Differentiation of photoperiod-induced ABA and soluble sugar responses of two quinoa (Chenopodium quinoa willd.) cultivars

Mira Arpe Bendevis; Yujie Sun; Sergey Shabala; Eva Rosenqvist; Fulai Liu; Sven-Erik Jacobsen

doi:10.1007/s00344-013-9406-9

Differentiation of photoperiod-induced ABA and soluble sugar responses of two quinoa (Chenopodium quinoa willd.) cultivars

Mira Arpe Bendevis^*, Yujie Sun, Sergey Shabala, Eva Rosenqvist, Fulai Liu, Sven-Erik Jacobsen

^*Corresponding author for this work

Section for Crop Sciences

23 Citations (Scopus)

Abstract

Adaptation of quinoa (Chenopodium quinoa Willd.) to new regions demands acclimation to day-length, in addition to a host of other abiotic factors. To further elucidate the effects of photoperiod on development of quinoa, two differently adapted cultivars, Achachino (short day) from Bolivia and Titicaca (day-length neutral), were subjected to continuous long (17.5 h) and short (10 h) photoperiod conditions as well as a shift between the two to trigger possible adaptive mechanisms initiated by changes in leaf soluble sugar and ABA concentration. Our findings show both cultivars responding to an increase in photoperiod with significant increases in soluble sugar concentrations and a simultaneous increase in ABA. However, Titicaca exhibited a much stronger ABA response to increase in photoperiod, whereas the increase for Achachino falls within the range of natural diurnal variation. Achachino also showed increasing sensitivity to long photoperiods throughout all reproductive growth stages, resulting in continued flowering, stem elongation and disruption of seed formation, whereas Titicaca was capable of maintaining full seed set under all the photoperiod conditions. Discernible photoperiod-dependent chlorosis of the lower leaves of Titicaca was observed under long photoperiods compared to short photoperiods, implying multi-faceted adaptive responses to changes in photoperiod which may also involve nitrogen and carbon dynamics. Both ABA and sugar signals are possibly involved in regulating the photoperiod-adaptive capability of each cultivar, leading to pronounced differences in growth and reproductive development patterns between the contrasting cultivars.

Original language	English
Journal	Journal of Plant Growth Regulation
Volume	33
Issue number	3
Pages (from-to)	562-570
Number of pages	9
ISSN	0721-7595
DOIs	https://doi.org/10.1007/s00344-013-9406-9
Publication status	Published - Sept 2014

Keywords

Abscisic acid
Chenopodium
Crop adaptation
Day-length
Photoperiod
Phytohormones

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10.1007/s00344-013-9406-9

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title = "Differentiation of photoperiod-induced ABA and soluble sugar responses of two quinoa (Chenopodium quinoa willd.) cultivars",

abstract = "Adaptation of quinoa (Chenopodium quinoa Willd.) to new regions demands acclimation to day-length, in addition to a host of other abiotic factors. To further elucidate the effects of photoperiod on development of quinoa, two differently adapted cultivars, Achachino (short day) from Bolivia and Titicaca (day-length neutral), were subjected to continuous long (17.5 h) and short (10 h) photoperiod conditions as well as a shift between the two to trigger possible adaptive mechanisms initiated by changes in leaf soluble sugar and ABA concentration. Our findings show both cultivars responding to an increase in photoperiod with significant increases in soluble sugar concentrations and a simultaneous increase in ABA. However, Titicaca exhibited a much stronger ABA response to increase in photoperiod, whereas the increase for Achachino falls within the range of natural diurnal variation. Achachino also showed increasing sensitivity to long photoperiods throughout all reproductive growth stages, resulting in continued flowering, stem elongation and disruption of seed formation, whereas Titicaca was capable of maintaining full seed set under all the photoperiod conditions. Discernible photoperiod-dependent chlorosis of the lower leaves of Titicaca was observed under long photoperiods compared to short photoperiods, implying multi-faceted adaptive responses to changes in photoperiod which may also involve nitrogen and carbon dynamics. Both ABA and sugar signals are possibly involved in regulating the photoperiod-adaptive capability of each cultivar, leading to pronounced differences in growth and reproductive development patterns between the contrasting cultivars.",

keywords = "Abscisic acid, Chenopodium, Crop adaptation, Day-length, Photoperiod, Phytohormones",

author = "Bendevis, {Mira Arpe} and Yujie Sun and Sergey Shabala and Eva Rosenqvist and Fulai Liu and Sven-Erik Jacobsen",

year = "2014",

month = sep,

doi = "10.1007/s00344-013-9406-9",

language = "English",

volume = "33",

pages = "562--570",

journal = "Journal of Plant Growth Regulation",

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number = "3",

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T1 - Differentiation of photoperiod-induced ABA and soluble sugar responses of two quinoa (Chenopodium quinoa willd.) cultivars

