Morphological and physiological responses of açaí seedlings subjected to different watering regimes

Silvestre, Walter Vellasco Duarte; Pinheiro, Hugo Alves; Souza, R. O. R. de M.; Palheta, Lenilson Ferreira

doi:10.1590/1807-1929/agriambi.v20n4p364-371

Cited by 26 publications

(22 citation statements)

References 19 publications

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“…However, species such as Euterpe oleraceae Mart. presented better quality seedlings using a drip irrigation level equal to 130% of the moisture in the field capacity, when produced in 15x25 cm polyethylene bags (Silvestre et al, 2016).…”

Section: Discussionmentioning

confidence: 99%

CROP COEFFICIENT, DRY MATTER PARTITION AND SEEDLINGS QUALITY OF Hymenaea courbaril L. IN CONTAINERS SIZES UNDER WATER DEFICIT IRRIGATION1

2017

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Native species seedlings are commonly used in the degraded areas reforestation, riparian forests and legal reserve. Among the factors that influence the seedlings quality, are the container size and the substrate water availability. Thus, the objective of this paper was to evaluate Hymenaea courbaril L. seedlings response in function of irrigation levels and container sizes. The experiment was carried out in greenhouse, in randomized blocks design, with three replications in split plots, in 2 x 5 scheme. Rigid pots of 3.1 L and stiff plastic tubes of 4.0 L were used in the plots, while irrigation levels equals to 20%, 40%, 60%, 80% and 100% of the maximum evapotranspiration (ETm) were used in the subplots. The stiff plastic tube provided larger ETm and increased seedlings quality and, consequently, larger crop coefficient (Kc) in comparison with rigid pot, in the phase from 80 to 200 days after the sowing (DAS). The Kc of the seedlings in citrovase varired from 0.54 to 1.12, of the planting at 200 DAS, according the Penman-Monteith methodology. Irrigation levels between ETm 86.8% and 100% propitiated larger seedlings quality index. To the 200 DAS, the roots dry matter was larger than the leaves dry matter, unlike the initial phases.

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Section: Discussionmentioning

confidence: 99%

CROP COEFFICIENT, DRY MATTER PARTITION AND SEEDLINGS QUALITY OF Hymenaea courbaril L. IN CONTAINERS SIZES UNDER WATER DEFICIT IRRIGATION1

2017

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“…The net CO 2 assimilation rate (A), stomatal conductance to water vapor (g s ), intercellular CO 2 concentration (C i ) and transpiration rate (E) were measured between 08:00 and 10:00 h using a portable openflow gas exchange system (LI-6400XT, LI-COR, Lincoln, NE) under an external CO 2 concentration of 400 μmol mol −1 of air and artificial PAR 1,000 μmol of photons m −2 s −1 . This measurement interval (08:00-10:00 h) was set according with the results obtained with the diurnal curve of gas exchange for the species (Silvestre et al 2016). All of the measurements were performed at 28°C, and the vapor pressure deficit was maintained at approximately 1.3 kPa; the amount of blue light was adjusted to 10 % of the photosynthetic photon irradiance to optimize the stomatal aperture.…”

Section: Determination Of Gas Exchange In Leavesmentioning

confidence: 99%

“…Consequently, there was an increase in the demand for seedlings. In nurseries, seedling production is limited by the long time (about 6 to 8 months) to reach a proper stage for transplanting (Silvestre et al 2016) and by the incidence of foliar diseases such as anthracnose (Ferreira et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Anthracnose in açaí palm leaves reduces leaf gas exchange and chlorophyll a fluorescence

Castro

Júnior

Bueno

et al. 2016

Trop. plant pathol.

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Leaf spots caused by Colletotrichum sp. decrease photosynthesis rate and hamper the growth of açaí seedlings in nurseries. The objective of the study was to quantify the changes in the photosynthetic performance of açaí leaves inoculated with Colletotrichum sp. through measurements of gas exchange, chlorophyll a fluorescence, and photosynthetic pigments. The rate of net CO 2 assimilation, stomatal conductance, transpiration rate, chlorophyll a and b, ratio of chlorophyll a/b and total chlorophyll decreased, but the intercellular CO 2 concentration increased in inoculated plants compared with non-inoculated plants. Changes in chlorophyll a fluorescence began at 3 days after inoculation (dai) and increased with the number of injuries. The maximum photochemical efficiency ratio (F v /F m) declined sharply as well as other characteristics of chlorophyll a fluorescence, such as the photochemical quenching coefficient, effective quantum yield of PSII, quantum yield of non-regulated energy dissipation, and electron transfer rate. Infection by Colletotrichum sp. reduces the photosynthetic performance due to reduced light capture and assimilation of CO 2 in the mesophyll. Gas exchange and chlorophyll a fluorescence can describe reductions in photosynthetic capacity caused by anthracnose in leaves.

