Foliar fertilizer management for tolerance to water drought in sugarcane

Currently, Brazil is the world's largest sugarcane producer, with a planted area of approximately 8.59 million hectares. For being a crop of great prominence in the world economy, sugarcane has been widely researched, especially in the study of the causes that limit its productivity, with empha...
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Autor*in:	Lucilo José Morais de Almeida [verfasserIn] João Henrique Barbosa da Silva [verfasserIn] José Rayan Eraldo Souza Araújo [verfasserIn] José Manoel Ferreira de Lima Cruz [verfasserIn] Francisco Gledson da Silva [verfasserIn] Ewerton da Silva Barbosa [verfasserIn] Adailton Bernardo de Oliveira [verfasserIn] Belchior Oliveira Trigueiro da Silva [verfasserIn] Adailson Tulio dos Santos Silva [verfasserIn] Raiff Ramos Almeida Nascimento [verfasserIn] José Fidelis [verfasserIn] Aline Amanda da Silva Lima [verfasserIn] Edson de Souza Silva [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch ; Portugiesisch

Erschienen:	2022

Schlagwörter:	saccharum spp., foliar fertilizers, deficit

Übergeordnetes Werk:	In: Scientific Electronic Archives - Universidade Federal de Rondonópolis, 2013, 15(2022), 7
Übergeordnetes Werk:	volume:15 ; year:2022 ; number:7

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.36560/15720221563

Katalog-ID:	DOAJ043532993

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authorswithroles_txt_mv	Lucilo José Morais de Almeida @@aut@@ João Henrique Barbosa da Silva @@aut@@ José Rayan Eraldo Souza Araújo @@aut@@ José Manoel Ferreira de Lima Cruz @@aut@@ Francisco Gledson da Silva @@aut@@ Ewerton da Silva Barbosa @@aut@@ Adailton Bernardo de Oliveira @@aut@@ Belchior Oliveira Trigueiro da Silva @@aut@@ Adailson Tulio dos Santos Silva @@aut@@ Raiff Ramos Almeida Nascimento @@aut@@ José Fidelis @@aut@@ Aline Amanda da Silva Lima @@aut@@ Edson de Souza Silva @@aut@@
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author	Lucilo José Morais de Almeida
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title	Foliar fertilizer management for tolerance to water drought in sugarcane
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title_full	Foliar fertilizer management for tolerance to water drought in sugarcane
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title_sort	foliar fertilizer management for tolerance to water drought in sugarcane
title_auth	Foliar fertilizer management for tolerance to water drought in sugarcane
abstract	Currently, Brazil is the world's largest sugarcane producer, with a planted area of approximately 8.59 million hectares. For being a crop of great prominence in the world economy, sugarcane has been widely researched, especially in the study of the causes that limit its productivity, with emphasis on water availability, an important factor to be considered in Brazil, because much of the cultivation takes place in drought regions, and the producing locations are limited to seasonal rainfall. However, sugarcane may present certain mechanisms for tolerance to water stress, especially with the use of foliar fertilization for that tolerance. Therefore, this study aimed to analyze the effects of foliar fertilization as a form of tolerance to water deficit in sugarcane crop. Water stress is the responsible factor for promoting physiological changes in the crop, enabling structural and functional alterations at various organizational levels of the plant. Furthermore, another approach to minimize the effects of water stress in sugarcane is to explore the plant's defense mechanisms, especially with the use of foliar fertilization as an alternative to tolerance to water deficit, considering the several benefits caused by this application method. Plant regulators are a viable option for reducing the negative physiological causes of water stress in plants, besides helping the plant to maintain physiological processes with a rapid recovery after overcoming water stress.
abstractGer	Currently, Brazil is the world's largest sugarcane producer, with a planted area of approximately 8.59 million hectares. For being a crop of great prominence in the world economy, sugarcane has been widely researched, especially in the study of the causes that limit its productivity, with emphasis on water availability, an important factor to be considered in Brazil, because much of the cultivation takes place in drought regions, and the producing locations are limited to seasonal rainfall. However, sugarcane may present certain mechanisms for tolerance to water stress, especially with the use of foliar fertilization for that tolerance. Therefore, this study aimed to analyze the effects of foliar fertilization as a form of tolerance to water deficit in sugarcane crop. Water stress is the responsible factor for promoting physiological changes in the crop, enabling structural and functional alterations at various organizational levels of the plant. Furthermore, another approach to minimize the effects of water stress in sugarcane is to explore the plant's defense mechanisms, especially with the use of foliar fertilization as an alternative to tolerance to water deficit, considering the several benefits caused by this application method. Plant regulators are a viable option for reducing the negative physiological causes of water stress in plants, besides helping the plant to maintain physiological processes with a rapid recovery after overcoming water stress.
abstract_unstemmed	Currently, Brazil is the world's largest sugarcane producer, with a planted area of approximately 8.59 million hectares. For being a crop of great prominence in the world economy, sugarcane has been widely researched, especially in the study of the causes that limit its productivity, with emphasis on water availability, an important factor to be considered in Brazil, because much of the cultivation takes place in drought regions, and the producing locations are limited to seasonal rainfall. However, sugarcane may present certain mechanisms for tolerance to water stress, especially with the use of foliar fertilization for that tolerance. Therefore, this study aimed to analyze the effects of foliar fertilization as a form of tolerance to water deficit in sugarcane crop. Water stress is the responsible factor for promoting physiological changes in the crop, enabling structural and functional alterations at various organizational levels of the plant. Furthermore, another approach to minimize the effects of water stress in sugarcane is to explore the plant's defense mechanisms, especially with the use of foliar fertilization as an alternative to tolerance to water deficit, considering the several benefits caused by this application method. Plant regulators are a viable option for reducing the negative physiological causes of water stress in plants, besides helping the plant to maintain physiological processes with a rapid recovery after overcoming water stress.
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title_short	Foliar fertilizer management for tolerance to water drought in sugarcane
url	https://doi.org/10.36560/15720221563 https://doaj.org/article/f94ff48503304c79a9c8dec0779f3789 https://sea.ufr.edu.br/SEA/article/view/1563 https://doaj.org/toc/2316-9281
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