AU - Bendevis, Mira Arpe

AU - Sun, Yujie

AU - Shabala, Sergey

AU - Rosenqvist, Eva

AU - Liu, Fulai

AU - Jacobsen, Sven-Erik

PY - 2014/9

Y1 - 2014/9

N2 - Adaptation of quinoa (Chenopodium quinoa Willd.) to new regions demands acclimation to day-length, in addition to a host of other abiotic factors. To further elucidate the effects of photoperiod on development of quinoa, two differently adapted cultivars, Achachino (short day) from Bolivia and Titicaca (day-length neutral), were subjected to continuous long (17.5 h) and short (10 h) photoperiod conditions as well as a shift between the two to trigger possible adaptive mechanisms initiated by changes in leaf soluble sugar and ABA concentration. Our findings show both cultivars responding to an increase in photoperiod with significant increases in soluble sugar concentrations and a simultaneous increase in ABA. However, Titicaca exhibited a much stronger ABA response to increase in photoperiod, whereas the increase for Achachino falls within the range of natural diurnal variation. Achachino also showed increasing sensitivity to long photoperiods throughout all reproductive growth stages, resulting in continued flowering, stem elongation and disruption of seed formation, whereas Titicaca was capable of maintaining full seed set under all the photoperiod conditions. Discernible photoperiod-dependent chlorosis of the lower leaves of Titicaca was observed under long photoperiods compared to short photoperiods, implying multi-faceted adaptive responses to changes in photoperiod which may also involve nitrogen and carbon dynamics. Both ABA and sugar signals are possibly involved in regulating the photoperiod-adaptive capability of each cultivar, leading to pronounced differences in growth and reproductive development patterns between the contrasting cultivars.

AB - Adaptation of quinoa (Chenopodium quinoa Willd.) to new regions demands acclimation to day-length, in addition to a host of other abiotic factors. To further elucidate the effects of photoperiod on development of quinoa, two differently adapted cultivars, Achachino (short day) from Bolivia and Titicaca (day-length neutral), were subjected to continuous long (17.5 h) and short (10 h) photoperiod conditions as well as a shift between the two to trigger possible adaptive mechanisms initiated by changes in leaf soluble sugar and ABA concentration. Our findings show both cultivars responding to an increase in photoperiod with significant increases in soluble sugar concentrations and a simultaneous increase in ABA. However, Titicaca exhibited a much stronger ABA response to increase in photoperiod, whereas the increase for Achachino falls within the range of natural diurnal variation. Achachino also showed increasing sensitivity to long photoperiods throughout all reproductive growth stages, resulting in continued flowering, stem elongation and disruption of seed formation, whereas Titicaca was capable of maintaining full seed set under all the photoperiod conditions. Discernible photoperiod-dependent chlorosis of the lower leaves of Titicaca was observed under long photoperiods compared to short photoperiods, implying multi-faceted adaptive responses to changes in photoperiod which may also involve nitrogen and carbon dynamics. Both ABA and sugar signals are possibly involved in regulating the photoperiod-adaptive capability of each cultivar, leading to pronounced differences in growth and reproductive development patterns between the contrasting cultivars.

KW - Abscisic acid

KW - Chenopodium

KW - Crop adaptation

KW - Day-length

KW - Photoperiod

KW - Phytohormones

U2 - 10.1007/s00344-013-9406-9

DO - 10.1007/s00344-013-9406-9

M3 - Journal article

AN - SCOPUS:84891820303

SN - 0721-7595

VL - 33

SP - 562

EP - 570

JO - Journal of Plant Growth Regulation

JF - Journal of Plant Growth Regulation

IS - 3

ER -

Differentiation of photoperiod-induced ABA and soluble sugar responses of two quinoa (Chenopodium quinoa willd.) cultivars

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Keywords

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