IntroductionAvocado (Persea america

Introduction
Avocado (Persea americana Mill., Lauraceae) is an evergreen subtropical
fruit tree native to Central America and Mexico, where
it was domesticated in ancient times (Galindo-Tovar et al., 2008;
Chen et al., 2009), that is currently cultivated in tropical and subtropical
regions worldwide. World production of avocados in 2009
was estimated at c.a. 3.5 million tonnes, with Mexico as the main
producer with more than 30% of the world production (FAOSTAT,
2011). Avocado flowers exhibit a unique behaviour described as
protogynous dichogamy with synchronous daily complementarity
(Davenport, 1986). Each avocado flower opens twice, each time for
several hours: first, as a functionally female flower; then the flower
closes and reopens the following day as a male flower (Davenport,
1986). Based on their flowering behaviour, avocado cultivars are
classified in two groups (A or B) (Nirody, 1922). Although the cycle
can vary depending on temperature and humidity, in general, flowers
of the type A cultivars open in the morning in the female stage,
close at midday, and reopen in the afternoon of the following day in
the male stage. In type B cultivars, the flowers open in the afternoon
in the female stage, close in the evening, and reopen the following
morning in the male stage (Stout, 1923). This system facilitates
pollen transfer between A and B cultivars.
The currently available protocols to evaluate avocado pollen
viability need to be optimized in order to perform basic stud-
Abbreviation: PEG, polyethylene glycol.
∗ Corresponding author. Tel.: +34 952548990; fax: +34 952552677.
E-mail address: ihormaza@eelm.csic.es (J.I. Hormaza).
ies of avocado sexual reproduction such as pollen function, effect
of environmental factors on pollen performance, pollen storage
and pollination. Pollen viability can be evaluated by several
experimental procedures. One approach is to evaluate viability
before germination mainly using the fluorochromatic reaction
based in fluorescein diacetate (FDA) (Heslop-Harrison and Heslop-
Harrison, 1970). However, another method that also takes into
account pollen performance is the evaluation of pollen germination
in vitro (Shivanna and Johri, 1985; Shivanna et al., 1991).
Different media for in vitro pollen germination have been reported
in several species (Taylor and Hepler, 1997), mainly using the
basic medium developed by Brewbaker and Kwack (1963). Several
authors (Sahar and Spiegel-Roy, 1984; Loupassaki et al., 1997)
reported amethod for in vitro pollen germination in avocado, which
yielded germination percentages ranging from 14 to 44%. However,
this method produced a high percentage of bursted pollen
grains.
In this work we first aimed at developing an optimized method
for in vitro pollen germination in avocado that would maximize
pollen grain germination and minimize pollen grain bursting. Second,
we used the optimized medium to study differences on pollen
germination and tube growth at different temperatures among
cultivars pertaining to the three botanical varieties, or “races”,
of avocado that have been traditionally described, i.e. ‘Mexican’,
‘Guatemalan’ and ‘West Indian’. The Mexican race is the most tolerant,
and the West Indian race is the most sensitive to cold temperatures,
whereas the Guatemalan race is intermediate between the
two. Knowledge of temperature effects on pollen germination and
pollen tube growth in avocado cultivars will increase the understanding
of the effect of temperature on fertilization and fruit set.