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Ion homeostasis response to nutrient-deficiency stress in plants. / Osmolovskaya , N.; Shumilina, J.; Bureiko, K.; Chantseva, V.; Bilova, T.; Kuchaeva, L.; Laman, N. ; Wessjohann, L.; Frolov, A.

Cell Growth. ред. / Biba Vikas; Michael Fasullo. InTech, 2020.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаяРецензирование

Harvard

Osmolovskaya , N, Shumilina, J, Bureiko, K, Chantseva, V, Bilova, T, Kuchaeva, L, Laman, N, Wessjohann, L & Frolov, A 2020, Ion homeostasis response to nutrient-deficiency stress in plants. в B Vikas & M Fasullo (ред.), Cell Growth. InTech. https://doi.org/10.5772/intechopen.89398

APA

Osmolovskaya , N., Shumilina, J., Bureiko, K., Chantseva, V., Bilova, T., Kuchaeva, L., Laman, N., Wessjohann, L., & Frolov, A. (2020). Ion homeostasis response to nutrient-deficiency stress in plants. в B. Vikas, & M. Fasullo (Ред.), Cell Growth InTech. https://doi.org/10.5772/intechopen.89398

Vancouver

Osmolovskaya N, Shumilina J, Bureiko K, Chantseva V, Bilova T, Kuchaeva L и пр. Ion homeostasis response to nutrient-deficiency stress in plants. в Vikas B, Fasullo M, Редакторы, Cell Growth. InTech. 2020 https://doi.org/10.5772/intechopen.89398

Author

Osmolovskaya , N. ; Shumilina, J. ; Bureiko, K. ; Chantseva, V. ; Bilova, T. ; Kuchaeva, L. ; Laman, N. ; Wessjohann, L. ; Frolov, A. / Ion homeostasis response to nutrient-deficiency stress in plants. Cell Growth. Редактор / Biba Vikas ; Michael Fasullo. InTech, 2020.

BibTeX

@inbook{3dc87b09a89141c194463a32819c06c4,
title = "Ion homeostasis response to nutrient-deficiency stress in plants",
abstract = "A crucial feature of plant performance is its strong dependence on the availability of essential mineral nutrients, affecting multiple vital functions. Indeed, mineral-nutrient deficiency is one of the major stress factors affecting plant growth and development. Thereby, nitrogen and potassium represent the most abundant mineral contributors, critical for plant survival. While studying plant responses to nutrient deficiency, one should keep in mind that mineral nutrients, along with their specific metabolic roles, are directly involved in maintaining cell ion homeostasis, which relies on a finely tuned equilibrium between cytosolic and vacuolar ion pools. Therefore, in this chapter we briefly summarize the role of the ion homeostasis system in cell responses to environmental deficiency of nitrate and potassium ions. Special attention is paid to the implementation of plant responses via NO3 − and K+ root transport and regulation of ion distribution in cell compartments. These responses are strongly dependent on plant species, as well as severity and duration of nutrient deficiency.",
keywords = "nutrient deficiency, ion homeostasis, nitrate, potassium, ion transport mechanisms, vacuolar and cytosolic ion pools",
author = "N. Osmolovskaya and J. Shumilina and K. Bureiko and V. Chantseva and T. Bilova and L. Kuchaeva and N. Laman and L. Wessjohann and A. Frolov",
year = "2020",
doi = "10.5772/intechopen.89398",
language = "English",
isbn = "978-1-78923-806-8",
editor = "Biba Vikas and { Fasullo}, Michael",
booktitle = "Cell Growth",
publisher = "InTech",
address = "United Kingdom",

}

RIS

TY - CHAP

T1 - Ion homeostasis response to nutrient-deficiency stress in plants

AU - Osmolovskaya , N.

AU - Shumilina, J.

AU - Bureiko, K.

AU - Chantseva, V.

AU - Bilova, T.

AU - Kuchaeva, L.

AU - Laman, N.

AU - Wessjohann, L.

AU - Frolov, A.

PY - 2020

Y1 - 2020

N2 - A crucial feature of plant performance is its strong dependence on the availability of essential mineral nutrients, affecting multiple vital functions. Indeed, mineral-nutrient deficiency is one of the major stress factors affecting plant growth and development. Thereby, nitrogen and potassium represent the most abundant mineral contributors, critical for plant survival. While studying plant responses to nutrient deficiency, one should keep in mind that mineral nutrients, along with their specific metabolic roles, are directly involved in maintaining cell ion homeostasis, which relies on a finely tuned equilibrium between cytosolic and vacuolar ion pools. Therefore, in this chapter we briefly summarize the role of the ion homeostasis system in cell responses to environmental deficiency of nitrate and potassium ions. Special attention is paid to the implementation of plant responses via NO3 − and K+ root transport and regulation of ion distribution in cell compartments. These responses are strongly dependent on plant species, as well as severity and duration of nutrient deficiency.

AB - A crucial feature of plant performance is its strong dependence on the availability of essential mineral nutrients, affecting multiple vital functions. Indeed, mineral-nutrient deficiency is one of the major stress factors affecting plant growth and development. Thereby, nitrogen and potassium represent the most abundant mineral contributors, critical for plant survival. While studying plant responses to nutrient deficiency, one should keep in mind that mineral nutrients, along with their specific metabolic roles, are directly involved in maintaining cell ion homeostasis, which relies on a finely tuned equilibrium between cytosolic and vacuolar ion pools. Therefore, in this chapter we briefly summarize the role of the ion homeostasis system in cell responses to environmental deficiency of nitrate and potassium ions. Special attention is paid to the implementation of plant responses via NO3 − and K+ root transport and regulation of ion distribution in cell compartments. These responses are strongly dependent on plant species, as well as severity and duration of nutrient deficiency.

KW - nutrient deficiency, ion homeostasis, nitrate, potassium, ion transport mechanisms, vacuolar and cytosolic ion pools

U2 - 10.5772/intechopen.89398

DO - 10.5772/intechopen.89398

M3 - Chapter

SN - 978-1-78923-806-8

BT - Cell Growth

A2 - Vikas, Biba

A2 - Fasullo, Michael

PB - InTech

ER -

ID: 76996834