A. W. Whiley scite author profile

Transpiration rate (E) and epidermal conductance (gc,) were determined for avocado leaves and floral parts under controlled environmental conditions (28�C; PAR 60 8mole quanta m-2 s-1; VPD 1.14 kPa). E of hydrated flowers was shown to be approximately 60% that of similarly treated leaves. Around 13% of total transpirational water loss from tree canopies could be attributed to floral organs. The mean gc of leaves and flower panicles was similar at 0.028 and 0.023 mm s-1 respectively. The available canopy surface area for water loss increased by c. 90% during flowering. Xylem water potentials in panicle segments with open flowers were lower than those of mature leaves measured on trees in the field. Maximum transpiration rate of leaves measured in the field was 6.7 8g cm-2 s -1 at 0700 hours, declining to 3.0 8g cm-2 s-1 at 1100 hours, while stomatal conductance (gs) on the same leaves fell from 10.2 mm s-1 at 0700 hours to 2.52 mm s-1 at 1100 hours. Scanning Electron Microscope studies of leaves and floral structures highlighted morphological and anatomical features for water conservation. Mature leaves have an epicuticular wax-like layer on the adaxial surface. Stomates were located only on the abaxial surface, which was also covered wlth wax-like deposits. Stomate density was estimated at 73 000 cm-2 on sun leaves. Stomates were also located on abaaial surfaces of flower sepals and petals. All floral structures were densely pubescent, thereby increasing the effective boundary layer depth.

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Field assessment of avocado rootstock selections for resistance to Phytophthora root rot

Smith¹,

Dann²,

Pegg³

et al. 2010

Australasian Plant Pathol.

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Phytophthora root rot (PRR), caused by P. cinnamomi, is a primary constraint on avocado productivity in Australia. Numerous field trials at sites in northern NSW and southern QLD have demonstrated significant variation in tree health amongst commercial rootstocks and recently selected material, grown under high PRR disease pressure. Selections 'SHSR-02', 'SHSR-04', ungrafted 'Hass' (rooted cuttings from clonal propagation) and the commercial rootstock 'Dusa™' were significantly healthier over time than other rootstocks, many of which died during the course of the trials. 'Reed' was consistently highly susceptible. In many cases superior tree health was associated with increased tree height and trunk girth. The trials also clearly demonstrate the negative impact of Phytophthora root rot on establishment of new avocado production blocks, and the importance of identifying and selecting avocado rootstock material that can withstand high P. cinnamomi disease pressure.

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Effects of leaf: fruit ratios on fruit growth, mineral concentration and quality of mango (Mangifera indicaL. cv. Kensington Pride)

Simmons

Hofman

Whiley³

et al. 1998

The Journal of Horticultural Science and Biotechnology

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Environmental Effects on Phenology and Physiology of Mango - A Review

Whiley¹

1993

Acta Hortic.

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A. W. Whiley

Tree yield and fruit minerals concentrations influence ‘Hass’ avocado fruit quality

Water loss by floral structures of avocado (Persea americana cv. Fuerte) during flowering

Field assessment of avocado rootstock selections for resistance to Phytophthora root rot

Effects of leaf: fruit ratios on fruit growth, mineral concentration and quality of mango (Mangifera indicaL. cv. Kensington Pride)

Environmental Effects on Phenology and Physiology of Mango - A Review

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