Search Results - "Banhos, Otavia F.A.A."

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  1. 1
    Aluminum-induced decrease in CO2 assimilation in ‘Rangpur’ lime is associated with low stomatal conductance rather than low photochemical performances

    Aluminum-induced decrease in CO2 assimilation in ‘Rangpur’ lime is associated with low stomatal conductance rather than low photochemical performances by Banhos, Otavia F.A.A., de O. Carvalho, Brenda M., da Veiga, Eduardo B., Bressan, Anna C.G., Tanaka, Francisco A.O., Habermann, Gustavo

    Published in Scientia horticulturae (23-06-2016)
    “…•Aluminum (Al) can decrease the CO2 assimilation rate (A) in Citrus.•It may be related to low photochemical performances or stomatal conductance (gs).•Low gs…”
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  2. 2
    Aluminum-induced high IAA concentration may explain the Al susceptibility in Citrus limonia

    Aluminum-induced high IAA concentration may explain the Al susceptibility in Citrus limonia by Silva, Carolina M. S., Cavalheiro, Mariana F., Bressan, Anna C. G., Carvalho, Brenda M. O., Banhos, Otavia F. A. A., Purgatto, Eduardo, Harakava, Ricardo, Tanaka, Francisco A. O., Habermann, Gustavo

    Published in Plant growth regulation (01-01-2019)
    “…In acidic soils (pH < 5.0), aluminum (Al) occurs as Al 3+ , which is phytotoxic and reduces the root growth by hormonal imbalance and/or cell wall rigidity…”
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  3. 3
    Aluminum-induced decrease in CO2 assimilation in ‘Rangpur’ lime is associated with low stomatal conductance rather than low photochemical performances

    Aluminum-induced decrease in CO2 assimilation in ‘Rangpur’ lime is associated with low stomatal conductance rather than low photochemical performances by Banhos, Otavia F.A.A, Brenda M. de O. Carvalho, Eduardo B. da Veiga, Anna C.G. Bressan, Francisco A.O. Tanaka, Gustavo Habermann

    Published in Scientia horticulturae (2016)
    “…Aluminum (Al) is toxic to most plants. Although inhibition of root elongation can occur even under 10μM Al, above 1000μM damage to photochemical performances…”
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  4. 4
    Physiological, anatomical and ultrastructural effects of aluminum on Styrax camporum, a native Cerrado woody species

    Physiological, anatomical and ultrastructural effects of aluminum on Styrax camporum, a native Cerrado woody species by Bressan, Anna C. G., Silva, Giselle S., Banhos, Otavia F. A. A., Tanaka, Francisco A. O., Habermann, Gustavo

    Published in Journal of plant research (01-09-2020)
    “…Styrax camporum Pohl. (Styracaceae) is a woody species that grows on acidic soils from the Brazilian savanna with high aluminum (Al) saturation (m% > 50%),…”
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  5. 5
    High aluminum availability may affect Styrax camporum, an Al non-accumulating species from the Brazilian savanna

    High aluminum availability may affect Styrax camporum, an Al non-accumulating species from the Brazilian savanna by Banhos, Otávia F. A. A., de Souza, Marcelo Claro, Habermann, Gustavo

    “…In the Cerrado vegetation, generally known as ‘Brazilian savanna’, aluminum (Al) accumulating and non-accumulating plants coexist, growing on soils that are…”
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