Transpiration, leaf diffusive conductance, and atmospheric water demand relationship in an irrigated acid lime orchard

Author:

Angelocci Luiz Roberto1,Marin Fábio Ricardo2,Oliveira Ricardo Ferraz de3,Righi Evandro Zanini3

Affiliation:

1. Universidade de São Paulo, Brasil

2. Empresa Brasileira de Pesquisa Agropecuária, Brasil

3. Universidade de São Paulo

Abstract

Leaf vapor diffusive conductance (gl) and transpiration (T) measurements in an irrigated orchard of the acid lime "Tahiti" were carried out in a subtropical climatic condition in the State of São Paulo, Brazil. Measurements were made using steady-state null-balance porometers and were taken throughout the day, on several occasions from February to November, 1998. During September and October, measurements were performed on exposed and shaded young and fully expanded leaves, as well as on old leaves inside the tree canopy. The old leaves showed lower values of gl and T when compared to the other groups. In the other months, measurements were taken only with exposed and shaded fully expanded leaves. The highest values of gl and T were obtained from February to April. For exposed leaves gl was higher from early morning to midday, decreasing thereafter with some oscillation in the afternoon. Shaded leaves produced a pattern of increasing gl and T from 8:00-9:00 a.m. to midday, followed by a decrease when values matched those of the exposed leaves in the afternoon. In April, the first measurement in midmorning showed low gl and T values, increasing sharply in the exposed leaves until midday and then decreasing until the end of the afternoon. Between May and November, gl and T decreased sharply compared to the previous months. Boundary line and regression analysis were used to find the mathematical relationships between mean values of gl for the tree and photosynthetic photons flux density, temperature, and vapor pressure deficit of the air measured in the orchard. Based on this analysis, the reasons for the gl and T diurnal and annual variation patterns are discussed, with emphasis on the effects of atmospheric variables upon stomatal regulation.

Publisher

FapUNIFESP (SciELO)

Subject

Plant Science,Agronomy and Crop Science

Reference18 articles.

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2. Determination of orchard water requirement by a combined trunk sap flow and meteorological approach;Cohen Y;Irrig. Sci.,1991

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4. Water Transport in Plant under Climatic Stress;Cohen S,1993

5. Regulation of water loss by citrus leaves;Hall AE;Physiol. Plant.,1975

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