Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation

Stallmann J, Schweiger R, Pons C, Müller C (2020)
Scientific Reports 10(1): 10112.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Abstract / Bemerkung
The intensity and frequency of precipitation events are predicted to change over the coming decades. For many areas, longer periods without rainfall are expected. We investigated the importance of irrigation frequency under water deficit conditions for growth, physiology and chemistry of wheat (Triticum aestivum). Drought-stressed plants received 40% of the water provided for control plants and were either watered every other day (continuous drought, cd) or every eight days (pulsed drought, pd). Maximum quantum yield of photosystem II (Fv/Fm), aboveground biomass, applied water use efficiency (WUEapl) and the flag leaf metabolome were assessed twice during development. Fv/Fm was not affected by irrigation. Drought-exposed plants produced less biomass, but had higher WUEapl than control plants. More metabolic features responded to the pd compared to the cd treatment and more features were increased than decreased in pool size in flag leaves. Salicylic acid glucoside was generally decreased under drought. In pd plants, two benzoxazinoid glucosides were enhanced at the first time point and concentrations of several flavonoid glycosides were modulated. This study extends our knowledge about drought effects on wheat; it highlights that the frequency of watering determines how plant growth, physiology and metabolism are affected by drought.
Stichworte
Multidisciplinary
Erscheinungsjahr
2020
Zeitschriftentitel
Scientific Reports
Band
10
Ausgabe
1
Art.-Nr.
10112
eISSN
2045-2322
Finanzierungs-Informationen
Open-Access-Publikationskosten wurden durch die Deutsche Forschungsgemeinschaft und die Universität Bielefeld gefördert.
Page URI
https://pub.uni-bielefeld.de/record/2944234

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Stallmann J, Schweiger R, Pons C, Müller C. Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation. Scientific Reports. 2020;10(1): 10112.
Stallmann, J., Schweiger, R., Pons, C., & Müller, C. (2020). Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation. Scientific Reports, 10(1), 10112. doi:10.1038/s41598-020-66812-1
Stallmann, Jana, Schweiger, Rabea, Pons, Caroline, and Müller, Caroline. 2020. “Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation”. Scientific Reports 10 (1): 10112.
Stallmann, J., Schweiger, R., Pons, C., and Müller, C. (2020). Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation. Scientific Reports 10:10112.
Stallmann, J., et al., 2020. Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation. Scientific Reports, 10(1): 10112.
J. Stallmann, et al., “Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation”, Scientific Reports, vol. 10, 2020, : 10112.
Stallmann, J., Schweiger, R., Pons, C., Müller, C.: Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation. Scientific Reports. 10, : 10112 (2020).
Stallmann, Jana, Schweiger, Rabea, Pons, Caroline, and Müller, Caroline. “Wheat growth, applied water use efficiency and flag leaf metabolome under continuous and pulsed deficit irrigation”. Scientific Reports 10.1 (2020): 10112.
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2020-06-30T08:44:46Z
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