Gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizer

Abstract The salinity of irrigation water can affect the growth and development of most plants of commercial interest. Aiming to study these aspects in passion fruit culture, an experiment was performed to evaluate the effects of bovine biofertilizer and potassium fertilization on gas exchange and p...

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Autores principales: Nunes,Járisson C., Cavalcante,Lourival F., Pereira,Walter E., Souza,José T. A., Almeida,Dácio J. de, Oresca,Denizard, Fernandes,Pedro D.
Lenguaje:English
Publicado: Pontificia Universidad Católica de Chile. Facultad de Agronomía e Ingeniería Forestal 2017
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Acceso en línea:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-16202017000200168
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spelling oai:scielo:S0718-162020170002001682017-09-26Gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizerNunes,Járisson C.Cavalcante,Lourival F.Pereira,Walter E.Souza,José T. A.Almeida,Dácio J. deOresca,DenizardFernandes,Pedro D. Fermented liquid manure Passiflora edulis Sims photosynthetic efficiency salinity Abstract The salinity of irrigation water can affect the growth and development of most plants of commercial interest. Aiming to study these aspects in passion fruit culture, an experiment was performed to evaluate the effects of bovine biofertilizer and potassium fertilization on gas exchange and production of the passion fruit ‘BRS Giant Yellow’ irrigated with non-saline and saline water. The treatments were arranged in randomized blocks with sub-subdivided plots using the 2×(3×5) scheme, which refers to two levels of electrical conductivity of the irrigation water as the main plot (0.35 and 4.00 dS m−1) and the combination of three potassic fertilization practices (without fertilization, fertilized with conventional and slow release KCl) with five doses of bovine biofertilizer (0, 25, 50, 75 and 100% of dose of 15 L m−2) in the subplots, with three replicates and 12 plants per plot. The physiological variables and the productivity were evaluated in two harvests, and the data were submitted to statistical evaluation of samples repeated in time. The application of bovine biofertilizer and potassium in soil with a sandy texture irrigated with saline water did not inhibit the degenerative effect of the salts on the photosynthetic rates of the plants. The salinity of the irrigation water reduced stomatal conductance, transpiration and net photosynthesis of the plants, but in the second crop, the instantaneous water use efficiency was higher. Although the productivity decreased from the first to the second harvest, the biofertilizer associated with potassic fertilization increased the yield of the crop, which surpassed the average of Brazil, the Brazilian Northeast and the State of Paraiba, Brazil.info:eu-repo/semantics/openAccessPontificia Universidad Católica de Chile. Facultad de Agronomía e Ingeniería ForestalCiencia e investigación agraria v.44 n.2 20172017-01-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-16202017000200168en10.7764/rcia.v44i2.1742
institution Scielo Chile
collection Scielo Chile
language English
topic Fermented liquid manure
Passiflora edulis Sims
photosynthetic efficiency
salinity
spellingShingle Fermented liquid manure
Passiflora edulis Sims
photosynthetic efficiency
salinity
Nunes,Járisson C.
Cavalcante,Lourival F.
Pereira,Walter E.
Souza,José T. A.
Almeida,Dácio J. de
Oresca,Denizard
Fernandes,Pedro D.
Gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizer
description Abstract The salinity of irrigation water can affect the growth and development of most plants of commercial interest. Aiming to study these aspects in passion fruit culture, an experiment was performed to evaluate the effects of bovine biofertilizer and potassium fertilization on gas exchange and production of the passion fruit ‘BRS Giant Yellow’ irrigated with non-saline and saline water. The treatments were arranged in randomized blocks with sub-subdivided plots using the 2×(3×5) scheme, which refers to two levels of electrical conductivity of the irrigation water as the main plot (0.35 and 4.00 dS m−1) and the combination of three potassic fertilization practices (without fertilization, fertilized with conventional and slow release KCl) with five doses of bovine biofertilizer (0, 25, 50, 75 and 100% of dose of 15 L m−2) in the subplots, with three replicates and 12 plants per plot. The physiological variables and the productivity were evaluated in two harvests, and the data were submitted to statistical evaluation of samples repeated in time. The application of bovine biofertilizer and potassium in soil with a sandy texture irrigated with saline water did not inhibit the degenerative effect of the salts on the photosynthetic rates of the plants. The salinity of the irrigation water reduced stomatal conductance, transpiration and net photosynthesis of the plants, but in the second crop, the instantaneous water use efficiency was higher. Although the productivity decreased from the first to the second harvest, the biofertilizer associated with potassic fertilization increased the yield of the crop, which surpassed the average of Brazil, the Brazilian Northeast and the State of Paraiba, Brazil.
author Nunes,Járisson C.
Cavalcante,Lourival F.
Pereira,Walter E.
Souza,José T. A.
Almeida,Dácio J. de
Oresca,Denizard
Fernandes,Pedro D.
author_facet Nunes,Járisson C.
Cavalcante,Lourival F.
Pereira,Walter E.
Souza,José T. A.
Almeida,Dácio J. de
Oresca,Denizard
Fernandes,Pedro D.
author_sort Nunes,Járisson C.
title Gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizer
title_short Gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizer
title_full Gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizer
title_fullStr Gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizer
title_full_unstemmed Gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizer
title_sort gas exchange and productivity of yellow passion fruit irrigated with saline water and fertilized with potassium and biofertilizer
publisher Pontificia Universidad Católica de Chile. Facultad de Agronomía e Ingeniería Forestal
publishDate 2017
url http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-16202017000200168
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