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“…No entanto, o sucesso da implantação e o desenvolvimento de açaizais em áreas de terra firme depende de mudas de qualidade, resistentes e tolerantes a condições limitantes. A aplicação de insumos químicos é uma das principais práticas de manejo na agricultura moderna, adubação química fornece nutrientes essenciais ao crescimento e desenvolvimento das plantas, porém o uso exagerado destes produtos gera uma série de impactos negativos ao solo, devido a acumulação de metais pesados(ADSEMOYE et al, 2009).Nesse contexto, os produtos formulados a partir de microrganismos promotores de crescimento de plantas, atuam de diferentes formas para garantir o desenvolvimento vegetal, pois podem ser: biofertilizantes, bioestimulantes e biocontroladores de pragas e doença, com isso a aplicação de microrganismos é vista como uma alternativa de reduzir o uso de adubação química fornecendo assim uma produção sustentável(SILVESTRE et al, 2016;CASTRO et al, 2017).Os microrganismos promotores do crescimento de plantas, como as rizobactérias e fungos do gênero Trichoderma são organismos de vida livre, habitantes naturais do solo que fazem associação simbiótica com as plantas, colonizando suas raízes (HALDAR;SENGUPTA, 2015). Por meio de alguns mecanismos, estes microrganismos conseguem otimizar a promoção de crescimento das plantas, aumentando sua biomassa de parte aérea e raízes, devido alterações fisiológicas e metabólicas estimuladas por eles, como a produção de fitohormônios, bem como devido ao acúmulo nutricional nas plantas, por meio da solubilização de nutrientes no solo.…”

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Biometria E Trocas Gasosas Em Mudas De Açaizeiro Inoculadas Com Biofertilizantes

Cavalcante¹,

Santos²,

Costa³

et al. 2019

Democratização Do Conhecimento E Valorização Profissional: Caminhos Para O Desenvolvimento Tecnológico E Social.

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ResumoAs sementes de açaizeiro apresentam germinação heterogênea e baixa taxa de crescimento entre o semeio e a obtenção de mudas. O objetivo do estudo foi avaliar a biometria e trocas gasosas em mudas de açaizeiro inoculadas com os biofertilizantes compostos por rizobactérias e o Mix de Trichoderma asperrellum. Os tratamentos consistiram das inoculações individuais de seis isolados de rizobactérias, Mix de Trichoderma e um controle (inoculados com água) nas raízes das mudas de açaizeiro. Os dados de biometria e biomassa foram submetidos a análise de agrupamento, e as médias dos grupos foram comparadas pelo teste SNK (P<0,05). Três grupos foram formados, sendo o grupo 1 composto pelo controle, o grupo 2 composto pelas Rizobactérias (R-46, R-55, R-58, R-61 e R-92) e o grupo 3 composto pelo Mix de Trichoderma (T06, T09, T12 e T52). Os isolados dos grupos 2 e 3 promoveram aumento no crescimento, conteúdo de clorofilas e melhoria nos parâmetros de trocas gasosas. As mudas de açaizeiro inoculadas com Mix de Trichoderma asperrellum promoveram aumento no crescimento em 47% e no desempenho fotossintético, nos parâmetros de trocas gasosas, em 34% para A, em 52% para gs e, em 56% para E, em comparação ao grupo 1. O isolado pertencente ao grupo 3 pode contribuir para o manejo sustentável de mudas de açaizeiro em crescimento e aumenta a eficiência fotossintética das mudas de açaizeiro. Palavras-Chave: Biopromotores, Euterpe oleracea, Germinação, FotossínteseResumen Las semillas del árbol de acai (Euterpe oleraceae Mart.) Tienen uma germinación heterogénea y yna baja tasa de crecimiento entre la siembra y las plântulas. El objetivo fue evaluar la biometría y el intercambio de gases em plântulas de acai inoculadas com biofertilizantes compuestos por Rhizobacteria y Trichoderma. Los tratamientos consistieron em inoculaciones individuales de seis aislados de Rhizobacteria, una mezcla de cuatro aislados inoculaciones individuales de seis aislados de Trichoderma y yn control (rociado com agua) en las raíces de las plántulas de acai. Los datos biométricos y de biomassa se sometieron a análisis de conglomerados, y las medias grupales se compararon mediante la prueba SNK (P<0.05). Se formaron tres grupos: el grupo 1 compuesto por el control, el grupo 2 compuesto por Rhizobacteria (R-46, R-55, R-58, R-61 y R-92) y el grupo 3 por T.Mix (T-06, T-09, T-12 y T-52). Los aislamientos de los grupos 2 y 3 promovieron el aumento en el crecimiento, el contenido de clorofila y la mejora en los parámetros de intercambio de gases. Las plantas inoculadas con Trichoderma promovieron un aumento del 47% en el crecimiento y el rendimiento fotossintetico en los parámetros de intercambio de gases, 34% para A, 52% para gs, 56% para E y 32% Ci en comparación con el grupo 1. El biofertilizante Trichoderma puede contribuir al manejo sostenible de las plántulas de acai en viveros, ya que actúa como un promotor del crecimiento y aumenta la eficiencia fotossintetica de las plántulas de acai.Palabras Clave: Biopromotores, Euterpe oleraceae, germinación, fotossín...

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Morphological and physiological responses of açaí seedlings subjected to different watering regimes

Cited by 26 publications

References 19 publications

CROP COEFFICIENT, DRY MATTER PARTITION AND SEEDLINGS QUALITY OF Hymenaea courbaril L. IN CONTAINERS SIZES UNDER WATER DEFICIT IRRIGATION1

CROP COEFFICIENT, DRY MATTER PARTITION AND SEEDLINGS QUALITY OF Hymenaea courbaril L. IN CONTAINERS SIZES UNDER WATER DEFICIT IRRIGATION1

Anthracnose in açaí palm leaves reduces leaf gas exchange and chlorophyll a fluorescence

Biometria E Trocas Gasosas Em Mudas De Açaizeiro Inoculadas Com Biofertilizantes

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