Nitrogen nutrition of young triticale plants grown under aluminium stress

Detalhes bibliográficos
Autor(a) principal: Domingues, Ana Maria
Data de Publicação: 2018
Tipo de documento: Artigo
Idioma: eng
Título da fonte: Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)
Texto Completo: https://doi.org/10.19084/rca.15870
Resumo: stress   Ana Maria Domingues1, 2 1Tropical Research Institute, Department of Natural Sciences / Instituto de Investigação Científica Tropical, Departamento de Ciências Naturais Tapada da Ajuda – PAIAT, 3 rd floor/ 3º piso Apartado 3014, 1301-901 Lisboa Codex PORTUGAL 2Centro de Estudos da Macaronésia / Center for Macaronesian Studies, University of Madeira, Campus Penteada, 9000-390 Funchal - PORTUGAL E-mail: dam.portugal@hotmail.com   ABSTRACT Triticale has proven to be a tolerant crop in many places around the globe, under extreme climatic and edaphic conditions, particularly in Al-toxic soils. To suffice the growing food demand of the world population, one of the most important goal is the sustainable increase of cereal production avoiding the anthropogenic pollution, often air and groundwater contamination by volatilization and leaching of N compounds. The effects of enhanced ammonia proportion in relation to nitrate nutrition in hydroponics, with or without Al, were investigated on the short-term growth of triticale plants. Three days old plants of the Al-tolerant genotype TTE 9203 were submitted to 0 or 370 mM Al and received different NO3-/ NH4+ ratios with the four proportions 15:1, 8:1, 3:1 and 1:1 (with fixed total N concentration at 3.2 mM in all treatments). In relation to the corresponding control solutions, 370 mM Al induced important decreases in root length, ranging from 75.3 % to 47.3 %, reductions in fresh weight from 80 % to 60 % in roots, and from 89 % to 71 % in shoots, depending on the NO3-/ NH4+ ratio. A decrease in NO3- net uptake was shown by plants in the presence of Al. The most detrimental Al effect for young plant growth in nutrient solutions was observed with the 15:1 NO3-/ NH4+ ratio, which induced the highest reductions of length of the main root (52.7 % reduction relative to control) and of root biomass fresh weight (40.6 %) in four days of treatment. By the contrary, the plants grown in the 8:1 ratio solution with Al suffered the smallest reductions of root length (24.7 % in 370 mM Al treatment relative to control) and of root biomass fresh weight (20.3 %). Taken together the results indicate that NH4+ can alleviate Al toxicity in triticale and point out the ideal NO3-/ NH4+ proportion of 8:1 as the best for these young plants growth and N use efficiency, under acidic and Al toxic condition. Some economical and ecological advantages of NH4+- N sources use in plant fertilization are discussed.
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spelling Nitrogen nutrition of young triticale plants grown under aluminium stressAdubação azotada de plântulas de triticale sob toxicidade de alumínioGeralstress   Ana Maria Domingues1, 2 1Tropical Research Institute, Department of Natural Sciences / Instituto de Investigação Científica Tropical, Departamento de Ciências Naturais Tapada da Ajuda – PAIAT, 3 rd floor/ 3º piso Apartado 3014, 1301-901 Lisboa Codex PORTUGAL 2Centro de Estudos da Macaronésia / Center for Macaronesian Studies, University of Madeira, Campus Penteada, 9000-390 Funchal - PORTUGAL E-mail: dam.portugal@hotmail.com   ABSTRACT Triticale has proven to be a tolerant crop in many places around the globe, under extreme climatic and edaphic conditions, particularly in Al-toxic soils. To suffice the growing food demand of the world population, one of the most important goal is the sustainable increase of cereal production avoiding the anthropogenic pollution, often air and groundwater contamination by volatilization and leaching of N compounds. The effects of enhanced ammonia proportion in relation to nitrate nutrition in hydroponics, with or without Al, were investigated on the short-term growth of triticale plants. Three days old plants of the Al-tolerant genotype TTE 9203 were submitted to 0 or 370 mM Al and received different NO3-/ NH4+ ratios with the four proportions 15:1, 8:1, 3:1 and 1:1 (with fixed total N concentration at 3.2 mM in all treatments). In relation to the corresponding control solutions, 370 mM Al induced important decreases in root length, ranging from 75.3 % to 47.3 %, reductions in fresh weight from 80 % to 60 % in roots, and from 89 % to 71 % in shoots, depending on the NO3-/ NH4+ ratio. A decrease in NO3- net uptake was shown by plants in the presence of Al. The most detrimental Al effect for young plant growth in nutrient solutions was observed with the 15:1 NO3-/ NH4+ ratio, which induced the highest reductions of length of the main root (52.7 % reduction relative to control) and of root biomass fresh weight (40.6 %) in four days of treatment. By the contrary, the plants grown in the 8:1 ratio solution with Al suffered the smallest reductions of root length (24.7 % in 370 mM Al treatment relative to control) and of root biomass fresh weight (20.3 %). Taken together the results indicate that NH4+ can alleviate Al toxicity in triticale and point out the ideal NO3-/ NH4+ proportion of 8:1 as the best for these young plants growth and N use efficiency, under acidic and Al toxic condition. Some economical and ecological advantages of NH4+- N sources use in plant fertilization are discussed.O triticale constitui uma cultura tolerante a condições climáticas e edáficas extremas, estando bem adaptado a solos ácidos, com níveis tóxicos de Al. A satisfação das necessidades cerealíferas crescentes da população mundial é o desafio fundamental da agricultura sustentável, evitando a poluição antropogénica, frequentemente por compostos azotados contaminantes de aquíferos