Buds
A bud contains growing points that develop in the leaf axil,
the area just above the point of connection between the petiole and shoot. The single bud that develops in
this area is described in botanical terms as an axillary bud. It is important to
understand that a bud develops in every leaf axil on grapevines, including the
inconspicuous basal bracts (scale-like leaves). In
viticulture terminology, we describe the two buds associated with a leaf –- the
lateral bud and the dormant bud (or latent
bud). The lateral bud is the true axillary bud of the foliage leaf, and the
dormant bud forms in the bract axil of the lateral bud. Because of their
developmental association, the two buds are situated side-by-side in the main
leaf axil.
A cross section of
a dormant bud. The three buds within the compound bud can be seen.
The dormant bud is the focal point during dormant pruning, since
it contains cluster primordia (the fruit-producing
potential for the next season). It is called dormant to reflect the fact that
it does not normally grow out in the same season in which it develops.
The dormant bud initiates the year prior to its growth as a shoot.
During that prior season, it undergoes considerable development. The three
growing points of the compound bud each produce a rudimentary shoot that
ultimately will contain primordia (organs in their earliest stages of
development) of the same basic components that comprise the current season’s
fully grown shoot: leaves, tendrils,
and in some cases flower clusters.
The primary bud develops first; therefore it is the largest and most fully
developed by the time the bud goes dormant. If it is produced under favorable
environmental and growing conditions, it will contain flower cluster primordia
before the end of the growing season. The flower cluster primordia thus
represent the fruiting potential of the bud in the following season. Reflecting
the sequence of development, the secondary and tertiary buds are progressively
smaller and less developed. They generally will be less fruitful (have fewer
and smaller clusters) than the primary bud. Bud fruitfulness (potential to produce fruit) is a
function of the variety,
environmental conditions, and vineyard production practices. Dormant buds that
develop under unfavorable conditions (shade of a dense canopy, poor nutrition,
etc.) produce fewer flower cluster primordia for the following season.
In most cases, only the primary bud grows, producing the primary
shoot in the following season. The secondary bud can be thought of as a “backup
system” for the vine; normally, it grows only when the primary bud or young
shoot has been damaged, oftentimes from freeze or frost in spring. However,
under some conditions such as severe pruning, destruction of part of the vine,
or boron deficiency, it is possible for two or
all three of the buds to produce shoots in spring (Winkler et al., 1974).
Tertiary buds provide additional backup if both the primary and secondary buds
are damaged, but they usually have no flower clusters and thus no fruit. If
only the primary shoot grows, the secondary and tertiary buds remain alive, but
dormant at the base of the shoot.
The lateral bud will grow in the current season, but growth may
either cease soon after formation of the basal bract or it can continue, producing
a lateral shoot (summer lateral) of variable length. Regardless of the extent
of lateral bud development, a compound bud develops in the basal bract, forming
the dormant bud. Long lateral shoots sometimes produce flower clusters and
fruit, which is known as "second crop." However, because these
develop later in the season than fruit on the primary shoot, “second crop”
fruit does not fully mature in many areas of the country. If a lateral bud does
not grow in the current season, it will die.
Flowers and
Fruit
A fruitful shoot will usually produce one to three
flower clusters (inflorescences) depending on variety.
Flower clusters develop opposite the leaves typically
at the third to sixth nodes from the base of the shoot, depending on the
variety. If three flower clusters develop, two develop on adjacent nodes, the
next node has none, and the following node has the third flower cluster. The
number of flower clusters on a shoot is dependent upon the grape variety
and the conditions of the previous season under which the dormant bud (that
produced the primary shoot) developed. A cluster may contain several to many
hundreds of individual flowers, depending on variety.
Grape buds and flowers. A compound bud with primary,
secondary, and tertiary buds (L), and flowers from formation to cap fall to
pre-fertilization.
The grape flower does not have conspicuous petals, instead, the
petals are fused into a green structure termed the calyptras, but commonly referred to as
the cap. The cap encloses the
reproductive organs and other tissues within the flower. A flower consists of a
single pistil (female organ) and five stamens, each
tipped with an anther (male organ). The pistil is roughly conical in shape,
with the base disproportionately larger than the top, and the tip (called the stigma) slightly flared. The broad
base of the pistil is the ovary, and it consists of two
internal compartments, each having two ovules containing an embryo sac with a
single egg. The anthers produce many yellow pollen grains, which contain the sperm. Wild
grapevines, rootstocks (and a few cultivated varieties such
as St. Pepin) have eitherpistillate (female)
or staminate male flowers -- that is, the entire
vine is either male or female. Vines with female, pistillate flowers need
nearby vines with staminate or perfect
flowers to produce fruit. The
majority of commercial grapevine varieties have perfect flowers, that is, both
male and female components.
An individual
grape flower is shown with floral parts labeled.
The period of time during which flowers are open (the calyptra
has fallen) is called bloom (also flowering or anthesis), and can
last from 1 to 3 weeks depending on weather conditions. Viticulturists
variously refer to full bloom as the stage at which either approximately 50% or
two-thirds of the caps have loosened or fallen from the
flowers. Bloom typically occurs between 50 and 80 days after budburst.
Stages of
Bloom
When the individual flowers on a grape inflorescence open, it looks different than the
bloom of most flowers. The cap separates from the base of the flower,
becomes dislodged and usually falls off, exposing the pistil and anthers. The anthers may release
their pollen either before or after cap fall.
Pollen grains randomly land upon the stigma of the pistil,
allowing pollination. Multiple pollen grains can germinate, each growing a
pollen tube down the pistil to the ovary and entering an ovule, where a sperm
unites with an egg to form an embryo. The successful union is termed
fertilization, and the subsequent growth of berries is called "fruit
set." The berry develops from the tissues of the pistil, primarily the
ovary. The ovule together with its enclosed embryo develops into the seed.
A grape
inflorescence with nearly 100% cap fall.
Because there are four ovules per flower, there is a maximum
potential of four seeds per berry. Unfavorable environmental conditions during
bloom such as cool, rainy weather can reduce fruit set (number of berries) and seeds per
berry, thereby affecting berry size. Berry
No comments:
Post a Comment