Photosynthetica 2011, 49(1):75 | DOI: 10.1007/s11099-011-0014-2

Relationship between acorn size and seedling morphological and physiological traits of Quercus ilex L. from different climates

A. Bonito1,*, L. Varone1, L. Gratani1
1 Department of Environmental Biology, Sapienza University of Rome, Rome, Italy

Effects of Quercus ilex acorn size on seedling morphological and physiological traits were analysed. The study was carried out with five populations from different geographical areas and covering an aridity gradient. Seedling morphological traits (height and total leaf area) were analyzed during the first growing year. Physiological traits (net photosynthesis, stomatal conductance, leaf transpiration, and intrinsic water-use efficiency) were analysed at different air temperatures during spring, summer, and winter months, and in response to water stress. There were significant correlations among the considered acorn (volume, fresh mass) and seedling traits. Differences in growth and physiological traits among the considered populations were found. The larger differences in the growth parameters were observed during the first growing season, and they could be justified by the significant differences among acorn size. On the contrary, the physiological response to air temperature and aridity was more related to the geographical origin of the considered populations than to acorn size. Q. ilex acorn and seedling traits more tolerant to drought might have a high potential for vegetation recovery in afforestation projects and restoration programmes particularly under water-limited environments or in degraded areas.

Additional key words: acorn size; gas exchange; predawn leaf water potential; relative growth rate in height; relative water content at predawn; total leaf area

Received: May 10, 2010; Accepted: January 24, 2011; Published: March 1, 2011  Show citation

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Bonito, A., Varone, L., & Gratani, L. (2011). Relationship between acorn size and seedling morphological and physiological traits of Quercus ilex L. from different climates. Photosynthetica49(1), 75. doi: 10.1007/s11099-011-0014-2
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