Wild blueberries go through a series of developmental stages before producing a harvestable berry. These stages extend over a two-year period, or production cycle, consisting of a sprout and crop year. During these two years, wild blueberry floral buds undergo three dormancy periods before bud burst and bloom, the flowers then need to be pollinated and germinated, and the seeds need to be fertilized. Read this week’s blog to get an overview of these processes and what is needed to get harvestable wild blueberries.
Wild Blueberries - From Dormant Buds to Ripe Berries
This journey starts with the first dormancy period known as paradormancy.
During paradormancy the apical meristem, the growth region at the tip of the
stem, has dominance over the lower or lateral meristems, where the floral buds
will form [4]. During the fall of the first year, or sprout year, short
daylength and cold temperatures drive tip-dieback, or apical abortion. Once
apical dominance is broken, then the floral buds can form. The buds then enter
a second dormancy period known as endodormancy, which helps the buds survive
harsh winter conditions [4]. The buds will acclimate throughout endodormancy as
temperatures get colder [1]. This stage can be measured by an accumulation of
cold temperatures, known as the chilling requirement. The chilling requirement
of wild blueberries is approximately 1000 hours of temperatures less than 0°C [7].
The floral buds will then enter the third dormancy period known as ecodormancy,
which prevents the buds from opening too early in the spring [4]. The floral
buds deacclimate throughout ecodormancy as the temperatures rise [1]. This
stage can be measured by an accumulation of daily mean temperatures, known as
growing degree days (GDD). It takes approximately 400 GDDs for the start of
bloom, with peak bloom happening around 550 GDDs [6].
The stigma, where the pollen lands on the receiving flower,
on individual flowers is only receptive to pollen for up to nine days, where
pollination within the first four days will result in the highest fruit set [2].
The bloom period for an entire field is typically three to four weeks [2]. Wild
blueberry fields typically contain two species of wild blueberries, Vaccinium
angustifolium and Vaccinium myrtilloides, and pollination is
incompatible between these species. Wild blueberries are also self-incompatible,
so wild blueberry flowers require pollen transfer from a different clone of the
same species to get successfully pollinated [2].
Pollination can be one of the most limiting factors in wild blueberry fruit production. Pollination is the transfer from pollen from the anther of one flower to the stigma of another flower on a different clone of the same species. Wild blueberries are entomophilic with respect to pollination, meaning that they need an animal pollinator [2]. The conditions during bloom need to be ideal for the animal pollinators to ensure successful pollination. Wild pollinator populations vary between fields, so managed pollinators are used to get even pollination. Therefore, placement and removal of managed pollinators is crucial in providing efficiencies around pollination.
Once the pollen is successfully transferred from the anther
of one plant to the stigma of another clone of the same species the next stage,
known as pollen germination, can start. If conditions are favorable for the
flowers, germination typically starts two to three hours after successful
pollen transfer [5]. During germination, a pollen tube forms into the ovary at
the base of the style, or female flower parts, and extends to an individual
ovule. The pollen sperm travels down the pollen tube until they reach the
ovule. Pollen germination can take three to four days, if conditions are
favorable [5]. The next stage is known as fertilization, when the pollen sperm
reaches the eggs and nuclei they are fertilized, and the seeds start forming.
Once the seeds are formed, the fruit starts developing around the seed which
provides protection and helps with seed dispersal. There are different maturity
stages of blueberries from pin head, to green, to red, and then to ripe blue harvestable
fruit.
For more information on how to tell if a flower was
successfully pollinated, please check back in for the next blog on wild
blueberries.
Written by John MacDonald, ATTTA Seasonal Apiculturist
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References:
[1] Deslauriers, A., Garcia, L., Charrier, G., Butto, V.,
Pichette, A., and Pare, M. 2021. Cold acclimation and deacclimation in wild
blueberry: Direct and indirect influence of environmental factors and
non-structural carbohydrates Agricultural and Forest Meteorology, 301–302:
108349. (ACCLIMATION)
[2] Drummond, F. 2019. Reproductive biology of wild
blueberry (Vaccinium angustifolium Ait.). Agriculture, 9(4): 69.
[3] Hildebrand, P.D., and Braun, P.G. 1991. Factors
affecting infection of lowbush blueberry by ascospores of Monilinia
vaccinii-corymbosi. Canadian Journal of Plant Pathology 13(3): 232–240.
[4] Lang, G.A., Early, J.D., Martin, G.C., and Darnell, R. 1987.
Endo-, para-, and ecodormancy: physiological terminology and classification for
dormancy research, Horticulture Science, 22(3): 371–377.
[5] Noormets, M., and Olson, A.R. 2005. Observations on the
gynoecial pathway for pollen tube growth in sweet lowbush blueberry (Vaccinium
angustifolium Ait.), Journal of Applied Botany and Food Quality, 80: 6-13.
[6] White, S.N., Boyd, N.S. and Van Acker, R.C. 2012.
Growing degree-day models for predicting lowbush blueberry (Vaccinium
angustifolium Ait.) ramet emergence, tip dieback, and flowering in Nova
Scotia, Canada, Horticulture Science, 47(8): 1014–1021.
[7] Yarborough, D.E. 2012. Establishment and management of
the cultivated lowbush blueberry (Vaccinium angustifolium), International
Journal of Fruit Science, 12(1–3): 14–22.