight were not affected. The leaf area index was reduced by Paclobutrazol but radiation interception was only marginally reduced; soil plant analysis development [SPAD] values and specific leaf weight were increased, but radiation use efficiency was not affected by treatments. Root biomass and lateral roots tended to increase under Paclobutrazol treatment. Genotypes were compared until the end of flowering and similar responses were obtained. Higher yields could be obtained in quinoa if reproductive partitioning was increased, turning it into a good candidate in the search for high quality protein sources.One factor conditioning quinoa [Chenopodium quinoa Willd.] adoption is the need to increase yield. This paper analyses the effect that Paclobutrazol, a GA synthesis inhibitor, produces on yield, biomass, partitioning, seed number and weight in quinoa. Two experiments were conducted under field conditions: one compared a tall genotype [2-Want] with a shorter genotype [NL-6]; while the other analysed seed yield and its components using the 2-Want genotype. As a consequence of Paclobutrazol application in the one-genotype experiment, plant height decreased from 197 to 138 cm, yield increased from 517 to 791 g m -2, seed numbers rose from 308 000 to 432 000 seeds per m 2, and the harvest index increased from 0.282 to 0.398 g g -1. Biomass accumulation and seed weight were not affected. The leaf area index was reduced by Paclobutrazol but radiation interception was only marginally reduced; soil plant analysis development [SPAD] values and specific leaf weight were increased, but radiation use efficiency was not affected by treatments. Root biomass and lateral roots tended to increase under Paclobutrazol treatment. Genotypes were compared until the end of flowering and similar responses were obtained. Higher yields could be obtained in quinoa if reproductive partitioning was increased, turning it into a good candidate in the search for high quality protein sources.FLORAL DEVELOPMENTHARVEST INDEXPANICLE GROWTHPLANT GROWTH REGULATORSROOT GROWTHSEED NUMBERDICOTYLEDONGENOTYPEGROWTH REGULATORINHIBITORLEAF AREA INDEXLIGHT USE EFFICIENCYPROTEINROOTSEEDYIELD RESPONSECHENOPODIUM QUINOAFunctional Plant Biology
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 FLORAL DEVELOPMENT
HARVEST INDEX
PANICLE GROWTH
PLANT GROWTH REGULATORS
ROOT GROWTH
SEED NUMBER
DICOTYLEDON
GENOTYPE
GROWTH REGULATOR
INHIBITOR
LEAF AREA INDEX
LIGHT USE EFFICIENCY
PROTEIN
ROOT
SEED
YIELD RESPONSE
CHENOPODIUM QUINOA
FLORAL DEVELOPMENT
HARVEST INDEX
PANICLE GROWTH
PLANT GROWTH REGULATORS
ROOT GROWTH
SEED NUMBER
DICOTYLEDON
GENOTYPE
GROWTH REGULATOR
INHIBITOR
LEAF AREA INDEX
LIGHT USE EFFICIENCY
PROTEIN
ROOT
SEED
YIELD RESPONSE
CHENOPODIUM QUINOA
spellingShingle FLORAL DEVELOPMENT
HARVEST INDEX
PANICLE GROWTH
PLANT GROWTH REGULATORS
ROOT GROWTH
SEED NUMBER
DICOTYLEDON
GENOTYPE
GROWTH REGULATOR
INHIBITOR
LEAF AREA INDEX
LIGHT USE EFFICIENCY
PROTEIN
ROOT
SEED
YIELD RESPONSE
CHENOPODIUM QUINOA
FLORAL DEVELOPMENT
HARVEST INDEX
PANICLE GROWTH
PLANT GROWTH REGULATORS
ROOT GROWTH
SEED NUMBER
DICOTYLEDON
GENOTYPE
GROWTH REGULATOR
INHIBITOR
LEAF AREA INDEX
LIGHT USE EFFICIENCY
PROTEIN
ROOT
SEED
YIELD RESPONSE
CHENOPODIUM QUINOA
Gómez, María Belén
Aguirre Castro Moreno, Paula Haydeé
Mignone, César Mario
Bertero, Héctor Daniel
Can yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using Paclobutrazol
description One factor conditioning quinoa [Chenopodium quinoa Willd.] adoption is the need to increase yield. This paper analyses the effect that Paclobutrazol, a GA synthesis inhibitor, produces on yield, biomass, partitioning, seed number and weight in quinoa. Two experiments were conducted under field conditions: one compared a tall genotype [2-Want] with a shorter genotype [NL-6]; while the other analysed seed yield and its components using the 2-Want genotype. As a consequence of Paclobutrazol application in the one-genotype experiment, plant height decreased from 197 to 138 cm, yield increased from 517 to 791 g m -2, seed numbers rose from 308 000 to 432 000 seeds per m 2, and the harvest index increased from 0.282 to 0.398 g g -1. Biomass accumulation and seed weight were not affected. The leaf area index was reduced by Paclobutrazol but radiation interception was only marginally reduced; soil plant analysis development [SPAD] values and specific leaf weight were increased, but radiation use efficiency was not affected by treatments. Root biomass and lateral roots tended to increase under Paclobutrazol treatment. Genotypes were compared until the end of flowering and similar responses were obtained. Higher yields could be obtained in quinoa if reproductive partitioning was increased, turning it into a good candidate in the search for high quality protein sources.
format Texto
topic_facet FLORAL DEVELOPMENT
HARVEST INDEX
PANICLE GROWTH
PLANT GROWTH REGULATORS
ROOT GROWTH
SEED NUMBER
DICOTYLEDON
GENOTYPE
GROWTH REGULATOR
INHIBITOR
LEAF AREA INDEX
LIGHT USE EFFICIENCY
PROTEIN
ROOT
SEED
YIELD RESPONSE
CHENOPODIUM QUINOA
author Gómez, María Belén
Aguirre Castro Moreno, Paula Haydeé
Mignone, César Mario
Bertero, Héctor Daniel
author_facet Gómez, María Belén
Aguirre Castro Moreno, Paula Haydeé
Mignone, César Mario
Bertero, Héctor Daniel
author_sort Gómez, María Belén
title Can yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using Paclobutrazol
title_short Can yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using Paclobutrazol
title_full Can yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using Paclobutrazol
title_fullStr Can yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using Paclobutrazol
title_full_unstemmed Can yield potential be increased by manipulation of reproductive partitioning in quinoa [Chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using Paclobutrazol
title_sort can yield potential be increased by manipulation of reproductive partitioning in quinoa [chenopodium quinoa]? evidence from gibberellic acid synthesis inhibition using paclobutrazol
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46720
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AT aguirrecastromorenopaulahaydee canyieldpotentialbeincreasedbymanipulationofreproductivepartitioninginquinoachenopodiumquinoaevidencefromgibberellicacidsynthesisinhibitionusingpaclobutrazol
AT mignonecesarmario canyieldpotentialbeincreasedbymanipulationofreproductivepartitioninginquinoachenopodiumquinoaevidencefromgibberellicacidsynthesisinhibitionusingpaclobutrazol
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