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(Reference retrieved automatically from SciELO through information on FAPESP grant and its corresponding number as mentioned in the publication by the authors.)

Assessment of the sensitivity of okra (Abelmoschus esculentus (L.) Moench. - Malvaceae) to ozone

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Author(s):
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Patricia Bulbovas [1] ; Silvia Maria Romano Sant'Anna [2] ; Regina Maria de Moraes [3] ; Elisabeth de Souza Lima [4] ; Juliana Moreno Pina [5] ; Marisia Pannia Esposito [6] ; Maurício Lamano Ferreira [7] ; Adriano Afonso Spielmann [8] ; Ciliane Matilde Sollito [9] ; Cynthia Hering Rinnert [10] ; Denílson Fernandes Peralta [11] ; Juliana da Silva Cardoso [12] ; Lílian Carminitti [13] ; Luciana da Silva Canêz [14] ; Marcelo M. dos Santos Reis [15] ; Michel Navarro Benatti [16] ; Silvia Ribeiro de Souza [17] ; Marisa Domingos [18]
Total Authors: 18
Affiliation:
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[1] Instituto de Botânica. Seção de Ecologia
[2] Instituto de Botânica
[3] Instituto de Botânica. Seção de Ecologia
[4] Instituto de Botânica
[5] Instituto de Botânica
[6] Instituto de Botânica
[7] Instituto de Botânica
[8] Instituto de Botânica
[9] Instituto de Botânica
[10] Instituto de Botânica
[11] Instituto de Botânica
[12] Instituto de Botânica
[13] Instituto de Botânica
[14] Instituto de Botânica
[15] Instituto de Botânica
[16] Instituto de Botânica
[17] Instituto de Botânica. Seção de Ecologia
[18] Instituto de Botânica. Seção de Ecologia
Total Affiliations: 18
Document type: Journal article
Source: Hoehnea; v. 35, n. 3, p. 359-366, 2008-00-00.
Abstract

The sensitivity of Abelmoschus esculentus to ozone (O3) was assessed in plants exposed during four days, six hours/day, to filtered air (AF) and to AF plus 80 ppb of O3 (AF+O3) into fumigation chambers, by determining visible leaf symptoms and changes on gas exchange and on antioxidants. Visible symptoms were daily evaluated. Gas exchange and antioxidants (ascorbic acid and superoxide dismutase) were analyzed at the end of the experiment. All plants from AF+O3 treatment showed leaf injury, characterized by interveinal reddish punctuations on the adaxial surfaces. In average, 15% of leaf injury index and 62% of severity were estimated. Net photosynthesis, stomatal conductance, transpiration rate, ascorbic acid level and superoxide dismutase activity were significantly reduced in those plants, compared to measurements performed in plants exposed to AF only. The results suggest that Abelmoschus esculentus is sensitive to ozone, showing low levels of antixidative defenses and physiological distubances. (AU)