e da atmosfera. Foi estudado o enriquecimento amoniacal na adubação azotada em triticale, na presença de alumínio tóxico. As plantas com três dias do genótipo tolerante ao Al TTE 9203 foram sujeitas à presença de 0 ou 370 mM Al e receberam as quatro proporções de NO3-/ NH4+ seguintes 15:1, 8:1, 3:1 e 1:1, tendo sido fixada a concentração total de 3,2 mM N nas diferentes modalidades em solução nutritiva. Relativamente aos correspondentes controlos, os tratamentos com 370 mM Al induziram reduções importantes no crescimento, que variaram significativamente entre 75,3% e 47,3% do comprimento radicular, 80% a 60% da biomassa radicular e 89% a 71% da biomassa aérea, segundo a proporção de NO3-/ NH4+ presente na solução nutritiva. Efectivamente, o Al tóxico reduziu muito significativamente a absorção de nitrato pelas plantas. O efeito negativo do Al nas jovens plantas foi mais evidente na modalidade com a proporção 15:1 NO3-/ NH4+, tendo a presença de Al provocado as reduções de 52,7 % do alongamento da radícula mais longa e de 40,6 % da biomassa fresca de raiz produzida em quatro dias de tratamento. Pelo contrário, na modalidade com a proporção 8:1 NO3-/ NH4+, as raízes das plantas sofreram as reduções mínimas daqueles parâmetros relativamente ao correspondente controlo (24,7 % e 20,3 %, respectivamente). No seu conjunto, os resultados obtidos indicaram que o NH4+ pode aliviar a toxicidade do Al em triticale, na fase vegetativa precoce que constitui a mais susceptível à toxicidade daquele metal. Sob stress por Al, a proporção de NO3-/ NH4+ ideal para o crescimento das plântulas e maior eficiência de uso do azoto será aproximadamente de 8:1. São discutidos aspectos económicos e ecológicos da utilização de fontes alternativas de azoto amoniacal na fertilização da cultura.Sociedade de Ciências Agrárias de Portugal2018-12-05T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articlehttps://doi.org/10.19084/rca.15870eng2183-041X0871-018XDomingues, Ana Mariainfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2022-09-06T09:23:59Zoai:ojs.revistas.rcaap.pt:article/15870Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-19T15:30:38.973808Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse
dc.title.none.fl_str_mv Nitrogen nutrition of young triticale plants grown under aluminium stress
Adubação azotada de plântulas de triticale sob toxicidade de alumínio
title Nitrogen nutrition of young triticale plants grown under aluminium stress
spellingShingle Nitrogen nutrition of young triticale plants grown under aluminium stress
Domingues, Ana Maria
Geral
title_short Nitrogen nutrition of young triticale plants grown under aluminium stress
title_full Nitrogen nutrition of young triticale plants grown under aluminium stress
title_fullStr Nitrogen nutrition of young triticale plants grown under aluminium stress
title_full_unstemmed Nitrogen nutrition of young triticale plants grown under aluminium stress
title_sort Nitrogen nutrition of young triticale plants grown under aluminium stress
author Domingues, Ana Maria
author_facet Domingues, Ana Maria
author_role author
dc.contributor.author.fl_str_mv Domingues, Ana Maria
dc.subject.por.fl_str_mv Geral
topic Geral
description stress   Ana Maria Domingues1, 2 1Tropical Research Institute, Department of Natural Sciences / Instituto de Investigação Científica Tropical, Departamento de Ciências Naturais Tapada da Ajuda – PAIAT, 3 rd floor/ 3º piso Apartado 3014, 1301-901 Lisboa Codex PORTUGAL 2Centro de Estudos da Macaronésia / Center for Macaronesian Studies, University of Madeira, Campus Penteada, 9000-390 Funchal - PORTUGAL E-mail: dam.portugal@hotmail.com   ABSTRACT Triticale has proven to be a tolerant crop in many places around the globe, under extreme climatic and edaphic conditions, particularly in Al-toxic soils. To suffice the growing food demand of the world population, one of the most important goal is the sustainable increase of cereal production avoiding the anthropogenic pollution, often air and groundwater contamination by volatilization and leaching of N compounds. The effects of enhanced ammonia proportion in relation to nitrate nutrition in hydroponics, with or without Al, were investigated on the short-term growth of triticale plants. Three days old plants of the Al-tolerant genotype TTE 9203 were submitted to 0 or 370 mM Al and received different NO3-/ NH4+ ratios with the four proportions 15:1, 8:1, 3:1 and 1:1 (with fixed total N concentration at 3.2 mM in all treatments). In relation to the corresponding control solutions, 370 mM Al induced important decreases in root length, ranging from 75.3 % to 47.3 %, reductions in fresh weight from 80 % to 60 % in roots, and from 89 % to 71 % in shoots, depending on the NO3-/ NH4+ ratio. A decrease in NO3- net uptake was shown by plants in the presence of Al. The most detrimental Al effect for young plant growth in nutrient solutions was observed with the 15:1 NO3-/ NH4+ ratio, which induced the highest reductions of length of the main root (52.7 % reduction relative to control) and of root biomass fresh weight (40.6 %) in four days of treatment. By the contrary, the plants grown in the 8:1 ratio solution with Al suffered the smallest reductions of root length (24.7 % in 370 mM Al treatment relative to control) and of root biomass fresh weight (20.3 %). Taken together the results indicate that NH4+ can alleviate Al toxicity in triticale and point out the ideal NO3-/ NH4+ proportion of 8:1 as the best for these young plants growth and N use efficiency, under acidic and Al toxic condition. Some economical and ecological advantages of NH4+- N sources use in plant fertilization are discussed.
publishDate 2018
dc.date.none.fl_str_mv 2018-12-05T00:00:00Z
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
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